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020002_Permit Renewal Application 2019_20190410
State of North Carolina Department of Environmental Quality Division of Water Resources Animal Waste Management Systems Request for Certification of Coverage Facility Currently covered by an Expiring Sate Non-Discharge General Permit On September 30, 2019, 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 3,2019. 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. Farm Number: 02-0002 Certificate Of Coverage Number: AW M20002 2. Facility Name: Herman Dain+Farm,Inc 3. Landowner's Name(same as on the Waste Management Plan): } cfeeeasecl Keno KefMe-n j�,Jn,� (4ertrla.n 0261 4. Landowner's Mailing Address: 530 Ned Herman Rd City: Tavlorsville State: NC Zip: 28681 Telephone Number: 828-632-5519 Ext E-mail: 5• Facility's Physical Address: Three Forks Church Rd City: Tav lorsville State: NC Zip: 28681 6. County where Facility is located: Alexander 7. Farm Manager's Name(if different from Landowner): g, Farm Manager's telephone number(include area code): 9. Integrator's Name(if there is not an Integrator,write"None"): 10. Operator Name(OIC): Rodnev L.Herman Phone No.: 828-632-6226 OIC#: 20957 11. Lessee's Name(if there is not a Lessee,write'None"): WI 82&3124M 12. Indicate animal operation type and number: Current Permit: Operations Type Allowable Count Cattle-Milk Cow 600 Operation Tvues: Swine Cattle Dry Poultry Wean to Finish '— Other Trues 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 Other Non Laying Pullet Layers 13. Waste Treatment and Storage Lagoons (Verify the following information is accurate and complete. Make all necessary corrections and provide missing data.) Design Estimated Liner Type Estimated Freeboard Structure Date (Clay,Synthetic, Capacity Surface Area "Redline" Name Built Unknown) (Cubic Feet) (Square Feet) (Inches) WET STACK A(j � 13 800 +4j 3 7E® 24,ec WSP ® ��r' :`',.�.� {? 2`7,�F� 36.00 Mail one (1) copy of the Certified Animal Waste Management Plan (CAWMP) with this completed and signed application as required by NC General Statutes 143-215.1OC(d)to the address below. The CAWMP must include the following components: 1. The most recent Waste Utilization Plan(WUP),signed b, the owner and a certified technical specialist,containing: .,a.--:' ,The method by which waste is applied to the disposal fields(e.g.irrigation,injection,etc.) lb/A map of every field used for land application(for example:irrigation map) e,." 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 if:. The maximum PAN to be applied to every land application field The waste application windows for every crop utilized in the WUP The required NRCS Standard specifications -T. A site map/schematic ,.,6. Emergency Action Plan Insect Control Checklist with chosen best management practices noted /�. Odor Control Checklist with chosen best management practices noted 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. -A& 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,waste transfers,etc.) As a second option to mailing paper copies of the application package, you can scan and email one signed copy of the application and all the CAWMP items above to: 2019PermitRenewal@ncdenr.gov 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 143-215.613, 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.) 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: �e� l-/ e/� 4 Title: d'" A -1f t" Signature: Date: 3 zl Name: e 1�" e%�` �'j _ Title: Signature: Date: 2 Name: Title: Signature: _ Date: THE COMPLETED APPLICATION SHOULD BE SENT TO THE FOLLOWING ADDRESS: NCDEQ-DWR Animal Feeding Operations Program 1636 Mail Service Center Raleigh,North Carolina 27699-1636 Telephone number:(919)707-9100 E-mail:2019PermitRenewal@ncdenr.gov FORM: RENEWAL-STATE GENERAL 02/2019 ROY COOPER is Governor MICHAEL S.REGAN Seererory LINDA CULPEPPER NORTH CAROLINtA. Gsmdar Environmental Quaffty February 26,2019 Ned C Herman Herman Dairy Farm,Inc. 530 Ned Herman Rd Taylorsville,NC 28681 Subject: Application for Renewal of Coverage for Expiring State General Permit Dear Permittee: Your facility is currently approved for operation under one of the Animal Waste Operation State Non-Discharge General Permits, which expire on September 30, 2019. Copies of the new animal waste operation State Non-Discharge General Permits are available at htt s://de .nc. ov/about/divisions/water-resourccs/water- uality-regional-o erations/afo or by writing or calling: NCDEQ-DWR Animal Feeding Operations Program 1636 Mail Service Center Raleigh,North Carolina 27699-1636 Telephone number:(919)707-9100 In order to assure our continued coves a under the State Non-Discharge General Permit ou must submit an lication for ermit covera a to the Division. Enclosed you will find a "Request for Certificate of Cover a Facili Currenth Covered by an Ex pi " State Non-Disch a General Permit." The application form must be completed. signed and returned b• April 3, 2019. Please note that you must include one (I)-- co ► of the Certified Animal Waste Management Plan CAWMP with the completed and si ned application form. A list of items included in the CAWMP can be found on a e 2 of the renewal qpplication form. Failure to request renewal of your coverage under a general permit within the time period specified may result in a civil penalty. Operation of your facility without coverage under a valid general permit would constitute a violation of NCGS 143-215.1 and could result in assessments of civil penalties of up to$25,000 per day. If you have any questions about the State Non-Discharge General Permits, the enclosed application, or any related matter please feel free to contact the Animal Feeding Operations Branch staff at 919-707-9100. Sincerely, Jon Risgaard,Section Chief Animal Feeding Operations and Groundwater Section Enclosures cc(w/o enclosures): Mooresville Regional Office,Water Quality Regional Operations Section Alexander County Soil and Water Conservation District AFOG Section Central Files-AWCO20002 North Ca W'ne OeFartmerat of Enviroamenta'Qua7ty I Uivs On Of W4r-er Resaarces 512 N.Sa'sbaty St.118SS R'a 1 F-rv`z-_C=_r:er I Ra"e4h,North Cara7'na-76W162a � ••�• 319.7Q7.