The URL can be used to link to this page

Home My WebLink About190020_Application_20240402State of North Carolina IIECE1VED Department of Environmental Quality Division of Water Resources E. APR 0 2 204 Animal Waste Management Systems NC DEQ/DWFR Request for Certification of Coverage Central Office Facility Currently covered by an Expiring Sate Non -Discharge General Permit - On September 30, 2024, the North Carolina State Non -Discharge General Permits for Animal Waste Management Systems will expire. As required by these permits, facilities that have been issued Certificates of Coverage to operate under, these State Non -Discharge General Permits must apply for renewal at least 180 days prior to their expiration date. Therefore, all applications must be received by the Division of Water Resources by no later than April 3, 2024. Please do not leave any question unanswered Please verify all information and make any necessary corrections below. Application must be signed and dated by the Permittee. 1. Certificate Of Coverage Number: AWC190020 2. Facility Name: Crawford Dai 3. Permittee's Name (same as on the Waste Management Plan): Jerry W Crawford 4. Permittee's Mailing Address: 4085 Crawford Daia Rd City: Chapel Hill State: NC Zip: 27516-5088 Telephone Number: 919-818-0921 Ext. E-mail: dcrawf12160naol.com 5. Facility's Physical Address: 4085 Crawford Dairy Rd City: Chapel Hill State: NC Zip: 27516 6. County where Facility is located: Chatham 7. Farm Manager's Name (if different from Landowner): 8. Farm Manager's telephone number (include area code): 9. Integrator's Name (if there is not an Integrator, write "None"): lvd)& 10. Operator Name (OIC): Jerry W. Crawford Phone No.: 919-929-6869 OIC #: 20938 11. Lessee's Name (if there is not a Lessee, write "None"): NW e, 12. Indicate animal operation type and number: Current Permit: Operations Type Allowable Count Cattle - Milk Cow 177 Operation Types: Swine Cattle Dry Poultry Other Types Wean to Finish Dairy Calf Non Laying Chickens Horses - Horses Wean to Feeder Dairy Heifer Laying Chickens Horses - Other Farrow to Finish Milk Cow Pullets Sheep- Sheep Feeder to Finish Dry Cow Turkeys Sheep - Other Farrow to Wean Beef Stocker Calf Turkey Pullet Farrow to Feeder Beef Feeder Boar/Stud Beef Broad Cow Wet Poultn Gilts Other Non Laying Pullet Other Layers 13. Waste Treatment Lagoons, Digesters and Waste Storage Ponds (WSP): (FillNerify the following information. Make all necessary corrections and provide missing data.) Structure Name Structure Type (Lagoon/Digester/ WSP) Estimated Date Built Liner Type (Clay, Synthetic, Unknown) Capacity (Cubic Feet) Estimated Surface Area (Square Feet) Design Freeboard "Redline" (Inches) PRIMARY Waste Pond 9/30/2002 87,536.00 36.00 Submit one (1) copy of the Certified Animal Waste Management Plan (CAWMP) with this completed and signed application as required by NC General Statutes 143-215.10C(d), either by mailing to the address below or sending it via email to the email address below. The CAWMP must include the following components: 1. The most recent Waste Utilization Plan (WUP), signed by the owner and a certified technical s ecialist, containing: a. The method by which waste is applied to the disposal fields (e.g. irrigation, injection, etc.) b. A map of every field used for land application (for example: irrigation map) c. The soil series present on every land application field d. The crops grown on every land application field e. The Realistic Yield Expectation (RYE) for every crop shown in the WUP f. The maximum PAN to be applied to every land application field g. The waste application windows for every crop utilized in the WUP h. The required NRCS Standard specifications 2. A site map/schematic 3. Emergency Action Plan 4. Insect Control Checklist with chosen best management practices noted S. Odor Control Checklist with chosen best management practices noted 6. Mortality Control Checklist with selected method noted - Use the enclosed updated Mortality Control Checklist 7. Lagoon/storage pond capacity documentation (design, calculations, etc.) Please be sure the above table is accurate and complete. Also provide any site evaluations, wetland determinations, or hazard classifications that may be applicable to your facility. 8. Operation and Maintenance Plan If your CAWMP includes any components not shown on this list, please include the additional components with your submittal. (e.g. composting, digesters, solids separators, sludge drying system, waste transfers, etc.) I attest that this application has been reviewed by me and is accurate and complete to the best of my knowledge. I understand that, if all required parts of this application are not completed and that if all required supporting information and attachments are not included, this application package will be returned to me as incomplete. Note: In accordance with NC General Statutes 143-215.6A and 143-215.6B, any person who knowingly makes any false statement, representation, or certification in any application may be subject to civil penalties up to $25,000 per violation. (18 U.S.C. Section 1001 provides a punishment by a fine of not more than $10,000 or imprisonment of not more than 5 years, or both for a similar offense.) Print the Name of the Permittee/Landowner/Signing Official and Sign below. (If multiple Landowners exist, all landowners should sign. If Landowner is a corporation, signature should be by a principal executive officer of the corporation): Name (Print): . V lw W. U") o r Title: e r Signature: Date: Name (Print): Signature: Name (Print): Signature: Title: Date: Title: Date: THE COMPLETED APPLICATION SHOULD BE SENT TO THE FOLLOWING ADDRESS: E-mail: animal.operations@deq.nc.gov NCDEQ-DWR Animal Feeding Operations Program 1636 Mail Service Center Raleigh, North Carolina 27699-1636 If you have any questions regarding this application or the general permits, please call (919) 707-9129. COMPREHENSIVE NUTRIENT MANAGEMENT PLAN (CNMP) — North Carolina Certification Sheet Animal Feeding Operation (AFO) Name: ©1H Address: + �t�� Ck"%I:,a 1hi14 PA. ONA0- 1 �4.1� 4C Aza s� Farm/Tract Numbers FT: Coun OVERALL COMPREHENSIVE NUTRIENT MANAGEMENT PLAN APPROVAL Certified Conservation Planner (CCP): As a CCP in North Carolina, I have reviewed your conservation plan prepared for the farms/tracts listed above, and determined that it meets the technical requirements for a USDA Comprehensive Nutrient Management Plan (CNMP). This Plan includes planned (or existing) practices for the following CNMP components: (1) Manure and Wastewater Handling and Storage, (2) Land Treatment, (3) Land Application of Manure or Organic Products, and (4) information on recommended Record Keeping. This CNMP may also include components that address Feed Management and Other Utilization Options. This CNMP contains all land units specific to this AFO that you own, operate, or have decision -making authority and on which manure or organic by' -products will be generated, handled, stored, or applied. DESIGN OF CNMP COMPONENTS/PRACTICES CNMP Manure and Wastewater Storage and Handling: All practices needed for the handling and storage of manure and wastewater either exist or have been designed according to NRCS standards. Signature: Name (printed): Title: Date: Agency/Org: Land Treatment: All practices needed to maintain soil erosion to a sustainable level (on fields planned for manure application) either exist or have been designed according to NRCS standards. Signature: r Date: Ljp'? Name (printed): *ri Ear �, Title: I I Agency/Org: jtt3G�o CNMP Land Application. The nutrient management/waste utilization plan has been developed according to NRCS standards 590, 633, and other applicable standards. Signature: r Date: 41 a.4 Name (printed): Cpkrl En1r e-. Title: AgencylOrg: kA,, Swcb NPPH, NC Supplement 2004-001, July 2004 P. 1 COMPREHENSIVE NUTRIENT MANAGEMENT PLAN (CNMP) — North Carolina Additional Information for Producers WHAT IS A USDA COMPREHENSIVE NUTRIENT MANAGEMENT PLAN (CNMP)? Your CNMP is a USDA Conservation Plan that addresses the natural resource concerns associated with the management of manure and wastewater from livestock operations. Your CNMP addresses: Manure and Your CNMP ensures your operation has adequate collection, storage, and/or Wastewater treatment of manure and organic by-products that allow land application of wastes Storage and in an environmentally sound manner. Manure handling and animal mortality Handling disposal practices that are designed as part of your CNMP will meet applicable NRCS standards. Land Application Your CNMP includes a Nutrient Management/Waste Utilization Plan for all fields of Manure and where manure or organic by-products are applied to ensure that nitrogen, Wastewater phosphorus, and other potential pollutants do not cause a water quality problem. Your Nutrient Management Plan meets NRCS's standards 590 and 633 in the Field Office Technical Guide. Land Treatment Your CNMP includes erosion control practices on all land where manure or for Application organic by-products are applied to ensure soil loss is kept to a sustainable level. Areas Example practices include conservation tillage, cover crops, contour farming, diversions or terraces, or similar practices. All erosion control practices designed as part of your CNMP will meet NRCS standards in the Field Office Technical Guide. Although operation and maintenance records are your responsibility, your CNMP Record Keeping includes record -keeping recommendations associated with each practice in your CNMP. State laws and regulations identify specific record -keeping requirements for regulated or permitted operations. Your CNMP may also address: Feed Feed management activities may be used to reduce the nutrient content of Management manure, reducing land application requirements. Examples include phase feeding, amino acid supplemented low crude protein diets, or the use of low phytin phosphorus grain and enzymes, such as phytase. You should always consult a professional animal nutritionist before making any changes, as feed management activities are not a viable or acceptable alternative for all operations. Other Utilization There are a number of alternative technologies to conventional manure Options management being evaluated in North Carolina and across the Nation as environmentally safe alternatives to land application of manure. NORTH CAROLINA LAWS OR REGULATIONS USDA does not have a regulatory role for nutrient management. Although CNMPs are only required by USDA for animal operations participating in the Environmental Quality Incentives Program under the 2002 Farm Bill, your CNMP may assist you in meeting federal or state water quality regulations or permit requirements. You should be aware of applicable laws and regulations in North Carolina that regulate the storage, handling, and land application of manure and organic by-products generated on your operation. For additional information on certified Waste Utilization Plans and applicable state laws and regulations, contact the North Carolina Department of Environment and Natural Resources, Division of Water Quality (919) 733-5083 or Division of Soil and Water Conservation (919) 733-2302. NPPH, NC Supplement 2004-001, July 2004 p. 2 COMPREHENSIVE NUTRIENT MANAGEMENT PLAN (CNMP) — North Carolina Checklist (page 1 of 2) CCP Initial :(2/40 Animal Feeding Operation 1AFO1 Name: �r__8 The items identified in the Plan column must be included in the Conservation Plan to report a CNMP as planned. The items in the Design column may be completed during the practice design for the specific CNMP components. PI n Design Site information Remarks Names, phone numbers, and addresses of the AFO owners and o erator s . Location of production site: Legal description, driving instructions from nearest post office, and/or the emergency 911 coordinates. Conservation plan map, and farmstead sketch showing the general location of barns, pens, storage structures, etc. Clearly identified field identification numbers or codes. ❑ Soils map with interpretations appropriate for planned CNMP practices. Ud Existing documentation of present facility components that would aid in evaluating existing conditions, capacities, etc. (i.e., as -built plans, year installed, number of animals a component was originally designed for, etc.). PI n Design Production Information Animal types, phases of production, and length of confinement for each a at this site 633 Animal numbers and average weight for each phase of production on this site 633 Calculated manure and wastewater volumes for this site. Amount of manure and wastewater to be land applied 633 _ Manure storage type, volume, and approximate length of storage. Plan Design Applicable Permits or Certifications Producer and operators informed of their responsibilities Y to comply with any applicable Federal, tribal, state, or local permits and/or ordinances, including operator certification, NPDES or other federal/state permits. Plan Desi n Land Application Site Information Nutrient management (590)/waste utilization (633) plan prepared in accordance with applicable FOTG standards, , including but not limited to: • Maps of land application area (field identified consistent with plan map) showing landuse and with marked setbacks, buffers, and waterways, and environmentally sensitive areas. ❑ • Third -party receiver agreements (if applicable) Al 4 ❑ ■ Landowner names, addresses, for land application fields not owned by producer. lei ■ PLAT and/or LI risk assessments for potential nitrogen or phosphorus transport from fields. Crop types, realistic yield targets, and expected nutrient uptake amounts. NPPH, NC Supplement 2004-001, July 2004 p. 3 Checklist (page 2 of 2) CCP Initial: CRO • Application equipment descriptions and methods of application. Mr ■ Expected application seasons and estimated days of application per season. ■ Estimated application amounts per acre (volume in gallons or tons per acre, and pounds of plant available nitrogen, phosphorus as P205, and potassium as K20 per acre). ■ Estimate of acres needed to apply manure generated on this site, respecting any guidelines published for nitrogen or phosphorus soil loading limits. P14n Design Land Treatment Site Information Practices existing or planned to achieve soil loss tolerance on land application area (i.e., residue mana ement, cropping rotation, diversions). RUSLE Worksheet NC-CPA-52 Environmental Assessment p Practice designs/specifications for erosion control practices pera licable FOTG standards. J Plan Design Manure & Wastewater Storage and Handling CY Practice designs/specifications for manure and wastewater storage, treatment, and handling practices per applicable FOTG standards, including emergency action plans (633). Plan Desi n Actual Activity Records Producer informed of record -keeping responsibilities according to 590 and 633 standards, and applicable state regulations on the storage, transport, transfer, testing, and a lication of manure. Including but not limited to: ■ Soil and manure test reports. ■ Applied rates, methods of application, and timing (month and year) of nutrients applied (include all sources of nutrients -manure, commercial fertilizers, etc.). ■ Current and/or .planned crop rotation. ■ Weather conditions during nutrient application ❑ (optional). ■ General soil moisture condition at time of application k ❑ i.e., saturated, wet, moist, dry] (optional). j ■ Actual crop and yield harvest from manure application sites if used in lieu of RYEs. ❑ Record of internal inspections for manure system , 02-00 i.1 Swco ate, ce components. ❑ Record of any spill events.} ❑ Chan es or modifications to CNMP N Plan Design Mortality Disposal p Practices planned for morality disposal. Eff Design specifications and equipment used to implement the disposal plan. Plan Design Operation and Maintenance Detailed operation and maintenance procedures for the conservation system, holding facility, etc., contained in the CNMP. This would include procedures such as calibration of land application equipment, storage facility emptying schedule, soil and manure sampling techniques, etc. NPPH, NC Supplement 2004-001, July 2004 p. 4 ENVIRONMENTAL EFFECTS FOR CONSERVATION PLANS AND AREAWIDE CONSERVATION PLANS (NRCS-CPA-52) ECONOMIC CONSIDERATIONS NORTH CAROLINA HELP SHEET In order to determine the economic effects, consider the following questions when filling out the NRCS- CPA-52. If you answer NO to any of these questions, further review or explanation may be necessary before proceeding with the recommended conservation system. When the answer is YES, no further data is needed, and the decision is noted in the planning support file. LAND USE YES NO • Is the land available for the recommended production? ® ❑_ • Is base acreage for USDA programs adequately maintained? $1 ❑ • Does the proposed system aid participation in USDA programs? is ❑ CAPITAL YES NO • Does the producer have the funds or ability to obtain the funds needed to implement the proposed conservation system?. Pq ❑ • Are there adequate materials and/or equipment present or obtainable to operate and maintain the system? ❑ LABOR YES NO • Is there adequate labor present or obtainable to operate and maintain the system? ?(z5l ❑ MANAGEMENT YES NO • Does client understand the inputs needed to implement the system and his responsibility in obtaining these inputs? ❑ • Will the client able to maintain the system as implemented? �. ❑ • Is there adequate management present or obtainable to operate and maintain the system ❑ USDA-NRCS 8/7/01 ENVIRONMENTAL EFFECTS FOR CONSERVATION PLANS AND AREAWIDE CONSERVATION PLANS (NRCS-CPA-52) SOCIAL CONSIDERATIONS NORTH CAROLINA HELP SHEET In order to determine the social effects consider the following questions when filling out the NRCS- CPA-52. If you answer yes to any of these questions, further review or explanation may be necessary. When the answer is no, no further data is needed, and the decision is noted in the planning support file. CLIENT WELL-BEING • Are farmer attitudes toward certain conservation practices likely to affect the success of the project? • Will there be a change in the quality of life, lifestyle, attitude, and/or behavior? • Will social, family, or religious values be affected? • Are farm residents likely to be affected negatively by the activity? • Are there typical or unique characteristics of farms that may have relevance to the activity (absentee landowners, land use ethic, etc.)? • Some characteristics (age, planning horizons, special emphasis groups, resources; etc.) are not considered during planning? • Will change negatively affect the client's ownership/lease of the land? • Will client tenure affect installation and management of the conservation system? • Is time available (absentee or part-time landowner, etc.) for installation and management of the conservation system? COMMUNITY WELL-BEING • Are people likely to be adversely affected by the activity? • Will there be an effect on life, health, and/or safety? • Local community standards regarding health and safety were not followed? • Are there historical factors that are likely to be relevant in the proposed activity (changes in land use, farm management techniques, etc.) YES NO ❑ W YES NO ❑ �I USDA-NRCS 8/7/01 INVENTORY r�-)RES OURCE CONCERNS TO B °T r ;aESSED IN PLAN Prepared for: Ptiuw oi L`� (Tgur,� t� ,gw-FocA) Farm/Tract: I — C'�530 Prepared by: Caj Ne-nor-� �_ Name: Jerry Crawford Jerry Crawford Soil Description And Soil Map Legend Soil Map Legend For Jerry Crawford Soil Mai) Legend Mappintz Unit 51B 51B -Helena Sandy Loam, 2 to 6% slopes 33B 33B - Cecil Gravelly Sandy Loam, 2 to 6% slopes 130B 130B —Nanford-Badin Complex, 2 to 6% slopes 130C 130C —Nanford-Badin Complex, 6 to 10% slopes 37B 37B - Wedowee Sandy Loam, 2 to 6% slopes 205B 205B — Georgeville Silt Loam, 2 to 6% slopes 205132 205132- Georgeville Silty Clay Loam, 2 to 6% slope 205C 205C — Georgeville Silt Loam, 6 to 10% slopes 212B 212B — Herdon Silt Loam, 2 to 6% slopes Non Technical Soil Description Jerry Crawford 51B=Helena sandy loam, 2 to 6 percent slopes Setting Landscape: Piedmont uplands, mainly in the northern part of the county south of Chapel Hill Landform: Ridges, drainageways and heads of drainageways Shape of areas: Irregular Size of areas: 5 to 50 acres Composition Helena and similar soils: 80 percent Dissimilar soils: 20 percent Typical Profile Surface layer: 0 to 6 inches=dark grayish brown sandy loam Subsurface layer: 6 to 9 inches=light yellowish brown sandy loam Subsoil: 9 to 13 inches=yellowish brown sandy clay loam 13 to 22 inches=yellowish brown clay that has strong brown mottles 22 to 30 inches=brownish yellow clay that has yellowish brown and light brownish gray mottles 30 to 44 inches=reddish yellow clay loam that has light brownish gray and yellowish brown mottles Underlying material: 44 to 64 inches=mottled in shades of brown, red, yellow and gray sandy clay loam saprolite Soil Properties and Qualities Depth class: Very deep Agricultural drainage class: Moderately well drained Permeability: Slow Available water capacity: Moderate to high Depth to seasonal high water table; kind: 1.5 to 2.5 feet below the soil surface during the months of January through April; perched Shrink -swell potential: High Hazard of flooding: None Surface runoff. High Hazard of water erosion: Moderate Parent material: Residuum weathered from felsic to mafic high-grade metamorphic or igneousrock Depth to bedrock: More than 60 inches Minor Components Dissimilar: Random areas of well drained Vance soils Random areas of well drained moderately permeable Wedowee Random areas of very slowly permeable, very high shrink -swell Iredell soils Random areas of soils that have less clay in the subsoil Poorly drained soils along drainageways and in depressional areas Similar: Random areas of Helena soils with gravelly or cobbly surface layers Random areas of soils that have reaction in the lower subsoil that ranges to moderately alkaline Random areas of Helena and similar soils that have fine sandy loam, loam, and coarse sandy loam surface layers Land Use Dominant uses: Woodland, pasture and hayland, and cropland Other uses: Urban development Agriculture Cropland Suitability: Well suited Commonly grown crops: Corn, soybeans and small grains Management concerns: Erodibility and wetness Management measures and considerations: Resource management systems that include terraces and diversions, striperopping, contour tillage, no -till farming, and crop residue management help to control soil erosion and surface runoff and maximize the infiltration of rainfall. Installing and maintaining an artificial drainage system help to reduce wetness limitations and improve the productivity of these soils. Pasture and hayland Suitability: Moderately suited Commonly grown crops: Tall fescue and orchard grass Management concerns: Erodibility and wetness Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination. Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation. Preventing overgrazing or preventing grazing when the soil is wet helps to prevent soil compaction, a decrease in productivity, and a rough surface layer. Installing and maintaining a subsurface drainage system help to improve the productivity of moisture -sensitive crops, such as alfalfa. Woodland Suitability: Well suited Productivity class: Moderately high for loblolly pine Management concerns: Equipment use Planting the appropriate species, as recommended by a forester, helps to achieve maximum productivity and ensure planting success. Restricting the use of standard wheeled and tracked equipment to dry periods helps to minimize rutting and soil compaction, which occur when the soils are saturated. Leaving a buffer zone of trees and shrubs adjacent to streams helps to reduce siltation and improve aquatic habitat by providing shade for the water surface. Urban Development Dwellings Suitability: Poorly suited Management concerns: Wetness shrink -swell Management measures and considerations: Constructing dwellings on raised, well -compacted fill material helps to reduce the risk of damage from wetness. Artificial drainage systems or diversions help to remove excess surface water. Reinforcing basements or backfilling with coarse -textured material helps to strengthen foundations and prevent damage caused by shrinking and swelling. Vegetating disturbed areas and providing erosion -control structures, such as sediment fences and catch basins helps to keep eroding soil on site. Septic tank absorption fields Suitability: Poorly suited Management concerns: Restricted permeability and wetness Management measures and considerations: This map unit has severe limitations affecting septic tank absorption fields. The Chatham County Health Department should be contacted for additional guidance. This map unit is difficult to manage for septic tank absorption fields because the dominant soils have a high water table at a depth of 1.5 to 3 feet. Local roads and streets Suitability: Poorly suited Management concerns: Low strength and shrink -swell Management measures and considerations: Installing geotextile fabric between the base aggregate and the final surface of the road helps to improve performance. Incorporating sand and gravel with the soil material and compacting roadbeds helps to improve soil strength. Removing as much of the clay material as possible and increasing the thickness of the base aggravate helps to improve soil performance. Recreation Camp areas Suitability: Moderately suited Management concerns: Restricted permeability and wetness Management measures and considerations: Designing campsites on raised pads of gravel fill material helps to minimize the wetness problem. Locating campsites in the higher areas, allows better surface water runoff and helps to keep campsites drier during wet periods. Providing a gravel pad for tents and other facilities helps to overcome the restricted water movement in the soil. Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Picnic areas Suitability: Moderately suited Management concerns: Restricted permeability and wetness Management measures and considerations: Designing picnic areas on raised pads of gravel fill material helps to minimize wetness and restricted permeability. Playgrounds Suitability: Moderately suited Management concerns: Restricted permeability, steepness of slope and wetness Management measures and considerations: Cutting, filling, or grading only areas requiring excavation improves soil stability and reduces equipment limitations caused by the slope. Artificial drainage systems or diversions help to remove excess surface water and minimize the wetness limitation. Using diversions helps to remove excess surface water. Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Paths and trails Suitability: Moderately suited Management concerns: Wetness Management measures and considerations: Designing paths and trails on raised pads helps to minimize wetness. Designing paths and trails on the contour and providing adequate water -control structures, such as culverts, help to maintain the stability of trails. Interpretive Groups Land capability classification: IIe Woodland ordination symbol: 8A for loblolly pine 33B=Cecil gravelly sandy loam, 2 to 6 percent slopes Setting Landscape: Piedmont Uplands mainly in the southeastern part of the county near Harnett County Landform: Interstream divides and broad ridges Shape of areas: Irregular Size of areas: 10 to 150 acres Composition Cecil and similar soils: 90 percent Dissimilar soils: 10 percent Typical Profile Surface layer: 0 to 7 inches=dark yellowish brown gravelly sandy loam Subsurface layer: 7 to 14 inches=yellowish brown gravelly sandy loam Subsoil: 14 to 35 inches=red clay 35 to 44 inches=red clay loam that has reddish yellow mottles Underlying material: 44 to 60 inches=mottled red, reddish yellow, and pinkish white loam saprolite Soil Properties and Qualities Depth class: Very deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: Moderate Depth to seasonal high water table: More than 6.0 feet below the soil surface Shrink -swell potential: Low Hazard of flooding: None Surface runoff: Medium Hazard of water erosion: Slight Parent material: Residuum weathered from felsic high-grade metamorphic or igneous rock Depth to bedrock: More than 60 inches, commonly more than 20 feet Minor Components Dissimilar: Moderately well drained, slowly permeable Helena soils at heads of drains and along drainageways Similar: Random areas of Cecil soils with non -gravelly surface layers Random areas of Pacolet soils that have a depth to saprolite of less than 40 inches Random areas of Wedowee soils that have yellower subsoil and are less than 40 inches to saprolite Land Use Dominant uses: Woodland Other uses: Pasture and hayland, and cropland Agriculture Cropland Suitability: Well suited Commonly grown crops: Tobacco, corn, soybeans, and small grain Management concerns: Erodibility Management measures and considerations: Resource management systems that include terraces and diversions, striperopping, contour tillage, no -till farming, and crop residue management help to control soil erosion and surface runoff and maximize the infiltration of rainfall. Pasture and hayland Suitability: Well suited Commonly grown crops: Tall fescue, clover, and bermudagrass. Management concerns: No significant limitations affect management of pasture and hayland. Management measures and considerations: Planting adapted species helps to ensure the production of high -quality forage and minimize soil erosion. ' The timely removal of livestock from pastures so that forage plants can recover before winter dormancy helps to maintain pasture and increase productivity. Rotational grazing and a well planned clipping and harvesting schedule help to maintain pasture and increase productivity. Woodland Suitability: Well suited Productivity class: Moderately high for loblolly pine Management concerns: No significant limitations affect woodland management. Management measures and considerations: Leaving a buffer zone of trees and shrubs adjacent to streams helps to reduce siltation and improve aquatic habitat by providing shade for the water surface. Urban Development Dwellings Suitability: Well suited Management concerns: No significant limitations affect dwellings. Management measures and considerations: Vegetating disturbed areas and providing erosion -control structures, such as sediment fences and catch basins helps to keep eroding soil on site. Septic tank absorption fields Suitability: Moderately suited Management concerns: Restricted permeability Management measures and considerations: The Chatham County Health Department should be contacted for guidance on sanitary facilities. Installing distribution lines on the contour helps to improve the performance of septic tank absorption fields. Increasing the size of septic tank absorption field helps to improve performance. Installing septic system distribution lines only during dry periods helps to reduce smearing and sealing of trench walls. Local roads and streets Suitability: Moderately suited Management concerns: Low strength Management measures and considerations: Incorporating sand and gravel with the soil material and compacting roadbeds helps to improve soil strength. Vegetating cut and fill slopes as soon as possible after construction helps to stabilize the soil and prevent excessive soil erosion. Recreation Camp areas Suitability: Moderately suited Management concerns: Rock fragment content Management measures and considerations: Rake camp areas to remove rock fragments Construct elevated campsites with suitable material Picnic areas Suitability: Moderately suited Management concerns: Rock fragment content Management measures and considerations: Rake picnic areas to remove rock fragments Construct elevated picnic areas with suitable material Playgrounds Suitability: Moderately suited Management concerns: Steepness of slope and rock fragment content Management measures and considerations: Extensive grading, including cutting and filling slopes, may be required. Cutting, filling, or grading only areas requiring excavation improves soil stability and reduces equipment limitations caused by the slope. Rake playground areas to remove rock fragments Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Leaving a buffer zone of grass, trees, and shrubs adjacent to streams and drainageways helps to reduce siltation and provides shade. Paths and trails Suitability: Well suited Management concerns: No significant limitations affect paths and trails. Management measures and considerations: Designing paths and trails on the contour helps to maintain the stability of trails. Interpretive Groups Land capability classification: IIe Woodland ordination symbol: 8A for loblolly pine 205B=Georgeville silt loam, 2 to 6 percent slopes Typical Profile Surface layer: 0 to 7 inches=brown silt loam Subsoil: 7 to 10 inches=yellowish red silty clay loam 10 to 36 inches=red clay 36 to 44 inches=red clay that has strong brown mottles 44 to 53 inches=red silty clay loam that has yellow and brown mottles Underlying material: 53 to 62 inches=red, yellow and brown saprolite that has white mottles Soil Properties and Qualities Depth class: Very deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: High to very high Depth to seasonal high water table; kind: More than 60 inches Shrink -swell potential: Low Hazard of flooding: None Surface runoff. Low Hazard of water erosion: Severe Soil reaction: Very strongly acid to strongly acid, except where the surface has been limed Parent material: Residuum weathered from fine-grained metavolcanic rocks Depth to bedrock: More than 60 inches Land Use Dominant uses: woodland, pasture and hayland, and cropland Other uses: Urban development Agriculture Cropland Suitability: Well suited Commonly grown crops: Corn, soybeans, small grain and tobacco Management concerns: Erodibility and soil fertility Management measures and considerations: Resource management systems that include contour farming, conservation tillage, crop residue management, striperopping, and sod -based rotations help to control soil erosion and surface runoff and maximize the infiltration of water. Applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. Pasture and hayland Suitability: Well suited Commonly grown crops: Tall fescue, orchardgrass and clover Management concerns: Erodibility Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination. Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation. Planting adapted species helps to ensure the production of high -quality forage and minimize soil erosion. The timely removal of livestock from pastures so that forage plants can recover before winter dormancy helps to maintain pasture and increase productivity. Rotational grazing and a well planned clipping and harvesting schedule help to maintain pasture and increase productivity. When establishing, maintaining, or renovating hay and pasture, applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. 205B2=Georgeville silty clay loam, 2 to 6 percent slopes, moderately eroded Typical Profile Surface layer: 0 to 7 inches=red silty clay loam Subsoil: 7 to 44 inches=red clay 44 to 52 inches=red silty clay loam that has strong brown mottles Underlying material: 52 to 62 inches=reddish yellow silt loam saprolite that has red mottles Soil Properties and Qualities Depth class: Very deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: High or very high Depth to seasonal high water table; kind: More than 60 inches Shrink -swell potential: Low Hazard of flooding: None Surface runoff. Low Hazard of water erosion: Very severe Parent material: Residuum weathered from fine-grained metavolcanic rocks of the Carolina Slate Belt Depth to bedrock: More than 60 inches Land Use Dominant uses: Pasture and hayland, woodland, and cropland Other uses: Urban development Agriculture Cropland Suitability: Well suited Commonly grown crops: Corn, soybeans, small grain and tobacco Management concerns: Erodibility and soil fertility Management measures and considerations: Resource management systems including contour farming, conservation tillage, crop residue management, striperopping, and sod -based rotations help to prevent further erosion by stabilizing the soil, controlling runoff, and maximizing water infiltration. Applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. Pasture and hayland Suitability: Well suited Commonly. grown crops: Tall fescue, orchardgrass and clover Management concerns: Erodibility Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination. Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation. Planting adapted species helps to ensure the production of high -quality forage and minimize soil erosion. When establishing, maintaining, or renovating hay and pasture, applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. 205C=Georgeville silt loam, 6 to 10 percent slopes Typical Profile Surface layer: 0 to 7 inches=brown silt loam Subsoil: 7 to 10 inches=yellowish red silty clay loam 10 to 36 inches=red clay 36 to 44 inches=red clay that has strong brown mottles 44 to 53 inches=red silty clay loam that has yellow and brown mottles Underlying material: 53 to 62 inches=red, yellow and brown saprolite that has white mottles Soil Properties and Qualities Depth class: Very deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: High or very high Depth to seasonal high water table; kind: More than 60 inches Shrink -swell potential: Low Hazard of flooding: None Surface runoff. Low Hazard of water erosion: Severe Parent material: Residuum weathered from fine-grained metavolcanic rocks of the Carolina Slate Belt Depth to bedrock: More than 60 inches Land Use Dominant uses: woodland, pasture and hayland, and cropland Other uses: Urban development Agriculture Cropland Suitability: Moderately suited Commonly grown crops: Corn, soybeans, small grain and tobacco Management concerns: Erodibility and soil fertility Management measures and considerations: Resource management systems that include contour farming, conservation tillage, crop residue management, striperopping, and sod -based rotations help to control soil erosion and surface runoff and maximize the infiltration of water. Applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. Pasture and hayland Suitability: Well suited for pasture; moderately suited for hayland Commonly grown crops: Tall fescue, orchardgrass and clover Management concerns: Erodibility Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination. Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation. Planting adapted species helps to ensure the production of high -quality forage and minimize soil erosion. The timely removal of livestock from pastures so that forage plants can recover before winter dormancy helps to maintain pasture and increase productivity. Rotational grazing and a well planned clipping and harvesting schedule help to maintain pasture and increase productivity. When establishing, maintaining, or renovating hay and pasture, applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. 130B - Nanford — Badin complex, 2 to 6 % slopes Setting Landscape: Piedmont uplands in the Carolina Slate Belt, mainly in the central and western part of the county Landform: Interstream divides and broad ridges Shape of areas: Rounded or irregular Size of areas: 5 to 500 acres Composition Nanford and similar soils: 36 percent Badin and similar soils: 32 percent Dissimilar soils: 32 percent Typical Profile Nanford soils Surface layer: 0 to 3 inches=brown silt loam Subsurface layer: 3 to 7 inches=light brown silt loam Subsoil: 7 to 12 inches=strong brown silty clay loam 12 to 27 inches=strong brown silty clay that has brown mottles 27 to 38 inches=strong brown silty clay loam that has brown mottles Underlying material: 38 to 57 inches=reddish yellow loam saprolite Bedrock layer: 57 to 61 inches=weathered moderately fractured fine-grained metavolcanic rock Badin soils Surface layer: 0 to 4 inches; brown silt loam Subsoil: 4 to 16 inches; strong brown clay 16 to 24 inches; strong brown silty clay loam 24 to 32 inches; strong brown clay loam that has reddish yellow mottles Bedrock: 32 to 60 inches; weathered, moderately fractured fine-grained metavolcanic rock Soil Properties and Qualities Depth class: Nanford=deep; Badin=moderately deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: Nanford=high; Badin=moderate Depth to seasonal high water table; kind: More than 6.0 feet below the soil surface Shrink -swell potential: Nanford=low; Badin=moderate Hazard of flooding: None Surface runoff. Medium Hazard of water erosion: Severe Parent material: Residuum weathered from fine-grained metavolcanic rock Depth to bedrock: Nanford=40 to 60 inches to soft bedrock and more than 60 inches to hard bedrock; Badin=20 to 40 inches to soft bedrock and 40 inches or more to hard bedrock Minor Components: Dissimilar: Random areas of well drained Herndon soils with depth to rock of more than 60 inches Random areas of well drained Georgeville soils that have a depth to soft bedrock of more than 60 inches Somewhat poorly drained Cid and Lignum soils in concave areas at the head of drains and along drainageways Random areas of shallow, well drained to excessively Goldston soils with depth to soft bedrock less than 20 inches Slowly permeable Enon soils with high shrink -swell and depth to bedrock more than 60 inches on the outer edge of map units Random areas of very slowly permeable, somewhat poorly drained Pittsboro soils with a very high shrink -swell potential and depth to hard bedrock 40 to more than 60 inches Random areas of surface stones and boulders shown with special symbols Similar: Random areas of Nanford or Badin soils with gravelly or cobbly surface layers Random areas of Tarrus soils that have red or yellowish red subsoil and depth to soft bedrock 40 to 60 inches Random areas of Nanford or Badin soils with loam, fine sandy loam or very fine sandy loam surface textures Land Use Dominant uses: Woodland Other uses: Pasture and hayland, cropland, and urban development Agriculture Cropland Suitability: Nanford= well suited; Badin=moderately suited Commonly grown crops: Corn, soybeans, small grain, and tobacco Management concerns: Nanford=erodibility; Badin=erodibility and rooting depth Management measures and considerations: Resource management systems that include contour farming, conservation tillage, crop residue management, striperopping, and sod -based rotations help to control soil erosion and surface runoff and maximize the infiltration of water. Returning plant residue to the soil helps to improve the water -holding capacity, and planting shallow -rooted crops helps to overcome the moderately deep rooting depth in the Badin soils Pasture and hayland Suitability: Well suited Commonly grown crops: Tall fescue, orchardgrass, and clover Management concerns: Erodibility Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination. Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation. Planting adapted species helps to ensure the production of high -quality forage and minimize soil erosion. The timely removal of livestock from pastures so that forage plants can recover before winter dormancy helps to maintain pasture and increase productivity. Rotational grazing and a well planned clipping and harvesting schedule help to maintain pasture and increase productivity. When establishing, maintaining, or renovating hay and pasture, applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. Woodland Suitability: Well suited Productivity: Moderately high for loblolly pine Management concerns: Nanford=no significant limitations affect woodland management; Badin=windthrow hazard Management measures and considerations: Leaving a buffer zone of trees and shrubs adjacent to streams helps to reduce siltation and improve aquatic habitat by providing shade for the water surface. Maintaining surface litter helps to increase water infiltration and reduces seedling mortality rates on the Badin soils. Productivity may be increased by periodically harvesting windthrown trees, which result from high winds and the limited rooting depth on Badin soils. Urban Development Dwellings Suitability: Nanford=well suited; Badin--moderately suited Management concerns: Nanford=no significant limitations affect dwellings; Badin--shrink-swell and depth to rock Management measures and considerations: Vegetating disturbed areas and providing erosion -control structures, such as sediment fences and catch basins help to keep eroding soil on site. Reinforcing foundations and footings or backfilling with coarse -textured material helps to strengthen buildings and prevent damage caused by shrinking and swelling in the Badin soils. Vegetating disturbed areas and providing erosion -control structures, such as sediment fences and catch basins helps to keep eroding soil on site. Septic tank absorption fields Suitability: Nanford=moderately suited; Badin=poorly suited; Management concerns: Nanford=depth to rock and restricted permeability; Badin=depth to rock and restricted permeability; Management measures and considerations: The Chatham County Health Department should be contacted for guidance on sanitary facilities. Locating and installing septic tank absorption fields in the deeper Nanford soils may improve the performance of filter fields. Increasing the size of septic tank absorption field helps to improve performance. Installing septic system distribution lines only during dry periods helps to reduce smearing and sealing of trench walls. Local roads and streets Suitability: Poorly suited Management concerns: Low strength Management measures and considerations: Incorporating sand and gravel, compacting roadbeds, and designing roads to conform with natural slopes helps to improve soil strength. Vegetating cut and fill slopes as soon as possible after construction helps to stabilize the soil and prevent excessive soil erosion. Recreational Development Camp areas Suitability: Well suited Management concerns: No significant limitations affect camp areas. Management measures and considerations: Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Picnic areas Suitability: Well suited Management concerns: No significant limitations affect picnic areas. Management measures and considerations: Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Playgrounds Suitability: Moderately suited Management concerns: Steepness of slope Management measures and considerations: Cutting, filling, or grading only areas requiring excavation improves soil stability and reduces equipment limitations caused by the slope. Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Paths and trails Suitability: No significant limitations affect paths and trails. Management concerns: Erodibility Management measures and considerations: Designing paths and trails on the contour and providing adequate water -control structures, such as culverts, help to maintain the stability of trails. Interpretive Groups Land capability classification: Nanford=IIe; Badin=IIIe Woodland ordination symbol: Nanford=8A for loblolly pine; Badin=8D for loblolly pine 130C=Nanford-Badin Complex 6 to 10 percent slopes Setting Landscape: Piedmont uplands in the Carolina Slate Belt, mainly in the central and western part of the county Landform: Ridges and side slopes Shape of areas: Long and narrow or irregular Size of areas: 5 to 250 acres Composition Nanford and similar soils: 48 percent Badin and similar soils: 28 percent Dissimilar soils: 24 percent Typical Profile Nanford soils Surface layer: 0 to 3 inches=brown silt loam Subsurface layer: 3 to 7 inches=light brown silt loam Subsoil: 7 to 12 inches=strong brown silty clay loam 12 to 27 inches=strong brown silty clay that has brown mottles 27 to 38 inches=strong brown silty clay loam that has brown mottles Underlying material: 38 to 57 inches=reddish yellow loam saprolite Bedrock layer: 57 to 61 inches=weathered moderately fractured fine-grained metavolcanic rock Badin soils Surface layer: 0 to 4 inches; brown silt loam Subsoil: 4 to 16 inches; strong brown clay 16 to 24 inches; strong brown silty clay loam 24 to 32 inches; strong brown clay loam that has reddish yellow mottles Bedrock: 32 to 60 inches; weathered, moderately fractured fine-grained metavolcanic rock Soil Properties and Qualities Depth class: Nanford=deep; Badin=moderately deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: Nanford=high; Badin=moderate Depth to seasonal high water table; kind: More than 6.0 feet below the soil surface Shrink -swell potential: Nanford=low; Badin=moderate Hazard of flooding: None Surface runoff. Medium Hazard of water erosion: Severe Parent material: Residuum weathered from fine-grained metavolcanic rock Depth to bedrock: Nanford=40 to 60 inches to soft bedrock and more than 60 inches to hard bedrock; Badin=20 to 40 inches to soft bedrock and 40 inches or more to hard bedrock Minor Components: Dissimilar: Somewhat poorly drained Cid soils in concave areas at the head of drains and along drainageways Random areas of shallow, well drained to excessively drained Goldston soils with depth to soft bedrock less than 20 inches Slowly permeable Enon soils with high shrink -swell and depth to bedrock more than 60 inches on the outer edge of map units Random areas of very slowly permeable, somewhat poorly drained Pittsboro soils with a very high shrink -swell potential and depth to hard bedrock 40 to more than 60 inches Random areas of surface stones and boulders shown with special symbols Random areas of Herndon and Georgeville soils that have a depth to soft bedrock of more than 60 inches Similar: Random areas of Tarrus soils that have red or yellowish red subsoil and depth to soft bedrock 40 to 60 inches Random areas of Nanford or Badin soils with loam, fine sandy loam or very fine sandy loam surface textures Land Use Dominant uses: Woodland Other uses: Pasture, hayland, cropland, and urban development Agricultural Development Cropland Suitability: Moderately suited Commonly grown crops: corn, soybeans, small grain, and tobacco Management concerns: Nanford=erodibility; Badin=erodibility and rooting depth Management measures and considerations: Resource management systems that include contour farming, conservation tillage, crop residue management, striperopping, and sod -based rotations help to control soil erosion and surface runoff and maximize the infiltration of water. Returning plant residue to the soil helps to improve the water -holding capacity, and planting shallow -rooted crops helps to overcome the moderately deep rooting depth. Pasture and hayland Suitability: Well suited for pasture and moderately suited for hayland; Commonly grown crops: Tall fescue, orchardgrass, and clover Management concerns: Erodibility and equipment use Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination. Planting adapted species helps to ensure the production of high -quality forage and minimize soil erosion. Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation. Rotational grazing and a well planned clipping and harvesting schedule help to maintain pasture and increase productivity. Woodland Suitability: Well suited Productivity: Moderately high for loblolly pine Management concerns: Nanford=no significant limitations affect woodland management; Badin=windthrow hazard Management measures and considerations: Productivity may be increased by periodic harvesting of windthrown trees caused by high winds and limited rooting depth of the Badin soil. Urban Development Dwellings Suitability: Moderately suited Management concerns: Nanford=steepness of slope; Badin=steepness of slope, depth to rock and shrink -swell Management measures and considerations: Designing structures that conform to the natural slope helps to improve soil performance. Reinforcing foundations and footings or backfilling with coarse -textured material helps to strengthen buildings and prevent damage caused by shrinking and swelling. Vegetating disturbed areas and providing erosion -control structures, such as sediment fences and catch basins, help to keep eroding soil on site. Septic tank absorption fields Suitability: Nanford=moderately suited; Badin=poorly suited Management concerns: Depth to rock and restricted permeability; Management measures and considerations: The Chatham County Health Department should be contacted for guidance on sanitary facilities. Locating and installing septic tank absorption fields in the deeper Nanford soils may improve the performance of filter fields. Increasing the size of septic tank absorption field helps to improve performance. Installing septic system distribution lines only during dry periods helps to reduce smearing and sealing of trench walls. Local roads and streets Suitability: Poorly suited Management concerns: Low strength Management measures and considerations: Incorporating sand and gravel, compacting roadbeds, and designing roads to conform with natural slopes helps to improve soil strength. Vegetating cut and fill slopes as soon as possible after construction helps to stabilize the soil and prevent excessive soil erosion. Recreational Development Camp areas Suitability: Moderately suited Management concerns: Steepness of slope Management measures and considerations: Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Picnic areas Suitability: Moderately suited Management concerns: Steepness of slope Management measures and considerations: Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Playgrounds Suitability: Poorly suited Management concerns: steepness of slope Management measures and considerations: Cutting, filling, or grading only areas requiring excavation improves soil stability and reduces equipment limitations caused by the slope. Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Paths and trails Suitability: Moderately suited Management concerns: Erodibility Management measures and considerations: Designing paths and trails on the contour and providing adequate water -control structures, such as culverts, help to maintain the stability of trails. Interpretive Groups Land capability classification: Nanford=IIIe; Badin=IVe Woodland ordination symbol: Nanford=8A for loblolly pine; Badin=8D for loblolly pine 37B=Wedowee sandy loam, 2 to 6 percent slopes Setting Landscape: Piedmont uplands, mainly in the northern part of the county south of Chapel Hill Landform: Ridges and side slopes Shape of areas: Irregular Size of areas: 5 to 100 acres Composition Wedowee and similar soils: 81 percent Dissimilar soils: 19 percent Typical Profile Surface layer: 0 to 5 inches=yellowish brown sandy loam Subsoil: 5 to 28 inches=strong brown clay that has yellowish red mottles 28 to 60 inches=reddish yellow clay loam saprolite that has yellow and very pale brown mottles Soil Properties and Qualities Depth class: Very deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: Moderate to high Depth to seasonal high water table; kind: More than 6.0 feet below the soil surface Shrink -swell potential: Low Hazard of flooding: None Surface runoff: Low Hazard of water erosion: Moderate Parent material: Residuum weathered from felsic high-grade metamorphic or igneous rock Depth to bedrock: More than 60 inches Minor Components Dissimilar: Random areas of the slowly permeable Vance soils The moderately well drained Helena soils at heads of drainageways and along drainageways Random areas of Rion soils that have less clay in the subsoil Widely scattered surface cobbles, stones and boulders are shown with special symbols Similar: Random areas of Pacolet soils that have red subsoils Appling soils that have a thicker subsoil on the more level parts of the map unit Land Use Dominant uses: Woodland, pasture and hayland, and urban development Other uses: Cropland Agricultural Development Cropland Suitability: Well suited Commonly grown crops: Tobacco, corn, soybeans and small grain Management concerns: Erodibility Management measures and considerations: Resource management systems that include terraces and diversions, striperopping, contour tillage, no -till farming, and crop residue management help to control soil erosion and surface runoff and maximize the infiltration of rainfall Pasture and hayland Suitability: Well suited Commonly grown crops: Tall fescue, orchardgrass and clover Management concerns: Erodibility Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation Woodland Suitability: Well suited Productivity class: Moderately high for loblolly pine Management concerns: No significant limitations affect woodland management. Management measures and considerations: Leaving a buffer zone of trees and shrubs adjacent to streams helps to reduce siltation and improve aquatic habitat by providing shade for the water surface Urban Development Dwellings Suitability: Well suited Management concerns: No significant limitations affect dwellings Management measures and considerations: Vegetating disturbed areas and providing erosion -control structures, such as sediment fences and catch basins, help to keep eroding soil on site Septic tank absorption fields Suitability: Moderately suited Management concerns: Restricted permeability Management measures and considerations: The Chatham County Health Department should be contacted for guidance on sanitary facilities Increasing the size of septic tank absorption field helps to improve performance. Installing septic system distribution lines only during dry periods helps to reduce smearing and sealing of trench walls Local roads and streets Suitability: Moderately suited Management concerns: Low strength Management measures and considerations: Incorporating sand and gravel with the soil material and compacting roadbeds helps to improve soil strength Vegetating cut and fill slopes as soon as possible after construction helps to stabilize the soil and prevent excessive soil erosion Recreational Development Camp areas Suitability: Well suited Management concerns: No significant limitations affect camp areas Management measures and considerations: Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion Picnic areas Suitability: Well suited Management concerns: No significant limitations affect picnic areas. Management measures and considerations: Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion Playgrounds Suitability: Moderately suited Management concerns: steepness of slope Management measures and considerations: Cutting, filling, or grading only areas requiring excavation improves soil stability and reduces equipment limitations caused by the slope Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion Leaving a buffer zone of grass, trees, and shrubs adjacent to streams and drainageways helps to reduce siltation and provides shade Paths and trails Suitability: Well suited Management concerns: No significant limitations affect paths and trails. Management measures and considerations: Designing paths and trails on the contour and providing adequate water -control structures, such as culverts, help to maintain the stability of trails Interpretive Groups Land capability classification: IIe Woodland ordination symbol: 8A for loblolly pine 212B=Herndon silt loam, 2 to 6 percent slopes Setting Landscape: Piedmont uplands in the Carolina Slate Belt, mainly in the central and western parts of the county. Landform: Interstream divides and broad ridges Shape of areas: Rounded or irregular Size of areas: 5 to 50 acres Composition Herndon and similar soils: 68 percent Dissimilar soils: 32 percent Typical Profile Surface layer: 0 to 3 inches=light yellowish brown silt loam Subsurface layer: 3 to 9 inches=brownish yellow silt loam Subsoil: 9 to 14 inches=reddish yellow silty clay loam 14 to 34 inches=yellowish red silty clay that has yellow and reddish yellow mottles 34 to 48 inches=yellowish red silty clay loam that has yellow, very pale brown, and reddish yellow mottles Underlying material: 48 to 60 inches=red silt loam saprolite that has yellow and reddish yellow mottles Soil Properties and Qualities Depth class: Very deep Agricultural drainage class: Well drained Permeability: Moderate Available water capacity: High to very high Depth to seasonal high water table; kind: More than 60 inches Shrink -swell potential: Low Hazard of flooding: None Surface runoff. Low Hazard of water erosion: Severe Parent material: Residuum weathered from fine-grained metavolcanic rocks of the Carolina Slate Belt Depth to bedrock: More than 60 inches Minor Components Dissimilar: Random areas of Nanford and Tarrus soils that have depth to soft bedrock 40 to 60 inches Moderately well drained and somewhat poorly drained Lignum soils with depth to soft bedrock 40 to 60 inches, and Cid soils that have depth to soft bedrock 20 to 40 inches along drainageways and heads of drainageways. Random areas of moderately eroded Herndon soils with silty clay loam or clay loam surface layers Random areas of surface stones and boulders shown with special symbols Badin soils that have depth to soft bedrock 20 to 40 inches on small knolls and on the outer edge of map units Similar: Random areas of Herndon soils with gravelly or cobbly surface layers Random areas of Georgeville soils that have red subsoils Random areas of very deep soils that have clayey subsoil layers less than 24 inches thick or extend to less than 30 inches in depth. Random areas of Herndon soils that have loam or very fine sandy loam surface layers Land Use Dominant uses: Woodland, pasture and hayland, and cropland Other uses: Urban development Agriculture Cropland Suitability: Well suited Commonly grown crops: Corn, soybeans, small grain and tobacco Management concerns: Erodibility Management measures and considerations: Resource management systems that include terraces and diversions, striperopping, contour tillage, no -till farming, and crop residue management help to control soil erosion and surface runoff and maximize the infiltration of rainfall. Pasture and hayland Suitability: Well suited Commonly grown crops: Tall fescue, orchardgrass and clover Management concerns: Erodibility Management measures and considerations: Preparing seedbeds on the contour or across the slope helps to control soil erosion and increase germination. Fencing livestock away from creeks and streams helps to prevent streambank erosion and sedimentation. Planting adapted species helps to ensure the production of high -quality forage and minimize soil erosion. The timely removal of livestock from pastures so that forage plants can recover before winter dormancy helps to maintain pasture and increase productivity. Rotational grazing and a well planned clipping and harvesting schedule help to maintain pasture and increase productivity. When establishing, maintaining, or renovating hay and pasture, applying lime and fertilizer according to recommendations based on soil tests helps to increase the availability of plant nutrients and maximize productivity. Woodland Suitability: Well suited Productivity class: Moderately high for loblolly pine Management concerns: No significant limitations affect woodland management. Management measures and considerations: Leaving a buffer zone of trees and shrubs adjacent to streams helps to reduce siltation and improve aquatic habitat by providing shade for the water surface. Urban Development Dwellings Suitability: Well suited Management concerns: Management measures and considerations: No significant limitations affect dwellings. Septic tank absorption fields Suitability: Moderately suited Management concerns: Restricted permeability Management measures and considerations: The Chatham County Health Department should be contacted for guidance on sanitary facilities. Increasing the size of septic tank absorption field helps to improve performance. Installing septic system distribution lines only during dry periods helps to reduce smearing and sealing of trench walls. Local roads and streets Suitability: Moderately suited Management concerns: Low strength Management measures and considerations: Incorporating sand and gravel with the soil material and compacting roadbeds helps to improve soil strength. Recreational Development Camp areas Suitability: Well suited Management concerns: Well suited Management measures and considerations: No significant limitations affect camp areas. Picnic areas Suitability: Well suited Management concerns: Well suited Management measures and considerations: No significant limitations affect picnic areas. Playgrounds Suitability: Moderately suited Management concerns: Steepness of slope Management measures and considerations: Vegetating cleared and graded areas as soon as possible helps to maintain soil stability and prevent erosion. Leaving a buffer zone of grass, trees, and shrubs adjacent to streams and drainageways helps to reduce siltation and provides shade. Cutting, filling, or grading only areas requiring excavation improves soil stability and reduces equipment limitations caused by the slope. Rake playground areas to remove small stones Paths and trails Suitability: Poorly suited Management concerns: Erodibility Management measures and considerations: Designing paths and trails on the contour and providing adequate water -control structures, such as culverts, help to maintain the stability of trails. Interpretive Groups Land capability classification: IIe Woodland ordination symbol: 8A for loblolly pine N T M U M a 0§ co L U 0) L a) m 20 0 d u u � h a 7 z U AV il a N > U O •E m N � N C � O di — U f9 L Z � a� m c Z O 3 U .Q 3 N 0 Q a L Z N 7 �U O — VO CO C/5 ig O z O Y o O N 0 r O U r N cL m U E m U) m — ca ao.9 f6 O = N Q i O U �> a — m CU Cf) cn co O O Z C) T O � N 0 r U �N U � � C o❑.o N O Q cn 0 U �> n 7 — m ca co CO C/) E m O M m w 0-) O M � r .L Cl) E W O O U r Q O m o7 2r V) Q _0 N C E 70 W N N � C 0 O > N N 5, -0 O 2 > O_ (6 en N E c •N N N O mC (D'- E 0 .n U O ' o =C C U f0 O � E CL w co a) o Ew N E O � o � L � C �5E p , N O M E O U) a L O O• 75 O a) N O +• c0 Y V O Y O N O - a W °1 3 d p o a C O cn M L C C y O C 3 O O` C U U V) Q N N O CL +-• V) 3 V) w rV-� O O O W O ❑ Q -6 a :) N a o N U) a ) p O a CL� N Q N O_ N a _ O N V) V) V1 Z W N N w O C O. �. >, N O 3 V1 V W W >` LL w L O N •�„ O O (n Q W �_ N W W y N N W N W N N Q 3 C T C p > > N W O (Wj ♦�1 O "' N N « O W ,S6 T N m 7 N O O � N 2 3 W W W N p W W C_ O O- O W U U O O 5 TO � 5 x O W W 0 J (n m m U O W 0 U' 0 J J�� of co U) m cn V) rn U) a. a <Is o� U � u y Soil Survey of Alatnance County, North Caroitna; Orange County, North Carolina Crawford Dairy Tract 312 Map Unit Legend Summary Alamance County, North Carolina No map data available for this soil survey area. Orange County, North Carolina Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI Cb Chewacla loam 36.1 7.7 Cp Congaree fine sandy loam 4.5 1.0 EnB Enon loam, 2 to 6 percent slopes 8.1 1.7 EnC Enon loam, 6 to 12 percent slopes 9.4 2.0 GeB Georgeville silt loam, 2 to 6 percent 170.8 36.3 slopes GeC Georgeville silt loam, 6 to 10 103.6 22.0 percent slopes HrB Hemdon silt loam, 2 to 6 percent 10.4 2.2 slopes HrC Hemdon silt loam, 6 to 10 percent 6.7 1.4 slopes Lg Lignum silt loam, 0 to 3 percent 8.8 1.9 slopes TaD Tatum silt loam, 8 to 15 percent 62.2 13.2 slopes TaE Tatum silt loam, 15 to 25 percent 19.3 4.1 slopes W Water 10.4 2.2 USDA Natural Resources Web Soil Survey 1.1 4/24/2007 iv— s Conservation Service National Cooperative Soil Survey Page 3 of 3 fir• S tk .. 1` ► � � '.yi - � IOWO i'l-- 1 `_ '---• _� . -_,` - O�r;;:1�.�rIPfV57dfi3a �---�' - r •� cn it � G,]/ � - �- . •'• -'r �-� .�, C �-•x n• Q "0 [� m E:a— sr GeG2 dw ' -.Jet �.� ► �- �� _ �� _ ,� a . i w U 2 « ry O � 2 0 � � U 2 � ry O 2 � 2 D O U �< Q �R M? �U Q� 2� 0 0 �0 2 U � 2 �Q OU Z � Z D O U w U Z Q � � Q LL O � w > � D U) O CO \ N )j M /) \ % ° =mom § Eon ®' d 022 � a co= £ $eE $� / \ e / U / \ 2 7 \ Co 2 §Q \ p \ f\0 2 /\ E E k E k§\ Rom= 2 § k j �_ k / � k = \ \ , � j / \ / / \ CL � E/ % k ƒ 9L ca 0 / � ) \ ~ 0 E @ E / \ E�� ucd Co id co 2k\ IL �� I= =ate o�c�G/ ■� \. kowo 0�2&\e :� =C/ ? t /\ cam)�� §k «$ \f 0CD t 2� 2§§® f§f �g \ / \$ \ C qf 8 )eul 2 � -0 o 3 = COC /U)$ C /U)d /U)$ // /ƒ /m / \ \\ � ( }\ ) CD - ( & k . _ 2 \ ) ) ƒ \ / - k k _ $ \IL ! ` } ( (� 3 \ 0 » ° # ) & 2 0 w _ ) a) a _ ® $ / § § § # $ I § r - a / ƒ \ § \ e « @ ƒ 0 ] « s = / & 2 $ § ! ! k ƒ 3 2 t G Lu 2 ) ± ) e * 3 ƒ w ) ] ) ) ] ] § I % 3 13 0 & / k k f IL )-. _ \ > ! 3 » o * e = s + Soil Survey of Alanance County, North Carolina; Cnatbam County, North Carolina; Orange County, North Carolina Crawford Dairy tracts 2346,2358,2359,2530,2533 Map Unit Legend Summary Alamance County, North Carolina No map data available for this soil survey area. Chatham County, North Carolina Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI BaE Badin-Nanford complex, 15 to 30 39.4 2.0 percent slopes ChA Chewacla and Wehadkee soils, 0 to 22.7 1.2 2 percent slopes, frequently flooded CkC Cid silt loam, 6 to 10 percent slopes 5.4 0.3 CmB Cid-Lignum complex, 2 to 6 166.1 8.6 percent slopes GaB Georgeville silt loam, 2 to 6 percent 132.3 6.9 slopes GaC Georgeville silt loam, 6 to 10 103.8 5.4 percent slopes GeB2 Georgeville silty clay loam, 2 to 6 133.0 6.9 percent slopes, moderately eroded Georgeville silty clay loam, 6 to 10 94.1 4.9 percent slopes, moderately eroded GkD Georgeville-Badin complex, 10 to 43.1 2.2 15 percent slopes GoC Goldston-Badin complex, 2 to 15 4.2 0.2 percent slopes HeB Helena sandy loam, 2 to 6 percent 122.7 6.4 slopes HeC Helena sandy loam, 6 to 10 percent 34.7 1.8 slopes HrB Herndon silt loam, 2 to 6 percent 51.6 2.7 slopes HrC Herndon silt loam, 6 to 10 percent 8.4 0.4 slopes NaB Nanford-Badin complex, 2 to 6 80.8 4.2 percent slopes NaC Nanford-Badin complex, 6 to 10 56.2 2.9 percent slopes NaD Nanford-Badin complex, 10 to 15 30.8 1.6 percent slopes Natural Resources Web Soil Survey 1.1 4/24/2007 Conservation Service National Cooperative Soil Survey Page 3 of 5 Soil Survey of Alamance County, North Carolina, Chatham County, North Carolina; Orange County, North Carolina Crawford Dairy tracts 2346,2358,2359,2530,2533 Chatham County, North Carolina Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI RVA Riverview silt loam, 0 to 3 percent 62.2 3.2 slopes, frequently flooded StB State sandy loam, 2 to 6 percent 10.7 0.6 slopes VaB Vance sandy loam, 2 to 6 percent 41.1 2.1 slopes W Water 48.9 2.5 WeB Wedowee sandy loam, 2 to 6 65.3 3.4 percent slopes WeC Wedowee sandy loam, 6 to 10 72.3 3.7 percent slopes WeD Wedowee sandy loam, 10 to 15 48.2 2.5 percent slopes WeE Wedowee sandy loam, 15 to 25 8.8 0.5 percent slopes Orange County, North Carolina Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI ApB Appling sandy loam, 2 to 6 73.1 3.8 percent slopes ApC Appling sandy loam, 6 to 10 37.8 2.0 percent slopes Ch Chewacla loam 32.3 1.7 Cp Congaree fine sandy loam 2.7 0.1 EnB Enon loam, 2 to 6 percent 18.6 1.0 slopes EnC Enon loam, 6 to 12 percent 1.2 0.1 slopes HeB Helena sandy loam, 2 to 8 1.1 0.1 percent slopes HrB Herndon silt loam, 2 to 6 10.3 0.5 percent slopes HrC Herndon silt loam, 6 to 10 17.9 0.9 percent slopes Or Orange silt loam, 0 to 3 0.1 0.0 percent slopes USDA Natural Resources Web Soil Survey 1.1 4/24/2007 Conservation Service National Cooperative Soil Survey Page 4 of 5 Soil Survey of Alamance County, North Carolina, Chatham County, North Carolina; Grange County, North Carolina Crawford Dairy tracts 2346,2358,2359,2530,2533 Orange County, North Carolina Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI TaD Tatum silt loam, 8 to 15 1.5 0.1 percent slopes W Water 0.9 0.0 Natural Resources Web Soil Survey 1.1 4/24/2007 Conservation Service National Cooperative Soil Survey Page 5 of 5 Conservation Plan Map Date: 4/17/2007 Custorner(s): JERRY W CRAWFORD District: CHATHAM SOIL & WATER CONSERVATION DISTRICT - Streams • practice -instance -point — practice_instance_polyline practice_instance_polygon land -unit [� Water bodies 46ja FSA_CLU Field Office: PITTSBORO SERVICE CENTER Agency: USDA Service Center Assisted By: Carl Outz N 0 190 380 570 760 Feet Conservation Plan Map Date: 4/17/2007 Customer(s): JERRY W CRAWFORD District: CHATHAM SOIL & WATER CONSERVATION DISTRICT Field Office: PITTSBORO SERVICE CENTER Agency: USDA Service Center Assisted By: Carl Outz N RCS Natural Resources Conservation Service PITTSBORO SERVICE CENTER 45 SOUTH ST STE 1 PITTSBORO, NC 27312-5684 9195422244 ext. 100 Conservation Plan JERRY W CRAWFORD 4085 CRAWFORD DAIRY RD CHAPEL HILL, NC 27516 Pasture Tract: 2346 Forage Harvest Management Cutting and removal of forages from the field as hay, greenchop, of ensilage. CARL HENRY OUTZ JR. ENVIRONMENTAL SPECIALIST Planned Field Amount Month Year Applied Amount Date 1 10.9 ac 51 2007 2 37.4 ac 51 2007 Total: 48.3 ac Nutrient Management Manage the amount, form, placement and timing of plant nutrient application. Planned Field Amount Month Year Applied Amount Date 1' 10.9 ac 51 2007 21 37.4 ac 51 2007 Total: 1 48.3 ac Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Field Amount Month Year Applied Amount Date 1 10.9 ac 91 2003 2 37.4 ac 91 2003 Total: 48.3 ac 4/20/2007 Page 1 of 3 Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year Applied Amount Date 1 10.9 ac 91 2003 10.9 ac 3/1/2004 2 37.4 ac 91 2003 37.4 ac 3/1/2004 Total: 48.3 ac 1 48.3 ac Waste Utilization Use organic waste material in an environmentally safe manner to enrich soil fertility. Planned IApplied Field Amount Month Year Amount Date 1 10.9 ac 51 2007 2 37.4 ac 51 2007 Total: 48.3 ac 4120/2007 Page 2 of 3 CERTIFICATION OF PARTICIPANTS Y W CRA ORD DATE CERTIFICATION OF: ENVIRONMENTAL SPECIALIST 'CONSERVATION DISTRICT C J L. N i L' '1 4 CARL HENRY O T J . DATE 1 CHATHAM SOIL & WATER CONS DATE PUBLIC BURDEN STATEMENT According to the Paperwork Reduction Act of 1995, an agency may not conduct or sponsor, and a person is not required to respond to a collection of information unless it displays a valid OMB control number. The valid OMB control number for this information collections is 0578-0013. The time required to complete this information collection is estimated to average 45/0.75 minutes per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection information. PRIVACY ACT The above statements are made in accordance with the Privacy Act of 1974 (5 U.S.0 522a). Furnishing this information is voluntary; however failure to furnish correct, complete information will result in the withholding or withdrawal of such technical or financial assistance. The information may be furnished to other USDA agencies, the Internal Revenue Service, the Department of Justice, or other state or federal law enforcement agencies, or in response to orders of a court, magistrate, or administrative tribunal. USDA NON-DISCRIMINATION STATEMENT "The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, family status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information ()3raille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, DC 20250-9410 or call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer." 4/20/2007 Paqe 3 of 3 N RCS Natural Resources Conservation Service PITTSBORO SERVICE CENTER 45 SOUTH ST STE 1 PITTSBORO, NC 27312-5684 9195422244 ext. 100 JERRY W CRAWFORD 4085 CRAWFORD DAIRY RD CHAPEL HILL, NC 27516 Conservation Plan Tract: 2358 CARL HENRY OUTZ JR. ENVIRONMENTAL SPECIALIST 329 Conservation tilled row crops will be planted with a minimum of 50% ground cover remaining on the soil surface after planting. Planned Field Amount Month Year Applied Amount Date 1 22.4 ac-ft 71 2001 22 ac-ft 7/2/2001 2 8.6 ac-ft 71 2001 8.6 ac-ft 7/2/2001 Total: 31 ac-ft 30.6 ac-ft Conservation Crop Rotation Begin a two year cropping system of first year conservation tilled row crops followed by small grain and double cropped conservation tilled row crops the second year. Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 7 2001 22.4 ac 7/2/2001 2 8.6 ac 7 2001 8.6 ac 7/2/2001 Total: 31 ac 31 ac Conservation Crop Rotation Grow crops in a planned rotation for biodiversity and to provide adequate amounts of organic material for erosion reduction, nutrient balance and sustained soil organic matter. Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 5 2007 2 8.6 ac 5 2007 Total: 31 ac 4/20/2007 Paqe 1 of 4 Nutrient Management Manage the amount, form, placement and timing of plant nutrient application. f Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 51 2007 2 8.6 ac 51 2007 Total: 31 ac Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 91 2003 2 8.6 ac 91 2003 Total: 31 ac Residue and Tillage Management, No-Till/Strip Till/Direct Seed Manage organic residue so maximum amounts are left on the soil surface on a year-round basis. Plant crops in narrow slots or narrow tilled strips in previously untilled soil. Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 51 2007 2 8.6 ac 51 2007 Total: 31 ac Residue Management, Seasonal Maintain at least a 30% ground cover of plant residue on the soil surface from harvest until 30 days before the succeeding crop is planted. Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 71 2001 22.4 ac 7/2/2001 2 8.6 ac 7 2001 8.6 ac 7/2/2001 Total: 31 ac 1 31 ac Residue Management, Seasonal Manage amount, orientation and distribution of organic residue to maximize soil protection until immediately prior to planting the following crop. Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 51 2007 2 8.6 ac 51 2007 Total: 31 ac 4/20/2007 Page 2 of 4 Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year I Applied Amount Date 1 22.4 ac 91 2003 22.4 ac 3/1/2004 2 8.6 ac 9 2003 8.6 ac 3/1/2004 Total: 31 ac 1 31 ac Waste Utilization Use organic waste material in an environmentally safe manner to enrich soil fertility. Planned Field Amount Month Year Applied Amount Date 1 22.4 ac 51 2007 2 8.6 ac 51 2007 Total: 31 ac 4/20/2007 Page 3 of 4 CERTIFICATION OF PARTICIPANTS `•i 4 0l E Y W CRAW R DATE CERTIFICATION OF: ENVIRONMENTAL SPECIALIST CARL HENRYIOUTZ DATE CONSERVATION DISTRICT CHATHAM SOIL & WATER CONS DATE PUBLIC BURDEN STATEMENT According to the Paperwork Reduction Act of 1995, an agency may not conduct or sponsor, and a person is not required to respond to a collection of information unless it displays a valid OMB control number. The valid OMB control number for this information collections is 0578-0013. The time required to complete this information collection is estimated to average 45/0.75 minutes per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection information. PRIVACY ACT The above statements are made in accordance with the Privacy Act of 1974 (5 U.S.0 522a). Furnishing this information is voluntary; however failure to furnish correct, complete information will result in the withholding or withdrawal of such technical or financial assistance. ,The information may be furnished to other USDA agencies, the Internal Revenue Service, the Department of Justice, or other state or federal law enforcement agencies, or in response to orders of a court, magistrate, or administrative tribunal. USDA NON-DISCRIMINATION STATEMENT "The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, family status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, DC 20250-9410 c call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer." 4/20/2007 Paqe 4 of 4 4,.j N RCS Natural Resources Conservation Service PITTSBORO SERVICE CENTER 45 SOUTH ST STE 1 PITTSBORO, NC 27312-5684 9195422244 ext. 100 JERRY W CRAWFORD 4085 CRAWFORD DAIRY RD CHAPEL HILL, NC 27516 Cro CARL HENRY OUTZ JR. ENVIRONMENATL SPECIALIST Conservation Plan Tract: 2359 Conservation Crop Rotation Grow crops in a planned rotation for biodiversity and to provide adequate amounts of organic material for erosion reduction, nutrient balance and sustained soil organic matter. Planned Field Amount Month Year Applied Amount Date 1 8.8 ac 51 2007 2 4.7 ac 5111 2007 Total: 13.5 ac Nutrient Management Manage the amount, form, placement and timing of plant nutrient application. Planned Field Amount Month Year Applied Amount Date 1 8.8 ac 51 2007 1 2 4.7 ac 51 2007 Total: 13.5 ac Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Field Amount Month Year Applied Amount Date 1 8.8 ac 9 2003 2 4.7 ac 9 2003 Total: 13.5 ac j 4/20/2007 Paae 1 of 3 Residue and Tillage Management, No-Till/Strip Till/Direct Seed Manage organic residue so maximum amounts are left on the soil surface on a year-round basis. Plant crops in narrow slots or narrow tilled strips in previously untilled soil. Planned Field Amount Month Year Applied Amount Date 1 8.8 ac 5j 2007 2 4.7 ac 51 2007 Total: 13.5 ac Residue Management, Seasonal Manage amount, orientation and distribution of organic residue to maximize soil protection until immediately prior to planting the following crop. Planned Field Amount Month Year Applied Amount Date 1 8.8 ac 51 2007 2 4.7 ac 51 2007 Total: 13.5 ac Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year Applied Amount Date 1 8.8 ac 9. 2003 8.8 ac 3/1/2004 2 4.7 ac 91 2003 4.7 ac 3/1/2004 Total: 13.5 ac 1 13.5 ac Waste Utilization Use organic waste material in an environmentally safe manner to enrich soil fertility. Planned Field Amount Month Year Applied Amount Date 1 8.8 ac j 5 2007 2 4.7 ac 5 2007 Total: 13.5 ac 4/20/2007 Page 2 of 3 CERTIFICATION OF PARTICIPANTS jt"7 jk. 6-1j,-11 t7Z R W CRAWF RD DATE E CERTIFICATION OF: ENVIRONMENATL SPECIALIST CONSERVATION DISTRICT W—k� CARL HENRY PUTZDATE CHATHAM SOIL & WATER CONS DATE PUBLIC BURDEN STATEMENT According to the Paperwork Reduction Act of 1995, an agency may not conduct or sponsor, and a person is not required to respond to a collection of information unless it displays a valid OMB control number. The valid OMB control number for this information collections is 0578-0013. The time required to complete this information collection is estimated to average 45/0.75 minutes per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection information. PRIVACY ACT The above statements are made in accordance with the Privacy Act of 1974 (5 U.S.0 522a). Furnishing this information is voluntary; however failure to furnish correct, complete information will result in the withholding or withdrawal of such technical or financial assistance. The information may be furnished to other USDA agencies, the Internal Revenue Service, the Department of Justice, or other state or federal law enforcement agencies, or in response to orders of a court, magistrate, or administrative tribunal. USDA NON-DISCRIMINATION STATEMENT "The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, family status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, DC 20250-9410 or call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer." 4/20/2007 Page 3 of 3 %0� N RCS Natural Resources Conservation Service C PITTSBORO SERVICE CENTER 45 SOUTH ST STE 1 PITTSBORO, NC 27312-5684 9195422244 ext. 100 JERRY W CRAWFORD 4085 CRAWFORD DAIRY RD CHAPEL HILL, NC 27516 Conservation Plan Tract: 2530 CARL HENRY OUTZ JR ENVIRONMENTAL SPECIALIST 329 Conservation tilled row crops will be planted with a minimum of 50% ground cover remaining on the soil surface after planting. Planned Field Amount Month Year Applied Amount Date 1 26.7 ac-ft 12 1991 26.7 ac-ft 5/8/1994 3 3.6 ac-ft 12 1991 3.6 ac-ft 5/8/1994 6 29.9 ac-ft 12 1991 29.9 ac-ft 5/8/1994 7 6.3 ac-ft 12 1991 29.9 ac-ft 5/8/1994 8 12.7 ac-ft 12 1991 121 40.1 ac-ft 12 1991 40.1 ac-ft 5/8/1994 Total:j 119.3 ac-ft 106.6 ac-ft 330A Run rows and perform all tillage operations across the dominant slope. Planned Field Amount Month Year Applied Amount Date 1 26.7 ac-ft 12 1991 3 3.6 ac-ft 12 1991 6 29.9 ac-ft 12 1991 7 6.3 ac-ft 12 1991 8j 12.7 ac-ft 12 1991 121 40.1 ac-ft 121 1991 Total: 119.3 ac-ft 4/23/2007 Page 1 of 7 411 Seed either 25 lbs./ac grass, 25 lbs./ac legume, or 12 lbs./ac grass-8 lbs./ac legume mixture immediately following row crop harvest. Sod maybe established by intermixing seeding with small grain. The sod will remain in the field at least twenty four mont Planned Field Amount Month Year Applied Amount Date 131 9.3 ac-ft 121 1989 9.3 ac-ft 2/5/1989 Total: 9.3 ac-ft 1 9.3 ac-ft Conservation Crop Rotation Begin a two year cropping system of first year conservation tilled row crops followed by small grain and double cropped conservation tilled row crops the second year. Planned Field Amount Month Year Applied Amount Date 1 26.7 ac 12 1991 26.7 ac 5/8/1994 3 3.6 ac 12 1991 3.6 ac 5/8/1994 6 29.9 ac 12 1991 29.9 ac 5/8/1994 7 6.3 ac 12 1991 29.9 ac 5/8/1994 8 12.7 ac 12 1991 12.7 ac 5/8/1994 12 40.1 ac 12 1991 40.1 ac 5/8/1994 13 9.3 ac 12 1989 9.3 ac 2/5/1989 Total: 128.6 ac 128.6 ac Grassed Waterway Maintain existing grassed waterways by annual fertilization and mowing. Repair all gullies and bare areas as needed with sod or by reseeding. Planned Field Amount Month Year Applied Amount Date 61 1 ac 1121 1989 Total:. 