�G Waste Utilization Plan Merman, Dairy Farm Inc, Ned, Kent, & Rodney Herman 311 Ned Herman Road Taylorsville, NC 28681 Facility No. 02- 02 Alexander County, North Carolina Certified Animal Waste Management Plan (0.0200 Certification Plan) For a herd size of: 600 Dairy Animals In Cooperation With the Alexander Soil and Water Conservation District NC DLNR, Division of Soil and Water Conservation USDA, Natural Resource Conservation Service I - - T Fox Wayd. german D iry Far , Inc. 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ASAm': Rrl� �• „e50� q Harman ®airy Fars Facility Location Map 5 'oa�sture+ x Free Stall W - Barn d Trench Siku 9ypit, Trek tiSilo O + n ,• ate,, parlor Frey-Stall o C Calf Hulchns �. -•r 4 Legend --Minor Roads a Major Roads f Hydrobgy� II! Lee J. ' •mb-3/24/2009 N Alexa oil &Water Conservation District 1"=200' 100 200 400 600 8t ,'�f'', WASTE MANAGEMENT SYSTEM OPERATION AND MAINTENANCE PLAN Ned Herman, Herman Dairy Farm, Inc. Alexander County, North Carolina Designed for a herd size of 600 milking animals In Cooperation with Alexander Soil and Water Conservation District and U.S.D.A. Natural Resources Conservation Service Cost Share Funding provided through the N.C. Agricultural Cost Share Program September 10, 2000 TABLE OF CONTENTS SYSTEM OVERVIEW . . . . . . . . . . . . . . . . . . . . . . i I. CONTAMINATED LIQUID WASTE HOLDING POND. . . . . . . . . . 1 2. IRRIGATION AND AGITATION SYSTEM . . . . . . . . . . . . . 2 3. CONTAMINATED LIQUID COLLECTION AND PIPING SYSTEM. . . . . 3 4. SOLID WASTE STORAGE STRUCTURE . . . . . . . . . . . . . . 4 5. CONCRETE CURBING. . . . . . . . . . . . . . . . . . . . . 5 6. ROOF GUTTERING. . . . . . . . . . . . . . . . . . . . . . 5 7. CRITICAL AREA PLANTING. . . . . . . . . . . . . . . . . . 6 GENERAL COMMENTS. . . . . . . . . . .. . . . . . . . . . . . . 6 i SYSTEM OVERVIEW This Animal Waste Management System consists of the following major components: 1. CONTAMINATED LIQUID WASTE HOLDING POND 2. IRRIGATION AND AGITATION SYSTEM 3. CONTAMINATED LIQUID COLLECTION AND PIPING SYSTEM 4. SOLID WASTE STORAGE STRUCTURE and the following associated components 5. CONCRETE CURBING 6. ROOF GUTTERING 7. CRITICAL AREA PLANTING All solid waste will be scraped from the lots and stored in a SOLID WASTE STORAGE STRUCTURE. Solid waste will be loaded from the SOLD WASTE STORAGE STRUCTURE into a manure spreader and land applied at agronomic rates. One SOLID WASTE STORAGE STRUCTURE is designed to provide eighteen (18) days storage for the solid wastes produced by 600 head milking herd. (450 hd @ 100% confinement and 150 hd @ 40% confinement) If needed solids will be diverted to the waste storage pond. All contaminated runoff will flow into the CONTAMINATED LIQUID WASTE HOLDING POND. This structure is designed to provide ninety(90) days of temporary storage for normal rainfall runoff from the feedlot and waste water from the milk barn, and provide storage space for the twenty-five (25) year, twenty-four(24) hour storm runoff from the feedlot and if needed solid waste. Without the solids the temporary storage increases to 120+days. This Animal Waste Management System is designed to prevent discharge of Animal Waste Contaminates to surface waters from the twenty-five (25) year,twenty-four(24) hour storm, as required under the Non-discharge regulations. All maintenance and operation costs are the responsibility of the landowner and cannot be cost shared. Ned Herman Dairy Farm Alexander County, N.C. September 10, 2000 1. CONTAMINATED LIQUID WASTE HOLDING POND OVERVIEW The CONTAMINATED LIQUID WASTE HOLDING POND is designed to temporarily store the average feedlot runoff and waste water from the milk barn. Additional storage space is included to contain the twenty-five (25) year, twenty-four (24) hour storm runoff from the feedlot and solid waste when needed. A four (4) inch Schedule 40 PVC pipe will be installed in the pond , with the level of the end cap indicating the level of storage available prior to infringing on the 25 year, 24 hour storm capacity. OPERATION The service life of the CONTAMINATED LIQUID WASTE HOLDING POND will be determined by the level of management for the entire system. How effectively the lot is scraped and your ability to time the scraping of the lot before each storm event will determine the amount of solids which reach the CONTAMINATED LIQUID WASTE HOLDING PONDS. Once the solids have reached the CONTAMINATED LIQUID WASTE HOLDING POND, how effectively the waste is agitated will determine the amount of solids which remain in the CONTAMINATED LIQUID WASTE HOLDING POND. Care should be exercised so that foreign objects or frozen material are excluded from the facility. It is wise to dedicate a portion of the feedlot as a place to stack frozen materials until they thaw and can be added to the facility. Excessive bedding can also cause management problems with a holding pond. Granular materials such as limestone and sand will settle to the bottom and can cause problems with agitation processes and with equipment. Over time it is expected that some solids will accumulate in the CONTAMINATED LIQUID WASTE HOLDING POND. The accumulated solids should not reduce the usable capacity of the CONTAMINATED LIQUID WASTE HOLDING POND to a point which requires removal of the solids for many years IF adequate lot scraping and waste agitation is maintained. In contrast, poor management will result in the rapid accumulation of solids which will reduce the usable capacity of the CONTAMINATED LIQUID WASTE HOLDING POND to the point that some form of dredging will be required. If a large volume of solid waste is allowed to wash.from the lot and/or if inadequate agitation is performed, this dredging operation could be required in a very short period of time. Ned Herman Dairy Farm Alexander County, N.C. September 10,2000 If at any point in the future the usable capacity of the CONTAMINATED LIQUID WASTE HOLDING POND becomes reduced to the point that solids must be removed, the removal of these solids will be at your expense. This would be part of the maintenance of your system and cannot be cost shared. MAINTENANCE Vegetation on the dam should be inspected periodically and seeded as needed to maintain a vigorous stand. The dam should be mowed at least annually to prevent woody growth. Mowing operations must take place only when the soil of the dam is dry, and vegetation should not be mowed to a height of less than four(4) inches at any time. See CRITICAL AREA PLANTING for further maintenance requirements. Any evidence of sloughing or seepage should be reported to the Alexander Soil &Water Conservation District office. 