1 ac Nutrient Management Manage the amount, form, placement and timing of plant nutrient application. Planned Field Amount Month Year Applied Amount Date 1 26.7 ac 5 2007 3 3.6 ac 5 2007 6 29.9 ac 5 2007 7 6.3 ac 5 2007 8 12.7 ac 5 2007 12 40.1 ac 5 2007 13 9.3 ac 5 2007 Total: 128.6 ac 4/23/2007 Page 2 of 7 Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Field Amount Month Year Applied Amount Date 1 26.7 ac 9 2003 3 3.6 ac 9 2003 6 29.9 ac 9 2003 7 6.3 ac 9 2003 8 .12.7 ac 9 2003 12 40.1 ac 9 2003 13 9.3 ac 9 2003 Total: 128.6 ac Residue Management, Seasonal Maintain at least a 30% ground cover of plant residue on the soil surface from harvest until 30 days before the succeeding crop is planted. Planned Field Amount Month Year Applied Amount Date 1 26.7 ac 12 1991 26.7 ac 5/8/1994 3 3.6 ac 12 1991 3.6 ac 5/8/1994 6 29.9 ac 12 1991 29.9 ac 5/8/1994 7 6.3 ac 12 1991 29.9 ac 5/8/1994 8 12.7 ac 12 1991 12.7 ac 5/8/1994 12 40.1 ac 121 1991 40.1 ac 5/8/1994 Total: 119.3 ac 1 119.3 ac Residue Management, Seasonal When sod is used in the rotation, delay sod destruction until late fall or early winter just prior to row crop year. Land will be left with a rough surface, delaying disking and final seedbed preparation until just prior to crop planting. Planned Applied Field Amount Month Year Amount Date 13 9.3 ac 1 121 1989 9.3 ac 2/5/1989 Total:i 9.3 ac 9.3 ac 4/23/2007 Page 3 of 7 Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year Applied Amount Date 1 26.7 ac 9 2003 26.7 ac 3/1/2004 3 3.6 ac 9 2003 3.6 ac 3/1/2004 6 29.9 ac 9 2003 29.9 ac 3/1/2004 7 6.3 ac 9 2003 6.3 ac 3/1/2004 8 12.7 ac 9 2003 12.7 ac 3/1/2004 12 40.1 ac 9 2003 40.1 ac 3/1/2004 13 9.3 ac 9 2003 9.3 ac 3/1/2004 Total: 128.6 ac 128.6 ac Waste Utilization Use organic waste material in an environmentally safe manner to enrich soil fertility. Planned Field Amount Month Year Applied Amount Date 1 26.7 ac 5 2007 3 3.6 ac 5 2007 6 29.9 ac 5 2007 7 6.3 ac 5 2007 7 6.3 ac 5 2009 8 12.7 ac 5 2007 12 40.1 ac 5 2007 9.3 ac 5 2007 F-13 Total: 128.6 ac Pasture Tract: 2530 510 Maintain perennial grasses or Legume -grass mixture by annual fertilization and mowing. Planned Field Amount Month Year Applied Amount Date 4 4 ac-ft 12 1989 4 ac-ft 2/5/1989 5 25.4 ac-ft 1 12 1989 25.4 ac-ft 2/5/1989 9 4.5 ac-ft 12 1989 4.5 ac-ft 2/5/1989 10 4.5 ac-ft 12 1989 4.5 ac-ft 2/5/1989 11 20.6 ac-ft 12 1989 20.6 ac-ft 2/5/1989 Total: 59 ac-ft 59 ac-ft 4/23/2007 Page 4 of 7 Forage Harvest Management Maintain perennial grasses or Legume -grass mixture by annual fertilization and mowing. Planned Field Amount Month Year Applied Amount Date 21 4.2 ac 121 1989 4.2 ac 2/5/1989 Total: 1 4.2 ac 1 4.2 ac Nutrient Management Manage the amount, form, placement and timing of plant nutrient application. Planned Field Amount Month Year Applied Amount Date 2 4.2 ac 5 2007 4 4 ac 5 2007 5 25.4 ac 5 2007 9 4.5 ac 5 2007 10 4.5 ac 5 2007 11 20.6 ac 5 2007 Total: 63.2 ac Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Field Amount Month Year Applied Amount Date 2 4.2 ac 9 2003 4 4 ac 9 2003 5 25.4 ac 9 2003 9 4.5 ac 9 2003 10 4.5 ac 9 2003 11 20.6 ac 9 2003 Total: 63.2 ac Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year Applied Amount Date 2 4.2 ac 9 2003 4.2 ac 3/1/2004 4 4 ac 9 2003 4 ac 3/1/2004 5 25.4 ac 9 2003 25.4 ac 3/1/2004 9 4.5 ac 9 2003 4.5 ac 3/1/2004 10 4.5 ac 9 2003 4.5 ac 3/1/2004 11 20.6 ac 9 2003 1 20.6 ac 3/1/2004 Total: 63.2 ac 63.2 ac 4/23/2007 Page 5 of 7 Waste Utilization Use organic waste material in an environmentally safe manner to enrich soil fertility. Planned Field Amount Month Year Applied Amount Date 2 4.2 ac 5 2007 4 4 ac 5 2007 5 25.4 ac 5 2007 9 4.5 ac 5 2007 10 4.5 ac 5 2007 11 20.6 ac 51 2007 Total: 63.2 ac Watering Facility A trough or tank, with needed devices for water control and waste water disposal, installed to provide drinking water for livestock, according to NRCS specifications. Planned Field Amount Month Year Applied Amount Date 51 1 no 1 61 2003 Total:1 1 no 4/23/2007 Page 6 of 7 CERTIFICATION OF PARTICIPANTS R Y W CRA ORD DATE CERTIFICATION OF: ENVIRONMENTAL SPECIALIST CONSERVATION DISTRICT o-gyto lr 61 CARL HENRY TZ R DATE CHATHAM SOIL & WATER CONS DATE PUBLIC BURDEN STATEMENT According to the Paperwork Reduction Act of 1995, an agency may not conduct or sponsor, and a person is not required to respond to a collection of information unless it displays a valid OMB control number. The valid OMB control number for this information collections is 0578-0013. The time required to complete this information collection is estimated to average 4510.75 minutes per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection information. PRIVACY ACT 'The above statements are made in accordance with the Privacy Act of 1974 (5 U.S.0 522a). Furnishing this information is voluntary; however failure to furnish correct, complete information will result in the withholding or withdrawal of such technical or financial assistance. The information may be furnished to other USDA agencies, the Internal Revenue Service, the Department of Justice, or other state or federal law enforcement agencies, or in response to orders of a court, magistrate, or administrative tribunal. USDA NON-DISCRIMINATION STATEMENT "The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, family status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, DC 20250-9410 call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer." 4/23/2007 Page 7 of 7 -,131 N R C S Natural Resources Conservation Service PITTSBORO SERVICE CENTER 45 SOUTH ST STE 1 PITTSBORO, NC 27312-5684 9195422244 ext. 100 Conservation Plan JERRY W CRAWFORD 4085 CRAWFORD DAIRY RD CHAPEL HILL, NC 27516 CARL HENRY OUTZ JR ENVIRONMENTAL SPECIALIST Crop Tract: 2533 329 Conservation tilled row crops will be planted with a minimum of 50% ground cover remaining on the soil surface after planting. Planned Field Amount Month Year Applied Amount Date 1 19.8 ac-ft 71 2001 19.8 ac-ft 7/2/2001 2 25.4 ac-ft 71 2001 25.4 ac-ft 7/2/2001 Total: 45.2 ac-ft 1 45.2 ac-ft Conservation Crop Rotation Begin a two year cropping system of first year conservation tilled row crops followed by small grain and double cropped conservation tilled row crops the second year. Planned Field Amount Month Year Applied Amount Date 1 19.8 ac 71 2001 19.8 ac 7/2/2001 2 25.4 ac 71 2001 25.4 ac 7/2/2001 Total: 45.2 ac 1 45.2 ac Grassed Waterway Maintain existing grassed waterways by annual fertilization and mowing. Repair all gullies and bare areas as needed with sod or by reseeding. Planned Field Amount Month Year Applied Amount Date 1 0.5 ac 121 1991 0.5 ac 7/24/1991 Total: 0.5 ac 1 0.5 ac 4/23/2007 Page 1 of 3 Nutrient Management Manage the amount, form, placement and timing of plant nutrient application. Planned Field Amount Month Year Applied Amount Date 1 19.8 ac 51 2007 2 25.4 ac 51 2007 Total: 45.2 ac Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Applied Field Amount Month Year Amount Date 1 19.8 ac 91 2003 2 25.4 ac 91 2003 Total: 45.2 ac Residue Management, Seasonal Maintain at least a 30% ground cover of plant residue on the soil surface from harvest until 30 days before the succeeding crop is planted. Planned Field Amount Month Year Applied Amount Date 1 19.8 ac 71 2001 19.8 ac 7/2/2001 2 25.4 ac 7 2001 25.4 ac 7/2/2001 Total: 45.2 ac 45.2 ac Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year Applied Amount Date 1 19.8 ac 9 2003 19.8 ac 3/1 /2004 2 25.4 ac 9 2003 25.4 ac 3/1/2004 Total: 45.2 ac 45.2 ac Waste Utilization Use organic waste material in an environmentally safe manner to enrich soil fertility. Planned Field Amount Month Year Applied Amount Date 1 19.8 ac 51 2007 2 25.4 ac 51 2007 Total: 45.2 ac 4/23/2007 Page 2 of 3 CERTIFICATION OF PARTICIPANTS Z./ ,�'ER6YWCRAVfORd DATE CERTIFICATION OF: ENVIRONMENTAL SPECIALIST ` t1a-� .i 1A CARL HENRY okJTZ R DATE CONSERVATION DISTRICT CHATHAM SOIL & WATER CONS DATE PUBLIC BURDEN STATEMENT According to the Paperwork Reduction Act of 1995, an agency may not conduct or sponsor, and a person is not required to respond to a collection of information unless it displays a valid OMB control number. The valid OMB control number for this information collections is 0578-0013. The time required to complete this information collection is estimated to average 4510.75 minutes per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection information. PRIVACY ACT The above statements are made in accordance with the Privacy Act of 1974 (5 U.S.0 522a). Furnishing this information is voluntary; however failure to furnish correct, complete information will result in the withholding or withdrawal of such technical or financial assistance. The information may be furnished to other USDA agencies, the Internal Revenue Service, the Department of Justice, or other state or federal law enforcement agencies, or in response to orders of a court, magistrate, or administrative tribunal. USDA NON-DISCRIMINATION STATEMENT "The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, family status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, DC 20250-9410 1 call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer." 4/23/2007 Page 3 of 3 4.� I V RCSPITTSBORO SERVICE CENTER CARL HENRY OUTZ JR Natural 45 SOUTH ST STE 1 ENVIRONMENTAL SPECIALIST Conserves Conservation PITTSBORO NC 27312-5684 Service 9195422244 ext. 100 Conservation Plan F JERRY W CRAWFORD 4085 CRAWFORD DAIRY RD CHAPEL HILL, NC 27516 Crop Tract: 312 1 Conservation Crop Rotation Grow crops in a planned rotation for biodiversity and to provide adequate amounts of organic material for erosion reduction, nutrient balance and sustained soil organic matter. Planned Field Amount Month Year Applied Amount Date 4 15 ac 5 2007 6 14.9 ac 5 2007 7 17.9 ac 5 2007 Total: 47.8 ac Nutrient Management Manage the amount, form, placement and timing of plant nutrient application. Planned Field Amount Month Year Applied Amount Date 6 14.9 ac 51 2007 7 17.9 ac 51 2007 Total: 32.8 ac Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Field Amount Month Year Applied Amount Date 41 15 ac 91 2003 Total: 1 15 ac 4/20/2007 Page 1 of 4 Residue and Tillage Management, No-Till/Strip Till/Direct Seed Manage organic residue so maximum amounts are left on the soil surface on a year-round basis. Plant crops in narrow slots or narrow tilled strips in previously untilled soil. Planned Field Amount Month Year Applied Amount Date 4 15 ac 5 2007 6 14.9 ac 5 2007 7 17.9 ac 5 2007 Total: 47.8 ac Residue Management, Seasonal Manage amount, orientation and distribution of organic residue to maximize soil protection until immediately prior to planting the following crop. Planned Field Amount Month Year Applied Amount Date 4 15 ac 5 2007 6 14.9 ac 5 2007 7 17.9 ac 5 2007 Total: 47.8 ac Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year Applied Amount Date 41 15 ac 1 91 2003 15 ac 3/1/2004 Total: 15 ac 15 ac Waste Utilization Use organic waste material in an environmentally safe manner to enrich soil fertility. Planned Field Amount Month Year Applied Amount Date 6 14.9 ac 51 2007 7 17.9 ac 51 2007 Total: 32.8 ac Pasture Tract: 312 4/20/2007 Page 2 of 4 Forage Harvest Management Cutting and removal of forages from the field as hay, greenchop, of ensilage. Planned Field Amount Month Year Applied Amount Date 1 2.4 ac 5 2007 2 24.3 ac 5 2007 3 8.7 ac 5 2007 5 5 ac 5 2007 8 14.6 ac 5 2007 Total: 55 ac Nutrient Management Manage the amount, form, placement, and timing of fertilizer in this (these) field(s). Accomplish this management by conducting an inventory of nutrients already on your farm and comparing them against the realistic needs of the crops you grow. Realisti Planned Field Amount Month Year Applied Amount Date 1 2.4 ac 9 2003 2 24.3 ac 9 2003 3 8.7 ac 9 2003 5 5 ac 9 2003 81 14.6 ac 9 2003 Total:1 55 ac Waste Utilization Apply dairy waste according to soil test and waste analysis. Broadcast dairy waste on fields in accordance to required nutrients shown on soil test for selected crops or in waste utilization plan. Incorporate by disking into soil within two days. Split Planned Field Amount Month Year Applied Amount Date 1 2.4 ac 9 2003 2.4 ac 3/1/2004 2 24.3 ac 9 2003 24.2 ac 3/1/2004 3 8.7 ac 9 2003 8.7 ac 3/1/2004 5 5 ac 9 2003 5 ac 3/1/2004 8 14.6 ac 9 2003 14.6 ac 3/1/2004 Total: 55 ac 1 54.9 ac 4/20/2007 Page 3 of 4 CERTIFICATION OF PARTICIPANTS 1 R;YE"Y W CRAW R DATE CERTIFICATION OF: ENVIRONMENTAL SPECIALIST CONSERVATION DISTRICT - tQ CARL HENRY OLITZ JR DATE CHATHAM SOIL & WATER CONS DATE PUBLIC BURDEN STATEMENT According to the Paperwork Reduction Act of 1996, an agency may not conduct or sponsor, and a person is not required to respond to a collection of information unless it displays a valid OMB control number. The valid OMB control number for this information collections is 0578-0013. The time required to complete this information collection is estimated to average 45/0.75 minutes per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection information. PRIVACY ACT The above statements are made in accordance with the Privacy Act of 1974 (5 U.S.0 522a). Furnishing this information is voluntary; however failure to furnish correct, complete information will result in the withholding or withdrawal of such technical or financial assistance. The information may be furnished to other USDA agencies, the Internal Revenue Service, the Department of Justice, or other state or federal law enforcement agencies, or in response to orders of a court, magistrate, or administrative tribunal. USDA NON-DISCRIMINATION STATEMENT "The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, family status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or a part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, DC 20250-9410 or call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer." 4/20/2007 Page 4 of 4 G 1 ---------------------------------------------------------------------------- DAIRY WASTE STORAGE POND WORKSHEET (DAIRYWSP 1.1, 1/97 by P. Crawford) ---------------------------------------------------------------------------- NOTES: Jerry Crawford Design Worksheet for: Jerry Crawford In Chatham County, North Carolina Date: Monday, 9/30/2002 1. Waste Generated: 177 Cows x 1.95 cu.ft/cow/day x 90 Days x 75 % confinement / 100 23298 cu.ft. 0 Heifers x 1.40 cu.ft./heifer/day x 90 Days x 75 % confinement / 100 0 cu.ft. 2. Wash Water: (5.0 gals./day/cow) / (7.48 gals./cu.ft.) x 177 cows x 90 Days = 10648 cu.ft. 3. Lot Run-off (Nov.- Apr.): 7.9" / 12" x 17224 sq. ft. = 11382 cu.ft. 4. Undiverted Area Run-off (Nov.- Apr.): 7.9" / 12" x 13086 sq. ft. = 8615 cu.ft. 5. Excess Rainfall on Waste Storage Pond: 145.0 ft. length x 101.0 ft. width = 14645 sq. ft. 14645 sq. ft. x 9.2 in. /12 in. = 11252 cu.ft. 6. 25-year 24-hour Storm on Feedlot: 6.4" / 12" x 17224 sq. ft. = 9186 cu.ft. 7. 25-year 24-hour Storm on Outside Undiverted Area: 6.4" / 12" x 13086 sq. ft. = 6979 cu.ft. 8. 25-year 24-hour Storm on Waste Storage Pond: 6.4" / 12" x 14645 sq. ft. 7811 cu.ft. TOTAL STORAGE VOLUME = 87536 cu.ft. 654767 gal. Storage Volume for the 25 year - 24 hour Storm = 23976 cu.ft. Storage Volume at "Begin Pump" Elevation = 63560 cu 2 DESIGN FOR: Jerry Crawford In Chatham County, North Carolina Date: Monday, 9/30/2002 ---------------------- ------------- c. q'y ------------------- t( WASTE AND RAINFALL DESIGN DETAILS hpfS }y.Qa-q-� CPu�u4+j ------------------------------------------------------- NOTES : Jerry Crawford WASTE PRODUCTION: r7, aaA 177 Number of Cows o'&iea W-A 0 Number of Heifers 3 months of Waste Storage in WSP 75 % Time Confined to Lot 1.95 cu.ft./animal/day Cow Waste 1.40 cu.ft./animal/day Heifer Waste, 5.0 gal/day/cow Wash Water 90 days of Waste Storage in WSP 23298 cu.ft. Volume of Cow Waste for Stor. Period 0 cu.ft. Volume of Heifer Waste for Stor. Period 10648 cu.ft. Wash Water to Store for Stor. Period 87536 cu.ft. Total Volume including Rain Water 654767 gal. Total Volume including Rain Water RAINFALL AND RUNOFF: DRAINAGE AREAS: 17224 sq. ft. Lot Drainage Area 13086 sq. ft. of Other Undiverted Drainage Area 14645 sq. ft. Surface Area Of WSP STORAGE -PERIOD RAIN WATER: 7.9 in. Normal Lot Runoff (36"/year or 1811/6-mo. for impery 7.9 In. Normal Runoff from Undiverted Area 9.2 in. Excess Rainfall on Pond (Rainfall Less Evaporation) 11382 cu.ft. Water from Normal Lot Runoff 6979 cu.ft. Water from Other Undiverted Drainage Area 11252 cu.ft. Excess Rain Water on Pond 25-YEAR 24-HOUR STORM WATER: 6.4 in. Lot Runoff from 25-year 24-hour Storm 6.4 in. Undiverted Runoff from 25-year 24-hour Storm 6.4 in. Rainfall on Pond from 25-year 24-hour Storm 9186 cu.ft. Lot Water from 25-year 24-hour Storm 6979 cu.ft. Undiverted Water from 25-year 24-hour Storm 7811 cu.ft. Water on Pond from 25-year 24-hour Storm 23976 cu.ft. All Water from 25-year 24-hour Storm lots) 3 DESIGN FOR: Jerry Crawford In Chatham County, North Carolina Date: Monday, 9/30/2002 ------------------------------------------------------------------------ WASTE STORAGE POND DESIGN ------------------------------------------------------------------------ NOTES: Jerry Crawford WASTE STORAGE POND DESIGN: 87536 cu.ft. Total Storage Vol to ESW Crest 8.9 ft. Pond Depth from Bottom to ESW Crest 1.0 ft. Depth from ESW Crest to Top of Dam 1.0 ft. Required Freeboard 2.0 ft./ft. Inside Side Slope 145 ft. Top -of -Dam Length 101 ft. Top -of -Dam Width 106 ft. Length of Bottom 62 ft. Width of Bottom 13677.0 sq.ft. Top Area for Prismoidal Formula 9772.7 sq.ft. Mid Area for Prismoidal Formula 6496.8 sq.ft. Bottom Area for Prismoidal Formula 0.31 ac. Pond Surface Acreage EMERGENCY SPWY DESIGN: 0.0 cfs Peak Discharge through Emergency Spillway 4.0 f/s Max. Velocity in Emergency Spillway 12 ft. ESW Bottom Width (Assume 3:1 Side Slopes) 0.0 ft. Design flow Depth in ESW (Based on A = Q/V) "START PUMP" DEPTH: 7.0 ft. Deep at "Begin Pump" Elev. 63560 cu.ft. Volume at "Begin Pump" Elev. 475426 Gal. Volume at "Begin Pump" Elev. 134 ft. Long at "Begin Pump" Elev. 90 ft. Wide at "Begin Pump" Elev. 106 ft. Long at Bottom 62 ft. Wide at Bottom 11950.7 sq.ft. Top Area for Prismoidal Formula 9028.3 sq.ft. Mid Area for Prismoidal Formula 6496.8 sq.ft. Bottom Area for Prismoidal Formula 2.0 ft./ft. Inside Side Slope CLAY LINER DESIGN (if Required): (See Tech. Note 716, Rev 1) 0.023 ft./day Specific Liner Discharge (v) 0.003 ft./day Hydraulic Conductivity of Liner (k) 1.5 ft. Lining Thickness Note: Volumes computed using the Prismoidal Formula: Volume = depth/6[(area of top)+(4 x area of midsect ion)+ (area of bottom)] 4 DESIGN FOR: Jerry Crawford In Chatham County, North Carolina Date: Monday, 9/30/2002 ---------------------------------------------------------------------------- WASTE STORAGE POND DIMENSIONS (DAIRYWSP 1.1, 1/97 by P.Crawford) NOTES: Jerry Crawford \ pool / embankment \ CROSS SECTION OF STRUCTURE I 1 2,0 ti EPERT-ER7 1�5 STORAGE U[L, = 87536 .... .......................... s 8,9 1 186 f 63 STRUCTURE DIMENSIONS 1,0 Top El. 100.00 ESW Crest El. 99.00 St.Pump El. 97.13 Bottom El. 90.14 Liner Cut El. 88.64 Note: Volumes computed using the Prismoidal Formula: Volume = depth/6[(area of top)+(area of bottom)+(4 x area of midsection)] State of North Carolina Depart, nt of Environment and Natur:: Zesources Division of Water Quality Animal Waste Management Systems Request for Renewal of Existing Certificate of Coverage for State Non -Discharge Permit The following questions have been completed utilizing information on file with the Division. Please review the information for completeness and make any corrections that are appropriate. If a question has not been completed by the Division, please answer it to the best of your ability. Do not leave any question unanswered. 1 Facility Number.: 19 - 20 or Permit Number: AWC190020 2 Facility Name: Crawford Dairy 3 Landowner's name (must match the name on the Certified Animal Waste Management Plan): Jerry Ward Crawford 4 Landowner's Mailing address: 4085 Crawford Dairy Rd City, State: Chapel Hill NC Telephone Number (include area code): 919-929-6869 5 County where facility is located: Chatham 6 Farm Manager's name (if different from Landowner): 7 Farm Manager's telephone number (include area code): 8 Number and Type of Animals: (example: 2000 Feeder to Finish Swine) r' tt Zip: 27516 Submit a copy of the most recent Waste Utilization Plan with this application. The Waste Utilization Plan must be signed by the owner and a technical specialist. I attest that this application has been reviewed by me and is accurate and complete to the best of my knowledge. I understand that if all required parts of this application are not completed and that if all required supporting information and attachments are not included, this application package will be returned to me as incomplete. Note: In accordance with NC General Statutes 143-215.6A and 143- 215.6B, any person who knowingly makes any false statement, representation, or certification in any application may be subject to civil penalties up to $25,000 per violation. Printed Name of Signing Official (Landowner, or if multiple Landowners all landowners should sign. If Landowner is a corporation signature should be by a principal executive officer of the corporation): Name: lI rA;��r Title: d tV r� t,--- Signature: Date: / - 3 0- o-3 THE COMPLE D APPLICATION SHOULD BE SENT TO THE FOLLOWING ADDRESS: NORTH CAROLINA DIVISION OF WATER QUALITY WATER QUALITY SECTION NON -DISCHARGE PERMITTING UNIT 1617 MAIL SERVICE CENTER RALEIGH, NORTH CAROLINA 27699-1617 Request for Renewal COC Certification Amendment for Cattle Facilities n Facility Number ' OU Facility Name Number of Animals Facility is Certified for `7 % Date of Certification '31 3JC)&3 Please indicate the maximum number of animals that your animal waste management system is designed to accommodate: Dairy Milking+dry cows 40 Cja�o Heifers Calves Beef Brood Cows Feeders Stockers TOTAL ANIMAL NUMBER ** If this total is equal to the number that your facility is certified for, you do not need to complete the rest of this form. If the above total number of animals is different than your certified number but it is what your technical specialist evaluated when your facility was certified, please have your technical specialist amend the certification by completing the section below. If your facility was not previously evaluated and certified for the maximum design capacity, you must have a technical specialist re -certify your facility. Your certification number should be the maximum number of animals (cows, heifers, calves, etc.) that your animal waste management system can accommodate. Please use the space below to describe the operation. wr;l�_n -m 56 L7?c0uA6 90 Qr 164, 4 Ll s zw cd 4C� e �c� ! 2 7 Cot,-dd — 90 . Amended Certification (only needed if the incorrect number of animals was previously certified): By signing this you are certifying that the animal waste management system at this facility has been evaluated for the maximum number of animals that it can appropriately accommodate; however, the original certification did not correctly represent this number (shown above as Total Animal Number). Farm owner/applicant Signature Date Farm manager (if applica �e) Signature Date Technical Specialist �/c3c/ d 3 Signature 6d � Date Phone Number -5-4S - 3 Animal Waste Management Plan Certification (Please type or print all information that does not require a signature) JExistinQ or New or Expanded (please circle one) I General Information: Name of Farm: C 1-LArA Facility No: �_-- QO O%vner(s) Name: LX)PV z1 CVaAA Sanr4 Phone No: R{4-5a9 -48(9 Mal I in sr Address: 40BE C.r'cu"At-J bain, CJAAp� Farm Location: Count-,- Farm is located in: CkA+- Ay, Latitude and Lonsitude: / PIease attach a copy of a county road map with location identified and describe below (Be specific: road names, directions, milepost, etc.): Oaeration Description: i ype of Sirine No. of Animals :! Wean to Feeder Z! Feeder to Finish J Farrow to Wean J Farrow- to Feeder Z� Farrow to Finish Type of Poultn• No. of Animals Laver r i Pullets Orher.Tpe of Livestock:. Type of Cattle No. of Animals t. Dairy 7 Z) Beef Number of Animals: Expanding Operation Only Pretiious,besign Capacity: Additional Desi,n Capacity: Total Desi.;n Capacin•: Acreage Available for Application: Required Acreage: ( D Number of Lagoons / Storage Ponds :�_ Total Cap aci 1 , I _ Cubic Feet (ft3) Are subsurface drains present on the farm: ,YES or NO (please circle one) If YES: are subsurface drains present in the area of the LAGOON or SPRAY FIELD (please circle one) $iesciexieieXieieieic$acieieXcxe�cic�!cxeacieaeyc�t$$:k$$$$$$$$$*=r�cz3e$$ac$$$7c�cae�$Xc�tisieicieycicic$�e3e;t'$Xicieyc�e3e:!cx$$$$yt�e�c O-* ner % illanager Agreement I (we) verify that all the above information is correct and will be updated upon changing. I (we) understand the operation and maintenance procedures established in the approved animal waste management plan'for the farm named above and will implement these procedures. I (we) know that any expansion to the existing design capacity of the waste treatment and storage system or construction of new facilities will require a new certification to be submitted to the Division of Environmental Management before the new animals are stocked. I (we) understand that there must be no discharge of animal waste from the storage or application system to surface waters of the state either directl%- through a man-made convevance or from a storm event less severe than the 25-v=. 24-hour storm and there must not be run-off from the application of animal waste. I (we) understand that run-off of pollutants from lounging and heavy use areas must be minimized using technical standards developed b%- the Natural Resources Conservation Service. The appr--+ved plan will be filed at the farm and at the office of the local Soil and Water Conservation District. I t.w-e) know that any -modification must be approyed.by,a technical specialist and submitted to the Soil and Water Consern-ation District prior to implementation. A shame in land ownership requires %vrittzn notification to DEM or a nev; certification of the approved plan is chanced) within 60 days of a tide transfer. Name of Land Owner Jerry LJ O.A C.r•n,w-povd, Si,_lrnature: Name of 10 ta Si -nature: ri if uiftZC`n� ro�<< owner): Date: -.21'0 Date: ��'C -- Januor. 1.1097 D). Rpiicatinn and Han, _ ,ig Equipment Check the appropriate box ,SI Existing or exvandine facility with existing waste application equipment (W' P or I) .minimal waste application equipment specified in the plan has been either field calibrated or evaluated in accordance with existing design charts and tables and is able to apply waste as necessary to accommodate the waste management plan (existing application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates, a schedule for timing of applications has been established; required buffers can be maintained and calibradon and adjustment guidance are contained as pan of the plan.). C1 tielx% expanded. or existing facility without existing wage application eauioment for spray irrigation. (I) Animal waste application equipment specified in the plan has been designed to apply waste as necessar-✓ to accommodate the waste management plan: (proposed application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loading rates: a schedule for timing of applications has been established; required buffers can be maintained; calibration.and ad' ustment guidance are contained as part of the plan). .J New. expanded. or existing facility without existing waste application equipment for land spreading not using surav irrigation. (Vv"CiP or I) Animal waste application equipment specified in the plan has been- selected to apply waste as necessary to accommodate the waste management plan; (proposed application equipment can cover the area required by the plan at rates not to exceed either the specified hydraulic or nutrient loadine rates; a schedule for timing of applications has been established; required buffers can be maintained; calibration and adjustment guidance are contained as pan of the plan). ` Name of Technical Specialist (Please Print): __L� r ter-t.� �Z, 7t' Affili Addr( S igna E) Odor Control. Insect Control. it-iortality Mana%ement and Emergency Action Plan (SD SI. NVUP. RC or I) The waste management plan for this facility includes a Waste Management Odor Control Checklist, an Insect Control Checklist a Mortality Management Checklist and an'Emeigency Action Plan. Sources of both odors and insects have been evaluated with respect to this site and Best Management Practices to Minimize Odors and Best Nlanagement`Practices to Control Insects have been selected and included in the waste management plan. Both the N-fortality Management Plan and the Emergency Ac on Plan are complete and can be implemented by this facility. Name of Technical Specialist (Please Print): Mr[ �N�rc.t_. -�-� -Jr-. Affiliation: Signature: gone No.: 19 - 54.5 -835 ate: al F) Written Notice of NeNv or Expanding. Swine Farm The follo►lin; signature block is only to be used for new or expanding s«-ine farms that begin construction after June 21, 1996. If the facility was built before June 21,1996, when was it constructed or last expanded I (we) certify that I (we) have attempted to contact by certified mail all adjoining property owners and ail property owners who own property located across a public road. street. or hichway from this nev- or expanding swine farm. The notice was in compliance with the requirements of `CGS I06-SO5. A zopy of the notice and a Iist of the propeny owners notified is attached. -Nance of Land ONvner : Signature: -Name of Nlana,-,er(if different from o%vner is Si -,nature Al \ C -- January- I. 1997 Date: Date: C) Runoff Controls from �erior Lots (RC) Facility, with exterior lots Methods to minimize the run off of pollutants from lounging and heavy use areas have been installed as specified in the plan. For facilities without exterior lots, no certification is necessary. Name of Technical Specialist (Please Print): Ar Affiliation: NA4-LV..,. "<c,.', 1 "",LA [ t ` ,I r. Address (Agency): -P..o. >3� _?�9�"S bares IBC3t2Phone No.: 9t4- 5�s_ S3 Signature: __Date: �..t 10 D) Aplication and Handling Equipment Installation (WVP or I) Check the appropriate block !� Animal waste application and handling equipment specified in the plan is on site and ready for use; calibration and adjustment materials have been provided to the owners and are contained as pan of the plan. J Animal waste application and handling equipment specified in the plan has not been installed but the owner has proposed leasing or third party application and has provided a signed contract; equipment specified in the contract agrees with the requirements of the plan; required buffers can be maintained: calibration and adjustment guidance have been provided to the owners and are contained as par of the plan. J Conditional approval: Animal waste application and handling equipment specified in the planhas been purchased and will be on site and installed by (month/day/year); there is adequate storage to hold the waste until the equipmen[ is installed and until the waste can be land applied in accordance with the cropping system contained in the plan. and calibration and adjustment guidance have been provided to the owners and are contained as part of the plan. ILL r .. Name of Technical Specialist (Please Pant): Affiliation: Address(AQency): D. a Roy- 20-9 �; {- S Lcm lik 17.3 Phone NO.: ni 0-949 - Sianature: Date: 3LDLL i The following signature block is only to be used when the box for conditional approval in III D above has been checked. I (eve) certify that I (we have committed to purchase the -animal waste application and handling equipment as specified in my (our) waste management plan and will submit to DEM a verification of delivery and installation from a Technical Specialist within 15 calendar days following the date specified in the conditional certification. I (we) realize that failure to submit this verification is a violation of the waste management plan and will subject me (us) to an enforcement action from DEM. r Name of Land Owner: Signature: Date: Name of 11ana'er(if different from owner): Signature: Date: E) Odor Control. Insect Control and 'Mortality Management (SD. SI.WL;P. RC or 1) Methods to control odors and insects as specified in the Plan have been installed and are operational. The mortality mana_etneat systern as specified in the Plan has also been installed and is operational. \ame of Technical,,S{{pecialist (Please Print): atfiliation�: 't'�� >��lc VI Si«n.:ture: (tL. l rL.t R!!'hcne No.: trig- SUq-a35:3 Date: at d3 _kwc .- January 1. 1997 The purpose of this plan is to' provide guidelines for carrying out the routine maintenance work needed to keep the waste storage pond operating as planned. Routine maintenance is considered to be normal good care of the waste storage pond and the surrounding area. Good maintenance adds to the usefullness and permanence of the facility. The routine maintenance of this.waste storage pond involves but is not limited to the following: 1. Maintenance of a vegetative cover on the embankment and the surrounding areas: `%a.5 Ad is being established on these areas. Beginning inrn6Cr and each year thereafter, the embankment and surroundi.nq areas should be fertilized with 15OIb% pounds of /0-10-/0 or inch of effluent from the waste storage pond per acre to maintain a vigorous stand. 2. Control of weeds, brush and trees in the grassed spillway and on the embankment: This may be done by mowing, spraying, or chopping, or a combination of all three. This will be done at least once each year and possibly twice in those years favorable to a heavy growth of vegetation. The local Extension Agent or SCS office can supply the latest information on spray materials and the best time to apply them. 3. Protection of the grass on the embankment and surrounding areas: -Uncontrolled vehicular traffic can create trails or ruts. Runoff from storms can enlarge these ruts into gullies. If ruts appear to be forming, stop the traffic doing the damage. 4. At the end of the designed storaged period 11-7 days, it will be necessary to completely empty this storage facility. .This. will be . accomplished by agitating, hauling and applying the effluent onto' designated areas as noted on the Waste Utilization Plan Map. Spring and early fall applications will maximize the fertillizer benefit of the effluent. A marker will be used in the waste storage pond to show when the maximum- liquid level is reached. 5. Maintenance inspections of this facility should be made during the initial filling, at least annually, and after every major storm event. 1. Embankment a. settlement, cracking or "jug" holes b. side slope stability- slumps or bulges c. erosion and/or wave action d. rodent damage e. seepage or other leakage f. condition of vegetative cover 2. Reservoir Area a. undesirable vegetative growth b. undesirable floating debris c. check liquid level to determine if disposal of effluent is needed 3. Fences and Gates a. loose or damaged posts b. loose or broken wires c. open or damaged gates 6. Additional specific items of importance for the maintenance this structure are: Nutrient Management Plan For Animal Waste Utilization This plan has been prepared for: Howard & Jerry Crawford Jerry Crawford 4085 Crawford Dairy Rd Chapel Hill, NC 27516 929-6869 04-11-2007 This plan has been developed by: Carl Henry Outz Jr. Chatham Soil and Water Conservation Dist P. O. Box 309 Pittsboro, NC 27312 919-545-8353 r Developer Signature Type of Plan: Nutrient Management with Both Manure and Fertilizer Owner/Manager/Producer Agreement I (we) understand and agree to the specifications and the operation and maintenance procedures established in this nutrient management plan which includes an animal waste utilization plan for the farm named above. I have read and understand the Required Specifications concerning anima] waste management that are included with this plan. 9 Signature (owne Date Signature (manager or producer) Date This plan meets the minimum standards and specifications of the U.S. Department of Agriculture - Natural Resources Conservation Service or the standard of practices adopted by the Soil and Water Conservation Commission. Plan Approved By: rD4 � L, ) a,410i Technical Specialist Signature Date ----------------------------------------------------------------------------- --------------------------------- 289359 Database Version 3.1 Date Printed: 04-11-2007 Cover Page 1 Nutrients applied in accordance with this plan will be supplied from the following source(s): Commercial Fertilizer is included in this plan. S39 Dairy (Heifer) Liquid Manure Slurry waste generated 979,695 gals/year by a 177 animal Dairy (Heifer) Liquid Manure Slurry operation. This production facility has waste storage capacities of approximately 90 days. Estimated Pounds of Plant Available Nitrogen Generated per Year Broadcast 9698 Incorporated 13225 Injected 14988 Irrigated 8817 Max. Avail. PAN (lbs) * Actual PAN Applied (lbs) PAN Surplus/ Deficit (lbs) Actual Volume Applied (Gallons) Volume Surplus/ Deficit (Gallons) Year 1 9,698 52608 -42,910 5,314,490 -4,334,795 Year 2 9,698 48012 -38,314 4,850,064 -3,870,369 ------------------------ - - - - - - - - -------------------- -- Note: In source ID, S means standard source, U means user defined source. * Max. Available PAN is calculated on the basis of the actual application method(s) identified in the plan for this source. Preview Database Version 3.1 Date Printed: 04-20-2007 Source Page Page 1 of 1 Narrative 1. Average acreage planted to soybeans is five to ten acres. Average acreage planted to corn silage is one hundred to one hundred and ten acres. Cropping rotation used by Crawford Dairy Farm is row crop followed by cover crop followed by row crop. Corn is the major row crop planted with soybeans being the secondary row crop. Small grain used in this cropping rotation may be harvested for grain, hayed, or cut for silage. When small grain is harvested for grain the residue may be baled for hay or left as ground cover for a conservation tillage row crop. When the small grain is left on the soil surface as residue for a conservation tillage row crop, the nitrogen that was applied to that crop cannot be counted as utilized and will need to be subtracted from the following crops nitrogen application amount. 2. Application rates have been reduced by 25% on grassland being grazed. When applying animal waste, Senate Bill 1217 requires a 25% reduction in nitrogen applied on grazed fields. 3. Nitrogen applications should not exceed one hundred pounds of nitrogen per application. If more nitrogen is required by the crop, the additional nitrogen will need to be applied at a later date. 4. Removal of waste must start when the start pump marker is first covered by waste. 5. The present cropping sequence used on Crawford Dairy Farm is row crop followed by small grain followed by row crop. This cropping sequence may vary because of the farm's present needs, previous year yields, conditions of crops presently planted, weather condition at present and during previous year, and soil conditions. Row crop fields are constantly being rotated, the above factors determine what type of crop will be planted in the upcoming year, and where it will be planted. 6. Buffer acreage has been fiquired for all tracts receiving waste, the following fields have had the following acreage removed for buffers. Tract 2530 field 11 .7 ac Tract 2530 field 12 .5 ac Tract 2359 field 1 .6 ac Tract 2359 field 2 .5 ac Tract 2358 field 2 .7 ac Tract 2533 field 1 .2 ac Tract 2533 field 2 .9 ac 7. Residual nitrogen is accounted for at an application rate of 50 pounds per acre. 8. Waste application method is broadcast with a honeywagon. 9. If a crop is planted that is not listed in the waste management plan, use the realistic yield tables included on the preceding pages to pages to determine the nitrogen application rate. 10. Crops that are planted after soybeans shall have the residual nitrogen from the soybeans crop, deducted from the present crops nitrogen application rate. The average residual nitrogen amount for soybeans is thiry pounds of nitorgen per acre. --------------------------------------------- - -----g---------- 289359 Database Version 3.1 Date Printed: 04-11-2007 Narrative Page Page 1 of 1 The table shown below provides a summary of the crops or rotations included in this plan for each field. Realistic Yield estimates are also provided for each crop, as well as the crop's P205 Removal Rate. The Leaching Index (LI) and the Phosphorous Loss Assessment Tool (PLAT) Rating are also provided for each field, where available. If a field's PLAT Rating is High, any planned manure application is limited to the phosphorous removal rate of the harvested plant biomass for the crop rotation or multiple years in the crop sequence. Fields with a Very High PLAT Rating should receive no additional applications of manure. Regardless of the PLAT rating, starter fertilizers may be recommended in accordance with North Carolina State University guidelines or recommendations. The quantity of P205 applied to each crop is shown in the following table if the field's PLAT rating is High or Very High. Planned Crops Summary Tract Field Total Acres Useable Acres Plat Rating LI Soil Series Crop Sequence RYE P205 Removal (lbs/acre) Applied (lbs/acre) 2346 1 10.88 10.88 Low 15.0 Wedowee Fescue Pasture *3.0 Tons 5 N/A Fescue Pasture *3.0 Tons 5 N/A 2346 2 37.37 37.37 Low 15.0 Wedowee Fescue Pasture *3.0 Tons 5 N/A Fescue Pasture *3.0 Tons 5 N/A 2358 1 22.92 22.92 Medium 15.0 Georgeville Com, Silage 22.5 Tons 77 N/A Small Grain, Silage 10.8 Tons 58 N/A Soybeans, Double Crop *41 bu. 33 N/A 2358 2 7.93 7.93 Medium 15.0 Hemdon Com, Silage 22.5 Tons 77 N/A Small Grain, Silage 10.8 Tons 58 N/A Soybeans, Double Crop *41 bu. 33 N/A 2359 1 8.76 8.76 Medium 10.0 Nanford Soybeans, Double Crop *35 bu. 28 N/A Small Grain, Silage *8.3 Tons 45 N/A Com, Silage 20.2 Tons 69 N/A 2359 2 4.72 4.72 High 15.0 Georgeville So beans, Double Cro *41 bu. 33 0 Small Grain, Silage 10.8 Tons 58 40 Corn, Silage 22.5 Tons 77 32 2530 1 26.65 26.65 Medium 10.0 Helena Fescue Pasture *3.9 Tons 6 N/A Fescue Pasture *3.9 Tons 6 N/A 2530 10 4.50 4.50 Medium 10.0 Nanford Soybeans, Double Crop *37 bu. 30 N/A Small Grain, Silage *8.8 Tons 48 N/A Com, Silage 21.6 Tons 73 N/A 2530 11 19.86 19.86 Low 15.0 Cecil Fescue Pasture *4.9 Tons 8 N/A Fescue Pasture *4.9 Tons 8 N/A 2530 12 42.04 42.04 Low 15.0 Cecil Soybeans, Double Crop *41 bu. 33 N/A Small Grain, Silage 10.8 Tons 58 N/A Com, Silage 22.5 Tons 1 77 N/A 2530 13 9.26 9.26 Medium 15.0 Cecil Soybeans, Double Crop *41 bu. 33 N/A Preview Database Version 3.1 Date Printed 4/20/2007 NOTE: Symbol * means user entered data. PCS Page Page 1 of 3 Planned Crops Summary Tract Field Total Acres Useable Acres Plat Rating LI Soil Series Crop Sequence RYE P205 Removal (lbs/acre) Applied (lbs/acre) Small Grain, Silage 10.8 Tons 58 N/A Corn, Silage 22.5 Tons 77 N/A 2530 2 3.45 3.45 Medium 10.0 Helena Fescue Pasture *3.9 Tons 6 N/A Fescue Pasture *3.9 Tons 6 N/A 2530 3 3.53 3.53 Medium 10.0 Helena Soybeans, Double Crop *33 bu. 26 N/A Small Grain, Silage *8.3 Tons 45 N/A Corn, Silage 15.7 Tons 53 N/A 2530 6 29.93 29.93 Medium 15.0 Cecil Soybeans, Double Crop *41 bu. 33 N/A Small Grain, Silage 10.8 Tons 58 N/A Corn, Silage 22.5 Tons 77 N/A 2530 7 7.08 7.08 Medium 15.0 Cecil Soybeans, Double Crop *41 bu. 33 NIA Small Grain, Silage 10.8 Tons 58 N/A Corn, Silage 22.5 Tons 77 N/A 2530 8 11.20 11.20 Medium 15.0 Cecil Soybeans, Double Crop *41 bu. 33 N/A Small Grain, Silage 10.8 Tons 58 N/A Corn, Silage 22.5 Tons 77 N/A 2530 9 4.50 4.50 Medium 15.0 Helena Fescue Pasture *3.9 Tons 6 N/A Fescue Pasture *3.9 Tons 6 N/A 2533 1 19.64 19.64 Medium 15.0 Georgeville Corn, Silage 22.5 Tons 77 N/A Small Grain, Silage 10.8 Tons 58 N/A Soybeans, Double Crop *41 bu. 33 N/A 2533 2 24.50 24.501 Medium 15.0 Georgeville Corn, Silage 22.5 Tons 77 N/A Small Grain, Silage 10.8 Tons 58 N/A Soybeans, Double Crop *41 bu. 33 N/A 312 1 2.40, 2.40 Medium 15.0 Georgeville Fescue Pasture *4.6 Tons 7 N/A Fescue Pasture *4.6 Tons 7 N/A 312 2 24.30 24.30 Low 15.0 Georgeville Fescue Pasture *4.9 Tons 8 N/A Fescue Pasture *4.9 Tons 8 N/A 312 3 1 8.70 8.70 Low 15.0 Georgeville Fescue Pasture *4.6 Tons 7 N/A Fescue Pasture *4.6 Tons 7 N/A 312 4 15.00 15.00 Medium 15.0 Georgeville Corn, Silage 22.5 Tons 77 N/A Small Grain, Silage 10.8 Tons 58 N/A Soybeans, Double Crop *41 bu. 33 NIA 312 5 5.00 5.00 Low 15.0 1 Georgeville Fescue Pasture *4.6 Tons 7 N/A Fescue Pasture *4.6 Tons 7 NIA 312 6 14.90 14.90 Medium 15.0 Georgeville Corn, Silage 21.2 Tons 72 N/A Preview Database Version 3.1 Date Printed 4/20/2007 PCS Page Page 2 of 3 NOTE: Symbol * means user entered data. Planned Crops Summary Tract Field Total Acres Useable Acres Plat Rating LI Soil Series Crop Sequence RYE P205 Removal (lbs/acre) Applied (lbs/acre) Small Grain, Silage 10.1 Tons 55 N/A Soybeans, Double Crop *39 bu. 31 N/A 312 7 17.90 17.90 Medium 15.0 Georgeville Corn, Silage 22.5 Tons 77 N/A Small Grain, Silage Soybeans, Double Crop 10.8 Tons *41 bu. 58 33 N/A N/A 312 8 14.60 14.60 Low 1 15.0 1 Georgeville Fescue Pasture Fescue Pasture *4.6 Tons *4.6 Tonsf 7 7 N/A N/A rLA1V T VIALS: 401.2�2 4U1.J1 LI Potential Leaching Technical Guidance 2 Low potential to contribute to soluble None nutrient leaching below the root zone. >= 2 & Moderate potential to contribute to soluble Nutrient Management (590) should be planned. <= 10 nutrient leaching below the root zone. High potential to contribute to soluble Nutrient Management (590) should be planned. Other conservation practices that improve the soils nutrient leaching below the root zone. available water holding capacity and improve nutrient use efficiency should be considered. Examples > 10 are Cover Crops (340) to scavenge nutrients, Sod -Based Rotations (328), Long -Term No -Till (778), and edge -of -field practices such as Filter Strips (393) and Riparian Forest Buffers (391). PLAT Index Rating P Management Recommendation 0 - 25 Low No adjustment needed; N based application 25 - 50 Medium No adjustment needed; N based application 51 - 100 High Application limited to crop P removal > 100 Very High Starter P application only Preview Database Version 3.1 Date Printed 4/20/2007 NOTE: Symbol * means user entered data. PCs Page Page 3 of 3 N V! U b O. f..' L. U_ LL (13 En N W .O U cd .. O a> � acqli a� 00 O .