2. I MEUGATION ND AGITATION SYSTEM OVERVIEW During the course of one year, the waste storage pond will store up to 101,350 cubic feet of waste and water. Prior to emptying the waste storage pond, it should be initially agitated for at least 1 day. Additional agitation may be needed during the emptying process. Irrigation operation should be initiated prior to the liquid level reaching the full storage level marker in the structure. When the liquid level in the CONTAMINATED LIQUID WASTE HOLDING POND reaches the marker, liquids must be removed by the irrigation system. Do not irrigate in such a manner as to cause runoff or erosion. Do not irrigate on frozen or saturated soils. Irrigate only until soil is near saturation point The first step of irrigation will be to agitate the' Holding Pond. For irrigation., the gate valve controlling agitation will be closed and the irrigation mainline valve will be opened. The gun will already be at one of the hydrants, the others will be plugged. The irrigation mainline valve must be closed to change the gun location. For filling spreaders, the agitation control valve will remain open while the filler valve is opened. The agitation valve may be throttled down to divert more volume to filler line. Soil test the irrigation fields annually. Vegetation in the irrigation fields should be inspected periodically to insure a vigorous stand. Fields may also need to be limed and fertilized annually. Ned Herman Dairy Farm Alexander County, N.C. 2 September 10, 2000 MAINTENANCE 3. CONTAMINATED LIQUID COLLECTION AND PIPING SYSTEM OVERVIEW The CONTAMINATED LIQUID COLLECTION AND PIPING SYSTEM collects contaminated water from existing silos, the milk barn, and lot. Structure (,1) collects leachate runoff from the farthest silo from the pond, and pipes it to Structure (2). Structure(2) collects leachate and lot runoff from the middle silo and joins the discharge from structure(1) and together flow to the Liquid Waste Bolding Pond. Structure (3)collects clean water lot and guttered runoff from the existing barn and pipes it below the waste water pond. MAINTENANCE Inspect the concrete components of the CONTAMINATED LIQUID COLLECTION AND PIPING SYSTEM for cracks or other damage, and make repairs or replace as needed. Inspect the drop structures seasonally and remove accumulated solids. In periods of cold and subfreezing temperatures, inspect the pipe for accumulation of ice by CAREFULLY removing the cap of the cleanout. Caution: if liquids have accumulated in the pipe above the cleanout, the force of these liquids tends to "blow" the cap of the cleanout off during removal. Remove any ice manually or by melting with hot water. Ned Herman Dairy Farm Alexander County, N.C. 3 September 10, 2000 4. SOLID WASTE STORAGE STRUCTURE OVERVIEW The SOLID WASTE STORAGE STRUCTURE is designed to store eighteen (18) days accumulation of solid wastes produced by 450 head @ 100 % confinement and 150 head @ 40 confinement. Solids will be hauled daily during windows of application. When application windows are closed or adverse weather prevents hauling of solids, solids may be stored in the waste storage pond. A Push-off Ramp will connect the holding lot and the SOLID WASTE STORAGE STRUCTURE. Safety rails will be installed at all points around the structure where human, animal or vehicular traffic is expected. The roof structure will have guttering included to divert non-contaminated rainfall runoff. OPERATION Waste will be scraped on a regular basis, preferably daily. Whenever weather, soil and crop conditions permit, the waste should be loaded directly into a solid manure spreader, transported to the application field and applied according to the WASTE UTILIZATION PLAN. When conditions do not permit immediate application,the solid waste will be scraped into the SOLID WASTE STORAGE STRUCTURE and/or the WASTE STORAGE POND until conditions do allow application. Waste should be land applied in such a manner and at such times as to take advantage of the maximum available nutrients from the manure for crop growth. For maximum nutrient utilization, fresh waste should be land applied and incorporated into the soil. See the WASTE UTILIZATION PLAN for further details of application. MAINTENANCE The SOLID WASTE STORAGE STRUCTURE will need to be inspected periodically. Inspect all metal components to ensure that galvanized coatings are in good repair and that no rust has formed. Clean and re-coat as needed. Inspect wooden components for mechanical damage or rot and repair or replace as needed. Inspect guttering and downspouts periodically for damage. See ROOF GUTTERING for Maintenance details. Inspect the concrete for major cracks. Contact the Alexander Soil and Water Conservation District for technical assistance with concrete repair. Ned Herman Dairy Farm Alexander County, N.C. 5 September 10,2000 7. CRITICAL AREA PLANTING OVERVIEW Any areas of exposed soil, which will not be covered by a structure, shall be seeded to permanent vegetation. CRITICAL AREA PLANTING applies to the Darn. MAINTENANCE Soil samples should be taken at least once per year. Fertilizer and lime should be applied at the rates recommended as a result of the soil test. Fertilizer and lime should be applied either during September-October or February-March. Vegetation should be inspected periodically and reseeded as needed to insure a vigorous stand. It is essential that neither vehicles nor livestock be allowed to use any area that has been treated with CRITICAL AREA PLANTING as a travel lane. All CRITICAL AREA PLANTING should be mowed at least annually to prevent woody growth. Mowing operations must take place only when the soil is dry and vegetation should not be mowed to a height of less than four (4) inches at any time. Do not mow cool season grasses during periods when plants are snowing signs of drought stress. GENERAL COMMENTS PESTICIDE USE Extreme care should be exercised with the use of all herbicides so that desirable vegetation, especially that of the dam, is not adversely affected. It is a violation of law to use any pesticide in a manner not permitted by its labeling. To protect yourself, never apply any pesticide in a manner or for a purpose other than as instructed on the label or in labeling accompanying the pesticide product that you purchase. Do not ignore the instructions for use of protective clothing and devices and for storage and disposal of pesticide wastes, including containers. REPAIRS RIECE-r ;D?,i^���► l-tT,"1 MAR 2 8 2019 Y"I'7f.r,Qvrlft" Rr,7ff.