�'° A -o C O A v .b �. D ° o A a C 3 p .C13En ❑� a0 3 ce CC 0o O cd 4 V 9 'O O O 10 O. C N cd A w 3 0 6 OR 7) O cn �" •�+ N O p O A bA ¢ O O ti cn N %•+ N O" .� y0, o is ! o — -d cc (= o b Cd N Cd N p b N O 4, � • � a' '> ••Ni N � H Cd .�T d •U O 'ice q) 0 E H° o w 3 0 0 0 0 0 0 0 0 0 o 0 O 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a� .Q. \D [� •� 'V' O �D N N '.0 OO O O O 00 O O Oo O b on N vi M M Oti C 7 C cn O l� M C 00 � Q v Oo N 7 cn 00 o0 N 0 •p O O - O O O o a o cn d 0 F 0 0 0 o c o c c c o 0 0 o 0 0 O 10 O N CD n 0o M h In a0 c+l N �D V'� N �O knto O r O O .--� C A O itl N N c- V'1 00 M V'1 w M 0 O %0 Vl 0 O �O o n o o a c o 0 2 p Z N N 2 av o •a s 'o A ti A ti A ti A •o A ti A ti A •o A •c A a A ti A ti A ti A v A ti A ti A o„ o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 d GC GO R7 W 0] CG Im CC Oa CO CO CQ W W GO P] a¢ z O O O O O O O N O N O O O N y 'v R � UwzdA OD d o 0 0 0 c N N O O N N O z z an M tA M rn M o� M M � r � M Q 0. 00 w w O, a a a a o 0 0 o f� a o a a a F0 F vi to 00 oo V� in o0 F0 00 00 H O O O O N O N M * cn t ri * m N �r r N * * * oo �r * M • M w * o0 a 0 U CL 0 n 0 a 0 U U U on 0°Jn 0 0°'n a� m d on I., rn .°' 0 o cn c ris aate+ � G � C� Q C no C «y_• m e v d m C7 rn C7 C7 as C7 y y C 7 A d a"i a"i a"i 0 E a E o E oo E 6 o o E w w u.. w U cn U � cn rn � to u u.. v� cn o 0 o°Oo ooOo M rn rn rn rn n n u rU. ¢ C C t- M M N N N N l- t- 00 00 V et N N 00 00 00 00 ll- cn l— M N � N � cn � M � n n N n N n V1 v1 b O V1 O V1 O O n 00 00 �t N N 7 �t F° d M M N N .? 0o o � -d 2 .0 .0 A A b b 00 0 0 0 0 an 0 - 'o 0 0 09 �u a a o 0 z z z z 3 3 3 3 00 Ou x x 0 0 x x I U 01 Q\ cn 01 en m cn � 01 en r) 7 Q M M M m M M M M M M M en M M M M M M M M cn v N N N N N N O O W Io d' Ic 7 10 V In 00 Vl 00 v1 00 V1 00 In rn V1 a N rn In o. o M o M O M o en N N N N N N N N N N N N N N N N w N a -0 0 0 0 0 0 0 o 0 0 Cl 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ;v a v C C C C C C C C C C C C C C C C C C C Cl C C 0 � v = t` M O O 00 �D O O M 00 In O M O O O � O O M o0 O O M M O O �D O l� M --� � �O M O 0, O� O �0 W O N C--� O oC N �p O N C t� V1 O In m O Q; v .-� M C N O- l� oG a z Q y O 0 N v M 0 0 0 0 0 0 0 0 C. 0 0 0 0 0 0 o 0 0 Cl 0 O 0 o a 0 o F O C O O C G O C C O O O C O O O O O C v .b a � o o o N O l- O l- O l- t` �n 7 Vc, O d m C b C vi C to 7 C rn C to O te1 C W% io 7 vi N h .� ---' aa bb _ L C. Q1 O b C. N O N C, �o 'It O O N O N ON O IO p 3 d Q vl to iD Cl Vl O to cOs P z aG o o c c ca o a o ca c co ti ca v w ti a ti d v o ti ti t ti a 0.1 0 0 0 0 0 0 c 0 �a 0 c� 0 ca 0 <a �a ca a 0 0 0 0 d � W 0.7 W � 0.1 W P7 Cq C] W W W 0 LC 0 a1 0 � 0 CO 0 CO 07 W CQ 0.1 0 GG yj Q 0.8 04 z O O O rq O N CDO O N O N O N O N O O CD O O C y w N N U 2 d o d .� m en N N N N CD 0 0. O C. O O1 C)N O N C. N N N `-' O: N N _0.R • � l ; n 01 C �7 h O� — cal — l� .--i l� VI O� .r M Vl O� �--� f�1 � O� •--� M V'1 O� M l� l� OM � 'r ( �1 OM V;.� M 00 o0 00 N r N it ,.. o o oE- p 00 E F a E E E y u * o * CC, C a M oo C oo C * oo C rn rn In m C c 00 C * C C, * * a * * 0 U o 0 0 0 0 0 U U V U U U O O Ln O d O O O CC O 2 N rn c6 •cd .� c6 � •c3 •cC •� .L cNC C� Cd� •cC tOn •cC a� N C7 C7 C7 � C7 C7 C7 y Vs C7 va C7 c7i is p is y t2 is A m ie :Gi cGi '•� w °0 rz aGOn n nrn r0 CIO v i V)i Cdo i V Lo U C U c �O 00 �p 00 V O t O `D N l0 �n �n M M M m = 0o O O O O It V O vl O V'1 7 � 01 ri M m M N N t` n V' ON C � N N 00 00 O O N N d' V'i vi M a, M 0\ 00 00 CD CD Oi Oi 7 O+ M M f+i M N N H d 0 > > > > — — •U C bbo w 0ch 00�q U U U U U .4: 4: a: O U U U U J U N O O O O � U I U U V I U U I .l .`!'. .i. x V I U I U U U I U y .�. 7 Q O, m 01 M O\ M O\ M O\ C, 0% Q\ Q\ a1 01 a a\ T ON `,. CO CIO V] V1 V) m V] M V) m V] M w M V] m V) M V] M V] rn V] M Cn m V] m Cn M Cn M CIO m V) M V] M VJ M on O N � 00 0o Q\ U N N d M m M M M M M M m m M M M M M M FC-1 M M W) N N tn N In N N kn N InN N NN N N 11 A 3 N 0) 0 0 0 0 0 0 0 0 If> C. 0 0 0 0 0 00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O O C.O O O O O O O O ClO O O CD CD CD 0o N_ '. 7 V 10 �' 00 h 7 T h n N 7 C : ^ n O o0 ao N O N O O n :� n b= V 06 N N h M 00 N �O V O M o0 M N O M 00 M I M a ¢ v O O _ O O O O O O O O O O O O O O O O ❑ O O O O O O O O O O O O O O O O O O O O O O O O O O Cl O O O O O O O O 96 0`'n v O O O. 7 � Q 00 h 00 00 h O 'o 00 h O �O O 10 00 h ;b y 0 d h O h O 0 h O N �O h O N �O N n h O Q O QQ a v C h r h N Vl N V] In C 04 In n h n vi t� h o h n h o h o h n h 0. N N N � 0 zq �o b a b b b b b b b b o 0 q 0 0 0 0 0 0 0 0 0 0 0 0 0 0 d CO C1 C] W W CO Cq W W W W W m pa W m Z o 0 0 0 0 0 o 0 0 o o 0 0 v Z o h N c M h N � n o h N n N V n O h N U zd to a z N h h N C. N h h z M M M a.0 a U h M l� Q q 000 00 oO 0 W 000 r 0\0 N r 73� N it a� 00 00 O O O O O C C O O C O C C F F O F F O F O F F H N F Eo F F R: � b � C\ � � N oc O "R � C h O IO a� ate +� It * xr * x N 0 U 1 ❑ o m Y ° t ro d L a (7 6N a cOi cOi N cCi J cCi J cOi N cOi c '" „ o „ o — y — 0 3 zuq L, w i. w w w P. 0 0 0 o CD O o O O o 0 0 0 0 0 Cl 7 M 'i n n o C. 0 o ONo, rn rn ti 7 d N N 7 N 1�3* N o0 06 vi vi vi In O O O O O O O O O O O O a. CD CD CD N N M 7 M 7 n 00 n 00 O h O h CDO h vi 0\ D\ n n iD 7 � 7 F ¢ N N > > >>>>>>>>>>>>9> V] -0 b0 b0 0 bJA bJD bJ➢ bJ0 bA 6U0 OUL bJ0 bUL oUD bUq W C9 OUq C7 CN7 CN7 CN7 NNNNNN U : C7 C7 C7 : N : NN C7 C7 0 L7 NNN 0 C7 U 7 Q M M M M M M M M M M on C1 V7 M Cn KI V] M V7 M [n M h N N M M 7 h In co W F M M M M M M M M M M M M M M M M H Y u Cd A 11 0 0 0 0 0 CD 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 �n haw .0 '� th V- In � N 'ch 00 �--� DO W O O W% N O O O M O 7 00 lD M W V w (+1 N Q1 l� M �D vl m In �O M �D M Q+ O m O _ .0 ' N M O V'� C N V'� v1 O M M C C O O ON ut n a o 0 0 0 0 0 0 o 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C. 0 Q ao 0 0 0 0 0 0 0 o c o 0 0 0 0 o c o 0 o c c o c o rn In c- 0 lo rn N o N o kn 00 l— O O o0 N N �O 6, F o m vi ri vn 7 O 7 O N N "t N N a; cnN m m N V _ oo n oo r- O O Vn O N m �o O\ O O O oo O oo O �O -It y ¢, cn M In N N �r N N \D ON m N m N o ti o 0 o e ti ti ti v ti v o ti c c ti ti ti Q. o 0 0 0 0 0 0 0 0 0 cd 0 cd 0 cd 0 cd 0 A 0 a1 o cC 0 �V 0 ca 0 cG 0 cC 0 t3 0 Q. O� Q L i-� 4. 1-� L, L. 1.� Ln I.n L C O10 O L o o v o w U"za� c� �_ t� M m o n o n O O O CD O O N N N N N N N N N 0 l�- M t� M M C? I� Q DD W W o0 T Vim' O� N iF O+ N N DO O% N dF oo Oo Q� N Y 01 N iY CO 0 0 0 0 Eo- F o 0 H H F 0 o F o o EE0- H F H 0 a O O O O O O M CD N 0� T O N O N 0) M x M +r M r c4) x --� � * --� x * oo • N � + N � m it oo t N r ac ct et is N * r N r m x 0 U a a to m al b00 ca v b00 O bOq cC o0q cd o00 m b00 cd on A o 0 o 0 vl w 1 P. t0 tC td y @ y [F td l0 V Cd R CC y E f.0 Chi lC iK E chi cOi cd E iC ai U w w w w rn n cl� rn U cn U w rn U w w Lo U Cn w o0 00 [— rl N N m m �D -D N N vt O O �D 1.0 7 lo 10 v) o0 oo ci K1 01 0\ O1 01 l— I+ 1- � "R vn v) 00 00 O O N N V Q It In m 'D "D N N 1� In I-D O vl O r �o o0 o0 O O \D N lo N vl V O O V 'ct Q\ ON 01 M F o M M N N N y 0 3 3 3 3 N N o o b N o N � ce 0 0 0 0 0 U on 'a o w w b0 `o °0 c w° 40. o E 0 o o "o o ci ci ci z U U x z z U U U U U U A O `� o M i!1 m V] M (n m C/� f+1 Cn V1 Ln V) V] m Vl M V] In V] M V} M V) M V] M Vi Cl V) M V] m U] m V] M C/) M U] c*1 Cn m V1 b N N N N N N O O N N m m N Lc. �o oo 00 oo o0 01 T ON Q1 O O O O O O O O O O � vl Vl N V7 V1 vl v) N m m M m m M M M M M F N N N N N N N N N N N N N N N N N N N N N N i 3 O O O O O O O cJ O O O O O O O O O O O O O O O O O o v O O O O O O O o O O O O O O 2 N p O O o O O o O O O O O o o O O O O O O O O O p a.. o Io O rn o rn 7 rn N o m v n 00 -. n o 0 0 o bo d' 00 m V c- m fV �o O l- O 00 O N V1 O O N V N N N m 00 a Q o O y CDO o O O O O O O O O O O O o O -- O O O =� O O O C) O C) O CD O CD O O O O O O O O O O O g t F o r a o c CD C) o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 h 'n N O N o0 o N N W O N V1 �O n Q\ � V O O dr d' O C) V1 C.Wn 00 In Cl oo v� Wn O 00 �n Cl O N h M N M N M N d' 'D d' O rY O vi n In n vi r- CL a en O� h O w O w C. 00 O �o � dt O o O vl O In O In � CQ �o N 'n m O N m O N M O N 7 �D V �n h kn n y z 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 d � W 07 0] 0.1 Oa Lt1 fA 07 0.1 Ga � � GC W W 0.1 CQ CO 1.1� W C1 W cG s� Z o 0 0 0 0 0 o O. o 0 0 0 0 0 0 0 0 0 0 0 0 0 E G Z O O O O O N O O O O O N O M O N CD C, UkZ. CI a 0, 0 0 n oo. « y A Z N O N N N N N N z`�-- 0 0 0 0 M 00 Q, N r C, N x a, N t O, N it 00 00 T 'V' O� 00 00 00 00 00 00 Q� C C O O O O O O O C o C o O H O E i C 0 C 0 C C C 0 C 0 C o O E. 1:4 C\ h O N O N O N 01 01 0 O O� \O �D O iF • M it lt iF iF iF A !F 'b iF iF iF iF M s A # iF 0 U o L 0 L U U d u ou V Ln ° ° ° C7 vz C7 C7 v C7 v1 a a c a a a a a a ,, cCi is w is En '� is = c7i c7i id d .a is „ 0N s ai c 0U i, VJ Vl N Vi VJ w U) U 00 U cl) cn w w w w w w cn M ON 00 O 00 O 0 N Co N 0 �n 0 vl �D �D o V'1 0 �n 0 V 0 V 0 M 0 Cl 0 h 0 n 0 O y Q M m m N N [� n N N N N N N oo DD V1 �n m cn M m o0 00 O Cl O O eh O O O O O O O O O 7 �n V1 O O N N V'1 V'1 �D �D v1 vl �' (n cn n n O M M M N N n n Q\ N N N N N N o0 00 h F d y 07 O N N N N N N O .2 H Cn C C C C F N bD N LD O to 0] 0Lq N 0D N b0 N bLA O bL0 O �ll N N 00 d N y N N 0 0 w N N N N N N N d U U U lu U U U x x 0d C7 C7 C7 C7 C7 C7 C7 C7 C7 C7 C7 v Q m 7 0 M m V7 M Vi M V] M V? m (nV] M M 0V1 M m Cl) U1 M V1 on VI M M cnV1 C/1 M cn V+ M C/1 M (/7 M V] .0 ?� N M m \D W O M O M O M O M O M O M O cn O M O M O M O M m M M m m M M M N_ N_ N_ N N F N N N N N N N N N N N N N N N M M M m m m m r— O O N O N 'd N a a� A t 0 0 0 0 0 0 0 0 0 0 0 9 Q) -O O O O O O O O O U O O O O O O O O O O O O Cl O O 0 O O Vn N 00 o0 M N 0 O kn n O O V n �D O [- M 'O 6, p y to vi n In M �D O n n O M n O O O• x a CD O ono V M ¢ 9 1�i N^y O O 0 CDO 0 O 0 O O 0 O O 0 O 0 O ClO 0 O 0 C C O w Y o C a o 0 0 r0 YO F" co ec°o W 0 0 o a d 'd o 0.+ y Q 0 o O o to v o O M v o C o v m' abi U o w In t- vi ti v ai Q o a O O kn vl n 7 O Cl) O O v vl n z a b CL o 0 0 0 0 0 0 0 0 � W W CO W 0.1 G7 W W W Q a�NCa o 0 0 0 0 0 0 0 0 In y 'Y CL z O N O O O O O N O zo4-- z •a•� rn n � N, rn r� rn � � v 00 00 rn It C� IT 00 00 F- 00 H Ems- 00 H H 0 U O o O U U U c0 ;o cO W ctl y" Cdlu uj c0 c0 0 i i E o cn w w cn cn cn co w w 0 0 0 0 0 o o rn O o 0 o 0 a 0 0 o 7 0 0 o rn rn rn rn �D 25 O vi vi 7 7 v U F Q cn o — — Gn b0 bA Dq 00 N 00 lu W 4 00 u 00 N W O O O O O O O O O U L1 Ql Q1 C1 Q1 01 Ql � Q1 Ql o V] Ui V] 0 C-1 cn 0 V] cn b v 'r in h 10 � I-- n 00 00 Gi. Ei .il Q 3 The Nutrient Management Recommendations table shown below provides an annual summary of the nutrient management plan developed for this operation. This table provides a nutrient balance for the listed fields and crops for each year of the plan. Required nutrients are based on the realistic yields of the crops to be grown, their nutrient requirements and soil test results. The quantity of nutrient supplied by each source is also identified. The total quantity of nitrogen applied to each crop should not exceed the required amount. However, the quantity of other nutrients applied may exceed their required amounts. This most commonly occurs when manure or other byproducts are utilized to meet the nitrogen needs of the crop. Nutrient management plans may require that the application of animal waste be limited so as to prevent over application of phosphorous when excessive levels of this nutrient are detected in a field. In such situations, additional nitrogen applications from nonorganic sources may be required to supply the recommended amounts of nitrogen. Nutrient Management Recommendations Test YEAR 0 N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract Field 2346 1 Req'dNutrients *100 0 30 0 0 0 0 1 Acres I App. Period 10.88 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 5 0 0 0 0 0 0 1 Soil Series Wedowee Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *3.0 Tons 01-12-07 Manure 95 94 142 461 2 2 0 0 PRemoval Rating 5lbs/ac. Low BALANCE 0 94 112 46 2 2 0 0 Tract Field 2346 2 Req'd Nutrients * 100 0 0 0 0 0 0 1 Acres App. Period 37.37 811-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 5 0 0 0 0 0 0 1 Soil Series Wedowee Residual 0 0 0 0 0 0 0 0 RYE Sample Date *3.0 Tons 01-12-07 Manure 95 94 142 46 2 2 0 0 P Removal Rating 5 lbs/ac. Low BALANCE 0 94 142 46 2 21 0 0 Tract Field 2530 1 Req'd Nutrients * 127 0 0 0 0 0 0 0 Acres App. Period 26.65 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 12 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 0 01 0 0 RYE I Sample Date *3.9 Tons 01-12-07 Manure 115 113 172 551 2 2 1 0 P Removal! Rating 6 lbs/ac. 'Medium BALANCE 0 113 172 55 2 2 1 0 Tract Field 2530 11 Req'd Nutrients * 163 0 0 0 0 0 0 0 Acres App. Period 19.86 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 13 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 01 01 0 RYE I Sample Date *4.9 Tons 1 01-25-06 Manure 150 148 224 72 3 3 1 0 P Removal Rating 8 lbs/ac. I.ow IBALANCE 1 01 148 224 72 3 31 1 1 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 1 of 16 Nutrient Management Recommendations Test YEAR U N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (Ibs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tans/A) Tract Field 2530 2 Req'd Nutrients * 127 0 0 0 0 0 0 0 Acres I App. Period 3.45 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 12 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *3.9 Tons 01-12-07 Manure 115 113 172 55 2 2 1 0 P Removal Rating 6 Ibs/ac. %ledium BALANCE 01 113 172 55 2 21 1 0 Tract Field 2530 9 Req'dNutrients *127 0 0 0 0 0 0 0 Acres I App. Period 4.50 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 12 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 0 0 0 0 RYE Sample Date *3.9 Tons 01-25-07 Manure 115 113 172 55 2 2 1 0 P Removal Rating 6 lbs/ac. Medium BALANCE 0 113 172 551 2 2 1 0 Tract Field 312 1 Req'd Nutrients * 150 0 0 0 0 0 0 0 Acres App. Period 2.40 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 25 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date *4.6 Tons 01-25-07 Manure 125 123 186 60 2 3 1 0 P Removal Rating 7 lbs/ac. Medium BALANCE 0 123 186 60 2 3 1 0 Tract Field 312 2 Req'd Nutrients * 159 0 0 0 0 0 0 0 Acres App. Period 24.30 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 34 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date *4.9 Tons 01-25-07 Manure 125 123 186 601 2 3 1 0 P Removal JRatmg 8 Ibs/ac. Low BALANCE 0 123 186 60 2 3 1 0 Tract Field 312 3 Req'd Nutrients * 150 0 0 0 0 0 0 0 Acres I App. Period 8.70 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 25 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *4.6 Tons 12-04-06 Manure 125 123 186 60 2 3 1 0 P Removal TE7tiing 7 lbs/ac. Low I BALANCE 1 01 123 186 60 2 3 1 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 2 of 16 Nutrient Management Recommendations Test YEAR 0 N (lbs/A) P2O5 (lbs/A) K2O (Ibs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Field 312 5 Req'd Nutrients *150 20 0 0 0 0 0 1 EApp. Period 5.00 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 25 0 0 0 0 0 0 1 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date *4.6 Tons 12-04-07 Manure 125 123 186 60 2 3 1 0 P Removal Rating 7 Ibs/ac. Low BALANCE 0 103 186 60 2 31 1 0 Tract Field 312 8 Req'd Nutrients * 150 0 0 0 0 0 0 1 Acres I App. Period 14.60 811-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 01 0 Commercial Fert. 25 0 0 0 0 0 0 1 Soil Series Georgeville Residual 01 01 0 0 0 0 0 0 RYE I Sample Date *4.6 Tons 12-04-06 Manure 125 123 186 60 2 3 1 0 P Removal Rating 7 lbs/ac. Low BALANCE 0 123 186 60 2 3 1 0 NOTE: Symbol * means user entered data. Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 3 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P205 (lbs/A) K20 (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (Ibs/A) Cu (lbs/A) Lime (tons/A) Tract Field 2346 1 Req'dNutrients *100 0 30 0 0 0 0 0 Acres App. Period 10.88 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 5 0 0 0 0 0 0 0 Soil Series Wedowee Residual 0 0 0 01 0 0 0 0 RYE I Sample Date *3.0 Tons 01-12-07 Manure 95 94 142 46 2 2 0 0 P Removal Rating 5 Ibs/ac. Low BALANCE 0 941 112 46 21 2 0 0 Tract Field 2346 2 Req'dNutrients *100 0 0 0 0 0 0 0 Acres App. Period 37.37 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 5 0 0 0 0 0 0 0 Soil Series Wedowee Residual 0 0 0 0 0 0 0 0 RYE Sample Date *3.0 Tons 01-12-07 Manure 95 94 142 46 2 2 0 0 P Removal Rating 5 Ibs/ac. Low BALANCE 0 94 142 46 2 2 0 0 Tract Field 2358 1 Req'dNutrients *117 0 0 0 0 0 0 0 Acres I App. Period 22.92 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 17 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-12-07 Manure 100 99 149 48 2 2 0 0 P Removal Rating 58 lbs/ac. Medium BALANCE 0 99 149 48 2 2 0 0 Tract Field 2358 1 Req'dNutrients *241 0 0 0 0 0 0 0 Acres App. Period 22.92 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 41 0 0 0 0 0 0 0 Soil Series Georgeville Residual *0 0 0 0 0 0 0 0 RYE I Sample Date *22.5 Tons 01-12-07 Manure 200 197 298 96 4 4 1 0 P Removal Fiing 77 lbs/ac. Medium BALANCE 0 197 298 96 4 4 1 0 Tract Field 2358 2 Req'd Nutrients * 117 0 0 0 0 0 0 0 Acres App. Period 7.93 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 17 0 01 0 0 0 0 0 Soil Series Herndon Residual 0 0 0 0 0 0 0 0 RYE Sample Date * 10.8 Tons 01-12-07 Manure 100 99 149 48 21 21 01 0 P Removat �Ii.g 58 lbs/ac. Rledium BALANCE 0 99 149 48 2 2 0 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 4 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract Field 2358 2 Req'dNutrients *241 0 0 0 0 0 0 0 Acres App. Period 7.93 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 41 0 0 0 0 0 0 0 Soil Series Herndon Residual *0 0 0 0 0 0 0 0 RYE I Sample Date *22.5 Tons 01-12-07 Manure 200 197 298 96 4 4 1 0 P Removal Rating 77 Ibs/ac. Medium BALANCE 01 197 298 961 4 4 1 0 Tract Field 2359 1 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres App. Period 8.76 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series tianford Residual 0 0 0 01 0 0 0 0 RYE I Sample Date *35 bu. 01-25-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 28 lbs/ac. Medium BALANCE 0 0 0 0 0 0 0 0 Tract Field 2359 1 Req'd Nutrients *90 0 0 0 0 0 0 0 Acres App. Period 8.76 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 10 0 0 0 0 0 0 0 Soil Series Nanford Residual 20 0 0 0 0 0 0 0 RYE I Sample Date *8.3Tons 01-25-07 Manure 601 59 90 291 1 1 0 0 P Removal Rating 45 lbs/ac. ;Medium BALANCE 0 59 90 29 1 1 0 0 Tract I Field 2359 2 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres App. Period 4.72 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *41 bu. 01-25-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 33 Ibs/ac. High BALANCE 0 0 0 0 0 01 0 0 Tract Field 2359 2 Req'dNutrients *117 0 0 0 0 0 0 0 Acres I App. Period 4.72 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 69 0 0 0 0 0 0 0 Soil Series Georgeville Residual 20 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-25-07 Manure 128 1401 421 141 1 1 01 0 P Removal Rating 58 lbs/ac. IHigh I BALANCE 1 01 401 421 141 1 1 1 01 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 5 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract Field 2530 1 Req'dNutrients *127 0 0 0 0 0 0 0 Acres I App. Period 26.65 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 12 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *3.9Tons 01-12-07 Manure 115 113 172 55 2 2 1 0 P Removal TiTting 6 lbs/ac. Medium BALANCE 01 113 172 55 2 2 1 0 Tract Field 2530 10 Req'd Nutrients *95 0 0 0 0 0 0 0 Acres App. Period 4.50 9/1-3/31 Supplied By: III CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 5 0 0 0 0 0 0 0 Soil Series Hanford Residual 20 0 0 0 0 0 0 0 RYE I Sample Date *8.8 Tons 01-25-07 Manure 70 69 104 34 1 1 0 0 P Removal Rating 48 lbs/ac. Medium BALANCE 0 69 104 34 1 1 0 0 Tract Field 2530 10 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres I App. Period 4.50 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 01 0 Soil Series Nanford Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *37 bu. 01-25-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 30 lbs/ac. Medium BALANCE 0 0 0 0 0 0 0 0 act Field 2530 11 Req'd Nutrients * 163 0 0 0 0 0 0 0 es L App. Period 19.86 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 13 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 01 0 0 0 0 RYE I Sample Date *4.9 Tons 01-25-06 Manure 150 148 224 72 3 3 1 0 P Removal Rating 8 lbs/ac. Low BALANCE 0 148 224 72 3 3 1 0 Tract Field 2530 12 Req'dNutrients *0 0 0 0 0 0 0 0 Acres App. Period 42.04 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *41 bu. 01-25-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 33 Ibs/ac. ILOW BALANCE 1 01 0 0 01 0 0 0 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 6 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (lbs/A) Mn (Ibs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract IField 2530 12 Req'd Nutrients * 120 0 0 0 0 0 0 0 Acres I App. Period 42.04 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 10 0 0 0 0 0 0 0 Soil Series Cecil Residual 20 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-25-07 Manure 90 89 134 43 2 2 0 0 P Removal FnT 58 lbs/ac. Low BALANCE 0 89 134 43 2 21 0 0 7App. Field 2530 13 Req'd Nutrients *0 0 0 0 0 0 0 Period 9.26 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE Sample Date *41 bu. 1 01-25-07 Manure 0 0 0 0 0 0 0 0 P Removal 7.9 33 Ibs/ac. 4ledium BALANCE 0 0 0 0 0 0 0 0 Tract I Field 2530 13 Req'd Nutrients * 120 0 0 0 0 0 0 0 Acres App. Period 9.26 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 10 0 0 0 0 0 0 0 Soil Series Cecil Residual 20 0 0 0 0 0 0 0 RYE Sample Date * 10.8 Tons 01-25-07 Manure 90 89 134 43 2 2 0 0 PRemoval Rating 58lbs/ac. .%Iedium BALANCE 0 89 134 43 2 2 0 0 Tract Field 2530 2 Req'd Nutrients * 127 0 0 0 0 0 0 0 Acres App. Period 3.45 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 12 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *3.9 Tons 01-12-07 Manure 115 113 172 55 2 2 1 0 P Removal Rating 6 Ibs/ac. Medium BALANCE 0 113 172 55 2 2 1 0 Tract Field 2530 3 Req'd Nutrients *90 0 0 0 0 0 0 0 Acres App. Period 3.53 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 10 0 0 0 j 0 0 0 0 Soil Series I leiena Residual 20 0 0 0 0 0 0 0 RYE I Sample Date *8.3 Tons 01-25-07 Manure 60 59 90 29 1 1 0 0 P Removal Rating 45 Ibs/ac. IMedium BALANCE 1 01 59 90 29 1 1 1 0 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 7 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract 1Field 2530 3 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres App. Period 3.53 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *33 bu. 01-25-07 Manure 01 0 0 0 0 0 0 0 P Removal Rating 26 lbs/ac. Medium BALANCE 0 0 0 0 01 0 0 0 Tract Field 2530 6 Req'd Nutrients * 120 0 0 0 0 0 0 0 Acres 1 App. Period 29.93 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 10 0 0 0 0 0 0 0 Soil Series Cecil Residual 20 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-25-07 Manure 90 89 134 43 2 2 0 0 P Removal Rating 58 lbs/ac. Medium BALANCE 0 89 134 43 2 2 0 0 Tract Field 2530 6 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres I App. Period 29.93 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 01 0 0 0 0 0 RYE I Sample Date *41 bu. 01-25-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 33 lbs/ac. Medium BALANCE 0 0 0 0 0 0 0 0 Tract Field 2530 7 Req'dNutrients *120 0 0 0 0 0 0 0 Acres App. Period 7.08 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 10 0 0 0 0 0 0 0 Soil Series Cecil Residual 201 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-25-07 Manure 90 89 134 43 2 2 0 0 P Removal Rating 58 Ibs/ac. Medium BALANCE 0 89 134 43 2 2 0 0 Tract Field 2530 7 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres App. Period 7.08 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *41 bu. 01-25-07 Manure 0 0 0 01 01 0 0 0 P Removal Rating 33 Ibs/ac.IN-tedium BALANCE 0 0 0 01 01 0 0 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 8 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P205 (lbs/A) K20 (Ibs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu Lime (lbs/A) (tons/A) Tract I Field 2530 8 Req'dNutrients *0 0 0 0 0 0 0 0 Acres I App. Period 11.20 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE Sample Date *41 bu. 01-25-07 Manure 0 01 0 01 01 0 01 0 P Removal Rating 33 lbs/ac. hfedium BALANCE 0 0 0 0 0 0 0 0 Tract Field 2530 8 Req'dNutrients *120 0 0 0 0 0 0 0 Acres App. Period 11.20 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 01 0 0 Commercial Fert. 10 0 0 0 0 0 0 0 Soil Series Cecil Residual 20 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-25-07 Manure 90 89 134 431 2 2 0 0 PRemoval I Rating 581bs/ac. 1iedium BALANCE 0 89 134 43 2 2 0 0 Tract Field 2530 9 Req'dNutrients *127 0 0 0 0 0 0 0 Acres App. Period 4.50 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 12 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 01 0 0 0 RYE I Sample Date *3.9 Tons 01-25-07 Manure 115 113 172 55 2 2 1 0 P Removal Rating 6 lbs/ac. .'Medium BALANCE 0 113 172 55 2 2 1 0 Tract Field 2533 1 Req'd Nutrients *241 0 0 0 0 0 0 0 Acres I App. Period 19.64 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 201 0 0 0 0 0 0 0 Soil Series Georgeville Residual *0 0 0 01 0 01 0 0 RYE 1 Sample Date *22.5 Tons 01-12-07 Manure 40 39 60 19 1 1 0 0 P Removal Rating 77 Ibs/ac. %ledium BALANCE 0 39 60 19 1 1 0 0 Tract Field 2533 1 Req'dNutrients *117 0 0 0 0 0 0 0 Acres I App. Period 19.64 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 17 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-12-07 Manure 100 99 149 48 2 2 0 0 P Removal IRating 58 lbs/ac. I.Mediurn BALANCE 0 99 1491 481 21 21 01 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 9 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P205 (lbs/A) K20 (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (Ibs/A) Cu Lime (lbs/A) (tons/A) Tract Field 2533 2 Req'd Nutrients * 117 0 0 0 0 0 0 0 Acres App. Period 24.50 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 17 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 01-12-07 Manure 100 99 149 48 2 2 0 0 P Removal Rating 58 lbs/ac. Nledium BALANCE 01 99 149 48 2 2 0 0 Tract Field 2533 2 Req'd Nutrients *241 0 0 0 0 0 0 0 Acres App. Period 24.50 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 01 0 0 0 0 Commercial Fert. 21 0 0 0 0 0 0 0 Soil Series Georgeville Residual 20 0 0 0 0 0 0 0 RYE I Sample Date *22.5 Tons 01-12-07 Manure 200 197 298 96 4 4 1 0 P Removal Rating 77 lbs/ac. Gledium BALANCE 0 197 298 96 4 4 1 0 Tract Field 312 1 Req'd Nutrients * 150 0 0 0 0 0 0 0 Acres I App. Period 2.40 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 25 0 01 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date *4.6Tons 01-25-07 Manure 125 123 186 60 2 3 1 0 P Removal Rating 7 lbs/ac. 1•ledium BALANCE 0 123 186 60 2 3 1 0 Tract Field 312 2 Req'd Nutrients * 159 0 0 0 0 0 0 0 Acres I App. Period 24.30 8/1-7131 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 34 0 0 0 0 0 0 0 Soil Series Georgeville Residual 01 0 0 01 0 0 0 0 RYE I Sample Date *4.9Tons 01-25-07 Manure 125 123 186 60 2 3 1 0 P Removal Rating 8 Ibs/ac. Low BALANCE 0 123 186 60 2 3 1 0 Tract Field 312 3 Req'd Nutrients * 150 0 0 0 0 0 0 0 Acres I App. Period 8.70 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 25 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 01 0 0 0 0 0 0 RYE Sample Date *4.6 Tons 12-04-06 Manure 125 123 186 60 2 3 1 0 P Removal Rating 7 lbs/ac. Low BALANCE 0 123 186 60 2 3 1 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 10 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P2O5 K2O (lbs/A) (lbs/A) Mg Mn Zn Cu Lime (lbs/A) (lbs/A) (lbs/A) (lbs/A) (tons/A) Tract Field 312 4 Req'd Nutrients *241 0 0 0 0 0 0 0 Acres App. Period 15.00 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 41 0 0 0 0 0 0 0 Soil Series Georgeville Residual *0 0 0 0 0 0 0 0 RYE Sample Date *22.5 Tons 12-04-07 Manure 2001 197 298 96 4 4 1 0 P Removal Rating 77 Ibs/ac. Medium BALANCE 0 197 298 96 4 41 1 0 Tract Field 312 4 Req'd Nutrients * 117 0 0 0 0 0 0 0 Acres I App. Period 15.00 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 01 0 Commercial Fert. 17 0 0 0 01 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 12-04-07 Manure 100 99 149 48 2 2 0 0 P Removal Rating 58 lbs/ac. Medium BALANCE 0 99 149 48 2 2 0 0 Tract Field 312 5 Req'dNutrients *150 20 0 0 0 0 0 0 Acres I App: Period 5.00 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 25 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *4.6 Tons 12-04-07 Manure 125 123 186 60 2 3 1 0 P Removal Rating 7 lbs/ac. Low BALANCE 0 103 186 60 2 3 1 0 Tract Field 312 6 Req'd Nutrients * 109 0 0 0 0 0 0 0 Acres I App. Period 14.90 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 01 0 0 0 0 0 0 0 Commercial Fert. 9 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date * 10.1 Tons 12-04-06 Manure 100 99 149 481 2 2 0 0 P Removal Rating 55 lbs/ac. Medium BALANCE 0 99 149 48 2 2 0 0 Tract Field 312 6 Req'd Nutrients *227 0 0 0 0 0 0 0 Acres I App. Period 14.90 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 27 0 0 0 0 0 0 0 Soil Series Georgeville Residual *0 0 0 0 0 0 0 0 RYE Sample Date *21.2 Tons 12-04-06 Manure 200 1971 298 96 4 4 1 0 P Removal Rating 72 Ibs/ac. NMedium I BALANCE 01 197 298 961 4 41 1 1 0 Preview Database Version 3.1 ' Date Printed: 4/20/2007 NMR Page Page 11 of 16 Nutrient Management Recommendations Test YEAR 1 N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract Field 312 7 Req'd Nutrients * 117 0 0 0 0 0 0 0 Acres App. Period 17.90 9/1-3/31 Supplied By: CROP Small Grain, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 17 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date * 10.8 Tons 12-04-06 Manure 100 99 149 48 2 2 0 0 58 lbs/ac. %tedium BALANCE 0 99 149 48 2 2 0 0 ffRating Field 312 7 Req'd Nutrients 241 0 0 0 0 0 0 0 . Period 17.90 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 41 0 01 0 0 0 0 0 Soil Series Georgeville Residual *0 0 0 0 0 01 0 0 RYE Sample Date 22.5 Tons 12-04-06 Manure 200 197 298 96 4 4 1 0 P Removal Rating 77 Ibs/ac. Medium BALANCE 0 197 298 96 4 4 1 0 Tract Field 312 8 Req'dNutrients *150 0 0 0 0 0 0 0 Acres App. Period 14.60 8/1-7/31 Supplied By: CROP Fescue Pasture Starter 0 0 0 0 0 0 0 0 Commercial Fert. 25 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *4.6 Tons 12-04-06 Manure 125 123 186 60 2 3 1 0 P Removal Rating 7 Ibs/ac. Low BALANCE 01 123 186 60 21 31 1 0 NOTE: Symbol * means user entered data. Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 12 of 16 Nutrient Management Recommendations Test YEAR 2 N (lbs/A) P205 (lbs/A) K20 (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) F-71-77F Field 2358 1 Req'dNutrients *0 0 0 0 0 0 0 0 Acres App. Period 22.92 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 01 0 0 01 0 RYE I Sample Date *41 bu. 01-12-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 33 lbs/ac. %ledium BALANCE 0 0 0 0 0 0 0 0 Tract Field 2358 2 Req'dNutrients *0 0 0 0 0 0 0 0 Acres I App. Period 7.93 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 01 0 0 0 0 0 0 0 Soil Series Hemdon Residual 0 0 0 0 01 0 0 0 RYE Sample Date *41 bu. 01-12-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 33 Ibs/ac. %tedium BALANCE 0 0 0 0 0 0 01 0 Tract Field 2359 1 Req'd Nutrients *216 0 0 0 0 0 0 0 Acres App. Period 8.76 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 176 0 0 0 0 0 0 0 Soil Series Nanford Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *20.2 Tons 01-25-07 Manure 40 39 60 19 1 1 0 0 P Removal Rating 69 lbs/ac. %ledium BALANCE 01 39 60 19 1 1 0 0 Tract Field 2359 2 Req'd Nutrients *241 0 0 0 0 0 0 0 Acres App. Period 4.72 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 218 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *22.5 Tons 01-25-07 Manure 23 32 34 11 0 0 0 0 P Removal TF.ting 77 lbs/ac. High BALANCE 0 32 34 11 0 0 0 0 Tract Field 2530 10 Req'd Nutrients *231 0 0 0 0 0 0 0 Acres I App. Period 4.50 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 01 0 Commercial Fert. 31 0 0 0 0 0 0 0 Soil Series Nanford Residual 0 0 0 0 0 0 0 0 RYE Sample Date *21.6 Tons 01-25-07 Manure 200 197 298 96 4 4 1 0 P Removal Rating 73 Ibs/ac. &tedium I BALANCE 01 197 298 96 4 4 1 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 13 of 16 Nutrient Management Recommendations Test YEAR 2 N (lbs/A) P205 (lbs/A) K20 (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract Field 2530 12 Req'd Nutrients *245 0 0 0 0 0 0 0 Acres App. Period 42.04 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 01 0 0 0 0 0 0 0 Commercial Fert. 45 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *22.5 Tons 01-25-07 Manure 200 197 298 96 4 4 1 0 P Removal Rating 77 lbs/ac. Low BALANCE 0 197 298 96 4 41 1 0 Tract Field 2530 13 Req'dNutrients *245 0 0 0 0 0 0 0 Acres I App. Period 9.26 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 45 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE i Sample Date *22.5 Tons 01-25-07 Manure 200 197 298 96 4 4 1 0 P Removal Rating 771bs/ac. Medium BALANCE 0 197 298 96 4 4 1 0 Tract Field 2530 3 Req'dNutrients *168 0 0 0 0 0 0 0 Acres App. Period 3.53 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 18 0 0 0 0 0 0 0 Soil Series Helena Residual 0 0 0 0 0 0 0 0 RYE Sample Date * 15.7 Tons 01-25-07 Manure 150 148 224 72 3 3 1 0 P Removal Rating 53 lbs/ac. ;Medium BALANCE 0 148 224 72 3 3 1 0 Tract Field 2530 6 Req'dNutrients *245 0 0 0 0 0 0 0 Acres App. Period 29.93 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 45 0 0 0 0 01 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 01 0 RYE Sample Date *22.5 Tons 01-25-07 Manure 200 197 298 96 4 4 1 0 P Removal Rating 77 Ibs/ac. !.]edium BALANCE 0 197 298 96 4 4 1 0 Tract Field 2530 7 Req'dNutrients *245 0 0 0 0 0 0 0 Acres I App. Period 7.08 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 45 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *22.5 Tons 01-25-07 Manure 200 197 298 96 4 41 1 0 P Removal IRating 77 Ibs/ac. IMedium. BALANCE 0 197 298 96 41 4 1 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 14 of 16 Nutrient Management Recommendations Test YEAR 2 N (lbs/A) P2O5 (ibs/A) K2O (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu Lime (Ibs/A) (tons/A) Tract IField 2530 8 Req'd Nutrients *245 0 0 0 0 0 0 0 Acres I App. Period 11.20 *2/15-6/30 Supplied By: CROP Corn, Silage Starter 0 0 0 0 0 0 0 0 Commercial Fert. 45 0 0 0 0 0 0 0 Soil Series Cecil Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *22.5 Tons 01-25-07 Manure 200 197 298 96 4 4 1 0 P Removal T=7 77 lbs/ac. Medium BALANCE 0 197 298 96 4 41 I 0 Tract Field 77 2533 1 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres App. Period 19.64 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date *41 bu. 01-12-07 Manure 0 0 0 0 0 0 0 0 P Removal I Rating 33 lbs/ac. Medium BALANCE 0 0 0 0 0 01 0 0 Tract Field 2533 2 Req'dNutrients *0 0 0 0 0 0 0 0 Acres I App. Period 24.50 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Georgeville Residual 01 0 0 01 0 0 01 0 RYE I Sample Date *41 bu. 01-12-07 Manure 0 0 0 0 0 0 0 0 P Removal Rating 33 Ibs/ac. Medium BALANCE 0 0 0 0 0 0 0 0 Tract Field 312 4 Req'dNutrients *0 0 0 0 0 0 0 0 Acres App. Period 15.00 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date *41 bu. 12-04-07 Manure 0 0 0 0 0 0 0 0 P Removal I Rating 33 Ibs/ac. Imedium BALANCE 0 0 0 0 0 01 0 0 Tract Field 312 6 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres I App. Period 14.90 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE Sample Date *39 bu. 12-04-06 Manure 0 0 0 0 0 01 0 P Removal Rating 31 Ibs/ac. Medium BALANCE 1 01 0 0 0 0 0 0 0 Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 15 of 16 Nutrient Management Recommendations Test YEAR 2 N (lbs/A) P2O5 (lbs/A) K2O (lbs/A) Mg (lbs/A) Mn (lbs/A) Zn (lbs/A) Cu (lbs/A) Lime (tons/A) Tract Field 312 7 Req'd Nutrients *0 0 0 0 0 0 0 0 Acres App. Period 17.90 4/1-9/15 Supplied By: CROP Soybeans, Double Crop Starter 0 0 0 0 0 0 0 0 Commercial Fert. 0 0 0 0 0 0 0 0 Soil Series Georgeville Residual 0 0 0 0 0 0 0 0 RYE I Sample Date *41 bu. 12-04-06 Manure 01 0 0 0 0 0 0 0 P Removal Rating 33 lbs /ac. Medium BALANCE 0 0 0 0 0 0 0 0 NOTE: Symbol * means user entered data. Preview Database Version 3.1 Date Printed: 4/20/2007 NMR Page Page 16 of 16 0 G U N C z z C z z C z C z z z z Q z z z C z C z z z q z Q z Q z z z �. C z N N 00 m r 'D vl r "D v1 N h p h ti M 4 M 4 4 4 4 N vl N Vl V1 O O N O o N O 0 N m w \D D\ 00 w a ai a U [ 0 [ (D 0 0 0 z z z z z z z z z z z z z z z z z z z z z z z O� N N .M-i .m-i N 00 N w N w N 00 N 00 N w �/1 m �/1 D\ �n 0\ �n D\ �n D\ �/1 C, .-i D\ --� T -•� V1 �-r v1 .-i V1 000 W 0 o 0 cn o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O Fmi � U �s a vi vi 1i vi C\ vn C\ vi D\ vl D\ h C� vi D\ vl N �D N "D N "0 N �O N '0 N %D O O N N N l- Ll 0 U 0 a 0 a a m m m m m rii m a A m m a A m a A �n m m a Oc � CODa s a s m m m m m m A m A m CC,d m m a m o a m m m w w w w U m m U cn m on� U�� U w w�� U w w b w W N N N N N N N N o 0 0 n 7 7 m m h m m m m m m co*', �n con m m m m �n roi F m N m N m N mm N m N m cn N m N cn cn N m cn N mm N N m m N cn N cn N cn N m N N vl N vi N vi N vi N N vi N a En ,A 0 U N C O C o C 0 C 0 C 0 C 0 C o C O C O C O C O C o C 0 C 0 C 0 C 0 C 0 C 0 C 0 C 0 � C C C 0 0 0 m a� � m m a� m C C C C C [ C 0 0 0 0 0 0 0 Z. %. z Zi �+ z �-+ �. �. ,�-� z Zi �-+ z Zi z Zi Zi �. z z Z. z z �%. %-" Zi 7. �. �?I C N rn Cl) rn m G\ m o N O N N N h N h r+ m m m 00 N 00 N 00 N 7 lzr m m m m m m m m m m M m M O V N C4 U C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C 0 z C C C 0 0 0 z z z m C C C C C C C 0 0 0 0 0 0 0 z z z z z z z N N N N N N G\ 01 o0 V00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 g 0 q q 0 0 0 0 0 0 0 0 0 0 O y U U R " a U 0 0 0 0 0 0 0 0 O q❑ v' A C O o °' N O vj O o o o 0 8 1 o U� o m o U w m w on o U o U o E 07 o U o m o U w w U o o m m U cc on w w i t w 'o h [� [- 00 ao DoH- N +INn O O O O O O O O O O O O O to O kn O W) O O 'n O vl O vl O Vl O CDm m �/1 qn �/) m m M m m N N m M ,.y Vl Vl Vl Vl -n V1 N �/1 N �ry N �/1 N Vl N Vl N Vl N Vl N Vl N Vl N V1 N W) N N N N Vl N N N N N N N N N N N N N M M 0 N 1 C> O 0 U N 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o d a z z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z l� m m N ID N �D N N - O m O m - - - - - N \O N O m O m 0 U a U 0 0 0 0 0 0 0 0 0 0 0 0 0 o A 0 0 � 0 z Z Z Z z Z Z Z Z Z Z Z Z Z0 Z0 Z z U n W W m o0 m 00 m 00 Qi 00 O\ 0o m a m o0 m 00 m 00 m oa M o0 0 0 0 o 0 c 0 o 0 0 0 0 0 0 O0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 r o o c O y U � Q. �o �o 47 10 10 �o l0 h Vl �o 'D 'D �0 �0 1I'i Vl O U 0 0 0 m m o o rn m 0 a C� _ a a P. o w w w w U° on un w w co rn v i w i m m 7 V It In v1 ID %D ID l- l- ll 00 00 i m m m m m m m ti m ti m .N-� m m C'I m N.� m � m l m m H cn rl i-1 O N N Cd rn In M 00 N The Available Waste Storage Capacity table provides an estimate of the number of days of storage capacity available at the end of each month of the plan. Available storage capacity is calculated as the design storage capacity in days minus the number of days of net storage volume accumulated. The start date is a value entered by the user and is defined as the date prior to applying nutrients to the first crop in the plan at which storage volume in the lagoon or holding pond is equal to zero. Available storage capacity should be greater than or equal to zero and less than or equal to the design storage capacity of the facility. If the available storage capacity is greater than the design storage capacity, this indicates that the plan calls for the application of nutrients that have not yet accumulated. If available storage capacity is negative, the estimated volume of accumulated waste exceeds the design storage volume of the structure. Either of these situations indicates that the planned application interval in the waste utilization plan is inconsistent with the structure's temporary storage capacity. Available Waste Storage Ca aci Source Name I Dairy (Heifer) Liquid Manure Slurry Design Storage Capacity (Days) Start Date 2/15 90 Plan Year Month Available Storage Capacity (Days) 1 1 90 1 2 90 1 3 90 1 4 90 1 5 90 1 6 90 1 7 90 1 8 90 1 9 90 1 10 90 1 11 90 1 12 90 2 1 90 2 2 90 2 3 90 2 4 90 2 5 90 2 6 90 2 7 90 2 8 90 2 9 90 2 10 90 2 11 90 2 12 90 * Available Storage Capacity is calculated as of the end of each month. ----------------------------------------------------------------------------------------------------------------------------------------------------- 289359 Database Version 3.1 Date Printed: 04-11-2007 Capacity Page Page 1 of 1 Required Specifications For Animal Waste Management 1. Animal waste shall not reach surface waters of the state by runoff, drift, manmade conveyances, direct application, or direct discharge during operation or land application. Any discharge of waste that reaches surface water is prohibited. 2. There must be documentation in the design folder that the producer either owns or has an agreement for use of adequate land on which to properly apply the waste. If the producer does not own adequate land to properly dispose of the waste, he/she shall provide evidence of an agreement with a landowner, who is within a reasonable proximity, allowing him/her the use of the land for waste application. It is the responsibility of the owner of the waste production facility to secure an update of the Nutrient Management Plan when there is a change in the operation, increase in the number of animals, method of application, receiving crop type, or available land. 3. Animal waste shall be applied to meet, but not exceed, the nitrogen needs for realistic crop yields based upon soil type, available moisture, historical data, climatic conditions, and level of management, unless there are regulations that restrict the rate of applications for other nutrients. 