`nv1 Opm1m.;SEXY f7n Notify the Alexander Soil and Water conservation District if repairs or major modifications are required for any of the components of this Waste Management System. Narrative Hermann Dairy Farm Inc. Ned, Kent, & Rodney Herman The Herman Dairy Farm is penmitted for 600 Holstein cows, but currently manages less than the permitted threshold. This Waste Plan assumes a dairy operation with 600 head of Holstein milk COWS. Refer to the aerial photo of the dairy operation for familiarity with the waste storage pond and drystack. The waste storage pond is located at the dairy headquarters where the lot runoff, milk parlor wash water, and silage leachate are captured. The waste storage pond is approximately .65'W x 175'L x 10'D, and has a storage capacity of at least 90 days. The liquid waste from the storage pond is irrigated on Tracts 271,2759, and 2984. If there is any excess liquid waste needed to be applied to stay under the pump elevation,there is a slurry tank that can apply onto adjacent cropland and hayland. The solid waste is collected from freestalls, lots, and other concrete areas and either hauled to the drystack or land applied on the waste application fields. The drystack also has an approximate storage capacity of 90 days. The litter from Kent and Rodney's eight chicken houses is also utilized on cropland and hayland.. Refer to the map of Tract 269 to view the location of these houses. In a typical scenario,the litter is caked out after each flock and stored in a separate poultry drystack or land applied on the waste application fields. Crop Notes This plan is set up for a three year cropping system,to accommodate for a rotation between hayland and cropland. The typical cropping system for Herman Dairy is a two year cropping system with corn silage and small grain silage as the main crops. However, some systems with grass for pasture or hay may last 8 years or longer depending on rainfall and levels of management. There was no yield data for small grain silage on a Chewacla-Piedmont Soil Series in the Nutrient Management Software. It appears this was a typographical error in the Standard Database, as it showed 0 tons for the yield. After comparing similar soil series such as Riverview, the planner input 10 tons/acre for the silage yield. As part of record keeping, the amount of PANT applied will need to correspond to which crop is planted that particular year. Notice in the Waste Utilization Table of the Waste Plan that some crops do not show the full amount of PAN applied during that particular crop year. The PAN is divided into two applications, fall and spring(i.e. fescue hay). Both applications will need to be added, for crop year total. The Herman Dairy cuts small grain(wheat,barley, or oats)both for silage and grain. The N rates are the same for barley-grain,wheat-grain, and small grain silage. Therefore,there is no need for any N reduction since the PAN is the same. The dairy will need to make the decision and then document on the waste record keeping forms which harvesting method was chosen. If small grains are grown for a cover crop, only 30 lbs. of PAN car,be applied, and that amount must be deducted from the next crop. Page 1 of 3 Crop Notes, cont'd A similar situation applies for fields that the Herman Dairy rotates back and forth between pasture and hayland. Waste should be applied to the fields at the lesser N rate for pasture, unless documented by the manager that those fields are being harvested for hay. Animal waste can only be applied to land that will be harvested. In the event of crop failure after animal.waste has been applied,replant another crop that can use the nutrients. The PAIN for crops following soybeans must be reduced by 20 lbs.to account for the nitrogen carry over. If Alfalfa is grown,the PAN would need to be reduced by 80 lbs. for the next crop. Note to the managers' reviewing the waste plan There are instances where the recommended amount of Nitrogen per acre is not applied at the full rate when reviewing the Waste Utilization Table. This is because the software shows how much waste is applied during a calendar year. For example, small grain silage has waste applied at planting in October or November, and then applied again the next spring. Take a look at the Waste Utilization Table and get familiar with the tables. Note to DWQ &DSWC reviewers of the waste plan—The litter from Kent and Rodney's chicken houses are shown only on the listed fields in the Waste Utilization Table. However,the dairy will apply the chicken house litter to different fields in the waste plan other than those shown in the Waste Utilization Table. If different fields are used for the chicken house litter, then the managers' should make note on the waste record keeping forms and make sure not to apply above the listed PAN for that particular field and crop. The same applies if using two sources on one particular field. This method of developing the waste plan is more beneficial in keeping the waste utilization table organized and easier to review. Also, please notice that the application window for corn, silage has been increased to August 15`". The planner extended the window for tropical corn or late planted corn, and mainly for irrigation purposes on those tracts that have irrigation available. The Nutrient Management Software will not allow the planner to extend the application