4. Animal waste shall be applied to land eroding less than 5 tons per acre per year. Waste may be applied to land eroding at more than 5 tons per acre per year but less than 10 tons per acre per year provided grass filter strips are installed where runoff leaves the field (see USDA, NRCS Field Office Technical Guide Standard 393 - Filter Strips). 5. Odors can be reduced by injecting the waste or by disking after waste application. Waste should not be applied when there is danger of drift from the land application field. 6. When animal waste is to be applied on acres subject to flooding, waste will be soil incorporated on conventionally tilled cropland. When waste is applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding (see "Weather and Climate in North Carolina" for guidance). 7. Liquid waste shall be applied at rates not to exceed the soil infiltration rate such that runoff does not occur offsite or to surface waters and in a method which does not cause drift from the site during application. No ponding should occur in order to control odor and flies. ------------------------------------------------------------------------------ 289359 Database Version 3.1 Date Printed: 4/11/2007 Specification Page 1 8. Animal waste shall not be applied to saturated soils, during rainfall events, or when the soil surface is frozen. 9. Animal waste shall be applied on actively growing crops in such a manner that the crop is not covered with waste to a depth that would inhibit growth. The potential for salt damage from animal waste should also be considered. 10. Nutrients from waste shall not be applied in fall or winter for spring planted crops on soils with a high potential for leaching. Waste/nutrient loading rates on these soils should be held to a minimum and a suitable winter cover crop planted to take up released nutrients. Waste shall not be applied more than 30 days prior to planting of the crop or forages breaking dormancy. 11. Any new swine facility sited on or after October 1,1995 shall comply with the following: The outer perimeter of the land area onto which waste is applied from a lagoon that is a component of a swine farm shall be at least 50 feet from any residential property boundary and canal. Animal waste, other than swine waste from facilities sited on or after October 1,1995, shall not be applied closer that 25 feet to perennial waters. 12. Animal waste shall not be applied closer than 100 feet to wells. 13. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 14. Waste shall be applied in a manner not to reach other property and public right-of-ways. 15. Animal waste shall not be discharged into surface waters, drainageways, or wetlands by a discharge or by over -spraying. Animal waste may be applied to prior converted cropland provided the fields have been approved as a land application site by a "technical specialist". Animal waste shall not be applied on grassed waterways that discharge directly into water courses, and on other grassed waterways, waste shall be applied at agronomic rates in a manner that causes no runoff or drift from the site. 16. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. -------------------------------------------------------------------------------------------------------------------------------------------------------------- 289359 Database Version 3.1 Date Printed: 4/11/2007 Specification Page 2 17. A protective cover of appropriate vegetation will be established on all disturbed areas (lagoon embankments, berms, pipe runs, etc.). Areas shall be fenced, as necessary, to protect the vegetation. Vegetation such as trees, shrubs, and other woody species, etc., are limited to areas where considered appropriate. Lagoon areas should be kept mowed and accessible. Berms and structures should be inspected regularly for evidence of erosion, leakage, or discharge. 18. If animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing a "closure plan" which will eliminate the possibility of an illegal discharge, pollution, and erosion. 19. Waste handling structures, piping, pumps, reels, etc., should be inspected on a regular basis to prevent breakdowns, leaks, and spills. A regular maintenance checklist should be kept on site. 20. Animal waste can be used in a rotation that includes vegetables and other crops for direct human consumption. However, if animal waste is used on crops for direct human consumption, it should only be applied pre -plant with no further applications of animal waste during the crop season. 21. Highly visible markers shall be installed to mark the top and bottom elevations of the temporary storage (pumping volume) of all waste treatment lagoons. Pumping shall be managed to maintain the liquid level between the markers. A marker will be required to mark the maximum storage volume for waste storage ponds. 22. Waste shall be tested within 60 days of utilization and soil shall be tested at least annually at crop sites where waste products are applied. Nitrogen shall be the rate -determining nutrient, unless other restrictions require waste to be applied based on other nutrients, resulting in a lower application rate than a nitrogen based rate. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these metals approach excessive levels. pH shall be adjusted and maintained for optimum crop production. Soil and waste analysis records shall be kept for a minimum of five years. Poultry dry waste application records shall be maintained for a minimum of three years. Waste application records for all other waste shall be maintained for five (5) years. 23. Dead animals will be disposed of in a manner that meets North Carolina regulations. ---------•--------------- ------------------------------------------------- ---------------- 289359 Database Version 3.1 Date Printed: 4/11/2007 Specification Page 3 NUTRIENT MANAGEMENT and WASTE UTILIZATION PLAN SUPPLEMENTAL INFORMATION N.C. Practice Job Sheet: NC-590-633 Prepared for: 7er,r•j C r oLww oc-a By: (201 t t �- Farm: WHAT IS NUTRIENT MANAGEMENT? The conservation practice, Nutrient Management, is managing the amount, source, placement, form and timing of the application of nutrients and soil amendments to achieve realistic production goals, while minimizing nutrient movement to surface or ground waters. The practice, Waste Utilization, is using agricultural waste such as manure or wastewater in an environmentally sound manner. These practices are jointly accomplished through the development of a Nutrient Management/Waste Utilization Plan, which is normally part of a broader Conservation Plan that addresses multiple natural resource concerns on the land. PURPOSE OF NUTRIENT MANAGEMENT and WASTE UTILIZATION PRACTICES Your nutrient management/waste utilization plan is intended to accomplish one or more of the following objectives: • To budget nutrients for plant production. • To properly utilize manure or organic by- products as a plant nutrient source. • To minimize the delivery of agricultural nutrients to surface and ground water resources. • To maintain or improve the physical, chemical, and biological condition of the soil. Tract: a530 Date: ul / !8 /_07 • To utilize agricultural wastes for livestock feed or as an energy source. CONTENTS OF THE NUTRIENT MANAGEMENT / WASTE UTILIZATION PLAN The information provided in this Job Sheet and the attachments meet the minimum requirements for a Nutrient Management Plan for USDA-NRCS purposes. This Nutrient Management Plan includes: 1 A plan map and soils map for the area planned (these may be part of the overall Conservation Plan). 2. Location of designated sensitive areas or resources (streams, wells, sinkholes, etc.) and any associated nutrient application setbacks, etc. 3. Your planned crop rotation. 4. Results of soil, plant, water tests. 5. Results from Phosphorus Loss Assessment Tool (PLAT) or Leaching Index (LI) as required. 6. Realistic yield expectations for the crops in the rotation, and their source if other than default values approved for N.C. 7. Recommended nutrient application rates for nitrogen, phosphorus, and potassium, as well as timing, form, NC Practice Job Sheet: NC-590 (August, 2003) Page 1 0 and method of application and incorporation, if applicable. This Job Sheet (or comparable information), that provides the following: • General requirements of this practice, as well as additional requirements to meet the natural resource protection purposes listed above. • Additional considerations specific to this plan. • Operation and maintenance information associated with this practice. Because this Nutrient Management Plan includes agricultural organic sources, additional items are required in the plan to ensure proper waste utilization: • Waste Utilization Agreement (if applicable) • Waste Utilization Third Party Agreement (if applicable) • Additional engineering design and operating information for waste storage structures, transport, and application system, as applicable. These designs, and the instructions for operating these structures, is an integral component of your overall Nutrient Management/ Waste Utilization Plan. • Emergency Action Plan to prevent overtopping or other discharges from storage structures or facilities, as applicable. This plan was developed based on the current NRCS 590 and 633 standards and Federal, state, or local regulations or policies. Changes in laws or regulations may necessitate a revision of the plan. BASIC REQUIREMENTS FOR WASTE UTILIZATION General All manure and organic residues must be applied according to a nutrient management plan (see the following section, "BASIC REQUIREMENTS FOR NUTRIENT MANAGEMENT') You are required to acquire and comply with all federal, state, or local permit requirements related to the handling and application of manure or organic materials. The nutrient management/waste utilization plan must address all organic waste generated at or brought to the facility. A Waste Utilization Third Party Agreement must exist to address all organic waste not handled by the nutrient management/waste utilization plan. Manure or organic wastes will not be applied to the following areas: • surface waters, • wetlands, unless constructed as a component in a waste treatment system, • soils subject to frequent flooding during the period when flooding is expected, • frozen, snow-covered, or saturated soils, • within 200 feet of a dwelling other than those owned by the producer, • within 100 feet of a well, • within 25 feet of surface waters, or • within any other setbacks as identified by federal, state, or local laws or regulations (e.g. NC General Statute prevents swine lagoon effluent from being applied within 75 feet of a residential property boundary or perennial stream or river if the facility was sited on or after October 1995.) Manure or organic wastes will be applied in a manner not to reach surface waters, wetlands (unless constructed as a component in a waste treatment system), property owned by others, or public right- of-way. Sludge that accumulates in waste storage structures must be analyzed prior to land NC Practice Job Sheet: NC-590 (August, 2003) Page 2 application. Adequate provisions (available land and/or third party manure agreements) must exist to ensure sludge is applied in adherence to all nutrient application requirements. All federal and state guidance regarding the proper testing, handling, planning, and application of sludge must be followed for regulated operations. Since compliance with all applicable North Carolina laws is the responsibility of the producer, you should consult the most current version of the Guidance Memo for Implementing the Environmental Management Commission's Regulations for Animal Waste Management for questions. ADDITIONAL REQUIREMENTS FOR PROVIDING LIVESTOCK FEED If applicable, all agricultural wastes or other organic residues used for feedstock must be handled in a manner to minimize contamination and preserve its feed value. Chicken litter stored for this purpose must be covered. A qualified animal nutritionist shall develop rations that utilize animal wastes. ADDITIONAL REQUIREMENTS FOR PROVIDING A SOURCE OF ENERGY If your facility is to be used for energy production, all energy producing components of the system are included in the Nutrient Management/Waste Utilization Plan and provisions for the utilization of residues of energy production identified. Your Nutrient Management Plan includes the use of these residues, if applicable. BASIC REQUIREMENTS FOR NUTRIENT MANAGEMENT General Application of nutrients must comply with all applicable Federal, state, and local laws and regulations. The realistic yield expectations (RYES) in this plan are based on one or more of the following: • Default values approved by the N.C. Interagency Nutrient Management Committee that incorporate soil productivity information, yield data, and research with North Carolina soils, and cropping systems. Additional information on the default values may be found at: www.soii.ncsu.edu/nm 1ncnmwg/index.him Documented actual yield data from the site, determined by the average of the highest three yields of the last five consecutive specific crop harvests. (For forage crops, determine the average of the highest three years of the last five years.) A fertilization rate recommended by North Carolina State University may be used in cases where no yield data or approved RYE values exist for a crop. • An RYE inferred from a similar crop on a soil with similar physical and chemical features may be used for new crops or in the absence of other RYE data. This inferred RYE may ONLY be specified by a certified Nutrient Management planner. Erosion, runoff, and water management controls have been planned, as needed, on fields that receive nutrients. Soil Testing This nutrient management plan has been developed based on current soil test results (no older than three years). Soil samples must be collected and prepared in accordance with North Carolina State University or the North Carolina Department of Agriculture and Consumer Services (NCDA&CS) Agronomic Division standards or recommendations. NC Practice Job Sheet: NC-590 (August, 2003) Page 3 Soil test analyses can be performed by any laboratory or program that is certified by the North Carolina Department of Environment and Natural Resources (NCDENR), Division of Water Quality, Laboratory Section. NCDA&CS Agronomic Division uses the Mehlich-3 extractant process for soil testing. Growers who utilize other laboratories must request the use of the Mehlich-3 methodology to ensure the test results are compatible with North Carolina's nutrient management planning and assessment tools. For statewide consistency, all laboratories used must provide fertilization recommendations using guidelines and methodologies as referenced at the NCDA&CS website: www.nca_qr.comlagronomilobook.htm Growers are encouraged to use a laboratory that is supported by field research within the state. Soil testing shall include analysis for all nutrients for which specific information is needed to develop the nutrient plan. Plant Tissue Testing Tissue sampling and testing, when used, shall be done in accordance with North Carolina State University or NCDA&CS standards or recommendations. Manure Testing Nutrient values of manure and organic by- products shall be established for planning purposes based on laboratory analysis, acceptable default values, or historic records for the operation. When determining actual application rates, a laboratory analysis is required. State regulations. require that waste be tested within 60 days of utilization for some operations. In the case of daily spreading, the waste must be sampled and analyzed at least once a year. Acceptable laboratories include the NCDA&CS Agronomic Division, or others certified by the NCDENR. Field Risk Assessment A field -specific assessment of the potential for phosphorus transport from each field (or groups of similar fields) have been conducted, using the North Carolina Phosphorus Loss Assessment Tool (PLAT) PLAT assesses the potential for phosphorus (P) to be transported from the site to surface water through each of the four primary loss pathways: • sediment -bound P transported through erosion, • soluble P transported through surface runoff, • soluble P leached through the soil profile, and • non -incorporated source P transported through surface runoff. Based on the assessment of each loss pathway, PLAT produces a single rating for each field. As shown below, this rating will identify whether nitrogen or phosphorus shall be the rate -determining element in developing the planned application rate for manure. PLAT Rating I Nutrient Application Criteria LOW Nitrogen -based manure MEDIUM -application. Nitrogen -based manure application. HIGH Manure application limited to phosphorus removal from site in harvested plant biomass. VERY HIGH No additional manure application to be specified in plan for the site. On all sites, regardless of the PLAT rating, starter fertilizers may be recommended in accordance with NCSU guidelines or recommendations. NC Practice Job Sheet: NC-590 (August, 2003) Page 4 In some cases, specific conservation practices that reduce the potential for phosphorus transport have been incorporated into PLAT. Examples include buffers or filter strips, ponds, water table management, and residue management and conservation tillage. Similarly, soil erosion rates, either existing or planned, have been incorporated into your PLAT analysis. This information is shown on the PLAT results enclosed. Because the management of the site actually affects the PLAT rating, all practices identified on the PLAT analysis (including any required to achieve the specified erosion rate) must be either already installed or included in a Conservation Plan for the Nutrient Management Plan to be approved. Nutrient Application Rates Recommended nutrient application rates are based on North Carolina State University or NCDA&CS recommendations that consider current soil test results, RYEs, and management. Liming material shall be applied as needed to adjust soil pH to the specific range required by the crop or crops in the rotation for optimum availability and utilization of nutrients. The application amount and rate (in/hr) for liquid wastes (e.g. applied through irrigation) shall not result in runoff from the site. The application shall not exceed the field capacity of the soil. The planned rates of nutrient application are shown on the attached sheets. These rates have been computed as follows: Nitrogen Application - When the plan is nitrogen -based (a PLAT rating of Low or Medium), the application rate of manure or organic by-products shall be based on the recommended nitrogen rate using the RYE for the site (or a rate recommended by NCSU or NCDA in the case of crops without established RYEs). This may result in an application rate for other nutrients that exceeds the soil test recommendation. When the plan is being implemented on a phosphorus standard (a PLAT rating of High or Very High), manure or other organic by-products shall be applied at rates consistent with the phosphorus application guidance below. In such situations, an additional nitrogen application from non -organic sources may be required to supply nitrogen at the rate recommended by the RYE. -• Within the limits allowed by PLAT, manure or other organic by-products may be applied on soybeans at rates equal to the estimated removal of nitrogen in harvested plant biomass. All nitrogen rates for hay production are for pure grass stands. Due to the nutrient recycling by grazing animals, the planned nitrogen rate per unit yield for hay crops shall be reduced by 25% for the portion of the expected yield that is removed through grazing. Phosphorus Application — When manure or other organic by-products are used, the planned rates of phosphorus application shall be based on the PLAT rating for the site, as follows: Low or Medium Rating — The planned manure or organic by- product application rate is based on the nitrogen needs of the crop. High Rating — The planned manure or organic by-product application rate is limited to the phosphorus removal rate of the harvested plant biomass. Very High Rating — No additional manure or organic by-product application is specified in the plan. NC Practice Job Sheet: NC-590 (August, 2003) Page 5 On all sites, regardless of the PLAT rating, starter fertilizers containing nitrogen, phosphorus, and potassium may be recommended in accordance with North Carolina State University guidelines or recommendations. A single application of phosphorus applied as manure or organic by-product may be made at a rate equal to the recommended phosphorus application or estimated phosphorus removal in harvested plant biomass for the crop rotation or multiple years in the crop sequence. • When such single applications are made, the rate shall: ♦ not exceed the recommended nitrogen application rate during the year of application, or ♦ not exceed the estimated nitrogen removal in harvested plant bio- mass during the year of application when there is no recommended nitrogen application, or ♦ not be made on sites with a Very High PLAT risk rating.' • Potassium Application — Planned potassium application rates should match the soil test recommended rates as closely as possible. (This is particularly critical in situations where a potentially harmful nutrient imbalance in crops or forages may occur, such as grass tetany). When using manure or other organic sources, the addition of potassium from non -organic sources may be required. • Other Plant Nutrients - The planned rates of application of other nutrients if applicable are consistent with North Carolina State University or the NCDA&CS guidelines or recommendations. Nutrient Application Timing Timing of nutrient application shall correspond as closely as possible with plant nutrient uptake characteristics, while considering cropping system limitations, weather and climatic conditions, and field accessibility. Nutrients shall not be applied to frozen, snow-covered, or saturated soil. Manure or organic by-products shall not be applied more than 30 days prior to planting of the crop or forages breaking dormancy. For nutrients applied through irrigation systems, application equipment should be properly calibrated to ensure uniform distribution of material at planned rates. Plan Review and Revision Period A thorough review and revision (if needed) of the nutrient management plan shall be conducted on a regular cycle, not to exceed five years. Heavy Metals Monitoring For animal waste, including sludge, zinc and copper concentrations shall be monitored and alternative crop sites for application shall be sought when these metals approach excessive concentrations. The following criteria and actions are provided: ZINC Mehlich-3Index Action Zn-I 300 (21 Ibs/ac) Peanuts are very sensitive to zinc, and application on peanuts should be limited. Seek alternative sites when possible. The risk of zinc toxicity is greater with low soil pH and has been seen at Zn-I as low as 300. * 500 (35 Ibslac) Critical toxic level for peanuts. Cease application on peanuts. ` 2,000 (142 Caution: Seek alternative sites Ibs/ac) when possible for all crops. * 3,000 (213 Critical toxic level for all crops. Ibs/ac) Cease a:s:)lication for all cross. NC Practice Job Sheet: NC-590 (August, 2003) Page 6 COPPER Mehlich-3Index Action Cu-I 2,000 (72 Ibs/ac) Caution: Seek alternative sites when possible for all crops. * 3,000 (108 Critical toxic level for all crops. Ibs/ac) Cease application on all crops. * Maintain pH at 6.0 on these sites. When sewage sludge is applied, the accumulation of potential pollutants (including arsenic, cadmium, copper, lead, selenium, and zinc) in the soil shall be monitored in accordance with the US Code, Reference 40 CFR, Parts 403 and 503, and applicable state and local laws or regulations. Additional information on heavy metal criteria for sewage sludge may be found in Land Application of Sewage Sludge, EPA/831-B-93-002b publication number at: httA://www, eaa.gov/npdes/pubs/sludge.pdf ADDITIONAL REQUIREMENTS FOR MINIMIZING DELIVERY OF NUTRIENTS TO SURFACE AND GROUND WATER In areas that have been identified as impaired with agricultural nutrients being a likely source, an assessment shall be completed of the potential for nitrogen or phosphorus transport from the site. (The streams/water bodies in this category are listed in the USDA- NRCS Field Office Technical Guide, Section I.) ❑ NO This nutrient management plan IS NOT in an area where surface waters are impaired, with agricultural nutrients identified as a likely source. The Leaching Index (LI) is not required. Val YES This nutrient management plan IS in an area where surface waters are impaired, with agricultural nutrients identified as a likely source. The Leaching Index (LI) is included in this plan. While the results of the LI does not affect your planned nutrient application rates, some additional conservation practices may be specified in the plan to reduce the risk of nutrient movement from the field, if applicable. IMPORTANCE OF MANAGING NUTRIENTS Nitrogen and phosphorus are water soluble elements and either or both may be components of organic and inorganic fertilizers. In soluble forms, both can move with water as leachate down through the soil, or over the soil surface as runoff after rainfall. While nitrogen and phosphorus exist in different forms and may move through different transport processes on the same site, they both can have detrimental effects on both surface and shallow ground water quality. As an example, excess nutrients can result in accelerated eutrophication with severe algal blooms and fish kills. Because of the topography, hydrology, and other factors in the state, the environmental problems from excess nutrients reaching surface water may not be exhibited near the contributing source, but rather create water quality problems far downstream. Consequently, the Neuse River Basin, Tar -Pamlico Basin, the Chowan River, the watershed of the B. Everett Jordan Reservoir, and the watershed of the New River in Onslow County are listed as Nutrient Sensitive waters in North Carolina. Nitrogen: Nitrogen applied as fertilizer or organic material is transformed into nitrate and can move with the water moving downward into the shallow ground water and eventually to surface waters. (Relatively small amounts of nitrogen reach our surface waters through rainfall runoff. ) The Leaching Index (LI) is a NC Practice Job Sheet: NC-590 (August, 2003) Page 7 required part of the nutrient management plan in some areas of the state with surface water impairments. The LI uses soils information and local climate data to assess the potential hazard from leaching of nutrients. The results of the LI analysis and recommended actions are included in your nutrient management plan, if applicable. Phosphorus: Research in recent decades indicates that, with high soil phosphorus levels, phosphorus has more potential to be transported off -site than recognized in the past. Phosphorus can be transported in several ways: (1) attached to soil particles leaving the field through erosion, (2) in soluble form leaving the field in surface runoff, and (3) in soluble form leaching downward through the soil profile, and eventually into surface water. Unlike nitrogen, the most likely transport pathway for phosphorus varies by site, and depends upon such factors as soil erosion rate, soil phosphorus levels, texture of soils, existence of buffers, and other factors. In N.C., PLAT is the tool used to assess potential excessive phosphorus losses. The results of the PLAT analysis and recommended actions are included in your nutrient management plan, if applicable. If a site receives a PLAT rating of Low or Medium, then applying manure at rates based on the nitrogen needs of the crop is allowed. It is important to realize that this may result in phosphorus being applied at rates that significantly exceed the crop's phosphorus removal rate. In these cases, the planned nutrient application rate is not sustainable, and eventually a PLAT rating of High may be reached. OPERATION & MAINTENANCE You are responsible for safe operation and maintenance of this practice, including all equipment. The following Operation & Maintenance should be conducted: 1 Review the plan annually to determine if adjustments or modifications to the plan are needed. (The S.B. 1217 interagency group guidelines accepted by the N.C. Division of Water Quality for .0200 operations specify a plan revision when there are changes in crops or cropping patterns that utilize more than 25 percent of the nitrogen generated by the operation.) As a minimum, nutrient management plans shall be thoroughly reviewed every five years and revised if necessary. The next review will be performed in 2. Protect fertilizer and organic by- product storage facilities from weather and accidental leakage or spillage. 3. Ensure proper calibration of application equipment to ensure uniform distribution of material at planned rates. 4. Inspect and maintain the equipment and facilities used to implement the Nutrient Management/Waste Utilization Plan regularly. Any needed repairs should be made in a timely manner. 5. Review the Emergency Action Plan, if applicable, annually. 6. Records should be maintained for five years, or for a period as required by other Federal, state, or local ordinances, or program or contract requirements. To ensure adequate information exists to support sound nutrient management, NRCS recommends the following records be included: • Soil test results and recommendations for nutrient application, • Quantities, analyses and sources of nutrients applied (When the actual rates used exceed the recommended and planned rates on inorganic fertilizer plans, NC Practice Job Sheet: NC-590 (August, 2003) Page 8 records should indicate the reasons for the differences, e.g. inability to acquire custom blended fertilizer.) • Dates and method of nutrient applications, Crops planted, planting and harvest dates, yields, and crop residues removed, • Results of water, plant, and organic by- product analyses, and • Dates of review and person performing the review, and recommendations that resulted from the review. NOTE: State laws or regulations may define record -keeping requirements for some operations. 7. Ensure that workers are protected from and avoid unnecessary contact with inorganic fertilizers and organic by- products. Protection should include the use of protective clothing when working with plant nutrients. Extra caution must be taken when handling ammonia sources of nutrients, or when dealing with organic wastes stored in poorly ventilated enclosures. 8. Properly dispose of material generated by the cleaning of nutrient application equipment. Excess material should be collected and stored or field applied in an appropriate manner. Excess material should not be applied on areas of high potential risk for runoff or leaching. 9. Properly dispose of or recycle nutrient containers according to state and local guidelines or regulations. NC Practice Job Sheet: NC-590 (August, 2003) Page 9 Crop Notes Double -Crop Soybeans, Piedmont The following crop note applies to field(s): 3 Double -crop soybeans should be planted as early in June as possible with planting completed by July 4th. When no -tilling soybeans in small grain straw, it is essential to manage the straw to achieve adequate plant populations. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 4-6 seed/row foot for 7-8" drills and 6-8 seed/row foot for 15" rows. Seeding depth should be 1-1 1/2" and adequate depth control is essential. Phosphorus and potash recommended for the soybeans can be applied to the wheat in the Fall. Soybeans produce their own nitrogen and are normally grown without additions of nitrogen. However, applications of 20-30 lbs/acre N are sometimes made at planting to promote early growth and vigor. Tissue samples can be analyzed during the growing season to monitor the overall nutrient status of the soybeans. Timely management of weeds and insects is essential for profitable double crop soybean production. 5: Piedmont Double -crop soybeans should be planted as early in June as possible with planting completed by July 4th. When no -tilling soybeans in small grain straw, it is essential to manage the straw to achieve adequate plant populations. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 4-6 seed/row foot for 7-8" drills and 6-8 seed/row foot for 15" rows. Seeding depth should be 1-1 1/2" and adequate depth control is essential. Phosphorus and potash recommended for the soybeans can be applied to the wheat in the Fall. Soybeans produce their own nitrogen and are normally grown without additions of nitrogen. However, applications of 20-30 lbs/acre N are sometimes made at planting to promote early growth and vigor. Tissue samples can be analyzed during the growing season to monitor the overall nutrient status of the soybeans. Timely management of weeds and insects is essential for profitable double crop soybean production. ----------------------------------------------------------- -- ------------------- 289359 Database Version 3.1 Date Printed: 04-11-2007 Crop Note Page Page 1 of 7 The following crop note applies to field(s): 12, 13, 6, 7, 8 Double -Crop Soybeans, Piedmont Double -crop soybeans should be planted as early in June as possible with planting completed by July 4th. When no -tilling soybeans in small grain straw, it is essential to manage the straw to achieve adequate plant populations. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 4-6 seed/row foot for 7-8" drills and 6-8 seed/row foot for 15" rows. Seeding depth should be 1-1 1/2" and adequate depth control is essential. Phosphorus and potash recommended for the soybeans can be applied to the wheat in the Fall. Soybeans produce their own nitrogen and are normally grown without additions of nitrogen. However, applications of 20-30 lbs/acre N are sometimes made at planting to promote early growth and vigor. Tissue samples can be analyzed during the growing season to monitor the overall nutrient status of the soybeans. Timely management of weeds and insects is essential for profitable double crop soybean production. 5: Piedmont Double -crop soybeans should be planted as early in June as possible with planting completed by July 4th. When no -tilling soybeans in small grain straw, it is essential to manage the straw to achieve adequate plant populations. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 4-6 seed/row foot for 7-8" drills and 6-8 seed/row foot for 15" rows. Seeding depth should be 1-1 1/2" and adequate depth control is essential. Phosphorus and potash recommended for the soybeans can be applied to the wheat in the Fall. Soybeans produce their own nitrogen and are normally grown without additions of nitrogen. However, applications of 20-30 lbs/acre N are sometimes made at planting to promote early growth and vigor. Tissue samples can be analyzed during the growing season to monitor the overall nutrient status of the soybeans. Timely management of weeds and insects is essential for profitable double crop soybean production. ------------------------------------- --------------------------------------------------------------------------------------------------- 289359 Database Version 3.1 Date Printed: 04-11-2007 Crop Note Page Page 2 of 7 The following crop note applies to field(s): 1, 10, 2, 4, 6, 7 Double -Crop Soybeans, Piedmont Double -crop soybeans should be planted as early in June as possible with planting completed by July 4th. When no -tilling soybeans in small grain straw, it is essential to manage the straw to achieve adequate plant populations. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 4-6 seed/row foot for 7-8" drills and 6-8 seed/row foot for 15" rows. Seeding.depth should be 1-1 1/2" and adequate depth control is essential. Phosphorus and potash recommended for the soybeans can be applied to the wheat in the Fall. Soybeans produce their own nitrogen and are normally grown without additions of nitrogen. However, applications of 20-30 lbs/acre N are sometimes made at planting to promote early growth and vigor. Tissue samples can be analyzed during the growing season to monitor the overall nutrient status of the soybeans. Timely management of weeds and insects is essential for profitable double crop soybean production. 5: Piedmont Double -crop soybeans should be planted as early in June as possible with planting completed by July 4th. When no -tilling soybeans in small grain straw, it is essential to manage the straw to achieve adequate plant populations. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Plant 4-6 seed/row foot for 7-8" drills and 6-8 seed/row foot for 15" rows. Seeding depth should be 1-1 1/2" and adequate depth control is essential. Phosphorus and potash recommended for the soybeans can be applied to the wheat in the Fall. Soybeans produce their own nitrogen and are normally grown without additions of nitrogen. However, applications of 20-30 lbs/acre N are sometimes made at planting to promote early growth and vigor. Tissue samples can be analyzed during the growing season to monitor the overall nutrient status of the soybeans. Timely management of weeds and insects is essential for profitable double crop soybean production. The following crop note applies to field(s): 1, 2, 9 Fescue: Piedmont Adaptation: Well -adapted. In the Piedmont, tall fescue can be planted Aug. 20 to Oct. 10 (best) and Feb. 15 to Mar. 20. For pure -stand broadcast seedings use 20 to 30 lb/ac., for drilled use 15 to 20 lb/ac. seed. Use certified seed to avoid introducing weeds or annual ryegrass. Plant seed 0.25" to 0.5" deep for pure stands, 0.25" in mixture with clovers. Soil test for preplant and maintenance lime, phosphorus, and potassium recommendations. Apply 40 to 60 lb/ac nitrogen at planting for pure stands only. Do not apply N for mixtures with clovers but use proper legume inoculation techniques. Apply 150 to 2001b/ac. N to pure -stand fescue for hay production; reduce N rates by 25% for grazing. Apply N Feb. 1 to Mar. 20 and Aug. 20 to Sept. 30, with equal amounts in each window. Refer to NCSU Technical Bulletin 305 Production and Utilization of Pastures and Forages in North Carolina for additional information or consult your regional agronomist or extension agent for assistance. ---------------------- ----------------------------------------- 289359 Database Version 3.1 Date Printed: 04-11-2007 Crop Note Page Page 3 of 7 The following crop note applies to field(s): 1, 11, 2 Fescue: Piedmont Adaptation: Well -adapted. In the Piedmont, tall fescue can be planted Aug. 20 to Oct. 10 (best) and Feb. 15 to Mar. 20. For pure -stand broadcast seedings use 20 to 30 lb/ac., for drilled use 15 to 201b/ac. seed. Use certified seed to avoid introducing weeds or annual ryegrass. Plant seed 0.25" to 0.5" deep for pure stands, 0.25" in mixture with clovers. Soil test for preplant and maintenance lime, phosphorus, and potassium recommendations. Apply 40 to 60 lb/ac nitrogen at planting for pure stands only. Do not apply N for mixtures with clovers but use proper legume inoculation techniques. Apply 150 to 200 lb/ac. N to pure -stand fescue for hay production; reduce N rates by 25% for grazing. Apply N Feb. 1 to Mar. 20 and Aug. 20 to Sept. 30, with equal amounts in each window. Refer to NCSU Technical Bulletin 305 Production and Utilization of Pastures and Forages in North Carolina for additional information or consult your regional agronomist or extension agent for assistance. The following crop note applies to field(s): 1, 2, 3, 5, 8 Fescue: Piedmont Adaptation: Well -adapted. In the Piedmont, tall fescue can be planted Aug. 20 to Oct. 10 (best) and Feb. 15 to Mar. 20. For pure -stand broadcast seedings use 20 to 30 lb/ac., for drilled use 15 to 201b/ac. seed. Use certified seed to avoid introducing weeds or annual ryegrass. Plant seed 0.25" to 0.5" deep for pure stands, 0.25" in mixture with clovers. Soil test for preplant and maintenance lime, phosphorus, and potassium recommendations. Apply 40 to 601b/ac nitrogen at planting for pure stands only. Do not apply N for mixtures with clovers but use proper legume inoculation techniques. Apply 150 to 2001b/ac. N to pure -stand fescue for hay production; reduce N rates by 25% for grazing. Apply N Feb. 1 to Mar. 20 and Aug. 20 to Sept. 30, with equal amounts in each window. Refer to NCSU Technical Bulletin 305 Production and Utilization of Pastures and Forages in North Carolina for additional information or consult your regional agronomist or extension agent for assistance. The following crop note applies to field(s): 3 Corn Silage: Piedmont and Mountains In the Piedmont, corn should be planted when soil temperature reaches 52 to 55 degrees fahrenheit. Plant 1-2" deep. Adequate depth control is essential. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Apply 10 to 12 lbs. nitrogen per ton of expected yield. All nitrogen can be applied at planting. Also acceptable is to apply 2/3 to 3/4 of the nitrogen at planting and the rest when corn is in the 7 to 9 leaf stage. Tropical corn for silage needs about 6-8 lbs nitrogen per ton of expected yield applying no more than 100 to 120 lbs total nitrogen. Research has shown that nitrogen can be reduced by approximately 15 percent when soil injected. The total N is dependent on the soil type and expected yield. Apply phosphorus and potassium according to a soil test before planting. Phosphorus is best utilized when banded with the planter as a starter. Plant samples can be analyzed during the growing season to monitor the nutrient status of the corn. Timely management of weeds and insects is essential in profitable corn silage production. Plant a cover crop after harvest. -- ------------------------------------------------------------------------------------------ 289359 Database Version 3.1 Date Printed: 04-11-2007 Crop Note Page Page 4 of 7 The following crop note applies to field(s): 12, 13, 6, 7, 8 Corn Silage: Piedmont and Mountains In the Piedmont, corn should be planted when soil temperature reaches 52 to 55 degrees fahrenheit. Plant 1-2" deep. Adequate depth control is essential. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Apply 10 to 12 lbs. nitrogen per ton of expected yield. All nitrogen can be applied at planting. Also acceptable is to apply 2/3 to 3/4 of the nitrogen at planting and the rest when corn is in the 7 to 9 leaf stage. Tropical corn for silage needs about 6-8 lbs nitrogen per ton of expected yield applying no more than 100 to 120 lbs total nitrogen. Research has shown that nitrogen can be reduced by approximately 15 percent when soil injected. The total N is dependent on the soil type and expected yield. Apply phosphorus and potassium according to a soil test before planting. Phosphorus is best utilized when banded with the planter as a starter. Plant samples can be analyzed during the growing season to monitor the nutrient status of the corn. Timely management of weeds and insects is essential in profitable corn silage production. Plant a cover crop after harvest. The following crop note applies to field(s): 1, 10, 2, 4, 6, 7 Corn Silage: Piedmont and Mountains In the Piedmont, corn should be planted when soil temperature reaches 52 to 55 degrees fahrenheit. Plant 1-2" deep. Adequate depth control is essential. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Apply 10 to 12 lbs. nitrogen per ton of expected yield. All nitrogen can be applied at planting. Also acceptable is to apply 2/3 to 3/4 of the nitrogen at planting and the rest when corn is in the 7 to 9 leaf stage. Tropical corn for silage needs about 6-8 lbs nitrogen per ton of expected yield applying no more than 100 to 120 lbs total nitrogen. Research has shown that nitrogen can be reduced by approximately 15 percent when soil injected. The total N is dependent on the soil type and expected yield. Apply phosphorus and potassium according to a soil test before planting. Phosphorus is best utilized when banded with the planter as a starter. Plant samples can be analyzed during the growing season to monitor the nutrient status of the com. Timely management of weeds and insects is essential in profitable corn silage production. Plant a cover crop after harvest. --------------------------------------------- ------------------------------------ 289359 Database Version 3.1 Date Printed: 04-11-2007 Crop Note Page Page 5 of 7 The following crop note applies to field(s): 3 Small Grain Silage, Piedmont and Mountains In the Piedmont, small grain silage should be planted from October 10 to November 3. In the Mountains, small grain silage should be planted from September 15 to October 31. Plant 18 to 22 seed/drill row foot at 1-1 1/2" deep and increase the seeding rate by 5% for each week seeding is delayed beyond the optimum time frame. See the seeding rates table for applicable seeding rate modifications in the current NCSU "Small Grain Production Guide".Also, increase the initial seeding rate by at least 10% when planting no -till. Adequate depth control when planting the small grain is essential. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Apply approximately 30 lbs N at planting. Increase N at planting by 20% for no -till. Phosphorus and potassium should be applied according to a soil test at this time. The remaining N should be applied during February -March. Apply 10 to 12 lbs. N per ton of expected yield. The total N is dependent on soil type and expected yield. Plant samples can be analyzed during the growing season to monitor the nutrient status of the small grain. Timely management of diseases, weeds and insects are essential for profitable small grain silage production. Plant a cover crop after harvest. The following crop note applies to field(s): 12, 13, 6, 7, 8 Small Grain Silage, Piedmont and Mountains In the Piedmont, small grain silage should be planted from October 10 to November 3. In the Mountains, small grain silage should be planted from September 15 to October 31. Plant 18 to 22 seed/drill row foot at 1-1 1/2" deep and increase the seeding rate by 5% for each week seeding is delayed beyond the optimum time frame. See the seeding rates table for applicable seeding rate modifications in the current NCSU "Small Grain Production Guide".Also, increase the initial seeding rate by at least 10% when planting no -till. Adequate depth control when planting the small grain is essential. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Apply approximately 30 lbs N at planting. Increase N at planting by 20% for no -till. Phosphorus and potassium should be applied according to a soil test at this time. The remaining N should be applied during February -March. Apply 10 to 12 lbs. N per ton of expected yield. The total N is dependent on soil type and expected yield. Plant samples can be analyzed during the growing season to monitor the nutrient status of the small grain. Timely management of diseases, weeds and insects are essential for profitable small grain silage production. Plant a cover crop after harvest. -------------------------------------------------------------------------------------------------------------------------------- 289359 Database Version 3.1 Date Printed: 04-11-2007 CropNote Page Page 6 of 7 The following crop note applies to field(s): 1, 10, 2, 4, 6, 7 Small Grain Silage, Piedmont and Mountains In the Piedmont, small grain silage should be planted from October 10 to November 3. In the Mountains, small grain silage should be planted from September 15 to October 31. Plant 18 to 22 seed/drill row foot at 1-1 1/2" deep and increase the seeding rate by 5% for each week seeding is delayed beyond the optimum time frame. See the seeding rates table for applicable seeding rate modifications in the current NCSU "Small Grain Production Guide".Also, increase the initial seeding rate by at least 10% when planting no -till. Adequate depth control when planting the small grain is essential. Review the NCSU Official Variety "green book" and information from private companies to select a high yielding variety with the characteristics needed for your area and conditions. Apply approximately 30 lbs N at planting. Increase N at planting by 20% for no -till. Phosphorus and potassium should be applied according to a soil test at this time. The remaining N should be applied during February -March. Apply 10 to 12 lbs. N per ton of expected yield. The total N is dependent on soil type and expected yield. Plant samples can be analyzed during the growing season to monitor the nutrient status of the small grain. Timely management of diseases, weeds and insects are essential for profitable small grain silage production. Plant a cover crop after harvest. 289359 Database Version 3.1 Date Printed: 04-11-2007 Crop Note Page Page 7 of 7 Nitro en Application Rate Calculated Using Soil Type and Realistic Yield Table For Chatham County SOIL TYPE 205B Georaeville silt loam 2 to 6 % slopes APPL. DATE 205B Oat ¢rain 104 Ibs N/ac Aug-- ril 205B Wheat drain 132 Ibs N/ac Au -A ril 205B Barley ain 88 Ibs N/ac Aug -A nil 205B Rye uain 132 Ibs N/ac Awz-Aiiril 205B Corn for rain 1191bs ac Feb -Jul 205B Corn for silage 228 Ibs N/ac Feb- ul 205B Sorghum for uain 144 Ibs N/ac Aril -Jul 205B Sor hum silaiae 228 Ibs N/ac Aril -July 205B Soybeans 1401bs N/ac Aril -Se t 205B Sorghum -Sudanvrass for hav 180 Ibs N/ac A ril-August 205B Sudangrass for hay 180 Ibs N/ac A ril-August 205B Fescue for hay 180 Ibs N/ac August -Jul 205B Orchard ass for hav 180 Ibs N/ac August -Jul 205B Small grain for ha • 1201bs N/ac Au -A ril 205B Rveuass for hav 180 Ibs N/ac Feb -May 205B Sudan- ass for razing 135 Ibs N/ac Aril -Au gust 205B Fescue for crazing 135 Ibs N/ac August -Jul 205B rchard�ass for grazinia 135 Ibs N/ac August -Jul 205B Small ain for grazing 901bs N/ac Au -April 205B Ryearass for suazing 135 Ibs N/ac Feb -Ma 205B Matua gTass for hay 180 Ibs N/ac August -Jul 205B Matua for uazing 135 Ibs N/ac August -July SOIL TYPE 205B2 Georyeville silty clav loam 2 to 6 % slopes APPL. DATE 205B2 Oat vrain 88 Ibs N/ac Au -A ril 205132 Wheat zrain 1121bs N/ac Au -A ril 205B2 Barley ain 75 Ibs N/ac Aug -April 205B2 Rye erain 112 Ibs N/ac Au -,-April 205132 Comarain 101 Ibs N/ac Feb -Jul 205132 Qom sila e 194 Ibs N/ac Feb -Jul 205B2 Soybeans 119 Ibs N/ac April -Sent 205B2 Sorghum -rain 122 Ibs N/ac Aril -Jul 205B2 Sors!hum-si a e 194 Ibs N/acril-Jul 205B2 Sor- um- Sudanarass for hay 153 Ibs / c Aril-Au-ust 205B2 Sudan-rass for hay 153 Ibs N/ac A 1-August 205132 Fescue hay 153 Ibs N/ac Auat st-Jul f 205B2 Orchard-rass hay 153 Ibs N/ac August -Jul 205B2 Small uain hay 1021bs N/ac Au -A ril 205132 Ryegrass for hay 153 Ibs N/ac Feb -Ma 205B2 Sudangrass for a-razin-z 115 Ibs N/ac April -August 205B2 Fescue for 2razinQ 115 Ibs N/ac August -July 205B2 Orchardarass for 2razina 115 Ibs N/ac August= my 205B2 Small zrain for grazinQ 871bs N/ac Aug -A ril 205B2 Rvegrass for azin 115 Ibs N/ac Feb -Ma 205B2 Matua for hay 153 Ibs N/ac Au ust-Jul 205B2 Matua for grazing 115 Ibs N/ac Au ist-July SOIL TYPE 205C Geor eville silt loam 6 to 10 % slopes APPL. DATE 205C Oat arain 96 lbs N/ac Aua-A ril 205C Wheat -,rain 121 lbs N/ac Aug -A ril 205C Barley ain 81 lbs N/ac Auu-A ril 205C Rye rain 121 lbs N/ac Au -A ril 205C Corn uain 109 lbs N/ac Feb -July 205C Corn sila e 2101bs N/ac Feb -Jul 205C Sorg -hum uain 132 lbs N/ac Aril -Jul 205C Sorghum silage 2101bs N/ac April -July 205C Soybeans 1291bs N/ac Aril -Se t 205C Sor hum- Sudanuass hay 166 lbs N/ac April -August 205C Sudan-rass hay 166 lbs N/ac April -August 205C Fescue hay 166 lbs N/ac Au ust- ul 205C Orchard ass hay 1661bs N/ac August -Jul 205C Small arrain hay 110 lbs N/ac Aug -A ril 205C Rye ass for hav 166 lbs N/ac Feb -Ma 205C Sudanorass for Qrazin 124 lbs N/ac April -August 205C Fescue for Qrazin- 124 lbs N/ac August -Jul 205C Orchardu ass for Q azin- 1241bs / u ust-Jul 205C Small arain for arazine 82 lbs N/ac Aug -.A ril 205C RveQrass for arazing 124 lbs N/ac Feb -Ma 205C Matua for hay 166 lbs N/ac August -Jul 205C Matua for Qrazin? 124 1bs N/ac August- ulv SOIL TYPE 205C2 Geor�--eville silt clay loam 6 to 10% slopes APPL. DATE 205C2 Oat grain 841bs N/ac Aua-A ril 205C2 Wheat erain 106 1 s N/ac Aua-A ril 205C2 Barley ain 72 lbs N/ac Aua-A ril 205C2 Rye ain 106 lbs N/ac Aua-A ril 205C2 Corn zrain 951bs N/ac Feb -Jul 205C2 Corn sila e 182 lbs N/ac Feb -Jul 205C2 Sor hum Drain 120 lbs N/ac Aril -Jul 205C2 Sorahum silage 1821bs N/ac Aril -Jul 205C2 Soybeans 112 lbs N/ac Aril -Se t 205C2 Sor--hum-Sudanerass hay 1441bs N/ac Aril -Au ust 205C2 Sudan ass hav 144 lbs N/ac Aril -Au ust 205C2 Fescue hay 144 lbs N/ac Au st-Jul 205C2 Orchardarass hay 1441bs N/ac August -Jul 205C2 Small grain hay 96 lbs N/ac AuQ-A ril 205C2 R eQ ass for hay 144 lbs N/ac Feb -Ma 205C2 udan rass for razin 108 lbs N/ac Aril -August 205C2 Fescue for uazing 108 Is N/ac August- ulv 205C2 OrchardQrass for uning 108 Ibs N/ac August -July 205C2 Small --rain for gjazin2 721bs N/ac Au -A ril 205C2 Rvezrass for razing 108 lbs N/ac Feb -Ma 205C2 Matua for hay 144 lbs N/ac August -Jul 205C2 Matua for azin 108 lbs N/ac Au ust-Jul TYPE 206C2 GeorQeville silty clav loam 6 to 10 % slopes APPL. DATE 2 206C2 Barley for grain 721bs N/ac Aug -A ril 206C2 Rye for erain 106 lbs N/ac Au -A ril 206C2 Com for arain 95 lbs N/ac Feb -July 206C2 Corn for silage 182 lbs N/ac Feb -Jul 206C2 Sorghum for rain 12 0 lb s Mac Aril -Jul 206C2 Sorghum for silage 182 lbs N/ac 'Aril -Jul 206C2 Soybeans 112 lbs N/ac Aril -Se t 206C2 Sorghum -Sudan ass hay 144 lbs N/ac A ril-August 206C2 Sudanuass hav 144 lbs N/ac Aril -Au ust 206C2 Fescue ha • 144 lbs N/ac August -July 206C2 Orchard ass hay 144 lbs N/ac Au st-Jul 206C2 Small zrain hay 96 lbs N/ac Aug -April 206C2 R egass for hay 144 lbs /ac Feb -Ma 206C2 Sudan -grass for arazin 108 lbs N/ac A ril-August 206C2 Fescue for arazine 108 lbs N/ac Au tst-Jul 206C2 Orchard ass for purrazinp, 108 lbs n/ac Au st- ul 206C2 Small main for grazing 72 lbs N/ac Au -A ril 1 206C2 Rve rass for szrazing 108 lbs n/ac Feb -Ma 206C2 Matua for hav 144 lbs N/ac Au ust- ul 206 2Matua for araziniz 108l /ac . AuL-u t-J i SOIL TYPE 212B Herdon silt loam 2 to 6 % slopes APPL. DATE 212B Oat Prain 1041bs N/ac Au -A nil 212B Wheat zrain 132 lbs N/ac Au -A ril 212B Barlev ain 88 lbs N/ac Aup-Ai2ril 212B Rye grain 1321bs N/ac Au -A ril 212B Corn erain 119 lbs N/ac Feb -July 212B Corn sila e 228 lbs N/ac Feb -Jul 212B Sorghum grain 138 lbs N/ac Aril -Jul 212B Sorg -hum sila e 228 lbs N/ac Aril -Jul 212B Soybeans 140 lbs N/ac Aril- e t 212B Sor hum Sudan ass hay 175 lbs N/ac Aril -Au ust 212B SudanaTass hay 175 lbs N/ac Aril -Au ust 212B Fescue hay 175 lbs N/ac August -July 212B Orchardgrass hay 175 lbs N/ac Au ust-Jul 212B Small uain hay 1201bs N/ac Au -A ril 212B Rvezrass for hay 175 lbs /ac Feb -Ma 212B Sudangrass for --razing- 131 lbs N/ac Aril -Au st 212B Fescue for glazing 131 lbs N/ac August -July 212B Orchardarass for arazinEz 131 lbs N/ac Ausmst-Jul 212B Small grain for grazing- 90 lbs N/ac Aug -A ril 212B Rvearass for grazin2 131 lbs N/ac Feb -Ma 212B Matua for hay 175 lbs N/ac August -July 212B Matua for rrazinv 131 lbs N/ac Auaust-Jul r SOIL TYPE 212C and 212D Herdon silt loam 6 to 10% APPL. DATE and 10 to 15 % slopes 212C Oat grain 96 lbs N/ac Aug -April 212C Wheat zrain 121 lbs N/ac . Au -A ril 212C Barley ain 81 lbs N/ac Auv-A ril 212C Rye ain 121 lbs N/ac Aug -A ril 212C orn a ain 109 1bs N/ac Feb -July 3 212C Com Silage 210 lbs N/ac Feb -July 1 212C Sorghum Parain 127 lbs N/ac Aril -Jul 212C Sorghum silage 210 lbs N/ac Aril -Jul 212C Soybeans 129 lbs N/ac April -Sept 212C Sorg um Sudaurass hay 161 lbs N/ac April-Auggst 212C Sudangrass hay 161 lbs N/ac Anril-Auizust 212C Fescue hay 161 lbs N/ac Au ust-July 212C Orchard ass hav 161 lb ac Au st-Jul 212C Small arain hay 110 lbs N/ac Au -A ril 212C R)tearass for hay 161 lbs N/ac Feb -Ma 212C Sudanuass for grazing 121 lbs N/ac Amil-Aueust 212C Fescue for P-razinit 121 lbs N/ac Au ust-July 212C Orchard ass for zrazin2 121 lbs N/ac Au -gust -July 212C Small rain for uazing 82 lbs N/ac Au -A ril 212C R e rass for grazing 121 lbs N/ac Feb -Ma 212C Matua for hay 161 lbs N/ac Au st- ul 212C inz 121 lbs N/ac Au ust-Jul SOIL TYPE 212D2 Herdon silt clav loam 10 to 15 % slo es APPL. DATE 212D2 Oat Parain 83 lb N/ac 1061bs N/ac 70 lbs N/ac Au -A ril Au -A ril Au -A ril 212D2 Wheat v rain 212D2 Barlev --rain 212D2 Rve grain 106 lbs N/ac Au -A ril 212D2 Corn uain 95 lbs N/ac Feb -Jul 212D2 Corn silage 182 lbs N/ac Feb -July 212D2 Sor hum zrain 110 lbs N/ac Aril -Jul 212D2 Sor hum silage 182 lbs N/ac Aril -Jul 212D2 Soybeans 112 lbs N/ac Aril- e t 212D2 Sorg -hum Sudan6rass hay 140 lbs N/ac Aril -Au ust 212D2 Sudan ass hav 140 lbs N/ac April -Aug ust 212D2 Fescue hay 140 lbs N/ac Au ust-Jul 212D2 Orchard ass hay 140 lbs N/ac Au ust-Jul y 212D2 Small zrain hay 96 lbs N/ac Auu-A ril 212D2 Rvei7rass for hav 140 lbs N/ac Feb -Ma 212D2 Sudan ass for grazinia 112 lbs N/ac Aril -Au ust 1212D2 Fescue for gLazing 112 lbs N/ac Au ust-Jul y 212D2 OrchardUrass for grazine 112 lbs N/ac Awaust-Jul { 212D2 Small grain for grazing 77 lbs N/ac Au -A ril 212D2 R ve rass for gxazing 112 lbs N/ac Feb -Ma 212D2 Matua for hay 140 lbs N/ac Auau -July 212D2 Matua for uazinia 112 lbs /ac Auuust-Jul SOIL TYPE 520C Cid silt loam 6 to 10% slopes APPL. DATE 520C Oat grain 60 lbs N/ac Au. --A ril 520C Wheat --rain 99 lbs N/ac Au4-A ril 520C Barlev arain 66 lbs N/ac Au -A it 520C Rye Qrain 99 lbs N/ac Aug -A ril 520C Com arain 92 lbs N/ac Feb -Jul 520C Corn sila e 1771bs N/ac Feb -Jul 520C Soriahum 2rain 92 lbs N/ac Aril -Jul 520C Sorghum silajae 177 lbs N/ac Aril -Jul 520C Soybeans 92 lbs N/ac April -Sept El 520C Sonhum Sudangrass ha 129 lbs N/ac April -Aug ust 1520C Sudan ass ha • 129 lbs N/ac Aril -Au ust 520C Fescue ha • 129 lbs N/ac August -July 520C Orchard Trass ha • 129 lbs N/ac Auaust-Jul 520C Small erain hay 110 lbs N/ac Au -A ril 520C R e ass for hav 129 lbs N/ac Feb-Mav 520C Sudan ass for --razing 97 lbs N/ac Aril-Auaust 520C Fescue for arazin2 97 lbs N/ac Au st-July 520C Orchard ass for -,razing 97 lbs N/ac Au st-Jul 520C Small erain for azin 82 lbs N/ac Au --April 520C Rye-erass for razin 7 lbs N/ac Feb -Ma 520C Matua for hav 129 lbs N/ac August -July 520C Matua for --razinQ 97 lbs N/ac Auaust-Jul SOIL TYPE 35B Wedowee sandN loam 2 to 6 % slopes APPL. DATE 35B Oat uain 117 lbs N/ac Au -A ril 35B Wheat grain 144lbs ac Aua-A ril 35B Barley rain 96 lbs N/ac Au -A ril 35B Rye ain 144 lbs N/ac Au -A ril 35B Com grain 113 lbs N/ac Feb -Jul 35B Corn silaue 216 lbs N/ac Feb -Jul 35B Sorghum drain 113 lbs /ac Aril -Jul 35B Sor2hum silage 216 lbs N/ac Aril -Jul 35B Soybeans 140 lbs N/ac Aril -Se t 35B Sorghum Sudan ass hay 150 lbs N/ac A ril-Auaust 35B Sudan ass hay 150 lbs N/ac Aril -Au mist 35B Fescue hay 150 lbs N/ac Au ust-Jul 35B Orchard ass hay 150 lbs N/ac Au ust- ul 35B Small rain hav 1201bs N/ac Au -A ril 35B R e ass for hay 150 lbs N/ac Feb -Ma 35B Sudan ass for 113 lbs N/ac April -August 35B -uaziny Fescue for razin 113 lbs N/ac Auaust- ul 35B Orchard ass for grazing 113 lbs N/ac Au ust-Jul 35B Small zrain for uazing 90 lbs N/ac Au -A ril 35B R e ass for graziny, 113 lbs N/ac Feb -Ma 35B Matua for hay 150 lbs N/ac Auaust-July 35B Matua for arazina 113 lbs N/ac Auaust-Jul SOIL TYPE 57C Vance sandN loam 2 to 6 % slopes APPL. DATE 57C Oat strain Wheat drain 108 lbs N/ac Au -A ril 57C 132 lb N/ac Au -A ril 57C Barlev uain 96 lbs N/ac Au -A ril 57C Rye -rain 132 lbs N/ac Au -A ril 57C Com ain 92 lbs N/ac Feb -July 57C Corn silage 177 lbs N/ac Feb -Jul 57C Sorghum -rain 921 s N/ac Aril -Jul 57C Sor hum sila e 177 lbs N/ac Aril -Jul 57C Soybeans 129 lbs N/ac Aril -Se t 57C Sor hum Sudan ass hay 175 lbs N/ac Aoril-Aupaust 57C Sudan ass hay 175 lbs N/ac Aril -Au ust 57C Fescue hay 175 lbs N/ac Auaust-Jul 57C Orchard ass hay 175 lbs N/ac Au ust-Jul 57C Small uxain hav 110 lbs N/ac Au -A ril 5 57C Rvegyass for hay 175 lbs N/ac Feb -Ma 57C Sudan ass for erazing 131 lbs N/ac Aril -Jul 57C Fescue for zrazing 131 lbs N/ac Au ust-Jul 57C Orchardparass for izrazina 131 lbs N/ac Au ust-Jul 57C Small grain for szrazing82 lbs N/ac Au -A ril 57C Rycerass for uazing 131 lbs N/ac Feb -Ma 57C Matua for hay 175 lbs /ac August -Jul 57C Matua for arazin 131 lbs N/ac Au ust-July SOIL TYPE 50D Nanford-Badin complex 10 to 15 % slopes APPL. DATE 50D Oaterain 84 lbs N/ac Aug* -A ril 50D Wheat ain 99 Is N/ac Aug-Al2ril 50D Barley rain 80 lbs N/ac Ausz-Aipril 50D Rye ain 99 lbs N/ac Au -A ril 50D Corn eTain 1041bs /ac Feb -Jul 50D Corn sila a 199 lbs N/ac Feb -Jul 50D Sor hum urain 104 lbs N/ac Aril -Jul 50D Sor hum sila e 1991b /ac Aril- ul D beans 110 lbs N/ac Aril-S t 50D Sor- um Sudan ass hav 1184 lbs N/ac A ril-August 50D Sudan-rass hay 184 lbs N/ac Aril -Au ust 50D e c hay 184 lbs N/ac Aug t- 1 50D rchardarass hay 184 lbs N/ac August -Jul 50D Small grain hay 110 lbs N/ac Aug -April 50D R e-rass for hay 184 lbs N/ac Feb -Ma 50D Sudangrass for grazing 138 lbs N/ac April -August 50D Fescue for--razin- 138 lbs N/ac Au st-Jul 50D Orchard ass for -,razing 138 lbs N/ac Au st-Jul 50D Small arain for iarazinia 82 lbs N/ac Aua-A ril 50D Ryearass for grazine 138 lbs N/ac Feb -Ma 50D Matua for hay 184 lbs N/ac Au ust- ul 50D Matua for grazing 138 lbs N/ac Au ust-Jul. EI SOIL TYPE 130B Nanford-Badin complex 2 to 6 % slopes APPL. DATE 130B Oat -rain 91 lbs N/ac Aue-A ril 130B Wheat for glain 108 lbs N/ac Au --A ril 130B Barley for glain 72 lbs N/ac Au -A ril 130B Rye for -rain 108 lbs /ac Aua-A ril 130B Corn for U ain 113 lbs N/ac Feb -Jul 130B Corn for sila-e 216 lbs N/ac Feb -July 130B Sor,4hum for urain 113 lb N/ac Aril -Jul 130B Sorghum silage 2161bs N/ac April -July 130B Soybeans 120 lbs N/ac April -Sept 130B Sorghum Sudan ass hay 200 lbs N/ac April -August 130B Sudangrass for hay 200 lbs N/ac Aril -Au ust 130B Fescue for hay 200 lbs N/ac Au ust-Jul 130B Orchard ass for hay 200 lbs N/ac Au ust-Jul 130B Small --rain for hay 120 lbs N/ac Au --April 130B R e ass for hay 200 lbs N/ac Feb -Ma 130B Sudangrass for grazing 150 Is N/ac April -August 0 130B Fescue for arazine 150 lbs N/ac August -Jul 130B Orchard ass for.grazing 150 lbs N/ac Au ust-Jul 130B Small rain for grazing 90 lbs N/ac Au -A ril 130B Rve-rass for grazing 150 lbs N/ac Feb -Ma. 130B Matua for hay 200 lbs N/ac Au ust-Jul 130B Matua for 2razin¢ 150 lbs N/ac Au ust- ul SOIL TYPE 130C Nanford-Badin complex 6 to 10 % slopes APPL. DATE 130C Oats for ain 851bs N/ac Aug -A ril 130C Wheat for grain 99 lbs N/ac Aug-Aiiril 130C Barley for Lrain 66 lbs N/ac _ Au -A ril 130C Rye for ain 99 lbs N/ac Au -A ril 130C Corn for grain 104 lbs N/ac Feb -Jul 130C Com for sila a 199 lbs N/ac Feb -Jul 130C Sonahum forzrain 104 lbs N/ac Aril -Jul 130C Sor hum sila a 199 lbs N/ac Aril -July 130C Sor um Sudan--rass for hay 184 lbs N/ac A ril-August 130C Soybeans 110 lbs N/ac April-Seryt 130C udangrass for hav 184 lbs N/ac A ril-August 130C Fescue for hav 184 lbs N/ac August -Jul 130C Orchardarass for hay 184 l/ac August -Jul 130C Small grain for hay 110 lbs N/ac Au -A ril 130C Rvearass for hav 184 lbs N/ac Feb -Ma 130C Sudan-rass for grazing 138 lbs N/ac Aril -Au st 130C Fescue for uazinLy 138 lbs N/ac Au st-Jul 130C Orchard ass for grazing 138 lbs N/ac August —July 130C Small ain for grazin 82 lbs ac Au -A nil 130C Ryezrass for QrazinQ 138 lbs N/ac Feb -Ma 130C Matua for hay 184 lbs N/ac Au ust-Jul 130C Matua for grazine 138 lbs N/ac August -Jul SOIL TYPE 130D Nanford-Badin complex 10 to 15 % slopes APPL. DATE 130D Oats for zrain 130D Wheat for --rain 85 lbs N/ac Au -A ril Au -A ril 99 lbs N/ac 130D Barley for uain 661bs N/ac Au -A ril 130D Rye for arain 99 lbs N/ac Aup-Aipril 130D Corn for grain 104 lbs N/ac Feb -Jul 130D Com for silafae 199 lbs N c Feb -July 130D Sor um for g gain 98 lbs N/ac Aril- ul 130D Sor hum for silage 199 lbs N/ac Aril -Jul 130D Sorg um- Sudan ass for hay 184 lbs N/ac A ril-August 130D Sovbeans 110 lbs N/ac Aril -Se t 130D udangrass for hav 184 lbs N/ac Aril -Au ust 130D Fescue for hay 184 lbs N/ac Au ust-July 130D Orchard rass for hay 184 lbs N/ac August -Jul 130D Small aTain for hay 110 lbs N/ac Au -A it 130D R egrass for hay 184 lbs N/ac Feb -Ma 130D Sudangrass for Qrazinz 138 lbs N/ac Aril -Au ust 130D Fescue for Urazin- 138 lbs N/ac August -July 130D Orchard-rass grazing for 138 lbs N/ac Au st-Jul 130D Small grain -,razing for 82 lbs N/ac Aug -April 130D Ryegrass for zrazina 138 lbs N/ac Feb -Ma 7 130D Matua for hav 1841bs N/ac August -Jul 130D Matua for arazinq 138 lbs N/ac I August -Jul SOIL TYPE SIB Helena sandy loam 2 to 6 % slo es APPL. DA'1'L+' 51B Oats for ain 85 lbs N/ac Au -Ai2rii 51B Wheat for min 1321bs /ac Aug -A ril 51B Barley for grain 88 lbs N/ac Au -A ril 51B Rye for grain 1321bs N/ac Au -A ril 51B Com for grain 106 Is N/ac Feb -Jul 51B Corn for silage 2041bs N/ac Feb -July 51B Sor um for zrain 1061bs N/ac Aril -Jul 51B Sorghum silage 204 lbs N/ac Aril -Jul 51B Soybeans 1401bs N/ac April -Sept 51B Sorghum-Sudanviass for hay 175 lbs N/ac Aril -Au ust 51B Sudangass for hay 175 lbs N/ac Atril-Auvust 51B Fescue for hay 175 lbs N/ac Au ust- ul 51B Orchard ass for hay 175 lbs N/ac Au ust-July 51B Small ain for hay 120 lbs N/ac A i -A ril 51B R -earass for hay 175 lb N/ac Feb -Ma 51B Sudanuass for crazing 131 lbs N/ac A ril-August 51B Fescue for !arazina 131 lbs N/ac August -Judy 51BOrchard-grass for grazing 131 1 s N/ac August -Jul 51B Small grain for grazina 901bs N/ac Aug -April 51B Ryeerass for razing 131 lbs N/ac Feb -Ma 51B I Matua for uazim4 175 lbs N/ac Au ust-Jul 51B I Matua for grazing 131 lbs N/ac August -Jul Sniff. TYPE 30B Cecil gravelly sandy loam 2 to 6 % slones APPL. DATE 30B Oats for grain 117 lbs N/ac Au -A ril 30B _ Wheat for ain 1441bs N/ac Aug -April 30B Barley for glain 961bs N/ac Aug -A ril 30B Rye for grain 144 lbs N/ac Aug -A ril 30B Corn for rain 119 Is N/ac Feb -Jul 30B Corn for silage 228 1bs N/ac Feb -Jul 30B Sorg -hum for grain 150 lbs N/ac Aril -Jul 30B Sorg -hum silage 228 lbs N/ac Aril -Jul 30B Soybeans 1401bs N/ac Aril -Se t OB Sor um Sudanuass2251bs lac ril-August 30B Sudanuass for hav 225 lbs N/ac Aril -August 30B Fescue for hay 225 lbs N/ac August -Jul 30B Orchardarass for hay 225 Is N/ac Au ust-Jul 30B Small grain for hav 1201bs N/ac Au--Atpril 30B R e ass for hay 225 lbs N/ac Feb -Ma 30B Sudan ass for azin 1691bs N/ac Aril -August 30B Fescue for uaziniLr 169 lbs N/ac Au st-Jul 30B Orchardarass for uazina 1691bs N/ac August -Jul 30B Small zrain for 2razing 901bs N/ac Au -A ril 30B Ryegrass for 2razin2 1691bs N/ac Feb -Ma 30B Matua for hay 225 lbs N/ac August -Jul 30B Matua for azina 169 lbs N/ac August -July SOIL TYPE 37B Wedowee sandN loam 2 to 6 % slo es APPL. DATE 37B Oats for grain 117 lbs N/ac Aug -April 37B Wheat for --rain 144 lbs N/ac Au -A ril 37B Barley for grain 961bs N/ac Au -A it 37B Rye for grain 144 lbs N/ac Au -A ril 37B Corn for 2rain 113 lbs N/ac Feb -July 37B Com for silage 216 lbs N/ac Feb -Jul 37B Sor um for uain 113 lbs N/ac Aril -Jul 37B Sor um sila a 216 lbs N/ac Aril -Jul 37B Soybeans 140 lbs N/ac Aril -Se t 37B Sorhum-Sudangrass for hay 150 lbs N/ac Avril-Aueust 37B Sudanarass for hay 150 lbs N/ac April-Aueust 37B Fescue for hay 150 lbs N/ac Au ust-Jul 37B Orchard ass for hay 150 lbs N/ac August -July 37B Small erain for hay 1201bs N/ac Au -A ril 37B Rveerass for hay 150 lbs N/ac Feb -Ma 37B Sudan ass for arazing 113 lbs N/ac Aril -Au ust 37B Fescue for graziny 113 lbs N/ac Au gist -Jul 37B Orcharda-rass for a-razin 113 lbs N/ac Au gust- ul 37B Small grain for uazin2 90 lbs N/ac AuL,-A nil .37B Rvea ass for arazin¢ 113 lbs N/ac Feb -Ma 37B Matua for hay 150 lbs N/ac Au ust-July 37B Matua for arazine 13 lbs N/ac August -Jul , SOIL TYPE 20B Geor<Leville silt loam 2 to 6 % slopes APPL. DATE 20B Oats for Grain 1 1041bs N/ac Au -A ril 20B Wheat for grain 132 lbs N/ac Au -A ril 20B Barley for ain 88 lbs N/ac Au -A ril 20B R ye for ain 132 lbs N/ac Au -A ril 20B Corn for ain 119 lbs N/ac Feb -July 20B Corn for silage 228 lbs N/ac Feb -Jul 20B Sor hum for erain 1501 s N/ac Aril -Jul 20B Sorghum silaiae 228 lbs N/ac Aril -Jul 20B Soybeans 1401bs N/ac April -Sept 20B Sorg -hum Sudangrass for hay 180 lbs N/ac A ril-August 20B Sudan ass for hav ISO lbs N/ac Aril -Au ust 20B Fescue for hay 180 lbs N/ac Au gist-Ju1W 20B Orcharderass for hay 180 lbs N/ac Au ust-Jul 20B Small Grain for hay 120 lbs N/ac Au -A ril 20B R earass for hay 180 lbs N/ac Feb -Ma 20B Sudanarass for urazine 135 lbs N/ac April -August 20B Fescue for 135 lbs N/ac August -July 20B -zrazin-e Orchardarass for arazin 135 lbs N/ac Auvust-July 20B Small grain for grazing 90 lbs N/ac Aua-A ril 20B Rve2rass for arazina 135 lbs N/ac Feb -Ma 20B Matua for hav 180 lbs N/ac Au ust- ul 20B Matua for uazinp 1 135 lbs /ac August -lily SOIL TYPE 20132 Geor2eville silty clan loam 2 to 6 %. slopes APPL. DATE 20B2 Oats for Grain 88 lbs N/ac Au -A ril 20B2 -.-Wheat for Grain 112 lbs N/ac Au -A ril 9 20B2 Barlcv for ain 75 lbs N/ac Au -A ril 20B2 Rye for grain 112 lbs N/ac Au -A ril 20B2 Corn for grain 101 lbs N/ac Feb -Jul 20B2 Corn for sila a 194 lbs N/ac Feb -July 20B2 Sorghum for grain 127 lbs N/ac Aril -Jul 20B2 Sorghum silage 194 lbs N/ac Aril -Jul 20B2 Soybeans 119 lbs N/ac April -Sent 20B2 Sor- um Sudan ass for hay 153 lbs N/ac April -August 20B2 Sudan ass for hay 153 lbs N/ac April -August 20B2 Fescue for hay 153 lbs N/ac August -Jul 20B2 Orchard ass for hay 153 lbs N/ac August -Jul 20B2 Small Grain for hay 102 lbs N/ac Au -A ril 20B2 Rve rass for hay 153 lbs N/ac Feb -Ma 20B2 Sudan-rass for zrazin2 115 lbs N/ac April -August 20B2 Fescue for gjazina 115 lbs N/ac —August-July 20B2 OrchardpTass for arazing 115 lbs N/ac Au ust-Jul 20B2 Small zrain for prazine 77 lbs N/ac Au -A ril 20B2 Rvesuass for 2razing 115 lbs N/ac Feb- 20B2 Matua for hay 153 lbs N/ac Au-ust-Jul 20B2 Matua for -razing 115 lbs N/ac August -Jul SOIL TYPE 20C Geonzeville silt loam 6 to 10 % slopes APPL. DATE 20C Oats for -rain 96 lbs N/ac . Au -A ril 20C Wheat for grain 121 lbs N/ac I Aug -A ril 20C Barley for -rain 81 lbs N/ac Au --A ril 20C Rye forarain 121 lbs N/ac Au --A ril 20C Com for uain 109 lbs N/ac Feb -Jul 20C Corn for sila e 210 lbs N/ac I Fe - ul 20C Sor- um for grain 138 lbs N/ac Aril -Jul 20C Sorghum silage 210 lbs N/ac Aril -Jul 20C Soybeans 129 lbs N/ac Aril -Se t 20C Sorghum Sudan ass for hay 166 lbs N/ac Aril -Au st 20C Sudan ass for hay 166 lbs N/ac April -August 20C Fescue for hay 166 lbs N/ac Au ust-Jul 20C Orchard ass for hay 166 lbs N/ac Au ust-Jul 20C Small Grain for hay 110 lbs N/ac Au -A nil 20C Rve--rass for hay 166 lbs N/ac Feb -Ma 20C Sudangrass for jzraziniz 124 lbs N/ac Aril -Au ust 20C Fescue for Qrazina 124 lbs N ac Au ust-Jul 20C Orchard ass for grazing 124 lbs N—Yac AuU st-J 1 20C Small arain for zrazing 82 lbs N/ac Au -A ril 20C Rvemass for grazing 124 lbs N/ac Feb-Mav 20C Matua for hav 166 lbs N/ac Au ust-Jul 1 24C Matua for uazina 124 lbs N/ac August -July SOIL TYPE 23B2 Geor eville silty cla\ loam 2 to 6 % slo es APPL. 23B2 Oats for train _ 881bs N/ac Au --A L 10 23B2 SorOium for °rain 122 lbs N/ac 1 Aril -Jul 23B2 Sorehum silage 1941bs N/ac Aril -Jul 23B2 Soybeans 1191bs N/ac Aril -Se t 23B2 Sorzh=-Sudanjzrass for hay 153 lbs N/ac April -August 23B2 Sudan ass for hav 153 lbs N/ac April -August 23B2 Fescue for hay 1531bs N/ac August -Jul 23B2 Orchardgrass for hay 153 Is N/ac August -July 23B2 Small Grain for hay 1021bs ac Aug-Anril 23B2 Rve2rass for hay 153 lbs N/ac Feb -Ma 23B2 Sudangrass for azin 115 lbs N/ac April -August 23B2 Fescue for azin 115 lbs /ac Au ust-Jul 23B2 Orchardgrass for razin 115 lbs N/ac Au ust-Jul 23B2 Small ain for grazing 771bs N/ac Aug -April 23B2 Rvearass for azin 115 lbs N/ac Feb -Ma 23B2 Matua for hay 153 lbs N/ac August- ul 23B2 Matua for azin 115 lbs N/ac August -Jul Cf)TT. TVPF. 232R Genroeville silt loam 2 to 6 % slopes APPL. DATE 232B Oats for uain 91 lbs N/ac Aug -A ril 232B Wheat for grain 120 lbs N/ac Aug -A ril 232B Barlev for arain 801bs N/ac Aug -A ril 232B Rve for grain 1201bs N/ac Aug -A ril 232B Corn for grain 113 lbs N/ac Feb -July 232B Corn for Silage 2161bs N/ac Feb -July 232B Sor hum for grain 1- 113 lbs N/ac Aril -Jul 232B Sorghum silage 216 lbs N/ac A ril-Jul 232B Sor hum Sudanrass for hay 175 lbs N/ac Amil-August 232B i Soybeans 1201bs N/ac Aril- e t 232B Sudanarass for hay 175 lbs N/ac April-AuJZLISt 232B Fescue for hay 175 lbs N/ac Au ust-July 232B Orchardgrass for hav 175 Is N/ac Au ust-Jul 232B Small uain for hay 1201bs N/ac Au -A nil 232B R-yeerass for hay 175 lbs N/ac Feb -Ma 232B Sudangrass for graziny 131 lbs N/ac Aril -Au ust 232B Fescue for iarazim 131 lbs N/ac August -Jul 232B Orchard ass for grazing 131 lbs N/ac Au st-Jul 232B Small arain for grazing 901bs N/ac Aug -A ril 232B R e ass for --razing 131 lbs N/ac Feb -Ma 232B Matua for ha 175 lbs N/ac August -Jul 232B Matua for grazin 1 1 lbs Mac Au ust-Jul SOIL TYPE 232C Geor eville silt loam 6 to 10 % slopes APPL. DATE 232C Oats for ain Wheat for grain 85 lbs N/ac Aue-A ril 232 1101bs N/ac Aug -A ril 232C Barley for ain 74 lbs N/ac Au -A ril 232C Rye for zrain 1101bs N/ac Aug -April 232C Corn for grain 104 lbs N/ac Feb -July 232C Com for Silaize 1991bs N/ac Feb -July 232C Sorghum for gndn.1041bs N/ac Aril -Jul 232C Sorghum silage 199 lbs N/ac Aril -Jul 232C So beans 110 lbs N/ac A ril-Se t 232C Sorghum Sudanuass for hav 161 lbs N/ac April -August 232C Sudan ass for hay 161 lbs N/ac Aril -August 11 232C E Fescue for hav 161 lbs N/ac Auu st-Jul 232C Orchard ass for hay 161 lbs N/ac August -July 232C Small ain for hav 110 lbs N/ac Aug -A ril 232C RveQrass for hay 161 lbs N/ac Feb -Ma 232C Sudan ass for grazing 121 lbs N/ac Aril -Au st 232-C Fescue for azin 121 lbs N/ac Au st-Jul 232C Orchard ass for --razina 121 lbs N/ac Au ust-Jul 232C Small rain for arazina 82 lbs N/ac Aug -April 232C R e ass for razinu 121 lbs N/ac Feb -Ma 232C Matua for ha,, Matua for azin._ 161 lbs N/ac August -Jul 232C 121 lbs N/ac August -Jul SOIL TYPE 232D Geor eville silt loam 10 to 15 % sloes APPL. DATE 232D Oats for train _ 85 lbs N/ac 232D Wheat for uain _ 110 lbs N/ac 232D Barely for grain 74 lbs N/ac Aug -A ril Au -A ril Aug -April 232D Rye for uain 110 lbs N/ac Aug -April 232D Corn for drain 104 lbs N/ac Feb -Jul 232D Corn for silage 199 lbs N/ac Feb- ulv 232D Sorghum for grain l 104 lbs N/ac Aril -July f 232D Son -,hum for silage 199 lbs N/ac Aril -July 232D Sovbeans 110 lbs N/ac Aril -Se t 232D Sorghum Sudan ass hay 161 lbs N/ac A 61-Au ust 232D Sudan ass for hay 161 lbs N/ac Aril -Au ust 232D Fescue for hay 161 lbs N/ac August -Jul 232D Orchardyrass for hay 161 lbs N/ac August -July 232D Small 2rain for hay 110 lbs N/ac Au -A ril 232D R e ass for hay 161 lbs N/ac Feb -Ma 232D Sudan ass for grazin2 121 lbs N/ac Anril-Auelist 232D Fescue for arazinia 121 lbs N/ac Au ust-Jul 232D Orcharderass for grazing, 121 lbs N/ac Au st-July 232D Small grain for azin 821bs N/ac Au -A ril 232D Ryearass for grazing 121 lbs N/ac Feb -Ma 232D Matua for hay 161 lbs N/ac Au ust-Jul 232D Matua for grazing 121 lbs N/ac I Au st-Jul SOIL TYPE 232B2 Geori!eville silt % clay loam 2 to 6 % slopes APPL. DATE 232B2 2B2 Oats for grain Wheat for grain _ Barlev for rain 781bs N/ac Au -A ril 102 lbs N/ Au -A ril 232B2 68 lbs N/ac Aug -A ril 232B2 R e for grain 102 lbs N/ac Au, --A adl 232B2 Com for grain 104 lbs /ac Feb -Jul 232B2 Corn for sila e 199 lbs N/ac Feb -July 232B2 Sorghum for grain 96 lbs N/ac Aril -Jul 232B2 Sorghum silage 199 lbs N/ac Aril- ul 232B2 Soybeans 102 lbs N/ac Aril -Se t 232B2 Sorghum-Sudangrass for hay 149 lbs N/ac A ril-August 232B2 Sudan ass for hay 149 lbs N/ac April-Aupust 232B2 Fescue for hay 149 lbs N/ac August -Jul 232B2 Orchardjzrass for hay 149 lbs /ac Au st-Jul 232B2 Small Grain for hay 102 lbs N/ac Au -A ril 232B2 R e ass for hay 149 lbs N/ac Feb -Ma 232B2 udan rass for o--raziniz 112 lbs N/ac Aril -Au st 12 232B2 Fescue for azing- 112 lbs ac Au ust-Jul 232B2 Orchard ass for arazine 112 lbs N/ac Au ust-Jul 232B2 Small zrain for grazing 77 lbs N/ac Au -A ril 232B2 RyeQxass for erazinsa 112 lbs N/ac Feb -Ma 232B2 Matua for hay 149 lbs N/ac August -July 232B2 Matua for azing- 112 lbs N/ac Au st-Jul SOIL TYPE 232C2 Georeeville silt► cla% loam 6 to 10 % slopes APPL. DATE 232C2 Oats for grain 73 lbs N/ac Aug -April 232C2 Wheat for grain 96 lbs N/ac Au -A ril 232C2 Barley for --rain 64 lbs N/ac Aug -April 232C2 Rye for ain 96 lbs N/ac Au -A ril 232C2 Corn for uain 90 lbs N/ac Feb- 232C2 Corn for silaize 173 lbs N/ac Feb -Jul 232C2 Sor hum for arain 90 lbs N/ac Aril -July 232C2 Sor hum for sila e 173 lbs N/ac 'Aril -Jul 232C2 Sor um-Sudangrass for hay 140 lbs N/ac April -August 232C2 So beans 96 lbs N/ac Aril -Se t 232C2 Sudan ass for hay 140 lbs N/ac Aril -Au ust 232C2 Fescue for hay 140 lbs ac August -Jul 232C2 Orchardurass for hay 140 lbs N/ac August -Jul 232C2 Small --rain for hay 96 lbs N/ac Aug- A ril 232C2 Rvearass for hay 140 lbs N/ac Feb -Ma 232C2 Sudan rass for a azin 105 lbs N/ac A ril-August 232C2 Fescue for izraziniz 105 lbs N/ac Au ust-Jul 232C2 Orchard4rass for uazing 105 lbs N/ac August -Jul 232C2 Small min for azin❑ 72 lbs N/ac Au -A ril 232C2 R e rass for grazin-a 105 lbs N/ac Feb -Ma 232C2 Matua for g ,Taziniz 140 lbs N/ac Au st-Jul 232C2 Matua for grazine 105 lbs N/ac August -July SOIL TYPE 232D2 Geor eville siltN claN loam 10 to 15 % slo ves APPL. DATE 232D2 Oats for ain 73 lbs N/ac Aug -A 7ri1 232D2 _ Wheat for ain 96 lbs N/ac Au --A ril 232D2 Barley for rain 64 lbs N/ac Au -A ril 232D2 Rye for grain 96 lbs N/ac Au -A ril 232D2 Corn for erain 90 lbs N/ac Feb -Jul 232D2 Corn for sila e 173 lbs N/ac Feb -Jul 232D2 Sor hum for -rain 90 lbs N/ac Aril -Jul 232D2 Sorghum for sila e 173 lbs N/ac Aril -Jul 232D2 Sorghum-Sudanuass for hTy 140 lbs N/ac A '1- u ust 232D2 Soybeans 96 lbs N/ac Aril -Se t 232D2 Sudan ass for hav 140 lbs N/ac Aril -Au ust 232D2 Fescue for hay 140 lbs NI c August -Jul 232D2 Orchard ass for hay 140 lbs N/ac August -Jul 232D2 Small zrain for hay 96 lbs N/ac Aug -A ril 232D2 Rye-yrass for hay 140 lbs N/ac Feb -Ma 232D2 Sudan ass for graziny, 105 lbs N/ac A ril-August 232D2 Fescue for sirazinia 105 lbs N/ac Au st-Jul 232D2 Orchard rass for razin- 105 lbs N/ac Au st-Jul 232D2 Small grain for -razing- 721bs N/ac Au -A ril 232D2 Rvegrass for grazing 105 lbs N/ac Feb -Ma 232D2 Matua for hay 140 lbs N/ac Au ust-Jul 13 232D2 Matua for vrazin- _ 105 lbs N/ac Auaist-Jul SOIL TYPE 131B Nanford-Badin complex 2 to 6 % slo ies APPL. DATE i 131B Oats for zrain 91 lbs N/ac Aug- April 131B Wheat for puain 1081bs N/ac Aug -A ril 131B Barley for erazinu 72 lbs N/ac Aug -A it 131B R e for zrain 108 lbs N/ac Aug -A ril 131B Corn for zrain 113 lbs N/ac Feb -Jul 131B Corn for sila a 216 lbs N/ac Feb -Jul 131B Sorghum for grain 113 lbs N/ac Aril -Jul 131B Sorghum for sila e 216 lbs N/ac Aril -Jul 131B Sor hum Sudan ass for hay 200 lbs /ac A ril-Au ust 131B Soybeans 120 lbs N/ac April -Sent 131E Sudangiass for hay 200 lbs N/ac Al2ril-Ausiust 131B Fescue for hay 200 lbs N/ac Au ust-Jul 131B Orchard ass for hay 200 lbs N/ac August -Jul 131B Small arain for hay 120 lbs lac Au -A ril 131B RyeeTass for hav 200 lbs N/ac Feb -Ma 131B Sudan -grass for arazina 150 lbs N/ac A ril-August 131B Fescue for arazinja 150 lbs N/ac Au2u t-July 131B Orcharduass for-razimz 150 lbs N/ac August -Jul 131B I Smalluain forrazin 90 lbs N/ac Aug -A ril 131B R evrass for grazing 150 lbs N/ac Feb -Ma 131B Matua for hay 200 lb N/ac August -Jul 131B Matua for orazin2 150 lbs N/ac Au ust-Jul SOIL TYPE 131C Nanford-Badin complex 6_to 10 % slopes APPL. DATE 131C Oats for =rain 85 Is N/ac Au -A ril 131C _ Wheat for rain 99 lbs N/ac Aug-Al2ril 131C Barley for grain 1 66 lbs N/ac Au -A ril 131C Rye for --rain 99 lbs N/ac Au -A ril 131C Corn for -rain 1041bs N/ac Feb -Jul 131C Corn for silage 1991bs N/ac f Feb -Jul 131C Sorghum for -rain 1041bs N/ac Aril -Jul 131C Sor um silage 1991bs N/ac Aril -Jul 131 C Sor um -Sudan ass for hay 184 lbs N/ac April -August 131 C Soybeans 110 lbs N/ac Aril- e t 131 C Sudan ass for ha • 184 lbs N/ac Aril -Au st 131 C Fescue for hay 184 lbs N/ac Auetist-Jul 131C Orcharda ss for hay 184 lbs N/ac August -July 131C Small rain for hay 110 lbs N/ac Auu- F1 ril 131C R ve rass for hav 184 lbs N/ac Feb -Ma 131C Sudan-rass for crazing 138 lbs N/ac Aril -Aug st 131C Fescue for arazing, 138 lbs N/ac gust- ul 131C Orchard ass for azina 138 lbs N/ac August -July 131C Small grain for razing 82 lbs N/ac Aug -April 131C Rye-grass for razin- 138 lbs N/ac Feb -Ma 131C Matua for hay 184 lbs N/ac August- ul 131C Matua for grazinU 138 lbs N/ac August -Jul IL TYPE 522A Cid-Lignum complex 2 to 6 % slopes APPL. DATE 14 522A Wheat for --rain 96 lbs N/ac Au -A ril 522A Barley for rain 72 lbs N/ac Aug-Ariril 522A Rve for grain 96 lbs N/ac Au -A ril 522A Corn for grain 113 lbs N/ac Feb -Jul 522A Corn for silage 1921 s /ac Feb -Jul 522A Sor um for erain 113 lbs N/ac Aril -Jul 522A Sores um for sila e 192 lbs N/ac Aril -Jul 522A Sorg-hum-Sudangrass for hay 150 lbs N/ac Aril -Au ust 522A Soybeans 140 lbs N/ac Aril -Se t 522A Sudan ass for hay 150 lbs N/ac Aril -August 522A Fescue for hay 150 lbs N/ac Au st-Jul EEI 522A Orcharduass for -hay 150 lbs N/ac August -Jul 522A Small grain for hay 120 lbs N/ac Au,2-A ril 522A R e vrass for hav 150 lbs N/ac Feb -Ma 522A Sudangrass for arazinQ 113 lbs N/ac April-Aumist 522A Fescue for razin 113 lbs N/ac Au ust-Jul 522A Orchard rass for azin 113 lbs N/ac August -July 522A Small Prain for zrazin 90 lbs N/ac Au -A it 522A R eC7ra s for a-razin2 113 lbs N/ac Feb -Ma 522A Matua for ha • 150 lbs N/ac August -Jul 522A Matua for grazing 113 lbs N/ac August -Jul SOIL TYPE 41B Callison-Lip-num complex 2 to 6 % slopes APPL. DATE 41B Oats for Qrain 78 lbs /ac Aug -April 41B Wheat for grain 96 lbs N/ac Au -A ril 41B Barley for min 72 lbs N/ac Aug -April 41B Rye for eirain 96 lbs N/ac Au -A it 41B Corn for grain 113 lbs N/ac Feb -Jul 41B Corn for silage 192 lbs N/ac Feb-July- 41B Sor, hum for prain 113 lbs N/ac Aril- ul 41B -Sorsdium for silage 192 lbs N/ac Aril -Jul 41B Sor um-Sudanorass for hay 150 lbs N/ac Aril -Au ust 41B Soybeans 140 lbs N/ac . Aril -Se t 41B Sudan ass for hay 150 lbs N/ac Aril -August 41B Fescue for hay 150 lbs N/ac Au ust-July 41B Orchard rass for hay 150 lbs N/ac . Au List- ul 41B Small rain for hay 120 lbs N/ac f Aug -A ril 41B R yearass for hay 150 lbs N/ac Feb -Ma 41B Sudangrass for eraziniz 113 lbs N/ac Aril -Au Est 41B Fescue for azin 113 lbs Mae August -Jul 41B Orchardarass for arazina 113 lbs N/ac August -Jul 41B Small arain for arazin-Q 90 lbs N/ac Aua-A ril 41B Rveuass for uazinz 113 lbs N/ac Feb -Ma 41B Matua for ha • 150 lbs N/ac August -Jul 41B Matua for -7aziu 113 lbs N/ac Au ust-Jul SOIL TYPE 49B Nanford-Badin complex 2 to 6 % slo es APPL. DATE 49B Oats for grain 91 lbs N/ac Au� =-A aril 49B Wheat for arain 108 lbs N/ac Au -A ril 49B Barley for zrain 72 lbs N/ac Au -A ril 49B R e for grain 108 lbs N/ac Au -A ril 49B Corn for grain 113 lbs N/ac Feb -Jul 49B Corn for silage 216 lbs N/ac Feb -Jul 15 49B Sorahum for zrain 113 lbs N/ac Aril -Jul 49B Sor2hum for sila e 2161bs N/ac Aril -Jul 49B Soybeans 120 lbs N/ac Aril -Se t 49B Sorah=-Sudane rass for haW 200 lbs N/ac Aril-Autrust 49B udanass for hay 200 lbs N/ac Aril -August 49B Fescue for hay 200 lbs N/ac Au ust-Jul 149B Orchard ass for hay 200 lbs N/ac Au ust-Jul 49B Small yrain for hay 120 lbs N/ac Aug-Al2ril 49B Rvegrass for hay 200 lbs N/ac Fe -Mav 49B Sudan ass for RTazinsz 150 lbs N/ac i A ril-Au ust 49B Fescue for -,razing 150 lbs N/ac Au st-Jul 49B Orchardarass for azing 150 lbs N/ac Au ust-Jul 49B Small ffain for grazing 90 lbs N/ac Aug -April 49B Rye ass for azin 150 lbs N/ac Feb -Ma 49B Matua for hay 200 lbs N/ac Au ust-Jul 49B Matua for azing- 150 lbs N/ac August -July SOII. TYPE 49B2Nanford-Badin complex 2 to 6 % comnlex APPL. DATE 49B2 Oats for erain 77 lbs N/ac Aug -April 49B2 Wheat for Drain 92 lbs N/ac Aug -April 49B2 Barley for grain 61 lbs N/ac Aug -A ril 49B2 Rve for rain 92 lbs N/ac Auu-A ril 49B2 Corn for arain 96 lbs N/ac Feb -July 49B2 Com for sila e 184 Is N/ac Feb -Jul 49B2 Sor hum for uain 96 lbs N/ac Aril -Jul 49B2 Sor hum for silage 184 lbs N/ac Aril -Jul 49B2 Soybeans 102 lbs N/ac Aril -Se t 49B2 Sor hum -Sudan ass for hav 170 lbs N/ac Aril -August 49B2 Sudan ass for hay 170 lbs N/ac Anril-Aupaust 49B2 Fescue for hay 170 lbs N/ac Au ust-Jul 49B2 Orchard ass for hay 170 lbs N/ac Au ust-Jul 49B2 Small grain for hay 102 lbs N/ac Au -A ril 49B2 Rvearass for hay 170 lbs N/ac Feb -Ma 49B2 Sudan ass for grazing 127 lbs N/ac Aril -Au ust 49B2 Fescue for --razing 127 lbs N/ac Au ust-July 49B2 Orchard ass forarazing 127 lbs N/ac August -July 49B2 Small grain for erazina 76 lbs N/ac Aug -A ril 49B2 R e ass for azin 127 lbs N/ac Feb -Ma 49B2 Matua for hay 170 lbs N/ac Au ust-Jul 49B2 Matua for grazing 127 lbs N/ac August -Jul SOIL TYPE 522B Cid-Lignum complex 2 to 6 % slopes APPL. DATE 522B Oats for grain 78 lbs N/ac Aug -A it 522B Wheat for grain 96 lbs N/ac Au -A ril 522B Barley for erain 72 lbs N/ac Au -A ril 522B Rye for grain 96 lbs N/ac Au -A ril 522B Corn for arain 113 lbs N/ac Feb -Jul 522B Corn for silage 192 lbs N/ac Feb -Jul 522B Sor hum for arain 113 lbs N/ac Aril -Jul 522B Sor hum for silage 192 lbs N/ac Aril -July 522B Sorghum Sudangrass for hay 150 lbs N/ac Aril -Au ust 522B Soybeans 1 140 lbs N/ac Aril -Se t 522B Sudan ass for hay 150 lbs N/ac April -August 16 522B Fescue for hay 150 lbs N/ac Au st-Jul 522B Orcharduass for hay 150 lbs N/ac August -Jul 522B Small erain for ha • 120 lbs N/ac Au -A ril 522B RyeaTass for hay 150 lbs N/ac Feb -Ma 522B Sudangrass for --razing 113 lbs N/ac Aril -Au st 522B Fescue for grazing 113 lbs N/ac August -July 522B Orchard ass for azing- 113 lbs N/ac August -July 522B Small grain for --razing 90 lbs N/ac Au -A ril 522B RveQrass for 9—razing 113 lbs N/ac Feb -Ma 522B Matua for hay 150 lbs N/ac August -July 522B Matua for 2razin2 113 lbs N/ac Au ust-Jule SOIL TYPE 525B Cid-Lienum complex 2 to 6% slopes APPL. DATE 525B Oats for arain 78 lbs N/ac Aug -April 525B Wheat for uain 96 lbs N/ac Au -A ril 525B Barley for grain 1 72 lbs N/ac Aug -A it 525B Rye for zrain 96 lbs N/ac Au -A ril 525B Corn for Lrrain 113 lbs N/ac Feb -Jul 525B Corn for silage 192 ls N/ac Feb -Jul 525B Sorahum for arain 1 113 lbs N/ac