period on just one field; it applies the extended window for all tracts and fields with corn, silage planted. However,please note this extended window should only be applied to those tracts that have irrigation available. The dairy operators know that they still must not over apply the recommended N for the crop. Page 2 of 3 Animal Waste Sources U 1 —Herman Dairy Solids 600 milk cows produce 10,404 tons of manure with 32,459 lbs. of PAN. See Average N, Dairy Surface Scraped, under the Waste Samples tab in the Herman Dairy binder for concentrations used in Nutrient Management Software. U2—Herman Dairy Slurry 600 milk cows produce 1,905,378 gals of liquid manure slurry per year and 1,208 lbs of PAN. See Herman Dairy waste storage pond designs, under Storage Pond Design& Other Info tab, for support information on manure volume and storage available. See User Defined Work-sheet, under Waste Samples tab, for concentrations used in Nutrient Management Software. S21 —Broiler House Manure Cake 250,000 broilers produce 500 tons of litter per year and 10,120lbs of PAN. Special Notes Waste Storage Pond Capacity: 87,667 ft3 or 655,749 gals. Drystack or Waste Storage Structure— Dairy Drystack- 13,800 ft3 Poultry Drystack_30,000 ft3 Page 3 of 3 Nutrients applied in accordance with this plan will be supplied from the following source(s): Commercial Fertilizer is not included in this plan. Ul Herrman Dairy Solids waste generated 10,404.00 tons/year by a 600 animal Dairy(Milk Cow)Solid operation. Estimated Pounds of Plant Available Nitrogen Generated per Year Broadcast 32459 Incorporated 43027 Injected N/A Irrigated N/A Max. Avail. Actual PAN PAN Surplus/ Actual Quantity Surplus/Deficit PAN(lbs)* Applied (lbs) Deficit Obs) Applied(Tons) (Tons) Year 1 32,459 127678 -95,219 43,856.64 -33,452.64 Year 2 32,459 149030 -116,571 51,167.36 -40,763.36 Year 3 32,459 130446 -97,987 44,816.41 -34,412.41 U2 Herman Dairy Slurry waste generated 1,905,378 gals/year by a 600 animal Dairy(Milk Cow)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 1329 Incorporated 1813 Injected 2054 Irrigated 1208 Max. Avail. ActualPAN PAN Surplus/ Actual Volume Volume Surplus/ PAN(lbs)*1 Applied (Ibs) Deficit(lbs) Applied(Gallons) Deficit(Gallons) Year 1 1,208 1 7503 -6,295 11,2719437 -9,366,059 Year 2 1,208 8968 -7,760 13,433,937 -11,528,559 Year 3 1,208 7503 -6,295 11,271,437 -9,366,059 Note: In source 1D,S means standard source,U means user deed source. *Max.Available PAN is calculated on the basis of the actual application method(s)identified in the plan for this source. 632751 Database Version 3.1 Date Printed: 03-20-2014 Source Page 1 of 2 S21 Broiler House Manure Cake waste generated 500.00 tons/year by a 250,000 animal Broiler House Manure Cake operation. Estimated Pounds of Plant Available Nitrogen Generated per Year Broadcast 10120 incorporated 13800 Injected N/A Irrigated N/A Max.Avail_. ActualPAN PAN Surplus! Actual Quantity Surplus/Deficit PAN(lbs)* Applied 1bs) Deficit(lbs) Applied(Tons) (Tons) Year 1 10,120 65142 -55,022 3,218.44 -2,718.44 Year 2 10,120 65142 -55,022 3,218.44 -2,718.44 Year 3 10,120 65142 -55,022 j 3,218.44 -2,718.44 This plan includes a User Defined Source to determine the total pounds of PAN in lieu of NRCS Standard values. Refer to North Carolina Cooperative Extension Service publication AG-439-42 entitled"Soil Facts: Use of On-Farm Records for Modifying a Certified Animal Waste Management Plan"for guidance on using on-farm records to develop a User Defined Source. 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. 632751 Database Version 3.1 Date Printed: 03-20-2014 Source Page 2 of 2 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 in the plan. In addition,the Leaching Index for each field is shown, where available. Planned Crops Summary Total Useable Leaching Tract Field Acres Acres Index(Ln Soil Series Crop Sequence RYE 0025 1 8.10 7.90 15.0 Fairview Small Grain,Silage 8.6 Tons Soybeans,Manured,Double Crop 32 bu. Corn,Silage 19.0 Tons 0025 2 6.90 5.50 15.0 Fairview Fescue Hay 4.1 Tons Fescue Pasture 4.1 Tons 0106 1 19.80 19.80 11.0 Masada Small Grain,Silage 11.0 Tons Soybeans,Manured,Double Crop 40 bu. Corn,Silage 24.0 Tons 0106 2 16.00 16.00 15.0 Clifford Fescue Hay 4.8 Tons Small Grain,Silage 10.4 Tons Soybeans,Manured,Double Crop 40 bu. Corn,Silage 1 21.9 Tons 0106 3 13.10 13.10 11.0 Masada Fescue Pasture 4.3 Tons 0106 4 6.90 6.90 15.0 Riverview-P Small Grain,Silage 9.0 Tons Soybeans,Manured,Double Crop 38 bu. Corn,Silage 22.0 Tons 0106 5 25.70 25.70 15.0 Fairview Small Grain-,Silage 8.6 Tans Soybeans,Manured,Double Crop 32 bu. Corn,Silage 19.0 Tons 0106 6 51.60 49.00 15.0 Fairview Fescue Hay 4.1 Tons Fescue Pasture 4.1 Tons 0246 1 6.90 6.40 15.0 Fairview Fescue Hay 3.9 Tons 0246 5 12.35 12.30 15.0 Fairview Fescue Pasture 3.6 Tons 0250 1 1.90 1.90 15.0 Riverview-P Fescue Hay 4.5 Tons 0250 2 1.20 1.20 11.0 Codorus Fescue Hay 4.5 Tons 0250 3 2.30 2.30 11.0 Codorus Fescue Hay 4.4 Tons 0250 4 3.60 3.60 15.0 Fairview Fescue Hay 4.1 Tons 0250 5 1.30 1.10 15.0 Fairview Fescue Hay 4.3 Tons 0250 6 5.00 2.20 15.0 Fairview Fescue Hay 3.6 Tons 0250 7 2.90 2.40 11.0 Codorus Fescue Hay 4.4 Tons 0250 8 7.50 6.20 15.0 woolwine Fescue Hay 3.5 Tons 6322751 Database`Version 3.1 Date Printed 3/20/2014 PCS Page 1 of 6 NOTE: Symbol*means user entered data. Planned Crops Summary Total Useable Leaching Tract Field Acres Acres Index;LI) Soil Series Crop Sequence RYE 0258 1 35.60 35.601 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Corn,Silage 19.4 Tons 0258 2 3.60 3.60 15.0 Fairview Small Grain,Silage 7.8 Tons Soybeans,Manured,Double Crop 30 bu. Corn,Silage 17.4 Tons 0258 3 1130 12.40 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Corn,Silage 18.4 Tons 0269 1 25.70 25.10 15.0 Fairview Fescue Pasture 3.9 Tons 0269 2A 12.40 12.20 15.0 Fairview Fescue Hay 4.1 Tons Fescue Pasture 4.1 Tons 0269 2B 9.401 8.40 15.0 Fairview Fescue Hay 3.6 Tons Fescue Pasture 3.6 Tons 0269 4 4.10 3.80 15.0 Fairview Fescue Hay 3.6 Tons Fescue Pasture 3.6'rons 0269 5 17.10 17.10 15.0 Fairview Fescue Hay 4.1 Tons Fescue Pasture 4.1 Tons 0271 3 5.10 5.00 11.0 Codorus Small Grain,Silage *10.0 Tons Soybeans,Manured,Double Crop 46 bu. Corn,Silage 28.0 Tons 0271 4 13.40 13.40 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Corn,Silage 18.4 Tons 1299 1 64.50 62.00 15.0 Clifford Small Grain,Silage 10.8 Tons Soybeans,Manured,Double Crop 41 bu. Corn,Silage 22.5 Tons 1319 1 13.30 13.301 15.0 Riverview-P Small Grain,Silage 9.0 Tons Soybeans,Manured,Double Crop 38 bu. Corn,Silage 22.0 Tors 1351 1 7.00 6.90 15.0 Riverview-P Small Grain,Silage 9.0 Tons Soybeans,Manured,Double Crop 38 bu. Corn,Silage 22.0 Tons 1351 3A 4.60 4.60 15.0 Riverview-P Small Grain,Silage 9.0 Tons Soybeans,Manured,Double Crop 38 bu. 632751 Database Version 3.1 Date Printed 3/20/2014 PCS Page 2 of 6 NOTE: Symbol*means user entered data. Planned Crops Summary Total Useable Leacrag Tract Field Acres Acres index(LI) Soil Series Crop Sequence RYE Com,Silage 22.0 Tons 1351 3B l l.8C 10.80 15.0 Riverview-P Fescue Pasture 4.3 Tons 1351 4 10.00 10.00 23.0 Buncombe Small Grain,Silage 5.0 Tons Soybeans,Manured,Double Crop 21 bu. Corn,Silage 10.0 Tons 1351 5 8.80 8.80 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Corn,Silage 18.4 Tons 1513 3 19.30 18.50 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Corn,Silage 18.4 Tons 1513 4 2.60 2.001 15.0 Fairview Small Grain.Silage 8.6 Tons Soybeans,Manured,Double Crop 32 bu. Corn,Silage 19.0 Tons 1513 5 23.90 23.70 11.0 Codorus Small Grain,Silage *10.0 Tons Soybeans,Manured,Double Crop 46 bu. Corn,Silage 28.0 Tons 1619 1 12.70 12.701 15.0 Fairview Fescue Hay 4.1 Tons Fescue Pasture 4.1 Tons 1619 2 13.50 13.50 15.0 Fairview Fescue Hay 4.1 Tons 771 Fescue Pasture 4.1 Tors 1619 3 7.00 7.00 23.0 Buncombe Fescue Hay 3.0 Tons Fescue Pasture 3.0 Tons 1619 4 23.60 23.60 15.0 Fairview Fescue Hay 3.9 Tons Fescue Pasture 3.9 Tons 1619 5 15.00 15.001 15.0 Fairview Fescue Hay 3.6 Tons Fescue Pasture 3.6 Tons I 1619 6 4.601 4.60 11.0 Masada Fescue IIdy 3.9 Tons Fescue Pasture 3.9 Tons 1619 7 4.70 4.701 15.0 Riverview-P Nmue Hay 4.5 Tons Fescue Pasture 4.5 Tons 1619 8 6.9 6.901 15.0 Fairview Fescue Hay 3.1 Tons Fescue Pasture 3.1 Tons 1619 9 21.10 21.10 11.0 Douue-P Fescue Ha 4.4 Tons Fescue Pasture 4.4 Tons 632 751 Database Version 3.1 Date Printed 3/20/2014 PCS Page 3 of 6 NOTE: Symbol*means user entered data. Planned Crops Summary Total Useable Leaching Tract Field Acres Acres Index(Ll) Soil Series Crop Sequence RYE 1619 10 7.10 7.10 15.0 Fairview Fescue Hay 3.9 Tons Fescue Pasture 3.9 Tons 1619 11 7.80 7.70 15.0 Fairview Fescue Hay 3.6 Tons Fescue Pasture 3.6 Tons 1619 12 4.60 4.30 15.0 Fairview Fescue Hay 3.9 Tons Fescue Pasture 3.9 Tons 1619 13 2.20 2.20 15.0 Fairview Fescue Hay 3.6 Tons Fescue Pasture 3.6 Tons 1643 2 21.2 19.60 15.0 Fairview Fescue Hay 4.3 Tons 1643 3 67.10 64.10 15.0 Fairview Fescue Pasture 4.1 Tons 1643 5 11.60 11.00 15.0 Riverview-P Fescue Pasture 4.5.Tons 1643 6 44.70 41.90 15.0 Fairview Fescue Pasture 3.9 Tons 1656 1 22.10 21.70 15.0 Fairview Small Grain,Silage 7.8 Tons Soybeans,Manured,Double Crop 30 bu. Corn,Silage 17.4 Tons 1656 2 10.10 10.00 15.0 Clifford Small Grain,Silage 10.8 Tons Soybeans,Manured,Double Crop 41 bu. Corn,Silage 22.5 Tons 1656 4 9.6C 6.80 15.0 Clifford Small Grain,Silage 10.8 Tons Soybeans,Manured,Double Crop 41 bu: Com,Silage 22.5 Tons 1656 5 10.40 9.80 15.0 Clifford Small Grain,Silage 10.8 Tons Soybeans,Manured,Double Crop 41 bu. Corn,Silage 22.5 Tons 1657 1 41.10 40.00 15.0 Fairview Fescue Hay 3.9 Tons Fescue Pasture 3.9 Tons 1683 2 21.60 19.40 15.0 Fairview Small Grain,Silage 8.3 Tors 1 Soybeans,Manured,Double Crop 31 bu. Com,Silage 18.4 Tons 1684 4 31.70 28.00 15.0 'Fairview Fescue Hay 3.9 Tons 1746 1 2.50 2.50 15.0 Fairview Fescue Hay 4.1 Tons 1746 2 11.40 9.70 15.0 Fairview Small Grain,Silage 8.6 Tons Soybeans,Manured,Double Crop 32 bu. Corn,Silage 19.0 Tons 1754 i 8.40 7.40 15.0 Clifford Small Grain ,Silage 10,4 Tons 632751 Database Version 3.1 Date Printed 3/20/2014 PCS Page 4 of 6 NOTE: Symbol*means user entered data. P nned Crops Suirmary Total Useable Leaching Tract Field Acres Acres Index(T4 Soil Series Crop Sequence RYE Soybeans,Manured,Double Crop 40 bu. Corn,Silage 21.9 Tons 1950 1 14.20 13.50 15.0 Fairview Fescue Pasture 4.1 Tons 1981 1 4.4 4.10 15.0 Clifford Fescue Hay 4.6 Tons Fescue Pasture 4.6 Tons 1981 2 70.00 67.00 15.0 Fairview Fescue Hay 3.6 Tons Fescue Pasture 3.6 Tops 2759 1 i8.9 18.60 15.0 Fairview Fescue Hay. 3.9 Tons Fescue Pasture 3.9 Tons 2779 1 9.60 9.00 15.0 Fairview Small Grain,Silage 7.8 Tons Soybeans,Manured,Double Crop 30 bu. Corn,Silage 17.4 Tons 2779 2 4.10 3.50 15.0 Fairview Fescue Hay 3.9 Tons 2824 1 3.50 3.50 15.0 Fairview Fescue Pasture 1 3.9 Tons 2824 2 6.40 6.40 15.0 Fairview Fescue Pasture 3.9 Tons 2984 5a 13.20 13.20 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Conn,Silage 1 18.4 Tons 2984 5b 3.20 3.20 15.0 State-P Small Grain,Silage 9.5 Tons Soybeans,Manured,Double Crop 36 bu. Corn,Silage 219 Tons .2984 6 5.20 5.20 11.0 Codorus Small Grain,Silage *10.0 Tons Soybeans,Manured,Double Crop 46 bu. Corn,Silage 28.0 Tons 2984 7 13.90 13.901 11.0 Codorus Small Grain,Silage *10.0 Tons ,Soybeans,Manured,Double Crop 46 bu. Com,Silage 28.0 Tons 2985 09 6.50 6.50 15.0 Fairview Small Grain,Silage 8.6 Tons Soybeans,Manured,Double Crop 32 bu. Com,Silage 19.0 Tons 2985 10 7.50 7.50 15.0 Fairview Small Grain,Silage 7.8 Tons Soybeans,Manured,Double Crop 30 bu. Com,silage 17.4 Tons 9306 1 1 11.70 11.70 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. 632751 Database Version 3.1 Date Printed 3/20/2014 PCS Page 5 of 6 NOTE: Symbol*means user entered data. Planned Crops Summaay Total Useable I Leaching Tract Field I Acres Acres Index(LI) Soil Series Crop Sequence RYE Com,Silage 18.4 Tons 9313 4 20.30 19.20 15.0 Clifford Fescue Hay 4.8 Tons 9504 3 7.20 5.30 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Corn,Silage 18.4 Tons 9674 3 2.10 2.10 15.0 Fairview Small Grain,Silage 8.6 Tons Soybeans,Manured,Double Crop 32 bu. Com,silage 19.0 Tons 9965 1 36.9 36.90 15.0 Fairview Small Grain,Silage 8.3 Tons Soybeans,Manured,Double Crop 31 bu. Corn,Silage 19.4 Tons 9965 2 22.701 22.70 15.0 lFairview Fescue Hay 4.1 Tons PLAN TOTALS: 1,223.35 1,176.00 LI Potential Leachbig Technical Guidance <2 w potential to contribute to soluble None nutrient leaching below the root zone. >_2& Moderate potential to contribute to Nutrient Management(590)should be planned. <=10 oluble nutrient leaching below the root ne. High potential to contribute to soluble Nutrient Management(590)should be planned. Other conservation practices that improve�� nutrient leaching below the root zone. the soils available water holding capacity and improve nutrient use efficiency should be > 10 considered. Examples are Cover Crops(340)to scavenge nutrients,Sod-Based Rotations i (328),Long-Term No-Till(778),and edge-of--field practices such as Filter Strips(393)and fRiparian Forest Buffers(391). 