Aril -Jul 525B Sorilmum silage 192 lbs N/ac Aril -Jul 525B Sory-hum-Sudangrass for hav 150 lbs N/ac April -August 525B Sovbeans 140 lbs N/ac April-Sel2t 525B Sudanu,rass for hay 150 lbs ac Aril -Au ust 525B Fescue for hay 150 lbs N/ac Au ust-Jul 525B Orchard ass for hay 150 lbs N/ac Au st- ul 525B Small grain for hay 120 lbs N/ac Aug -April 525B Ryearass for hay 150 lbs N/ac Feb -Ma 525B Sudan ass for grazing 113 lbs N/ac Avril-AuQust 525B Fescue for i4razing 113 lbs N/ac August -July 525B Orchard ass for grazing 113 1 s N/ac August -July 525B Small arain for crazing 90 lbs N/ac Aug -April 525B Rvegrass forarazing 113 lbs N/ac Feb -Ma 525B Matua for hav 150 lbs N/ac Au st-Jul 525B Matua for grazinQ 113 lbs N/ac I Au st-Jul SOIL TYPE 526B Cid-Li num complex 2 to 6 % slopes APPL. DATE 526B Oats for 2rain 78 lbs N/ac Auu-A ril 526B _ Wheat for grain Barlev for gain Rye for gain 96 lbs N/ac Aug -A ril 526B 72 lbs N/ac A a -A it 526B 96 lbs N/ac Auu,-A ril 526B Com for grain 113 lbs N/ac Feb -Jul 526B Com for silage 192 lbs N/ac Feb -Jul 526B Soru, urn for u,rain 113 lbs N/ac Aril -July 526B Sorghum for silage 192 lbs N/ac Aril -Jul 526B orghum-Sudan ass for hay-150 lbs N/ac Aril -Au ust 526B Soybeans 140 lbs N/ac Aril -Se t 526B Sudan ass for hav 150 lbs N/ac April-Auszust 526B Fescue for hay 150 lbs N/ac Au ust-Jul 526B Orchard ass for hav 150 lbs N/ac August -July 526B Small ain for hay 120 lbs N/ac Au -A ril 526B Rvegrass for hay 150 lbs N/ac Feb -Ma 526B I.Sudan2rass for arazinia 113 lbs N/ac Aril -Au st 17 526B Fescue for erazing 113 lbs N/ac August -Jul 52613 Orchardarass for azin! 113 lbs N/ac August -Jul 526B Small,rain for azin- 90 lbs N/ac Aug -April 526B R e ass for azing 113 lbs N/ac Feb -Ma 1526B Matua for hay 150 lbs N/ac August -Jul 526B Matua for --razing 113 lbs N/ac August -Jul SOIL TYPE 522C Cid silt loam 6 to 10 % slopes APPL. DATE 522C Oats for ain Wheat for uain 72 lbs N/ac Aup-Al2ril 522C 88 lbs N/ac Auz-A it 522C Barley for -rain 66 lbs N/ac Aug -April 522C Rye for ain 88 lbs N/ac Aug -A ril 522C Corn for grain 104 lbs N/ac 522 Corn for sila e 177 lbs N/ac 522C Sorg um for grain 104 lbs N/ac Vrnfl-Jul 522C Sorghum sila e 177 lbs N/ac 522 Sor hum -Sudan ass for ha 138 lbs N/ac ust 522C Soybeans 100 lbs N/ac Anril-Sei2t 522C Sudan ass for hay 138 lbs N/ac A il-August 22C Fescue for hay 138 lbs N/ac August -July 1522C Orcharduass for hay 1 3 8 lbs N/ac August -Jul 522C Small grain for hay 110 lbs N/ac Aug -A ril 522C Rvearass for h&y 138 lbs N/ac Feb -Ma 522C Sudan ass for QTazing 103 lbs N/ac A ril-August 522C Fescue for vxaziniz 103 lbs N/ac AuLmst-Jul 522C Orchard ass for grazine 103 lbs N/ac Au ust-Jul Small grain for grazing 82 lbs N/ac Au -A ril ,522C 522C Ryezrass for uazink 103 lbs N/ac Feb -Ma 522C Matua for hay 138 lbs N/ac Au ust-Jul 522C Matua for azin 103 lbs N/ac August -Jul SOIL TYPE 525C Cid silt loam 6 to 10 % slopes APPL. DATE 525C Oats for uain 72 lbs N/ac Aug -A aril 525C Wheat for grain 88 lbs N/ac Au -A iril 525C Barleyfor arain 66 lbs N/ac Aug -April 525C Rye for arain 88 lbs N/ac Aug -April 525C Corn for grain 104 lbs N/ac Feb -Jul 525C Corn for sila e 177 lbs N/ac Feb -Jul 525C Sor hum for uain 104 lbs N/ac Aril -Jul 525C Sorghum silage 177 lbs N/ac Aril -Jul 525C or um- udangrass for hay 138 lbs N/ac Aril-AuC7ust 525C Sovbeans 1291 s N/ac April -Sept 525C Sudan -grass for hav 138 lbs N/ac Aril -Au ust 525C Fescue for hgy 138 lbs N/ac August -Jul 525C Orchard ass for hav 138 lbs N/ac August -Jul 525C Small grain for hav 110 lbs N/ac Au -A ril 525C R earass for hay 138 lbs N/ac Feb -Ma 525C Sudangrass for azing 103 lbs ac Aril -Au ust 525C Fescue for rrzin 103 lbs N/ac August -July 525C Orchard ass for uazing 103 lbs N/ac August -Jul 525C Small gain for azin 82 lbs N/ac Au -A ril 525C R e ass for uaziniz 103 lbs N/ac Feb -Ma 525C J Matua for hav 138 lbs N/ac August -Jul 525C Matua for azin-- 1031bs N/ac August -Jul SOIL TYPE 68B-C Goldston-Badin complex 2-15 % slopes APPL. DATE 68B-C Oats for rain 68 lbs N/ac Aug -April 68B-C Wheat for uain 84 lbs N/ac Aug -April 68B-C Barleyfor brain 721bs N/ac Au -A ril 68B-C Rye for grain 841bs N/ac Aug -April 68B-C Corn for zrain 88 lbs N/ac Feb -Jul 68B-C Corn for silage 168 lbs N/ac Feb -Jul 68B-C Sorghum for *rain 881bs N/ac Aril -Jul 68B-C Sor um sila a 1681bs N/ac Aril -Jul 68B-C Sor um-Sudanass for hay 1501bs N/ac A ril-August 68B-C Soybeans 801bs N/ac Aril -Se t 68B-C Sudan ass for hav 1501bs N/ac April -August 68B-C Fescue for hay 150 lbs N/ac Au st-July 68B-C Orchard ass for hay 150 lbs N/ac Au ust-Jul 68B-C Small arain for hay 1201bs N/ac Au -A ril 68B-C Rvezrass for hav 1501bs N/ac Feb -Ma 68B-C Sudang-rass for jarazing 113 lbs ac Aril -Au st 68B-C Fescue for grazing 113 lbs N/ac Au¢ ist-Jul 68B-C Orchardvxass for razin 113 lbs N/ac August -Jul 68B-C Small ain for -razin 9 1 s N/ac ] Aug -A ril 68B-C R eu ass for 113 lbs N/ac I Feb -Ma 68B-C -uazinp Matua for hay 1501 s N/ac Auzast-Jul 68B-C Matua for azin 113 lbs N/ac ! Au ust-Jul SOIL TYPE 68D Goldston-Badin complex 10-15 % slopes APPL. DATE 68D I Oats for --rain 63 lbs N/ac 1 771bs N/ac Au-Ariril Au -A nil 68D Wheat for zrain 68D Barley for arain 66 lbs N/ac Au -A ril 68D Rye for grain 77 lbs N/ac Aug-Al2ril I 68D Com for ain 81 lbs N/ac Feb -Jul 68D Corri for silage 155 lbs N/ac Feb -July 68D Sor hum Qrain 81 lbs N/ac April -July 68D Sorhaum sila e 155 1bs N/ac Aril -July 68D Sor um -Sudan ass hav 138 lbs N/ac A ril-August 68D Soybeans 741bs N/ac Aril -Se t 68D Sudan ass for hay 1381bs N/ac April -August 68D Fescue hay 138 lbs N/ac August -July 8D Orchardgrass hay 138 lbs N/ac Au ust- ul 68D Small vain hav 110 lbs N/ac Au --A ril D Rveu ass hay 138 lbs N/ac Feb -Ma 68D Sudanarass for _-razina 104 lbs N/ac A nil-Auuzust 68D Fescue for razing 104 lbs N/ac August -Jul 68D Orchardarass for arazine 104 lbs N/ac Au st-July 68D Small grain for arazima 821bs N/ac Aug -April 68D Rveerass for uazing 104 lbs N/ac Feb -Ma 68D Matua for hav 138 lbs N/ac Au st-Jul 68D Matua for grazinla 1041bs N/ac Au st-Jul 19 NOTE: THESE ARE THE RECOMMENDED REALISTIC YIELD NITROGEN APPLICATION RATES FOR THE SOIL TYPES LISTED ON THE PRECEEDING PAGES. WHEN A CROP IS PLANTED THAT VARIES FROM THE WASTE MANAGEMENT PLAN, THE NITROGEN APPLICATION RATES FROM ABOVE MUST BE USED IN ORDER TO COMPLY WITH .0200 REGULATIONS. IF HAYLAND IS USED FOR GRAZING, THE HAYLAND APPLICATION RATE MUST BE REDUCED BY 25 PERCENT. IF YOU HAVE ANY QUESTIONS PLEASE CALL OUR OFFICE, THE PHONE NUMBER IS 545-8353, OR 542-2244 EXT 3. 20 MEGENC ACTION PLAN -PHONEERS DWQ 4 t9 571— 'I0 va EMERGENCY MANAGEMENTS STEM SWCDy NRCS This plan will be implemented in the event that wastes from your operation are leaking, overflowing, or running off site. You should not wait until wastes reach surface waters or leave your property to consider that you have a problem. You should make every effort to ensure that this does not happen. This plan should be posted in an accessible location for all employees at the facility. The following are some action items you should take. 1. Stop the release of wastes. Depending on the situation, this may or may not be possible. Suggested responses to some possible problems are listed below. A. Lagoon overflow -possible solutions are: a. Add soil to berm to increase elevation of dam. b. Pump wastes to fields .at an acceptable rate. c. Stop all flows to the lagoon immediately. d. Call a pumping contractor. e. Make sure no surface water is entering lagoon. B: Runoff from waste application field -actions include: a. Immediately stop waste application. b. Create a temporary diversion to contain waste. c. Incorporate waste to reduce runoff. d. Evaluate and eliminate the reason(s) that caused the runoff. e. Evaluate the application rates for the fields where runoff occurred. C: Leakage from the waste pipes and sprinklers -action include: a. Stop recycle pump.• b. Stop irrigation pump. c. Close valves to eliminate further discharge. d. Repair all' leaks prior to restarting pumps. D: Leakage from flush systems, houses, solid separators -action include: a. Stop recycle pump. b. Stop irrigation pump. c. Make sure no siphon occurs. d. Stop all flows in the house, flush systems, or solid separators. December 18, 1996 e. Repair all leaks prior to restarting pumps. E: Leakage from base or sidewall of lagoon. Often this is seepage as opposed to flowing leaks- possible action:. a Dig'a smalj-tim or iitch away from the embankment to catch all seepage, put in a submersible--"—,vq-pd &i4'back to lagoon. b. If holes are caused by °tiurrowtng ariihials, trap or remove animals and fill holes and compact with a clay type soil. c. Have a professional evaluate the condition of the side walls and lagoon bottom as soon as possible. 2. Assess the extent of the spill and note any obvious damages. a. Did the waste reach any surface waters? b. Approximately how much was released and for what duration? c. Any damage noted, such as employee injury, fish kills, or property damage? d. Did the spill leave the property? e. Does the spill have the potential to reach surface waters? f. Could a future rain event cause the spill to reach surface waters? g. Are potable water wells in danger (either on or off of the property)? h. How much reached surface waters? 3: Contact appropriate agencies. a. During normal business hours, call your DWQ (Division of Water Quality) regional office; Phone - - After hours, emergency number: 919-733-3942. Your phone call should include: your name, facility, telephone number, the details of the incident from item 2 above, the exact location of the facility, the location or direction of movement of the spill, weather and wind conditions. The corrective measures that have been under taken, and the seriousness of the situation. b. If spill leaves property or enters surface waters, call local EMS. Phone number - c. Instruct EMS to contact local Health Department. d. Contact CES, phone number - - , local SWCD office phone number and local NRCS office for advice/technical assistance phone number - - 4: If none of the above works call 911 or the Sheriff s Department and explain your problem to them and ask that person to contact the proper agencies for you. 5: Contact the contractor of your choice to begin repair of problem to minimize off -site damage. a. b. C. Contractors Name: — Contractors Address: Contractors Phone:- 2 December 18, 1996 6: Contact the technical specialist who certified the lagoon (NRCS, Consulting Engineer, etc.) a. Name: 5 b. Phone: 7: Implement procedures as advised by DWQ and technical assistance agencies to rectify the damage, repair the system, and reassess the waste management plan to keep problems with release of wastes from happening again. v 3 December 18, 1'996 a o p m O O T. y Z � a to n m y s HCD O C CD �o o+ oo o0 X ke. y A _ a Oo ❑ ❑ ❑ w Ln m o x � X r, CACD y • S `D c =� < o y co V] y O r� o- O O 0 m iC Er fD• L 5' • • • • • • X d CD A Vl Ln p- o p- � �r �> 3m.d o 3 E. O 0. ED n O w C p O� n qto =. cD a �+, 23 O O m co Sao a cow CD ,Ct x � a FA H al s � -0 o 70 n -o o 'O [D . N W W cco "C pa W 3 N �D YI CD .7 rt a Z O r' �O CD A X, N rt m A 1� n A w F E. I t F C rr p y � O C O � U o V Q � > c 14 a m R la • a ra dD � � Q R N ` `n En yo ¢a Gn E� y Ca �3 U -as 0 � -cc ca .11oy.a V V ° y O O v R 5 � E o R U it -S w E cD >+ ca E 0 y V y 0 O 7 v ul sr a0 y V 1] C C ., 9 O ai v 0 y > ur cC .a- ° yO C11 cm°e8 C° S s C "S C .2 � y a a � oL 0 cn U a Version —November 26, 2018 Mortality Management Methods Indicate which method(s) will be implemented. When selecting multiple methods indicate a primary versus secondary option. Methods other than those listed must be approved by the State Veterinarian. Primary Secondary Routine Mortality Burial three feet beneath the surface of the ground within 24 hours of knowledge of animal death. The burial must be at least 300 feet from any flowing stream or public body of water (G.S.106-403). The bottom of the burial pit should be at least one foot above the seasonal high water table. Attach burial location map and plan. n D Landfill at municipal solid waste facility permitted by NC DEQ under GS 15A NCAC l� l 13B .0200. 0 F1 Rendering at a rendering plant licensed under G.S. 106-168.7. Complete incineration according to 02 NCAC 52C .0102. a A composting system approved and permitted by the NC Department of Agriculture & Con- sumer Services Veterinary Division (attach copy of permit). If compost is distributed off -farm, additional requirements must be met and a permit is required from NC DEQ. In the case of dead poultry only, placing in a disposal pit of a size and design approved by the NC Department of Agriculture & Consumer Services (G.S. 106-549.70). Any method which, in the professional opinion of the State Veterinarian, would make possible the salvage of part of a dead animal's value without endangering human or animal health. (Written approval by the State Veterinarian must be attached). aMass Mortality Plan Mass mortality plans are required for farms covered by an NPDES permit. These plans are also recommended for all animal operations. This plan outlines farm -specific mortality man- agement methods to be used for mass mortality. The NCDA&CS Veterinary Division sup- ports a variety of emergency mortality disposal options; contact the Division for guidance. • A catastrophic mortality disposal plan is part of the facility's CAWMP and is activated when numbers of dead animals exceed normal mortality rates as specified by the State Veterinarian. • Burial must be done in accordance with NC General Statutes and NCDA&CS Veterinary Division regulations and guidance. • Mass burial sites are subject to additional permit conditions (refer to facility's animal waste management system permit). • In the event of imminent threat of a disease emergency, the State Veterinarian may enact additional temporary procedures or measures for disposal according to G.S. 106-399.4. ignature of Farm�Ownr,/Manager Date Signature of Technical Specialist Date Mortality Management Methods (check which method(s) are being implemented) Burial three feet beneath the surface of the ground within 24 hours after knowledge of the death. The burial must beat least 300 feet from any flowing stream or public body of water. Rendering at a rendering plant licensed under G.S. 106-168.7 a Complete incineration ❑ In the case of dead poultry only, placing in a disposal pit of a size and design approved by the Department of Agriculture ❑ Any method which_ in the professional opinion of the State Veterinarian would make possible ' the salvage of part of a dead animal's value without endangering human or animal health. (Written. approval of the State Veterinarian must be attached) December 18, 1996 M LO 0 z U calm Lo U aC.) r C U cC, N o c O _ cu `� U a� S w Cu o ro cu cco E CU �r U U a� M LLi L Q7 Q0 aka a to N U o M �O p C7 j— 11111 N C/� Q i Cu rn O N �2 O t--- O C � � ^ O CEO O a O 3 = O O p � o m Y :.O (D ("J L cu N •N�+Up U o 0 O L 2 � z � N `l' � m (.0 Z � cu cu N Z% EC r LO CD CD aJ O L U 7V " CO Q LO O � Y � w m ) Z Q ca o O o � cn °° o Cv M C, y M Mid In ca C ON i Cu N .m MM Zi U, i m 0 N LN N O LO N rn co Ln p ro LO U M LO Y N co C�- ccn rn rn O N �z ti MM co c p a o l,—`C, o c o o o v' c cu c1 E .o U U E Q V m " +�.a 4J ro o .m O a .V O �°� cu �J ro o m E a L-n (� J 0 O� Q ` cEv N y _..I Q M J N C a t- Q o cm am 0 a w W o cu E E CD a� m O C .N co Z a> cm E N E ro� Z LCJ w o p `r' Q] N C � p O aJ U a N � p N CQ O U X 7 g c a) a N O C a c O m -ED N O O C N O cc CD -0 aJ U O " E E O p aJ cu N p C U aJ Q_ cu Y OL O a m cc N E O U o _0 � c E O N C LO C O E O C U C O cp p C U C cn C cC _ U M_ c E Q W aU G ro U E 'y U r c CD V N p Q.i v C Y N o` -CD cu aJ C ON � Q ao p p 'o 4 c Z c p o E Q Z o = Q m co cu c N N cu O00 cu C C a N p Cu a a 3 O aJ i aJ O ca c0 S � � Qm / �< R \ a ka co Oo a 2 CD _ / 7% � o 2 kML Q � d � � g ®Q / 3 ® 5» E � 2 R G D 3 off L-~� §� L§ C-) 0 a �CL) » 2cu± c 2 Aye \ k \mG SSG 2 3 a ' CD Lo to \ � � Ln ¥ �\ LO Ica, OL�\ n r- / 2 k 3 iz a . cu z ƒ cu®G §BCD 2 c - � c co 3 n .@ G�Cl)� ' 2� k22 u z v /\ 0 k co 2 ƒ R \ \ z3 .R ± .E � \� .. k y / 2 . '2%�\ 2 3 a es�� ¢ k 2 7 § \ =e CL Eu //m CD kR\ u G ƒ m/ 3\ 37 // 2\ mco 77/ k k2LO / ƒ k/ a 4 2 3 » rri ry�Q,,, C N n � a a G N Wf, N o o N o c O c N o Cl o c un N A N h h O C N c V v V 00 $' N n O 0l N 0� Cti A O O O C v� ON LrI wl 0 ~ E A N O C R 'iS, Qr C M i n W w V p U ^C t� oo T all H G 7 in v p U ."+ n ON 2 94 qo� O V y+� W5 � v o v Z �cs h F C h N a a h Vj O N CQ O h N No o N o o N N y m00 N N M N N 'r c� 00 •� oll r o N`q `+ 00 N O h h C en O 00 �C' !r ^+ 'C O 00 00 1.� 00 00 �-+ N M OQ 00 N M t N CDO O O O O N O vCD � ^ Q A Cy", ~ N p V U V v G\ Gam? p M cQ00 v N R G5 U o 112, ZVI w � N N fS. G3. O O N o 0 CO3 O O o 0 etj O O 0 O O N N N N 61 O Cl N G G C7 C7 m C O O U 0 °S14�• O v.. O r � fii�w V�j � O C3 � v� N LO Cn UD O O Z L L2 LO LO cm CV M M u7 CD CD n O to n N U 2E O c6 ca cv O CD w C O M Ct C O .N E2 C CO C O L _T C O U R L co U KE am T -cp Z as i_ Ln Ca- CC 00 cm L fC L U U �o U Lo LO >v �s O M M � � � O � 07 r W CO O N_ � O N U CD U Vj Ln � � O _C E (� L cu Q- 0 CL � U n ` W L LC CL L. U1%Q Ln cu cu au w O � C E as Z3 Cy C OO J 00 0 O � C1 E o 0 CD CD U CDc o Q 23 � HCa O C O Q O 23 CO � o � O O � L � U - h 4- U u o o L 0 � o V) Qi cn a� N � O N O O O 7 U N O [ti O O N uI U ar UL-0 cYi N cD — =3 W M vi M O C = Z O (U O O O M 'cY O c C O Z N J ti 0 E co 0 w V (D N O a0 co ca e CD CD Nor +' C CD i C cz U CD p G vJ o -z o m Z Cn C!, - Q ' Q a� 4-7 m J Y h N J Q N U \ Q o y O 0 i � CU o� a U `o E 10 Z o U ca o E E W 7 o y Z`n O E a� clo N p CD D U � o � O N O_ o n U ca c O o o c CSJ C m r2 N O p C� O Ca � U lJ 6 J U O � ' E E O i C L ca -U Q 3 ca C — Co) . O C cOo O � C O ca 3 _ CO a]CL .— O w is C � `p T FZ a a cc o U I.i o Cl "' cc E 0 0 2 °'_ ca CD c 0 Q oar C O M O cu > i C Z Y N c) — O � ~ Q c O -_ O_ -C:) O F =p c6 O CU M ` N O (ll CD O � � c `o ca J Z=OZ @ Z O O Z 0 o ccz CD C=l C p ca E o 0 m N Cd O C N i � C C _Q Cl O O cc i C U .N o L CQ a QJ g C -o O OO O cn d G tq u o 3 — O � O m ) CD In p cv ca cEO ro V c0 y m 9 y Q cca� W W Ln In � J O 211 0 q O ,es O �^ o n\ 0 r1 Q c O ci pn U Z 6 C4 O N N 3R o CS M v �^ rNl v � � 00 0 c v � �+ U W `D p' o N � � A N 6 N � N Z to cz o < U o < v] M N o G a` 106 Q y Gi � y KaW tLL4 b F O N- � O\ O Cr 6� N Ci vs . N e a� 3 I Q e M rn.. a, � r ar n` D a Ir oo' O Qy W ro A � v 2 CA �n g � A Phi �" M w m M M � x x O �O tom. N O O U v o 0 � o 0 o � o N o o I N o 0 N "- N `^ 4 4 U 110 ti y y O N O N ti M N N rti 'C cq N O p 1-4 Y' N �_ o E E Go 910 q, N sx, v Q -d oo N V N �ij Ir �ij G1 � pQ G` :3 QO r t� 0 o gyp' n3-4 V V `�c h�l V It Z Fi ti N al z 1�1 N .Yi 'v M VJ M F iirt �! N F `a�ii Vj iL h N m M M O O N O O Vo 0 '7 O O p O o A O O 4 v � O � V VU"rt Re O V N U o v� a go C � O O p., � w b a L O w N O W O � J y r 7 O O � a w o aD a � N_ v� y � U w� O O U L O Q H I N E CC s.. 0 F-i i"i z a "¢ a O � 6+ � b o � O � v b w N a b w 0 �o d� x a � z w N � � y � � Co Q -D, i a .. O Cd 3 U U U Q a � O 3 O -t��t\�, `Jr.trf; !Y}Ja.•ry to wr\ts'- t1 �t.tr_ ,. ... r-r.\/ \_R f / _ `J ./ _ _ `\ ` " \ti �, /5 Yt t\! . �` trrt� { � l�l� t_J r4 r fi �l'1 /t_ / E�1tiJt�+t �� y\�[r}�r �1.J't �Iftf `\,`fir � I.•`� t.tr \ft !t i't'r^! IN r \ r' r! ♦ E `' i IN 1Afe`�fF\+^1 f%rt y1l�ii l!` \ �t{r�Y `±� t\rtr r\-tllrtt,`t!t rf�rli t S`�.lremitl�lr\r`w!t}�Ir`-Jtffrtrtr�lt/ram tr_��J�t\ \`R/t\rt;'/tl,.i i=;f1Lt.Jtt�+;l�{`t�l�!`!I�J�r r\rt trt.R/t �l rt!_f ♦ �t�� i /`- tlr� \_ \� i�t `�f,r`i./ t.)� /♦t l r \! /�tii't!�-`r•if f_ �!-\1`. ritrl�!`\�_ •tt/t �tl• \r� !\/,-.-\_ram.-r t!\..rJt•.�{\ _.. t�t♦r�!`Jt� [r,r Iw�frltil�t-t_{'w♦tl�t�t-lr~/ft'lti\ t t/\+rt tl..tl\!\�r�lr..l`trt♦rl\trt+��r 1rt ftf\rl/: t!r /t' ♦i -7 �_ \Jr\!�f �+ ! rti J^.t\i_ _, 1\ 1-rtr ! i .► t F /' l �! \/ y` IRS ! i ! 1 < - J _ \ r 1 ! _♦ \_/ \`\ l\ 1 N 1, s� r r ' �` \ i t _ ! ` r ! i! , t `'I'+'� �L,'aM� y C��i♦��N�',�1 s7Q�: t / \ t 1 _ t `. - \ r\ f J l , ►r I.1 t (� '- R`t[ R \t 1 �tp ✓I � (I�\ L \ r t t♦l l�r R t \� �l ,\` I� .. ' R- ' r►t1wf5.t.��I�SC�1'-"711'11 , -_t _;:,r,\ , R _-t_ t l_t1 } .^ !� \ r l ` 1 R t r E r 5 l f " �. / l t ( \ '- I I F\ r .� t � l r _ ti \ w, �♦! _\ / rN,rt+J �1ir.."t� J- /t-.}��`':1 l.. /-+i-tom{ \t�.� ..._+\rSiJt_ .�1.'.trt�+ !\ltf� I�1i`/►t` t" t\ f t�1i /tftt~r�/�f- 1f rY� rtrwr\1\t.�y _+l.Y ./ t/I /t/ J`[5 ft`% tt!`ft/fl�l��t�vt�s`t..{��`t��t�ttl♦ ! ♦/t/ fl_ tf tt{r ` % � -t / ylft`{_tit'-t-\ ,♦_�.r � t I r - ti \i ttftJ/=l.t�lf\=\�tr,t�-��frtr/lft`!tr"tt'.r\:.5,stir`il\�f't4 't1J\r'_\rI/ +.t- t'` r\7" y`' ~1`-\/ i�r�`\/��/f\t'�+\l..`�1.t�\I_ rt ►�/, t J—tt\t 'I�i� `lJt t- \w�\ftrtir`rRr �1 li/�trt--YRJ`r\{'\r'�v t•- \ ...♦l\l{�-t/t+-_\\I;,,tl�Rr ,� 1r %�Irp/y✓tr\t''tl\..R rtto'�i\�rNN. !}r f'! E\r\_[lt�\If\Y tr_ I� t/t'� )wr ) �'.,l�.,. \\ l / f^'r5r-f `lr\✓r/�R ,rtl\YtiltrlTii� j\! tom{. -I _ fLl - ,I 'k. I ! \ r t / -R t i \ r / * � ! � r� - r r \`t l {�.. t ! \ l rt' \ r• ! ! \ w r 11 �. 1♦ ♦ r r \ .. � IJi r'' r trl- 1 �1\ r Y ,. \,�+ ��J[� pJ Y I oe f �lRr �` \ \l- f�f ^- \ `ir\\I/ I f I - +♦\1-t'f�rl\! Pt r tfr ��/ t \ 1 tl i 1 �� R, %I-.{.�t"J�f'11 t� J,r\t\i \ t--.}r.wtr.\.� t�trl\fl".r` /_t_t`1._t�t�1�\.r rl\.ftr"it rt\/titr�tt/♦it/ Lt�,l �t_lRl r\�Er� %/ \�/t /.' ♦�_{"11 11 fr \='rE�!-itJtl\f.\.t J/trtit!/'f l;r♦1\lam t�!`f�l\rtJRarli 0J t!Nr+4 JRl`\ }r\furs/\•rt !\!tl'\{\Jf/l1R�IltJ\/-f451�Jvs/wf�l\l•rli�1�./r;I 'f\{�:�`�tftt\/tom \ \{wft t}`_\lrt�.lt/;.•r\jt f`lwtr\i`i..t�4tr�tZt`,rsit='r\{yl��fs\[tt/�ji'�{�I`.t+:tti�iit:l�.t�r�l\ t�t�j\rr\tilt: +`rti }1 ! ♦r _': `- '1 N INY ♦ 1 \ • t� !� I,` tr4 i� ; 1 r� � t !�\ y'.,,/� l �t ..-r,=,�. as+� �� \-.\� \ t � \ 1 `r t ♦ � r \ to J .� t y\ , r Jr�f�Slt. 1Tr`I�:;, r�♦t�R.-t �t�r N,, as > i I-�[� ',.tom•/ !f`r \.^v`,. \j ..t ,.l�itfr✓♦ I;;yr e\rt lt�rt\'�rYt\`}�1\�iL✓\��I �IN,\(' t ``1 / JN.3 -r. ^� ` Jtr 1\J♦ 1� l\.-tr`I , _t./t�f � �-T r+t.ir�. � l It jjJ. tt�_\�tl� .+�trrf�rw.Jti' f` f ` Jids-� r�tfti(.J? _�k•+ faa'~ rIi�J\_{Itl� \! , %N-_ \1i/`•`/'�\-! .-t1-R `trl fir rs T - i - r.'rst'KCr Iwt/ I t `Y 1- ` t + ` I ` J \ f\ { t t r 4 E * rs Y �Y�. _ r" a� �t r r -,^J- ' r � IN J♦ 1-. ,I- k ! � It t ,f t \ t\ t r -/ k. ". ,`• r yf ,)' " %i - .r • r f ` -J.• t iti/�ti��`` t �trl-�4/tom%�lir<jt/��i•-'��t�_ jt<'rYr�/1 �{►t.' rtJtf ,r✓!\rti �I�tr``'J1'v �`�ft�l jarr;/\JtJ�`i� ft`r'r!�(�ttr\�J/�\I' ��,_-.�/tr t�i• - t♦\�jr�lttr r ►\/t trot\!t�\�ttil r„'ZI/-rl t�1il\I`/t�t`� jtl `l�wl f �tti l jr J, r�t•\r�+:tl; irl .tilt{ E< �'�/t itl�ltr!'rt"/`i'ttr �r\tE<<If- % tom �t 1` / / �/ s\r ••` t i rt 1 1 t~ / r t r <t�\ rl`I L `J+�tlf tll`^\lwR�ir�;+��\ ♦tpl.tl�lrrJ rti i`Rr�♦ I -rl� `_ `�41 �H� r\- t t f w f♦ �! �~ f r♦ ft 5 I++-!♦� //♦� t�rli.t.lr\tRf/� ��'Jt 16el rlwi�fl� ; .lil�eti f`irr`r/R�j-r` �1� 1!\�ttf t•l�Jit\ ►` /tf!\1ryt�(�/`/,�.pt�r r \fl��`' �+/1t,.,•��,/ \ t I \I / / mot'~rEr i rt��tifty ,r+\.\-r\-r ;rt ✓l��t.ti1 \1 tl�.��ti tit` rrtJ+Anrt� rW`1+NVtF�t11 ,.�� ,,I _ t . t_ 1r�l.,rJYf� !/�i�-`f.r.J'!f~rl�J't tt♦/r.-\�+J`tititf .rt/�)!� /`/.:��Lrttr\r4`1/\j`�`riwsr` Jet \ r 1 �\ ! ! _ t/ . + Jt-t+ tJ tr`�!♦S' I !rl r\ -\' ♦�f r♦E-iJ-,-It `lr7rJttilt ir.\rt tt! �r�fttl\1�"tltt/tr\/\l�lJ\/♦-..lrt.I`t"•'"�� `tl �!�'1f��rt��'✓'t!r 'S rt.f 11 t/ 5 t � ! rr r fit t\ i�^� .i-^ / } r `. �l.`� r.. f1 ="' 1 ♦ '!`' fi t-\w r _mot`-.r : f` 1, J,\r•':... ^/♦ \rti }<%t \T\ `t! I'l t�l_t\J+�I �i_/� 4t��J �/ i r• �1 \ !�•_ I r\ r fr 1[•-fti� �I �S+1rr. `�,/Y-J/'`[ \�`J'itf_1l ♦l♦/5\/.�rw~Ltt`,1♦ _LwI\r.JN r\�-rvf`,irtrt[\I�t/ .ItIJ�ljjr.\`�ft� y�/♦'I`'f i\!�j\/� ;,,�1�t�/��`i_tj �rtti raltr.�/\J�\r \rt`/`Nl wr\f -IRf r''f'\�If Sr+` \It<r�_ �,\4/1 J- �\r'/\[\1\\r _ I\Jtl -r\ Jt �.�I ►r S \il/}r +\J\ter, t1�iiR`J'r\!♦Jtrltr±r�/'� r�Ttitrtfr/I�f�l�;ftj��\'t..t\/t�l\�Ir�ii,itif`�if`T�/t�r��J/t=try/ ��'1-5:. 'Y J`'rt_��",I..\is�rtr�/`tit\�1��/tfi\rti/tf/stir/t�� t �{l.^tr\{�•lrtr•Jl{��/_�`f_t�,r\'J\r-:l.:�tj l `trf��f�```v trF't- J 1JRi `sr rt\it �trJ• `r't _�/t-�4 ..t t" 1� /.^-/{� \Jttt.r`• f /`rl\ �fr" fr•....t.• t\/ ��!_�.\tf.. R`,.. �-r\� tw J'♦��\�+\J\ iSJ;f�\J�il"{:!�/t.!\'tti,J :%t�lt-l�!\1 �t�+.,t`� `f^s� J�1�'rt�t`f�/"'.Yt�rl.rt/� ♦fir/wt ti�/r/ �J�t\ !\�tr,rt\fttiltl\r r//\ �,s `t �/tls�l,tlititr�l�� jt�\l fttJl''ttr�it1tr.j�✓f;f`r\��S�i'ti"r_�tS�,tr��r�t� f� \t`l .j%t/}`.�itrl��li t. t\l rl ! t�\�� `►�tr{/��rt�J1`rR�t J` r_ etil��t� 5��t r♦J�... t. _�`��ff.\ r. �-rt� mot`" i-'1-ors\ r\!�/\411� rt„r\[ter il.. r -J Field Calibration Procedures for Semi -Solid Animal Waste Application Equipment LOAD -AREA Information presented in manufacturer's charts are based on average operat- METHOD ing conditions for relatively new equipment. Discharge rates and application SPREADER SYSTEM rates change over time as equipment gets older and components wear. For pump and haul application equipment, application rates and patterns may vary depending on forward travel and/or PTO speed, gear box settings, gate openings, operating pressures, spread widths, and overlaps. Equipment should be calibrated on a regular basis to ensure proper appli- cation rates and uniformity. Calibration is a simple procedure involving col- lecting and measuring the material being applied at several locations in the application area. Calibration helps ensure that nutrients from animal waste are applied efficiently and at proper rates. Pump and Haul Application Systems Liquid applicators and tank spreaders are an alterna- tive to irrigation systems for transporting and apply- ing liquid lagoon effluent, liquid manure slurries, and lagoon sludges. Proper location and design of pump- ing and loading pads are necessary to protect equip- ment and operators and avoid damaging the lagoon dike or embankment. Care should be taken to mini- mize spills during loading and transport. Semi -solid (slurry) applicators can be calibrated by one of two methods: load -area method, and weight - area method (see AG-553-4). Liquid applicators are best calibrated by the load -area method. Load -Area Method To use the load -area method, you must know the spreader capacity. Spreader capacity is normally rated by the manufacturer and often is indicated on the application equipment. Liquid spreaders are normally rated in gallons while semi -solid spreaders are rated in either bushels or cubic feet. As the name implies, the load -area method involves applying a full load to a measured area. For ease of measurement, it is best to use a rectangular field pattern. For PTO -driven spreaders, application rate is dependent on ground speed so a uniform speed must be maintained throughout the swath length. Ground -driven applicators apply reasonably uniform rates independent of ground speed. Load -Area Method Calibration Procedure 1. Spread at least one full load of manure in a rectangular field pattern. 2. Measure the length and width of coverage. Do not include the outer fringe areas of the coverage which receive much lighter applications than the overlapped areas. 3. Multiply the length (feet) by the width (feet) and divide by 43,560 to determine the coverage area in acres. 4. Divide the weight or volume of load of manure in the spreader by the acres covered to determine the application rate in tons or gallons per acre. 5. If the application rate (Item 4) is not acceptable, repeat the procedure at different spreader settings, speeds, or both until the desired application rate (tons or gallons per acre) is achieved. LOAD --AREA METHOD SPREADER SYSTEM CALIBRATING LIQUID MANURE SPREADERS USING THE LOAD -AREA METHOD 1. Determine the capacity of the manure spreader. a. _ _gallons 2. Spread at least one full load using the regular spreading patterns of the applicator. Trial 1 Trial 2 Trial 3 b. Forward speed, gear, or throttle setting c. PTO speed or setting d. Spreader gate setting 3. Measure the area of spread. e. Spread area width f. Spread area length g. Spread area (e X f) h. Spread area (g _ 43,560) 4. Compute the manure application rate. i. Number of loads spread j. Capacity per load (a) k. Total manure spread (i X j) I. Application rate (k - h) 5. Compute the nutrient application rate. m. Manure analysis N P 2 0 5 K 2 0 ft ft ftz acre gallons gallons gal/acre Ibs/1000 gallons Ibs/1000 gallons Ibs/1000 gallons n. Application rate N Ibs/acre (I X manure P205 Ibs/acre analysis number 1000) K20 Ibs/acre 6. If the application rate is not acceptable, repeat the procedure at different spreader settings, speeds (Item 2), or both, until the desired application rate is achieved. Prepared by J.C. Barker, Biological and Agricultural Engineering Extension Specialist R.O. Evans, Biological and Agricultural Engineering Extension Specialist D.A. Crouse, Soil Science Extension Specialist 2,500 copies of this public document were printed at a cost of $577, or $.23 per copy. Published by NORTH CAROLINA COOPERATIVE EXTENSION SERVICE Distributed in furtherance of the Acts of Congress of May 8 and June 30, 1914. Employment and program opportunities are offered to all people regardless of race, color, national origin, sex, age, or disability. North Carolina State University, North Carolina A&T State University, U.S. Depart- ment of Agriculture, and local governments cooperating. 7/97-2.5M—JMG/KEL AG-553-5 E97 31963 Soil Sampling Basics Pagel of 3 NO1rFH CAROLWA DEPARTNLE_NT O.F AGiiCUL'[]$$ &r CCjZi5[,T]iF SR$�LC$S Home Pate About the Division Field Services Nematode Assay Plant/Waste/Solution Soil Testing Agronomic Site Map Agrotips FAQS Find Your Report Information Sheets News Releases Publications Related Sites Virtual Tour NCDA&CS Miscellaneous Publication (revised Dec 2004) Soil Sampling Basics Useful Facts • The sample you submit should be representative of the area. • Sandy coastal plain soils should be tested every 2 to 3 years on average. Fine -textured soils from the piedmont or mountains should be tested every 3 to 4 years. • Test results and recommendations can vary within short distances. • A detailed map or an aerial photograph is useful for outlining fields and assigning permanent identification codes (5 characters maximum). Characteristics of Predictive (Routine) Soil Samples • The grower is primarily interested in receiving lime and fertilizer recommendations. • The area sampled has no known history of fertility problems. • Samples are processed in the order received. It may take one to several weeks for analysis to be completed. Charactistics of Diagnostic (Problem) Soil Samples • Plants or crops have not responded as expected, and the grower suspects a nutrient problem. • Diagnostic samples receive the same analyses as predictive samples, except soluble salts are also measured. • The best diagnostic samples are actually paired samples. Comparison of samples from both good and bad areas makes it easier to confirm a fertility problem. • Problem samples have priority over predictive samples. They are moved to the head of the line and usually processed within 1 week or less. [Note: Don't try to get predictive samples processed more quickly by labelling them as diagnostic samples. It won't work.] • Shipping packages containing diagnostic samples must be clearly marked so they will not end up mixed in with predictive samples. Taking Samples http://www.ncagr.com/agronomi/basics.htm 4/19/2007 Soil Sampling Basics Page 2 of 3 • For agricultural samples, take 15 to 20 cores from each area. • For lawn and garden samples, take 6 to 8 samples per area (front, back, side, etc.). • Use a clean stainless steel or steel sampling instrument. A soil probe is best, but a shovel will work. • Place each soil core into a clean plastic bucket. Avoid using metal buckets or containers. • Walk a random pattern over the sampling area. • Look for changes in soil color, texture, slope and history to divide area into separate samples. • Do not group together cores from areas that you know have received different treatments. These special areas should be sampled separately. • Avoid field borders, ditch banks, old brush piles, bum sites, etc. • If crop response has been different in an area and the area is large enough to manage separately, then sample it separately. • The sampling depth for agricultural land where conventional tillage is practiced is 6 to 8 inches. In areas where a pasture or hay crop is to be established or a conservation tillage or no -till plan started, sample to a 6- to 8-inch depth. Where an existing sod is already established, such as pasture or hay, sampling depth is 4 inches. Where conservation or no -till is established, sampling depth is 4 inches. • Samples from lawns should be taken to a depth of 4 inches. Samples from gardens, shrubs or any other homeowner site should be taken to a depth of 4 to 6 inches. • Keep sampling areas manageable units. Avoid making units too large or too small. No sample should represent an area larger than 15 to 20 acres. Extremely small areas can be difficult to treat. • If soil is too wet to till, it is likely best to wait for dryer conditions before taking samples. Wet soils are difficult to mix thoroughly and may affect the quality of the subsample taken. • After sampling an area, thoroughly mix the sample breaking up clumps and removing any large particles of trash. Fill the sample box to the fill line marked on the side of the box. Be sure the box is marked with the correct sample identification and the grower name. Submitting Samples • Put samples in NCDA&CS sample boxes. Boxes are available at all county Cooperative Extension centers and from the NCDA&CS Agronomic Division office in Raleigh. • Use permanent ink to label each sample box and complete the information sheet. Do not use felt tip pens since most of them do not contain waterproof ink. Boxes labeled with a pencil can be very difficult to read if the sample box becomes dirty. • List the crop code shown on the back of the information sheet in the appropriate column. • Do not put sample in a plastic bag inside the sample box. Results and recommendations for samples received in plastic bags will be delayed. • Do not tape up sample box seams unless the sample is from a quarantined area. • Do not place sample boxes inside a plastic bag before shipping. Moisture in samples may cause boxes to deteriorate. • Do not put information sheets inside sample boxes. Attach information sheets to the outside of the shipping box or put them inside the shipping box next to or on top of the samples. • Do not use sample boxes as mailing containers. http://www.neagr.com/agronomi/basics.htm 4/19/2007 Soil Sampling Basics Page 3 of 3 . Do not send samples in manilla envelopes, padded or nonpadded. Samples should be shipped in a sturdy, corrugated cardboard box. J. Kent Messick, Agronomist NCDA&CS Agronomic Division 4300 Reedy Creek Road Raleigh, NC 27607-6465 (919) 733-2655 Agronomic Division Web site: www.ncagr.com/agronomi/ Agronomic Reports online: agronomy. state.agr.nc.us/ Last Updated April 1, 2005 Mission Statement Accessibility Statement Disclaimer Privacy Statement Telephone Numbers for Speech and Hearing Impaired. TTY:1-800-735-2962 Voice:1-877-735-8200 http://www.neagr.com/agronomi/basics.htm 4/19/2007 N, o Y co °o N N y 4 00 C O c; v_ j •ice E a� La> 'r• nrg w e o .5 C a o °ems E q d a^wi p. s .c Y 0 a 7 o u m E L c °_' a Ea .a c '`�" o 03 e w E �_o o o° ai y v � Y y u ci°i at aCi s h �ti. rrtLi'� �o c'^ 7 aL. C N C .0 y C arai C C to c x e o D w w �. c a °? o o h m a�i o= c v a a o 3 Y5 N e4v v E y N C a� E N N>. a m ao c° ' N en ;_' m- oa cg aEm °.° E$�°❑°?° Ao co rfy E > —0 Y No° vs wo cEo c Eo£ c E oy 0R_bL `vo °ou -f No 0. « °: "y 5v.o E.° _E s c a a x w° a o o E .S c o c y> o o N o m w c °' v c E 4 ❑ a v 0 M UO 0"o E N L x y E w en n. '� y 'y > E c o> a a a s c .E . W> v —° m o❑ sn._ c C U U O rUO0;N >C ¢C.V b0 5 °w•000 ic a V)'XFdw o 4 w °� U EE y p.E o CO O i+ y�l Av P4 y,o p v "D •O ti O O, U G7 n 1z, o 10 U� � Y C� o c^ oCo G� .y U N u N O+ E qz �Z Q103 C Q ��' C7 m C7 rn m m o'° ens o E ° u U > ^ E a," ca pW o ..7 ..7[i] ...7 e yo a"¢ 5 z me CL a 3 E � � e �y o c -W ' 07 'O y y C O X •O b0 X •._+ H a ,x0.. 'N C 0. C °U w c p 3° U o a C o �a 3 a c it w y 0 d 3 c .. b 0 .E w0 aGi o N E" c w 0 sO h N `o E 0 0 d u ° o E E CL c en - aa w w R ccems°a aE cL1 zo axiy a.T a a w _c a' a a'Q E c S `o •E � n o 0 y o L y d0 L° 'rO., O C..a w '� 6 >°, " C aVi o C a`�i N 01 O to 'L F 4 Q U 'a �' O 2 8 E 'o p o o o v o on E c y? « r� a� ay ie � H .e 'O � � " E aCi y b a� y h E � ° as 'c•n "° N _U. Or U C C Q '.r3 0 bA O is G V a0i T 'w > G V� cCC C W d oe Y c A 3 c a�i ° ° a o a ca c_ .u. o c s c ro x? L _. 0 s E c .0.a° o e u s e " w y X k r❑ > y o 3 a c .c a w a� 0 y `o u m ou $ g ai o `34 N Q 0 a y m -y m 5 c x� = E s 9 'E a°° E r0 •a 0 G N {a a 0 L 67 O On U O O N N C C 0- 0 y' a' N C v d O e c 3 O 'rn '� ra ' U c R o o r> 2. 5m r_ E 1 e° Go " m E Y c w a, 5 W� emU°day e3TY aEoy� oo°�.bnryaRN-off 5�ax� 5e0oo S aE .. m 0 0 0• 0 2s a G t d y o c o a o o a a e o cv 0 o w fl 3M o s x a a E F > y 'd N "t o E m w m a` o a0 c E 0 0 `' a k s U o E Y CO 3 c Y _c wp, ° s v 3 on : ° c _�.0 Ei c > w d o N U w o 3 a e g y v 5 c o o u a o C ° s m m m a c m .'c. H°° `� 6 R Q s D Z a w -o s U >. � a� U -�a U 0 W u G sa w E w R+ � •-� •`d O> 5>>'E 3 ao r k'� ati�b0 o a 9 2 a E 0 0 c m a .2 15 -0 we C �aE a U,5 E -'. .j E c t G t.: -0 s x N IS -. E c w E W a 'd 3 Q, o f °�' a E m eu = -o Pw �t o •s- A 'u V o son aai O c E t- o0 C 2O o O 5o pQEN WoE UcE U•o0 -wC "vC� C�l6 sY3 LbC.n wAO U X a o o o Q. NN 0 os p 3e V 0 �0 000 00wo > � 00 °U h by O Eo a o q�co4 asi o c o f aEi a a' i O0. n ti E h N a .° - `o' ,,:_ `° In= A 'y a �Q ° o y E` E E V m° V 4) a 0 o N; y 0 >, a .,' 0 ti o _^ r .0Z a'v a a'C � `� C_ o pap 0 0 p 0 0 a 0 4 r i b41 3 E a s g E o" w o eea o c ` id 3 V O O A. TI i0 O "• O a .� m 0. C ate. 7 T 4=i G •0 0 y O R U 0.> 0 y ¢ 4' N to m c R h a w a s E "_' a o Qg r N c O c o>u 3 o v Y y son >= E O c. E y Cc: a E 0 o i ea i o c0i aCi -i = ° L a E E 0 E u Le 0 0 o n 0 3 c ° .>° d o Q A E 5n xi t R E s ,0 s a o a E s s "" N w Fw 0 3 U w.-i« w R�.O< caQ o ® 3 a�cn U �aa P_ J c a -0 a v �c c ji •o > •a v •n m v y Nvolu o> N cc o AdE C> G w w _ O �Ca O Q T o v b c '> a=i •� c° o c E y c � c v c .E Y m a s 7 ` O ''' N N m c u N ,d V E °� A E 8-0 y °—>� E e 3 0 O c°i 0 \yo v aci a id °ti' _Y y ,v°, � E � m o c c ° ` •E .E •y v � .n rn •.ri a .. o 'yUU O 'p O U ^�O. � 0 U a A N a _ O U O = E U S m'D Q E U ea .- V C q a+ z N N N vi c 0 3 osv aka It y 46) O a 00 Ov cp .. • yr °° �o V oai . 3z '• e n v yY=cE'Uao � o>' as ' o EzE c aon Ir >u° wwo'N F ve°n so O 0 0 0 U. S y " 0 aU+ ') W bp 3 d w0 E ni E 2 c 'g c w .O+ O Am13 n��3Ca °m6' y oEaz�o UCd °03� 0y" 4r U N v >OUOa b v> c r YO ° 7 c °° U Ec o c 7 > wc c p v c Y Fo 2 y. o= d b a E s A ° b c c °n� v c Q v u> A n Q C 7 .0 -OO vi •4 >' 4, O O aGi b0 'O O cd U p, d cd 4. y 7 cE aaa L>> a 4=y. .Od -cc 7Gy wN Na U o boo 3 •Oc DO yl Gby0 0O iNGtl Nc o , °C 'd h.y ^Cm c O cO p i O Vp 6Q 0. a C v °y a E ° v c o- m 43 4 ni o c ad+!I Uow ?"•= ro' c v 3°° E cg" ti .a?acF" Eci v °N3 Vd 3v � "_ °oyq f.3 = o cE 0 v v W�;Z,, oEs> ' v o rE m v w v Uv a° a3c G o cua.U�,i coE GUC R 0 v7° wE Oo R O O>G m a E 'v U 3 z n E n_ E w eqm a m U e �Co NLvOi d >VU_ C V > 0 a 0 jg d c �+obO1 m GaaU = C T GO V z OOti NE.❑>O Iq v v v onL—O>oE 4 = 1. n° 3v` A U Cy 0> % O C N U) 2 cGv 3 O� oe a O .V O V �• � Q+ '� M d L_6 'O� T>� W ON T 3H v n o ¢ c 4 3 O` c a p fV, r U N o r Q N r E U 0 Z'S v O U C ° �c+.21 `o 0 cn v ^O' SO.. R P'.C•� o ••�ai OV ai �I 'i CO . v A o �o [ o o =s � oW F coa i c o. C ai 0 ym .boy a O° 0 •C 1C o dN Y•C C° >1 >, U w 3 ?�0omw'Oc c E o '� o o c o ❑ .o w° '�' E o w> o a o c o w aci a by 'Oyy U J U m C m 0 m m` U o U rn = 0 C E O N y — `a U 4 4 „ o c c m> 4 -o " 3 r _ > o o o" c F E° "A ti bq m o c °° c ?: o 4 o m �� ° c o E a ° 4 c ❑ U m yE a y a. w C m n. 7 y A '�_v°i _� C y 'b E m o L a d = w y c c c 7 d E n 7 E y .E E c c ba p c y o o n o ._ ° o c E v w° o c 3• o E c a E y ro �dI .E o c Z Y _ .C. b cca 'E $ o v E> o E c F� o 4 c E o >>; 4 °' Y E o Y °' o y o m e° e`n E e� °-' a b a . .7 m c ` F. � •c o " � ° `' m c o w c w E. a c .E a E° o[ w r E° ci m S `o E A w y a c C u c A Y aoi c o o f o o ° b o ?� al c Y w o s w o' �° c o .E E 'b o° a c s y a° a y b E c w a °a E E W c I .E > o c c c o c d v 4 a� y a• a a� e: be o c " w° ^ A y C O V N m 4 t� 0 0 C V >. O J C O O O C C v7 m C O a. ° 3It to E _o Y E ._ ;❑ o e ro c m ° .� 'E u y> is A a L y o a E a 'o• y° ' of E °c �� ° °' E °. �b'bn ao m; �> bE c°i Aa H E E y c R aci o o° t o E m Q E d c �) F •° w E t ai A coy y a a Z 3 o a c 4 F a° .VO C y G o YO " 'y E m '+•e C _T C um •p .L7 a .d o N 0. .C. C J'C.+ b > 0 3 c mi s c o H[ .E a o o° o°` a a N 'a o I, o 4 £ c => u ° b F 5 `° Ea co v " y a o o ai K R y c a�i ° 0 0 o •m c a� y ba Y U C O m U v o a) E m C ..+ N a) C!1 Ll a) •tl E o c u y aE ai m y " = c O e' y ua c m '4 ° w E ° h w P m ?= o y 3 v a° o s c c c4a ca •5 E 0 a T ai c yp 3 x y ° q 3 m aai Y m :'. °: a cmi m= 7 E c v z o a a E E o m o G o c°�i c°�i w c o y a c [° bn ° ai aai i a o ca ° i c o a°i o o n E 3 .—� a .� o ° H aci °�' H °' N a a c° a `y ° 9> E° 3 0 O ,o Y= Y ea 3 a r o° Y w U m 'o °a �, o op ° E 3 E t C d o bOD b C c .w Y U ., w.. cm. p ai % y `ca O d 0 o N 7 C°� v ° ° E i a� a°i 7 N 7 C _ t O `a 3 cpi E 'p °> U s w 901 0 E H p U i v m ti ti c p; O m c is N' c ++ m E a F 's. c o o. .o E ai .a ai el ei o o O t ,>, c c9 .5C y ,c x y o 5 > Lv V C ma—°i :3 .c v c a a G c v 'o c axi a ° o c .v c° m ti p° o o° o Y o c o K x d cca o E Y o c o° a°+ a c a a° ,o =° o � fit. p o p a" ., 3 s 0 3 U a 8 ca s U E PO E c E° w- w 01 .E E E s ma c- AI 'c a s U y ti c a -o a .: e e }; y w ^[ m m 5 3 o b Y E Y `o E m. •11 > Y o c g A b G b0 7 U o 0 O. > 7 m O y y a) � 4' a) 0. m w .A.. .+ o U C y m iG C SG ' v A E 0 � x c t a y .a ° aoi a cc`a a c a 72 v o a m m c c :3 °° A u° ,; E c 4 E oEL o a m d a H o may ° v ro m �' y o �'" m y c c a m o° '>' o b •a C N E o O am"i O -VOA w +'c. p y y m U ° U bD cd Nc .` m U O 3 y C a) c .U+ m E c c c a ro w y ba m o aci w E 5. bu ami E o C w F o m y c y o c •_ v " E c o n m �= yUi o •X •� is m k N w e x a :° H o • o o= i v o C d E o o. o c w °o y •o c� o 0 0 °' y ° a A bD b°o — b°u a o m ? a E o y x c E E 4 _c E S oo x w a c aAi o-° E a ai O o ° ° h Y a c o E c m w o ° m 7 c � � c n• y o o a ? � y � •o sL, a w t °3 y c°� y °' � .o °' y� � u N C E' E ti a? o a o u> bU c -° 0 4 m w e °n E c b o o y c s o m m c° a—°i c y o o a o c L o D o w 11 c E m > c c U o Z o o y o o° c aEi a x y ° 3 3 o "> N °a H e p n a o m .5 ai b°u cd aci . ° L m o Y a o .3 c 'O h c°i v> m$ A p v c boo E o a° c oo c a A O cEva C ,42 bo 2 y o •° y a) O .. o 0 d .d m rn mcm $m .VO Vo um m •DU O w 'OO yT ❑4bm� L Am Oei arhU oEO CpN V>o A«a3+ e.QyO _0-„NCRO, ' V g°> Ow0JbEocC O. > v y ° n a > a O c r1 c° to E A° 4 r Cr E'E' E aE c°0mo � .N wEN 4 o°° �0,Ej 00 O C E i emo c a0 c °—' m e o 02 0� > o �'G cn �d.c 1s L o r.� a �°,��aa�a a -o -a 5UA E° as L T b w m m U= y y a) O E 4 oD .0 ° •" b0 O d '� •cd O m z> y V N y G �e ce ro > b > o o Y E m w ° a 3 .E 4 •E 'e O L C .A+ O N is .T+ H al C 'cE U vn E w s ti y A C d 0 C m C U Lc, a a°i o a°i .5 s E= c 3 o m .c C w y �' . A y oa° a. 4s O c E o o ° m m$ E c= c ro c E i °a Y a c 2 L> y� c°i o A ° 5 0 o z bo o eA c°i m a"i > o O o m b c o E o o O A m a a N ,y 0 N C 4 m m uC L rC �D 4 A a) C A E -0T 2-ro 'C1 w 'O m ca w 7 w O •� C bCD o s p � o A .2 0 o - ° a°i .� a y E z v o cca 6 p,` c .a V �?