632151 Database Version 3.1 Date Printed 3/20/2014 PCS Page 6 of 6 NOTE: Symbol*means user entered data. The Waste Utilization table shown below summarizes the waste utilization plan for this operation. This plan provides an estimate of the number of acres of cropland needed to use the nutrients being produced. The plan requires consideration of the realistic yields of the crops to be grown,their nutrient requirements, and proper timing of applications to maximize nutrient uptake. This table provides an estimate of the amount of nitrogen required by the crop being grown and an estimate of the nitrogen amount being supplied by manure or other by-products,commercial fertilizer and residual from previous crops. An estimate of the quantity of solid and liquid waste that will be applied on each field in order to supply the indicated quantity of nitrogen from each source is also included. A balance of the total manure produced and the total manure applied is included in the table to ensure that the plan adequately provides for the utilization of the manure generated by the operation. Waste Utilization Table Year 1 Nitrogen Comm Res, Manure Liquid Solid Liquid Solid PA Fort. (Ibs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pphed Applied Applied Applied Reqd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (lbs/A) Source Total Use. Applic. Applic. loop Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons .1000 gals tons 0025 1 Ul Fairview 8.10 7.90 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 57 0.00 19.76 0.00 156.1 0025 1 Ul Fairview 8.10 7.90 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad. 124 0.00 43.00 0.00 339.66 0025 2 Ul Fairview 6.90 5.50 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 31.56 0.00 173.54 0025 2 Ul Fairview 6.90 5.50 Fescue Pasture 4.1 Tons 8/1-7/31 1.7 0 0 1 Broad. 69 0.00 23.75 0.00 130.63 0106 1 U1 Masada 1.9.80 19.80 Small Grain,Silage 11.0 9/1-3/31 122 0 0 Broad. 73 0.00 25.38 0.00 502.55 0106 1 Ul Masada 19.80 19.80 Soybeans,Manured,Double Crop 40 bu. 4/1-9/15 156 0 0 Broad. 156 0.00 54.09 0.00 1,071.00 0106 2 Ul Clifford 16.00 16.00 Fescue Hay 4.8 Tons 8/1-7/31 20 0 0 Broad. 107 0.00 3-5.92 0.00 590.84 0106 2 Ul Clifford 16.00 16.00 Small Grain,Silage 10.4 9/1-3/31 115 0 0 Broad. 46 0.00 15.95 0.00 255.20 0106 3 S21 Masada 13.10 13.10 Fescue Pasture 4.3 Tons 8/1-7/31 143 0 0 Broad. 143 0.001 7.07 0.00 92.55 0106 4 1 Ul Riverview-P 6.90 6.90 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 60 0.00 20.80 0.00 143.55 0106 4 1 UlRiverview-P 6.90 6.90 Soybeans,Manured,Double Crop 38 bu. 4/1-9/15 148 0 0 Broad. 148 0.00 51.32 0.00 354.0 0106 5 U1 Fairview 25.70 25.70 Small Grain,Silage 8.6 Tons 9/1.3/31 95 0 0 Broad. 57 0.00 19.76 0.00 507.94 0106 5 Ul Fairview 25.70 25.70 Soybeans,Manured,Double Crop 32 bu. 411-9/15 124 0 0 Broad. 124 0.00 43.00 0.00 1,104.98 0106 6 Ul Fairview 51.60 49.00 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 31.56 0.00 1,546.10 0106 6 Ul Fairview 51.60 49.00 Fescue Pasture - 4.1 Tons 9/1-7/31 137 0 0 Broad. 69 0.00 23.75 0.00 1,163.82 0246 1 1 S21 Fairview 6.90 6.40]Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 173 0.00 8.55 0.00 54.70 F Database Version 3.1 ]Date Printed:3/20/2 WUT Page ? 4 Waste Utilization Table Year 1 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Ferf. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (axe) (acre) (Field) (Field) pbs/A) (I.bs/A) pbs/A) Source Total Ilse. Applic• Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 0246 5 S21 airview 12.35 12.30 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 120 0.00 5.93 0.00 72.9 0250 1 S21 Riverview-P 1.90 1.90 Fescue Hay 4.5 Torus 8/1-7/31 200 0 0 Broad. 200 0.00 9.89 0.00 18.77 0250 2 S21 Codorus 1.20 1.20 Fescue Hay 4.5 Tons 8/1-7/31 190 0 0 Broad. 190 0.00 9.39 0.00 11.26 0250 3 S21 Codorus 2.30 2.30 Fescue Hay 4.4 Tons 8/1-7/31 196 0 0 Broad. 186 0.00 9.19 0.00 21.14 0250 4 S21 Fairview 3.60 3.60FescueHay 4.1 Tons 8/1-7/31 182 0 0 Broad. 182 0.00 8.99 0.00 32.37 0250 5 S21 Fairview 130 1.10 Fescue Hay 43 Tons 8/1-7/31 l91 0 0 Broad. 191 0.00 9.44 0.00 10.38 0250 6 S21 Fairview 5.00 2.20 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 160 0.00 7.91 0.00 17.39 0250 7 S2I odours 1 2.90 2.40 Fescue Hay 4.4 Tons 8/1-7/31 186 0 0 Broad. 186 0.00 9.19 0.00 22.06 0250 8 S2.1 Woolwine 7.50 6.20 Fescue Hay 3.5 Tons 8/1-7/31 155 0 0 Broad. 155 0.00 7.66 0.00 47.48 0258 1 U1 Fairview 35.60 35.60 Small Grain,Silage 8.3'fons 9/1-3/31 92 0 0 Broad. 55 0.00 17.69 0.00 629.88 0258 1 Ul Fairview 35.60 35.60 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 38.78 0.00 1,380.72 0258 2 Ul Fairview 3.60 3.60 Small Grain,Silage 7.8 Tons 9/1-3/31 87 0 0 Broad. 52 0.00 18.10 0.00 65.16 0258 2 Ul Fairview 3.60 3.60 Soybeans,Manured,Double Crop 30 bu. 4/1-9/15 117 0 0 Broad. 117 0.00 40.57 0.00 146.05 0258 3 Ul Fairview 13.30 12.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 17.69 0.00 219.40 0258 3 Ul Fairview 13.30 12.40 Soybeans,Manured,Double Crop 31 bu. 4/1-9115 121 0 0 Broad. 121 0.00 38.78 0.00 480.92 0269 1 1 S21 Fairview 25.70 25.10 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 6.42 0.00 161.22 0269 2A S21 Fairview 12.40 12.20 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 4.49 0.00 54.85 0269 2A S21 Fairview 12.40 12.20 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 41.29 0269 2B S21 Fairview 9.40 8.40 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.001 33.20 0269 2B S21 Fairview 9.40 8.40 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 24.90 0269 4 1 S21 Fairview 4.10 3.80 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 15.02 0269 4 S21 IFairview 4.10 3.80 Fescue Pasture 3.6 Tons 8/1-7/31 120 U 1 0 Broad. 