� o .;a� N 0. T aU. E a E •� O° O m C m C> o a Q i 2 ., 3 0 y 0 w U o a c°i 3 °� C 'Ei O C CO Cl) C (O N L T O N m m 3 N co co C U O f0 U N v= O Q LL 0 co co E m O C (O N N C _N N N N C1 O � U O C1 U cO EO O N L f0 E U Q O c >, L — � r OL Ncu to U N i4 O CO C L C 0 Z m -C N m cm N CD 0 1-1 p a)N cu U= CL 6 Cn U) Q �000000 w-00000 O * M O O O L n �NLrtn'r N C C O C U O to O — 7 yO m N L L 3 L 0 ow 0 o �w E cm cu ELnE _O cr. OCM— to eMrO O N p`) C f6 C � C N C Y , C = L = 0 (a U N N rn N — C m c — N s N N a N (n Z_Z_Z_Z_Z_z_ (O (6 (0 N (O (O C C C C C C N N N N N N L L L L L L O O O O O O N N N N N N fO fO (O N N N N N N N N N L L L L L L 3 3 3 3 3 3 w c mc0c0camm L L L L L L C 0 U 0 U 0 U 0 U 0 U 0 U L -a L -2 L -0-2 L U -2 L O O O O O O U U U U U U N N N N N N .C..c..C. C C C CC�cc..CC.. G G G masNN�om U U U U U U 0 0 0 0 0 0 J J J J J J L L L L L L L L L L L L 000000 0 C) U U U U. (D CO C0 C.0(0(0 CO CO CO CO CO CC) N N N N N NI UUUUUU N CO (D C1 O 0 w C _ _ O N fO •ti- � C O O O Q C N N a)C U cu T o a E 3 C:O O Z rl-cu ti o 0 (V a E C) C)Oi N > N� C ti C N (OO O C_ Ln++ L. N U (0 a N (O (O CL C N CO > 0 O •(U •L- � 3 O O L N U N (�U •01- 3 .0 -CQ WN O y cn� iaC 7 00 O E _-- U N 43 �(U +ON_ `O O > 0 0 0 0 r O UwowQ OH00wo ow N M M M M M 00 00 y � Y O L Y LU 0 0 VJ •— N ol N (� 0 N M r CD � L L CD M cc Y y Y 3 cn O y N fA (D cu C O u, U C U) 5 N C_ 0-0 O U N Cl) U) OL L N C L L C r a�i a� O 2 3 0 m _ a O U n U'0 �C y N "O O O E y O Ln � N Y wa) U)U 3 0 C to •c o 2 to c — _ ( w cn a) o0 30 m N i Y N C N L_ O _ Y m (0 M O O r r r r r r OM — OrNU) — — — — rN — N N_ N N N r 04 � � � � N N r U) r r "Q cc 3 V 0 0 C E .� O 0 N1 � Z > �+- o 0 c m N U N N W 0 N a _O J /3 a� c m -C L c Q O 0 U o O E N U L E t O o O U.r$o 0 v LO U > i6 Urn.Nc N O 0 fl C O= (D N Z U n m O) O LO O O a o..._.. N r 0 N o G�3 0 7 m _ O_ UO O �000000 -00000 �on 6c� �t CMOooOLo C tN C N L N a 0— 0— m m 0 owo� o vi — 0 N O N 0 ONEmEL6E O O co — En co 0 C ++ L o .3 N cn 0 fA uS a� vi c uS ai Q (D � 0 Z Z Z Z Z Z c c c c c c m m m m m m N N N N N N -0 0 .0 O O O O o 0 a�mmmmm m m m m m m m m m m m m N N N N N N 3 3 3 3 3 3 ma�mmma� Fr �.mmmmmm c L c L c L c L c L c L co 0 U 0 U 0 U 0 U 0 U 0 U Vl fA V1 V1 (A In L L L L L L O O O O O O U U U U U U O N N N N O m m m m m m U U U U U U O O O O O O J J J J J J L N L N L N L N L N L N L L L P L L U U CJ U U U 0(O(D(D0(0 0 0 0 0 0 0 N N N N N N 222M22 UUUUUU N m rn N a 0 0 c _ 0 m m L c L Q c .0 N V) L m INO mm CU U f6 L U +C O O 0 Z O r v m m > a� N O 0 0> E c L Q� o c �n :r r C N O U m N C(a _O O Q ui Q « (U co m O_ c N � UN L N moOo �m �a)'m �O>O -0•2 ONO aN w ncn0 ?O U O E <A U O C.> 7 i5 3> O O 'O s 3 UfA❑(nQ OHUJ❑(nW(L) 0w mt�mmcn�aoao N M M M M M 00 00 N O O L W L C D acm ) E N E co •� M r CO C C C O co a) N 3 N 7 U a) in a) C a) a) O N U [0 L 1 0-0 O a) U) ti NCL.c L L O a) a) 3 0 O 2 0Urnap0 U +) a) U Ea U OL a) Y a) Yca- co c .S o v c N =CD CM a) N m � •'= m a) O c v L () ca aa) O _ 'L nn� LL O O O r r r r O N LO N O N r N N N U T r N � N N r r ,;T V �' In r 0 co co E 0 m V U U O 21 a) 0 u to a) U o c ° 0 T (A 0 a+ L N W H EZ ca U a`ni o o cn o (N W cn L J +a Q a1°i rm ELF 3 N c ai O Em U cn O E m T cu U m U U sffiv o boo c a) U-) `r cu °a) � °) U N O O i Q' N O�..a) a) Z 04 cn m 0 LO CM a) N O O In_o �- a� LLIrN+ =JU)U)Q .e �000000 - �oogoC�o 00000 rio ooLn aNUfLnv� a) Z cn U) n cn o o m cn ou.io 0 o �oEc ESE O R)c'M—Mr'Cp L t C � C C Lca ° u) 3 0 co U () } a) 0 W w a) cn a) cn C N (j) -° U (L) �HHHHF- zzzzzz m m m m m m c c c c c c m m m m m m a) a) a) N a) 0 -0.0 0 0 0 0 0 0 U) U) cn to cn � m � a)a)ma)a)m � � � w mmmcocum a) m a) a) a) a) 3 3 3 3 3 3 a) a) m a) a) a) z m m m m m m m c L c L c L c L c L c L & 0 U 0 U a U 0 U 0 U 0 U U L U L P L L -2 L -2 L O O O O O O U U U U U U mma)a)mm 22a :222 cm cm M M W M c6 co U U U U U U O O O O O O J J J J J J L L L m L m L Q) L C _ _r_ 000000 V (J U U U fU CO CO CO CO (O (O CD CO C.0 CD CD (D N N N N N N U0UUUU a) cu a) n. O z 0 a) m n, c -0 . r N of (D T L U a) _ m cn m U co ` o O m i� m (a .r C O o cZ CO U aci E �� CO a✓ a) > a) a > O N m p C LO +� T cn CM a). m L a Q m Q cm ��Nca) O.-. L a) a) m r m m a) O � •� `t ` (n �' cn E n C a) cn = in a) a> O O O cn w" O o m 0 0 0 E cn U Uc)❑cnQ 0 -U)0U) ) Ucn NCMC•Mc'MMMMM In o O L ram+ W O O uj G1 N [p E in M T CO C C C 3: cn N 7 cn co N N C _ N W N O U c6 cm cn O C O O U � T � cn cn C L O L L L C i O ccu -o Ocoo O U O U " (nt] N 4] O U O ca L U C:m oc`s� N 3 m 'o N O i Y U C U) _L cd N O } m = 'L ff0 LL Q O N N_ O N \ T N \ N N \ L T\ \ \ N \ \ \ \ N N T T -'r Nr LO T T Il� O c 'a r to c (a a) L T O N m a) L a) 0) E U -a 0 3 cm U m 3 N O Q. �f 0 N E cv 0 21.4 a) a) 21 O a) N a) Q O c m L a) C Q O O� U o Eca CD = E O o U o w N c) m - mLO O > m m m r: N U rn.L c L O O O- 0 v ZU� i U) 0) a) y N 1a) O as : _.� a) to 3 U OQ 0) = J U) U) Q �000000 �-00000 °oo�000 ri o o 0 Lo N O Lf) I N -4 C c N C 0 to L N a0 0-U) m 0 L L 3 L O 0 0 O w U)cn c cr w E E6 O E Z O O (aM—MrCD Co U •N c c L c C C ++ � 0 3 Ua) v0) co Ncna) 0 co — m °a c — cu a aa)) aa)) > >01 a°)i U) I-F-HF-HH z Z z z z z mmmmmm � fn N fn N N c c C c c c N w Ca m m m 0 0 0 0 0 0 -0-0 -0-0-0 L 0 0 0 0 0 0 0 W N U O mmmmma) C6 N O (a 9 .. N .Z . .Z . N a)0a)mmm L L L L L L 3 3 3 3 3 3 mma)mmm N N N U N N U C L C L C L C L C L C L O O U O U O U O U O U O U to to U to N to L L L L L L O O O O O O U U U U U U 0 0 0 0 0 0 m m m m m m U U U U U U 0 0 0 0 0 0 J J J J J J L m L m L m L m L m L m L i/ L Y L i, L L ✓ L it 000000 }� U U U U U U CD (o co (0 CO CD CDOOCDCDco N N N N N N UUUUUU a) a a) O. O O C _ _ (D a) ca L C � O O Q N (A a) c a) L �, L ca ca m U c6 L 3 c cr) c o 0 0 0 0Cz C a) .-.,E ++ C 0 mLO m > L O Qc°� o r- c m 0CU .� U N "EOQ o N C d •� a) N a)-0O U 0— ` N a) O C ca a) a)4O� L a) a) N O O �.0 •� 3 N vi N U O N 0 7 0 U E N _O O +L+ > O => O a) O 0 L 7 0 U) 0 U) Q O H U) 0 (n Cn U U) 0 0 c� o�0') U N L L 3 0 0 a). E O c M ig N c cc CU c +L+ O N U a) w a a) Q) 7 O U a L L co cm O N c •� cn O wa in a) Y O a) (� N a c a) o m �a c _N d O O O O O ca O LO O Qr N N 7-LO co co � � coO cor\cococfl19tww N M M M M M a 0 o p 0 O 3 ui L C O 0 •- cm a3 cr E N E •� M T (O C C C a) �. cc A a) m L 3 CO : C0 a) von aa) a c m a (U aoi � o � Uo U (0 � (n a) C O O U N O C L ai � •L Q) a) 3 O m rn 0" O m = L O yr Urn L Y • in + O a) O U 0 CL CDU LO -O a) Y a� 3 Y CL 3 0 c ca c O 0 c = a) w a a) N m o m v .� rn C N L � N O N = •L a O O O N U-) N \ O N_ \ T N_ \ N N_ \ l n T \ T \ \ N 04 T T' LO T T ny� D O C F Z N C cu O N ^u W L 3 ai ca :N c U .E 0 U N N (D O a 0 00 E m O .N O ^C W 2 N a) Q O N rtJ C c 7 N o a Um E O �rt+ N E U o o M — o N t� o ni C)O^a) U E L Q N L a) CD Z L N m N_ r Q C *° N C 7 U _ Q =J(nU)Q �000000 - 00000 00606506 ,m0,00U-) a N LO T LOq;T T a� C N to C N C N L N O- o� m N L L 3 L O O W O C O O CY a) E EN E f0 � (6M—MTCD C ` C C (0 O m O m O N N 7 N J N N O N N a) N N T F F F F F F Z Z Z Z Z Z (6 N (0 (0 (6 IQ N N N N N N C C C C C C N m m m m m l�I I"t V.-Ivt m m m —cu m U U U U U U O O O O O O J J J J J J L L L V L L L L L L L L 0 .0000 (J U U U fU i i i i CO CD CD co CD co tD C0 CO C0 C0 C0 N N N N N N 222222 UUUUUU W W CL O N O N N ca C N Q7 N E oate) C z° > m Ev.. a) iaocb0)a) (U C — U ' N cu 'L L C: U fl/ cu 7 •� O N O N C.ci N 7 O; .? 7 UU)❑U)Q L L ` T N T T C �0QaT U O O .7 C p > . p —O L N Lo C C O C N N C N CD _7 O U O a+ (0 CTJ — > O N O N OFU)❑U)U) ewemo#=o grmm�n=c = 2 = ƒ 2 p 0 / E E 4 7 c © b 2 f § � f q k 2 (D m a) 2 � 6 ¥ k ƒ k ƒ $ k CL m /-0 / f r CL —' § _ � °a\ : Qo$ ° 3 c k / / @ /k«k\_/?k -be a o o . a) 2 » » » o cCU .� I 22J n a) J = 0 k § cn 'b 2 o %cc 2 E O o�� d 6a22&A2\ ��SQ@,RR 2 2 v v'TLo rrT�� LL rn rn E 0 a C m (o 0) U a) U cn a) a 0 c m a) Q >,(C) c o O N U E m m 0 C m L c o U moo cNO >, V — r- O > N N U�Na) L ` CL O Una) ZU u� m C Q. N 0 CS a) (A a) 3 U _ O 6 I U) U) Q �O0000a 4-000Oo 000o000 C65 Dow N U) Ui) � s— N a C 0-0— 0 C U)L N U Q m U W O L w O C6 O c 0 �a)Em cr EL6E O �M—M (D w � •N C ` c ` c C r a.+ Y L rL•+ 3 0 v) Uui cn c N N a) U) F- F- F- F- F- F- Z Z Z Z Z Z miom�om�o c m c m c m c m c m c m a) a) a) a) a) a) O O O O O O m a) a) a) a) a) m m m m m m m m m m m m mma�a�a�a� L 3 L 3 L 3 L 3 L 3 L 3 0 0 0 0 a) a) m m m m m m L L L L L L O O U O U O U O U O U O U L L L L U L U L O U O U O U O U O U O U mmma)a)m cm cn m U m U m U m U m U m U 0 0 0 0 0 0 J J J J J J L L L L L L L L L L L L 000000 U U (U U U U O (D O (D (0 O (D (D (D co (C) (D N N N N N N 2 2 2 � 2 2 UUUUUU a) N rn m 0_ O U) 0 c a) m m Q c .n N N � c � ` � U m � m U m 0) E � � 0 L oCU 3 c o o Z rn a) c ci C) a= > C O C: a)m O a+ c m0°�c > N c U rn0 .... m— L O Q— ='C 0 a Q ` O C m m Q N C a)L,, CO L CD O U) j OCn ` O 0 m a) a) L U c C cn ` 7 -0 a) a) —O .-. � N) a) a) O •o O i N j +� a) cn a) O O U E0 O U a) _O O .> 7 O> O a) O a) L O U (n ❑ () 0 F- U) 0 U) n U () 0 O m ,O T- U QL Q) L 0 L 0 m E O O M a) C +L- j O N U aD ui a) (D 75 U L a) :3 L N�a�3 a m o cm w CO ,1 N N (D (D -0 3 m N (ocn c 7 Q = a) c m CO 0 C (o d 0 0 0 dCoq �O(f)O = ` N CDfl- CDm 0ITww i NMMMMMo000 L N 3 L o L •' 0 w o L C O (/) cm- N c fU E E N CO CD C C C N O (6 3 } N co N cu cu O L N O U m N 7 N O -0 C) U T 6 � (n + C L a •L 0cm Q CL a�3 cm O L m O O f9 L O a U L tm O U N — N-a O U O .O .- N N — O L a)U1 N p� M O U 'C N = N O m �_ m � O � Y N M U1 C N cu �z o �m m_ a 0 CQ r r r T r r �O N LO N_NNcq — 0 — — N — to - — r — N N N T T '-t LO r r g �o 00000 00000 \k/k\Lo 2gL LO�� / 3 / o o � n / _ Cl) /22§/ t / C) tm o E \ E ? E u •@ ■ n m � m � o � °aa££ ■ o c m & c m .0"0U) w m w 0 U G S $ # fff�2 ° _§ £ w a)-0a) / 72� 2 E wAw¥¥¥ E / ffff_f_f 0 7 c c c c c lu @ 2 = _ _ M _ M 0 2 2 2 S = S I%2Q)0% S § / �3a�� f d 2 2 aasaan o o 0 0 0 0 0 0\ ° LU Cl) 2 - » ƒ ƒ a » ■ 0 .j 7 a) % —a) m 2 _ @ ///// �\ / a § o [ E E 0 E 0 E 0 E 0 E 0 @ � k 0 2 + Ea @ §$a$««« S »\� E C 2222222 ® c r o a»e S £\ o 000000 Q Q Q@ e@ 7 � 2 2� E 2 / / 2 9 � 4- 0 / / / / - / 0 a » £ § 0 (0 ; a @cow 2 3 0 (D 66 t• § �.. co f @ .§ Q 0 ED m2m222 e o -:-0 r- bko L� CC o a) 0 0 0 0 0 o m 0 2\> o CL cu »0o 0»� m =°o \\\\\\ 7 @ CL �-2 mC cf k � v__@ m o @ g 0 0 _ 0 _ 0 0% .. q'a•� c o.� o e @ " " = 5 0 E - � 0 /z�CMcn � %%$%%% E- 0U §k�/ �& a»§ o m c o o c c "§ 2 r E c 0> ak®�� oc0000 \gy�2 �S0SAE k� �� ■.� / o — 6 NNNNNN �m®� c. �. — e '� 0 0 0> I o 2 >' 0 0 � £ -jmm« QQQQOU 0/2=« 0Re0w0 0m c0tic0cD0gq*co00 N M M M M M W M L N � L o O 3 w L � O (nZm • — t3l 0 N 0 ClS cn oM T (O C ` C L O N m 3 cn � cn N cOn N iu — c — � o � U (U N w 5 N C_ O -0 O T U � � N f� — N L N C 'a N N 3: O m 3: C t O Q cn 0' O(n U Y — N O D E U O O 'a ..: a)u N Lc) O — — Y (D N a) N — N 3 Y C) O .c N = N w o -oo N i Y CO fon cn L_ a) co a) O YT cu T L n� n CQ CQ N N O N T N N N U T T CN N \N T r \ \ T T .\rt V .\rt V V LO T r N C fa a) O N c aj L 3 ai 0) En U a 0 C) a) ^N W O a O C 0 CD CM E cu O 0 O c W Z N a) a O C a) a) a �O c o UN E Ca Q L EY O O o = U 0 c L O m U1 co -0 /\ N Uo•Lc L C O a C Cp L a) Z Z L ) O CD a) w 0 r a) o �o_aO rJU)f5< --2 C: coOOOOO `.-000Oo a N Lo Lo �— a� w c C U) C N N N a O - 0 U) :3 m N .c L 3 L o O W O O O cn N cr, - O a) E N E i E O OM—M�Co ID O N O N O N C 3 N O co N a) N C N a) L � N O N CD a) a) Z Z Z Z Z Z N CA N UJ dJ lA c c c c c c mcacammc� 0 010 0 0 0 N N N N N N m m m N m N Y Ca Y c6 Y t0 Y N Y ca Y N a) a) a) a) a) a) 3 3 3 3 3 3 cmmnimnsca L L L L L. L 0 U 0 U 0 U 0 U 0 U 0 U N N N N N N L -2 L -2 L -2 L U L -2 L O O O O O O U U U U U U Y Y Y Y Y Y 222222 U U U U U U O O O O O O J J J J J J W W W Q) L Y L Y L Y L Y L Y L 000000 Y U U U U ' U Co co Q0 CO Co CD CD co CD co co CD N N N N N N UUUUUU a) N a) a O cn 0 c a) m 2 c '_ a C N <^^/j` a) ` i �L= Ca as N U m L c O 3 a) cZ o CD Ev.. $O a) > a) c0a)> In +. f6 O N 0) a) a) c m — v o a V C cc cc Q N a) C N o " O . 70 O 0.? aJ a) a) -0 0 — a) a) C U N cu a) .0 O 'c � Y aN+ ai vi � ai a) a) a) O O OU) (n W a 000E NO O 7 -0 > O a) O a) �- c) 0U)< OI—fA0(Afq Utn 0 r- (0 0 0 IT w m N M M M M M 00 00 � N 3 � o L W O O (6 .) 0 0 N 0 [p M r' (0 C C C NcoN 3 c } a� to �a c m � o � U (l (U cn N C O -0 C) r U � =3 N N06C L a O coo 3 am o N o cl O (O L a, U L Q U Y N fA 'O p U 0 E CL"O CDN +- (n �3 n7 —_ cn LO N _ Y� 3 Y 3 0 C = O U .— = O N cn N `m m 3 .9; m (U o — Y au CD } cn C cn L O cu O O r+ (� co 2 L a 0 C) r r r r r O N LO N_ O N r N NLO N r r N Q N N r r -*- q�f qr Lo r r 0 0 to E m O 0 C m Z cn a) Q O C U a� o_ �o c � O O O U E N m Q CO L U o U c p c 0 (D o m N m a U0•rc L C O Q mL_a) Z z L Cl) o m Q a) O •+ .� O N =J(n(n Q c �000000 �-00000 0 0 0 0 P 0 0 M0,0Otn �Ntf) 0 Zt N G :3 to rn L (n O O 7 } m to O O W O O O C m E Im co E� i E 2CQ CO ro �, ��E� m N m o m O cs}'sL� L o U a) c 3 cn (nn �. 0 cn U)) a) a) cn a) — m ui c — ��a Na U F- F- F- F- F- F- Z Z Z Z Z Z �om�mmm c c c c c c m m m m m m mmmmmm O O O O O O a)mmma)a) m m m m m m m m m m m m m m m m m m L L L L L L 3 3 3 3 3 3 c m m m m m m Q) to N to N to O C L C L C L C L C L C L O O U O U O U O U O U O U to N N to U U -2 L -2 L a L -2 L -2 L -2 L O O O O O O U U U U U U mmmmma) 222222 � N co c0 c0 N U U U U U U O O O O O O J J J J J J L a) L a) L a) L a) L a) L a) L L L L L L U U C) Cj U Cj O O O O O O (O (O (O CO (O CO N N N N N N UUUUUU m v m O m C. O 0 C _ a) a) m a)O 7 Q C L N N L N cu m m U m L o O L�� C O O a)CZ O NC,4 Z v O p c > CU C N a) >tm C L O CL — �- c a) 0va)cu c UO(ncn�' O_ t O r_ ` `� CDa)C O 0 ` a) 0-0 •� m C m a) M •2 `t - W w (n E cn c Uj CO L cn a) a. > O O O w � cn Ch O U O E m y O�-? 7 16 7> O a) Ow L 0 cn 0 cn Q O H cn 0 cn cn 0 cn 0 O L O 0 Cfj j L 3 0 0 m E O CO lu — C O cn U m ai a a) a� () 75 U L a) O L ch O O cn 0 3 ch C 0_ 0 0 0 0 0 " O LO O O -- N N Q LO 00 00 � LO W O N M MMMMC040 � N 3 � o o 3 LU L s O fna '- a) 0 N 0 LR 0 •� M r 0 c C L a) �• m L a) ) m 3 N � m a) u°> a io CD — c — a) a) a) -0 a) o o U (6 (n 5 N c O -0 p r• U (D 7 f� — NCLO L C 'L a) a) o �c V O L U o O � L U L O U) -O O O O a U a) Y 3 Y 3 0 c_ m •c O L U ' O = a)N a) �, m 3 .S CO a) Y N C N L Q) cu L O cu _ 'L n� n O O r r r r r r O N U-) N 0 N N N N U) r CN N N �' V LO r r NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:29:47 AM Calendar Year: County: Producer Identifier Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 1 SOLUBLE P = 1 LEACHATE P = 0 SOURCE P = 4 TOTAL P RATING = 6 (LOW) INPUTS 2007 Chatham Jerry Crawford 2346 1 WeB: Wedowee sandy loam, 2 to 6 percent slopes Fescue (Pasture) : Vegetative Buffer Width = 10 ft. Tree/Shrub Buffer Width = 100 ft. Dairy -slurry Yearly Applied Amount: 9.6 1000 gal Lb P205: 6.7 lb Application Method: All other surface 1 t/ac/yr 10-19 ft 125 1.21 GOOD OUTPUTS NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:31:19 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2346 Field Number: 2 Soil Series: WeB: Wedowee sandy loam, 2 to 6 percent slopes Crop: Fescue (Pasture) . BMPs: Vegetative Buffer Width = 15 ft. Tree/Shrub Buffer Width = 100 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 9.6 1000 gal Lb P205: 6.7 lb Application Method: All other surface applications Soil Loss: 1 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 139 WV Factor (USER) 0.8 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 2 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 4 TOTAL P RATING = 8 (LOW) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:33:16 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2358 Field Number: 1 Soil Series: GaB: Georgeville silt loam, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 10 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 25.86 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 9 t/ac/yr Receiving Slope Distance 0-9 ft Soil Test 0" - 4" 71 WV Factor (USER) 0.98 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 28 SOLUBLE P = 1 LEACHATE P = 0 SOURCE P = 17 TOTAL P RATING = 46 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:37:16 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2358 Field Number: 2 Soil Series: HrB: Herndon silt loam, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 10 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 25.86 1000 gal Lb P205: 6.7 lb Application Method: All other surface applications Soil Loss: 8 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 71 WV Factor (USER) .98 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 19 SOLUBLE P = 1 LEACHATE P = 0 SOURCE P = 17 TOTAL P RATING = 37 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/19/2007 3:52:03 PM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2359 Field Number: 1 Soil Series: NaB: Nanford-Badin complex, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 10 ft. Tree/Shrub Buffer Width = 100 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 8 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 9 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 246 WV Factor (USER) 1.1 Artificial Drainage System: NO Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 30 SOLUBLE P = 9 LEACHATE P = 0 SOURCE P = 10 TOTAL P RATING = 49 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/20/2007 8:50:07 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2359 Field Number: 2 Soil Series: GeB2: Georgeville silty clay loam, 2 to 6 percent slopes, moderately eroded Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 10 ft. Tree/Shrub Buffer Width = 100 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 3.49 1000 gal Lb P205: 6.7 lb Application Method: All other surface applications Soil Loss: 8 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 268 WV Factor (USER) 1.03 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 70 SOLUBLE P = 5 LEACHATE P = 0 SOURCE P = 2 TOTAL P RATING = 77 (HIGH) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:46:52 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2530 Field Number; 1 Soil Series: HeB: Helena sandy loam, 2 to 6 percent slopes Crop: Fescue (Pasture) . BMPs: Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 100 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 11.62 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 1 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 196 WV Factor (USER) 1 Artificial Drainage System: NO Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 1 SOLUBLE P = 17 LEACHATE P = 0 SOURCE P = 12 TOTAL P RATING = 30 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:48:14 AM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Artificial Drainage System: Hydrologic Condition: PARTICULATE P = 1 SOLUBLE P = 17 LEACHATE P = 0 SOURCE P = 12 INPUTS 2007 Chatham Jerry Crawford 2530 2 HeB: Helena sandy loam, 2 to 6 percent slopes Fescue (Pasture) Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 100 ft. Dairy -slurry Yearly Applied Amount: 11.62 1000 gal Lb P205: 6.7 lb Application Method: All other surface 1 t/ac/yr 10-19 ft 196 1 NO GOOD OUTPUTS TOTAL P RATING = 30 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:50:31 AM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Artificial Drainage System: Hydrologic Condition: PARTICULATE P = 1 SOLUBLE P = 14 LEACHATE P = 0 SOURCE P = 22 INPUTS 2007 Chatham Jerry Crawford 2530 3 HeB: Helena sandy loam, 2 to 6 percent slopes Corn (Silage) : Conservation Tillage - high residue Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 100 ft. Dairy -slurry Yearly Applied Amount: 17.7 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface 5 t/ac/yr 100-149 ft 135 1 NO GOOD OUTPUTS TOTAL P RATING = 37 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:51:48 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2530 Field Number: 6 Soil Series: CeB: Cecil gravelly sandy loam, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 25 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 23.82 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 5 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 237 WV Factor (USER) 1.07 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 18 SOLUBLE P = 4 LEACHATE P = 0 SOURCE P = 12 TOTAL P RATING = 34 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:52:48 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2530 Field Number: 7 Soil Series: CeB: Cecil gravelly sandy loam, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 25 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 23.82 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 5 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 292 WV Factor (USER) 1.01 Hydrologic Condition: •GOOD OUTPUTS PARTICULATE P = 23 SOLUBLE P = 5 LEACHATE P = 0 SOURCE P = 12 TOTAL P RATING = 40 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:53:55 AM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 28 SOLUBLE P = 5 LEACHATE P = 0 INPUTS 2007 Chatham Jerry Crawford 2530 8 CeB: Cecil gravelly sandy loam, 2 to 6 percent slopes Corn (Silage) : Conservation Tillage - high residue Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 30 ft. Dairy -slurry Yearly Applied Amount: 23.82 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface 8 t/ac/yr 10-19 ft 292 1.01 GOOD OUTPUTS SOURCE P = 12 TOTAL P RATING = 45 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:55:13 AM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Artificial Drainage System: Hydrologic Condition: PARTICULATE P = 1 SOLUBLE P = 25 LEACHATE P = 0 SOURCE P = 12 INPUTS 2007 Chatham Jerry Crawford 2530 9 HeB: Helena sandy loam, 2 to 6 percent slopes Fescue (Pasture) : Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 100 ft. Dairy -slurry Yearly Applied Amount: 11.62 1000 gal Lb P205: 6.7 lb Application Method: All other surface 1 t/ac/yr 10-19 ft 292 1.01 NO GOOD OUTPUTS TOTAL P RATING = 38 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:56:42 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2530 Field Number: 10 Soil Series: NaB: Nanford-Badin complex, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 50 ft. Fertilizers: Dairy -slurry _ Yearly Applied Amount: 23.17 1000 gal Lb P205: 6.7 lb Application Method: All other surface applications Soil Loss: 8 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 116 WV Factor (USER) 1.04 Artificial Drainage System: NO Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 15 SOLUBLE P = 5 LEACHATE P = 0 SOURCE P = 29 TOTAL P RATING = 49 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 9:58:30 AM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2530. Field Number: 11 Soil Series: CeB: Cecil gravelly sandy loam, 2 to 6 percent slopes Crop: Fescue (Pasture) : BMPs: Vegetative Buffer Width = 25 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 15.15 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 1 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 123 WV Factor (USER) 0.79 Hydrologic Condition: GOOD PARTICULATE P = SOLUBLE P = LEACHATE P = SOURCE P = TOTAL P RATING = 3 2 0 5 10 (LOW) OUTPUTS NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:21:39 PM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2530 Field Number: 12 Soil Series: CeB: Cecil gravelly sandy loam, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 100 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 23.82 1000 gal Lb P205: 6.7 lb Application Method: All other surface applications Soil Loss: 8 t/ac/yr Receiving Slope Distance 20-29 ft Soil Test 0" - 4" 135 WV Factor (USER) 1 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 8 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 12 TOTAL P RATING = 22 (LOW) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:23:21 PM Calendar Year: County: Producer Identifier: Tract Number: Field.Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 14 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 12 INPUTS 2007 Chatham Jerry Crawford 2530 13 CeB: Cecil gravelly sandy loam, 2 to 6 percent slopes Corn (Silage) : Conservation Tillage - high residue Vegetative Buffer Width = 25 ft. Dairy -slurry Yearly Applied Amount: 23.82 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface 8 t/ac/yr 10-19 ft 116 1.04 GOOD OUTPUTS TOTAL P RATING = 28 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:25:13 PM 0411'111P9 Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 2533 Field Number: 1 Soil Series: GeB2: Georgeville silty clay loam, 2 to 6 percent slopes, moderately eroded Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 20 ft. Tree/Shrub Buffer Width 100 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 25.86 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 9 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 84 WV Factor (USER) 0.97 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 26 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 17 TOTAL P RATING = 45 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/19/2007 3:50:36 PM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: moderately eroded Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 33 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 5 INPUTS 2007 Chatham Jerry Crawford 2533 2 GeB2: Georgeville silty clay loam, 2 to 6 percent slopes, Corn (Silage) : Conservation Tillage - high residue Vegetative Buffer Width = 10 ft. Tree/Shrub Buffer Width = 50 ft. Dairy -slurry Yearly Applied Amount: 8 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface 9 t/ac/yr 10-19 ft 84 0.97 GOOD OUTPUTS TOTAL P RATING = 40 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:28:54 PM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 19 SOLUBLE P = 3 LEACHATE P = 0 INPUTS 2007 Chatham Jerry Crawford 312 1 GaC: Georgeville silt loam, 6 to 10 percent slopes Corn (Silage) : Conservation Tillage - high residue Vegetative Buffer Width = 50 ft. Dairy -slurry Yearly Applied Amount: 12.63 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface 8 t/ac/yr 10-19 ft 176 1.17 GOOD OUTPUTS SOURCE P = 8 TOTAL P RATING = 30 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:30:15 PM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 3 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 6 TOTAL P RATING = 11 (LOW) INPUTS 2007 Chatham Jerry Crawford 312 2 GaB: Georgeville silt loam, 2 to 6 percent slopes Fescue (Pasture) . Vegetative Buffer Width = 25 ft. Dairy -slurry Yearly Applied Amount: 12.63 1000 gal Lb P205: 6.7 lb Application Method: All other surface 1 t/ac/yr 10-19 ft 176 1.17 GOOD OUTPUTS NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:31:31 PM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 2 SOLUBLE P = 1 LEACHATE P = 0 SOURCE P = 6 TOTAL P RATING = 9 (LOW) INPUTS 2007 Chatham Jerry Crawford 312 3 GaC: Georgeville silt loam, 6 to 10 percent slopes Fescue (Pasture) : Vegetative Buffer Width = 25 ft. Dairy -slurry Yearly Applied Amount: 12.63 1000 gal Lb P205: 6.7 lb Application Method: All other surface 1 t/ac/yr 0-9 ft 104 1.06 GOOD OUTPUTS NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:35:29 PM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 312 Field Number: 4 Soil Series: GaB: Georgeville silt loam, 2 to 6 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 10 ft. Tree/Shrub Buffer Width = 25 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 25.86 1000 gal Lb P205: 6.7 lb Application Method: All other surface applications Soil Loss: 8 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 97 WV Factor (USER) 1.07 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 14 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 17 TOTAL P RATING = 33 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:36:48 PM 00,01811011 Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 312 Field Number: 5 Soil Series: GaC: Georgeville silt loam, 6 to 10 percent slopes Crop: Fescue (Pasture) . BMPs: Tree/Shrub Buffer Width = 50 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 12.63 1000 gal Lb P205: 6.7 lb Application Method: All other surface applications Soil Loss: 1 t/ac/yr Receiving Slope Distance 10-19 ft Soil Test 0" - 4" 52 WV Factor (USER) 0.98 Hydrologic Condition: GOOD 10101062120 PARTICULATE P = 1 SOLUBLE P = 1 LEACHATE P = 0 SOURCE P = 6 TOTAL P RATING = 8 (LOW) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:38:22 PM INPUTS Calendar Year: 2007 County: Chatham Producer Identifier: Jerry Crawford Tract Number: 312 Field Number: 6 Soil Series: GaC: Georgeville silt loam, 6 to 10 percent slopes Crop: Corn (Silage) : Conservation Tillage - high residue BMPs: Vegetative Buffer Width = 25 ft. Fertilizers: Dairy -slurry Yearly Applied Amount: 25.86 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface applications Soil Loss: 8 t/ac/yr Receiving Slope Distance 0-9 ft Soil Test 0" - 4" 97 WV Factor (USER) 1.07 Hydrologic Condition: GOOD OUTPUTS PARTICULATE P = 17 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 17 TOTAL P RATING = 36 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:40:06 PM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 17 SOLUBLE P = 2 LEACHATE P = 0 SOURCE P = 17 INPUTS 2007 Chatham Jerry Crawford 312 7 GaB: Georgeville silt loam, 2 to 6 percent slopes Corn (Silage) : Conservation Tillage - high residue Vegetative Buffer Width = 25 ft. Dairy -slurry Yearly Applied Amount: 25.96 1000 gal Lb P205: 6.7 lb Application Method: All other surface 8 t/ac/yr 0-9 ft 97 1.07 GOOD OUTPUTS TOTAL P RATING = 36 (MEDIUM) NCANAT Version: 1.95 PLAT Results For: Chatham 4/18/2007 2:41:10 PM Calendar Year: County: Producer Identifier: Tract Number: Field Number: Soil Series: Crop: BMPs: Fertilizers: applications Soil Loss: Receiving Slope Distance Soil Test 0" - 4" WV Factor (USER) Hydrologic Condition: PARTICULATE P = 2 SOLUBLE P = 1 LEACHATE P = 0 SOURCE P = TOTAL P RATING = 1.1 9 (LOW) INPUTS 2007 Chatham Jerry Crawford 312 8 GaC: Georgeville silt loam, 6 to 10 percent slopes Fescue (Pasture) : Vegetative Buffer Width = 25 ft. Tree/Shrub Buffer Width = 25 ft. Dairy -slurry Yearly Applied Amount: 12.63 1000 gal Lb P2O5: 6.7 lb Application Method: All other surface 1 t/ac/yr 0-9 ft 104 1.1 GOOD OUTPUTS USDA Operation & Maintenance Plan Waste Storage Facility (313) Landowner/Operator: Crawford Dal NRCS Service Center: Pittsboro Date: 3/26/24 Conservation District Practice Location: 35.872316/-79.237273 (Lat/Long or UTM Coord. or Sec/TS/R) Chatham SWCD Tract/Field ID: 2530 Operation & Maintenance Requirements The waste storage facility was designed and installed to store manure, agricultural by-products, wastewater, and contaminated runoff to provide the agricultural operation management flexibility for waste utilization. The estimated life span of this installation is at least 15 years. The life span of this practice can be assured and usually increased by developing and carrying out an operation and maintenance (O&M) program. You are required to perform inspections and O&M activities in order for this practice to achieve the intended function, benefits, and design life. Items to inspect, operate, and maintain during the estimated design life of this practice include, but are not limited to, the following: • Requirements to inspect the waste storage facility periodically to ensure that all components are operating as planned. Records shall be kept of the amount of waste applied, location and acres where applied, and the date waste was applied. • Include the operational requirements for emptying the storage facility including the expected storage period. Begin removal of the liquid storage facility as soon as practical after the maximum operating level has been reached. Also include the requirement that waste be removed from storage and utilized at locations, times, rates, and volume in accordance with the overall waste management system plan. • For impoundments and other liquid storages include an explanation of the staff gauge or other permanent marker to indicate the maximum operating level. For storages where the contents are not visible and a staff gauge would not be visible, such as below a slatted floor, identify the method for the operator to measure the depth of accumulated waste. • Include a provision for emergency removal and disposition of liquid waste in the event of an unusual storm event that may cause the waste storage structure to fill to capacity prematurely. • Include instructions as needed for ventilating confined spaces according to ASABE standard S607, Venting Manure Storages to Reduce Entry Risk. • Develop an emergency action plan for waste storage facilities where there is a potential for significant impact from breach or accidental release. Include site -specific provisions for emergency actions that will minimize these impacts. • Include a description of the routine maintenance needed for each component of the facility. Provide O&M requirements for all structural components (concrete, pumps, etc.). Also include provisions for maintenance that may be needed as a result of waste removal or material deterioration See attached additional O&M requirements, extracted from 2019 NC Cattle General Permit. North Carolina NRCS Page 1 of 1 November 2017 The following O&M Requirements is extracted from NC Environmental Management Commission Department of Environmental Quality "Cattle Waste Management System General Permit" II. OPERATION AND MAINTENANCE REQUIREMENTS 1. The collection, treatment, storage facilities, and the land application equipment and fields shall be properly operated and maintained at all times. — [15A NCAC 02T .1304(b)] 2. A vegetative cover shall be maintained as specified in the facility's CAWMP on all land application fields and buffers in accordance with the CAWMP. No waste shall be applied upon areas not included in the CAWMP or upon areas where the crop is insufficient for nutrient utilization. However, if the CAWMP allows, then waste may be applied up to thirty (30) days prior to planting or breaking dormancy. — [15A NCAC 02T .1304(b)] 3. Soil pH on all land application fields must be maintained in the optimum range for crop production. — [G.S. §143-215.10C(e)(7)J 4. Land application rates shall be in accordance with the CAWMP. In no case shall the total land application rates from all nutrient sources exceed the agronomic rate of the nutrient of concern for the receiving crop. — [G.S. §143-215.10C, and 15A NCAC 02T .1304(b)] 5. In no case shall land application result in excessive ponding or any runoff during any given application event. — [15A NCAC 02T .1304(b)] 6. Animal waste shall not be directly applied onto crops for direct human consumption that do not undergo further processing (e.g., strawberries, melons, lettuce, cabbage, apples, etc.) at any time during the growing season, or in the case of fruit bearing trees, following breaing dormancy. Application of animal wastes shall not occur within thirty (30) days of the harvesting of fiber and food crops for direct human consumption that undergoes further processing. — [15A NCAC 02T .0108(b)] If manure or sludges are applied on conventionally tilled bare soil, the waste shall be incorporated into the soil within two (2) days after application on the land, or prior to the next rainfall event, whichever occurs first. This requirement does not apply to no -till fields, pastures, or fields where crops are actively growing. — [15A NCAC 02T .0108(b)] 8. No material other than animal wastes of the type generated on this facility shall be disposed of in the animal waste collection, treatment, storage or application systems. This includes but is not limited to pesticides, toxic chemicals and petroleum products. — [I5A NCAC 02T. 1304(b)] April 12, 2019 Permit Number AWG200000 13. At the time of sludge removal from a lagoon/storage pond, the sludge must be managed in accordance with the CAWMP. When removal of sludge from the structure is necessary, provisions must be taken to prevent damage to the structure dikes and liner. — [15A NCAC 02T. 1304(b)] 14. Lagoons/storage ponds shall be kept free of foreign debris including, but not limited to, tires, bottles, light bulbs, gloves, syringes or any other solid waste. — [15A NCAC 02T. 0108(b)] 15. The facility must have at least one of the following items at all times: a. adequate animal waste application and handling equipment; b, a lease, or other written agreement, for the use of the necessary equipment; or c. a contract with a third -party applicator capable of providing adequate waste application. — [15A NCAC 02T .0108(b)] 16. The Permittee shall designate a certified animal waste management system operator with a valid certification to be in charge of the animal waste management system. The waste management system shall be operated by the Operator in Charge (OIC) or a person under the OIC's supervision. — [G.S. §90A-47.21 17. The OIC, a designated Back-up OIC of a Type B Animal Waste Management System, or a person under the supervision of an OIC or designated Back-up OIC shall inspect the land application site as often as necessary to insure that the animal waste is land applied in accordance with the CAWMP. In no case shall the time between inspections be more than 120 minutes during the application of waste. A record of each inspection shall be recorded on forms supplied by, or approved by, the Division and shall include the date, time, land application area used, and name of the operator for each inspection. If neither the OIC or designated Back-up OIC was present during land application, then the OIC or designated Back-up OIC shall inspect the land application area within twenty-four (24) hours. Inspection shall include but not be limited to visual observation of application equipment, land application area, subsurface drain outlets, ditches, and drainage ways for any discharge of waste. — [15A NCAC 8F .0203(c) and 15A NCAC 02T .0108(c)] 18. Upon written notification from the Director, the Permittee shall install and operate automatic flow meters with flow totalizers or other flow monitoring equipment approved by the Division. The Permittee shall maintain such devices according to the manufacturer's instructions and warranties. The equipment must be in place no later than ninety (90) days following receipt of notice from the Director. Notification may be based on the facility's violations, incomplete or incorrect record keeping events, or if the Division determines that flow estimation techniques do not effectively quantify volumes of waste applied. This determination shall be made on a case -by -case basis. — [15A NCAC 02T. 0108(cj] 19. No waste shall be applied in wind conditions that cause or might reasonably be expected to cause the waste to reach surface waters, wetlands, or cross property lines or field boundaries. — [15A NCAC 02T .0108(b)] 20. Upon written notification from the Director, the Permittee shall install/utilize application equipment or practices that reduce drift potential. Written notification may be provided if the Division determines violations due to wind drift. This determination shall be made on a case -by -case basis. — [15A NCAC 02T .1304(b)] 21. The Permittee shall maintain buffer strips or other equivalent practices as specified in the facility's CAWMP near feedlots, manure and feed storage areas and land application areas. — [15A NCAC 02T .1304(b)] April 12, 2019 Permit Number AWG200000 29. For cattle operations using waste treatment lagoons in accordance with NC NRCS Conservation Practice Standard No. 359 "Waste Treatment Lagoon", an operator may temporarily lower waste levels to provide irrigation water during drought periods and to provide additional temporary storage for excessive rainfall during the hurricane season and in preparation for the following winter months. All conditions of NC NRCS Standard No. 359 must be satisfied prior to lowering waste levels below designed stop pump levels. NC NRCS Standard No. 359 requires the following: a. Lagoon levels may be lowered a maximum of 8 inches below the facility's stop pump mark during the period of June 15 through October 31 b. This option shall be limited to lagoons having a minimum of 4 feet of liquid above the sludge layer. The measurement shall be taken from the stop pump level, at the pump intake, prior to pumping below the stop pump level. c. All applications must be in conformance with the CAWMP developed for the operation, including adherence to the planned nutrient application rates. d. From November 1 through June 14, pumping from the lagoon will not be permitted when the lagoon level is at or below the stop pump elevation. e. The following information concerning the pump down conditions shall be recorded and maintained on site: Date the lagoon was first pumped below the stop pump level; ii. Depth of liquid between the stop pump level and the sludge layer prior to pumping below the stop pump mark. Measured from the stop pump level near the pump intake location but off the inside slope of the embankment; iii. Date pump down was completed; and iv. Depth of pump down below the stop pump level. Measured weekly until the lagoon returns to the stop pump level. (I SA NCAC 02T .1304(b)J April 12, 2019 Version —November 26, 2018 Mortality Management Methods Indicate which method(s) will be implemented. When selecting multiple methods indicate a primary versus secondary option. Methods other than those listed must be approved by the State Veterinarian. Primary Secondary Routine Mortality a a Burial three feet beneath the surface of the ground within 24 hours of knowledge of animal death. The burial must be at least 300 feet from any flowing stream or public body of water (G.S.106403). The bottom of the burial pit should be at least one foot above the seasonal high water table. Attach burial location map and plan. D Landfill at municipal solid waste facility permitted by NC DEQ under GS 15A NCAC 13B .0200. Rendering at a rendering plant licensed under G.S. 106-168.7 Complete incineration according to 02 NCAC 52C .0102. A composting system approved and permitted by the NC Department of Agriculture & Con- sumer Services Veterinary Division (attach copy of permit). If compost is distributed off -farm, additional requirements must be met and a permit is required from NC DEQ. In the case of dead poultry only, placing in a disposal pit of a size and design approved by the El NC Department of Agriculture & Consumer Services (G.S. 106-549.70). Any method which, in the professional opinion of the State Veterinarian, would make possible the salvage of part of a dead animal's value without endangering human or animal health. (Written approval by the State Veterinarian must be attached). Mass Mortality Plan Mass mortality plans are required for farms covered by an NPDES permit. These plans are also recommended for all animal operations. This plan outlines farm -specific mortality man- agement methods to be used for mass mortality. The NCDA&CS Veterinary Division sup- ports a variety of emergency mortality disposal options; contact the Division for guidance. • A catastrophic mortality disposal plan is part of the facility's CAWMP and is activated when numbers of dead animals exceed normal mortality rates as specified by the State Veterinarian. • Burial must be done in accordance with NC General Statutes and NCDA&CS Veterinary Division regulations and guidance. • Mass burial sites are subject to additional permit conditions (refer to facility's animal waste management system permit). • In the event of imminent threat of a disease emergency, the State Veterinarian may enact additional temporary procedures or measures for disposal according to G.S. 106-399.4. Signaturiof Farm Owner/Manager Signature of Technical Specialist l Date .31 z 412q Date