60 `0.00 2.96 0.00 11.27 f Database Version 3.1 Date Printed:3/20/2 WUT Page 4 Waste Utilization Table, Year 1 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. Obs/A) Pik IvianureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (,acre) (acre) (Field) (Field) Obs/A) (lbs/A) Obs/A) Source Total Use. APpLu Appiic. 1000 Tract Field ID Soil Series Acres I Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 0269 5 S21 Fairview 17.10 17.10 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 4.49 0.00 76.88 0269 5 S21 Fairview 17.10 17.10 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad.. 69 0.00 3.38 0.00 57.88 0271 3 U2 Codorus 5.1011 5.00 Small Grain,Silage *10.0 9/1-3/31 *106 0 0 Irrig. 29 43.39 0.00 216.941 0.0 0271 3 Ul Codorus 5.10 5.00 Small Grain,Silage *10.0 9/1-3/3I *106 0 0 Broad. 34 0.00 11.86 0.00 59.29 0271 3 U2 odours 5.10 5.00 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 In•ig. 82 121.01 0.00 605.07 0.0 0271 3 U I [Fairview odorus 5.10 5.00 Soybeans,Manured,Double Crop 46 bu. 4/1-911 S 177 0 0 Rroad. 95 0.00 32.94 0.00 164.70 0271. 4 U2 13.40 13.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Inig. 26 38.07 0.00 510.20 0.00 0271 4 Ul Fairview 13.40 13.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 29 0.00 10.19 0.00 136.60 0271 4 U2 Fairview 13.40 13.40 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 1 ti 1 0 0 Irrig. 56 82.64 0.00 1,107.42 0.00 0271 4 Ul Fairview 13.40 13.40 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 65 0.00 22.54 0.00 302.01 1299 1 Ul Clifford 64.50 62.00 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 72 0.00 24.97 0.00 1,547.83 1299 1 Ul Clifford 64.50 62.00 Soybeans,Manured,Double Crop 41 bu. 4/1-9/15 159 0 0 Broad. 159 0.00 55.13 0,00 3,418.13 1319 1 Ul Riverview-P 13.30 13.30 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 60 0.00 20.80 0.00 276.70 1319 1 1 Ul iverview-P 13.30 13.30 Soybeans,Manured,Double Crop 38 bu. 4/1-9/1.5 148 0 0 Broad. 148 0.00 51.32 0.00 682.52 1351 1 1 Ul Riverview-P 7.00 6.90 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 60 0.00 20.80 0.00 143.55 1351 1 Ul Riverview-P 7.00 6.90 Soybeans,Manured,Double Crop 38 bu. 4/1-9/15 148 0 0 Broad. 148 0.00 51,32 0.00 354.09 1351 3A Ul Riverview-P 4.60 4.60 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 60 0.00 20.80 0.00 95.70 1351 3A Ul Riverview-P 4.60 4.60 Soybeans,Manured,Double Crop 38 bu. 4/1-9/15 148 0 0 Broad. 148 0.00 51.32 0.00 236.06 1351 3B U1 Riverview-P 11.80 10.80 Fescue Pasture 4.3 Tons 811-7/31 143 0 0 Broad. 143 0.00 49.58 0.00 535.50 1351 4 1 Ul Buncombe 10.00 10.00 Small Grain,Silage 5.0 Tons 9/1-3131 56 0 0 Broad. 34 0.00 11.65 0.00 116.50 1351 4 Ul Buncombe 10.00 10.00 Soybeans,Manured,Double Crop 21 bu. 4/1-9/15 82 0 0 Broad. 82 0.00 28.43 0.00 284.32 1351 5 Ul Fairview 8.80 8.80 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 19.14 0.00 168.43 f Database Version 3.1. Date Printed:3/20/2 WLT'T Page ? 4 Waste Utilization Table Year 1 fNitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. Obs/A) ! PA ManureA Manure Manure Manure I Nutrient Nutrient !I Nutrient pplied Applied Applied Applied Reqd Applied Applied (acre) (acre) (Field) (Field) Obs/A) (lbs/A) Obs/A) Source Total Use. APplic• Applic, 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N N N Method 1V gal/A Tons 1000 gals tons 1351 5 U 1 Fairview 8.80 8.80 Soybeans,Manured,Double Crop 31 bu. 4/.1-9115 121 0 0 Broad. 121 0.00 41.96 0.00 369.21 1513 3 Ul lFairview 19.301 18.50 Small Grain,Silage 8.3 Tons 911-3/31 92 0 0 Broad, 55 0.00 19.14 0.00 354.09 1513 3 Ul Fairview 19.30 18.50 Soybeans,Manured,Double Crop 31 bu. 4/1-9115 121 0 0 Broad. 121 0.00 41.96 0.00 776.17 1513 4 Ul Fairview 2.60 2.00 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 57 0.00 19.76 0.00 39.53 1513 4 U1 Fairview 2.60 2.00 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad. 124 0.00 43.00 0.00 85.99 _1513 5 Ul Codorus 23.90 23.70 Small Grain,Silage *10.0 9/1-3/31 *106 0 0 Broad. 64 0.00 22.05 0.00 5.22.64 1513 5 U1 Codor s. 23.90 �2�370]Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Broad. 177 0.00 61.37 0.00 1,454.53 1619 1 S21 Fairview 12.70 12.70 Fescue Hay 4.1 Tons 8/1-7/31 192 0 0 Broad. 91 0.00 4.49 0.00 57.10 1619 1 S21 Fairview 12.70 12.70 Fescur.Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad, 69 0.00 3.38 0.00 42.98 1619 2 S21 Fairview 13.50 13.50 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 4.49 0.00 60.69 1619 2 S21 Fairview 13.50 13.50 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 45.69 1619 3 S21 Buncombe 1.00 7.00 Fescue Hay 3.0 Tons 8/1-7/31 133 0 0 Broad. 67 0.001 3.29 0.001i .00 23.00 1619 3 S21 Buncombe 7.00 7.00 Fescue Pasture 3.0 Tons 8/1-7/31 100 0 0 Broad. 50 0.00 2.47 0.00 17.29 1619 4 S21 Fairview 23.60 23.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 100.86 1619 4 S21 Fairview 23.60 23.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.001 75.7 1619 5 S21 Fairview 15.00 15.00 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 59.29 1619 5 S21 Fairview 15.00 15.00 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 44.47 1619 6 S21 Masada 4.60 4.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 19.66 1619 6 S21 Nfasada 4.60 4.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 1 0.00 14.77 1619 7 S21 'verview-P 4.70 4.70 Fescue Hay 4.5 Tons 8/1-7/31 200 0 0 Broad. 100 0.00 4.94 0.00 23.22 1619 7 S21 Riverview-P 4.70 4.70 Fescue Pasture 4.5 Tons 8/1-1/31 11il 0 0 Broad. 75 0.00 3.711 0.00 17.42 1619 8 S21 Fairview 6.90 6.90 Fescue Hay 3.1 Tons 8/1-7/31 138 0 0 Broad. 69 0.00 3.41 0.001 23.52 F Database Version 3.1 Date Printed: 3/20/2 Vi7UT Page d 1 Waste Utilization Table Year 1 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pphod Applied Applied Applied Reqd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (Ibs/A) (Ibs/A) Source Total Use. Appic• Applies 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 1619 8 S21 Fairview 6.90 6.90 Fescue Pasture 3.1 Tons 8/1-7/31 103 0 0 Broad. 52 0.00 2.55 0.00 17.56 1619 9 S21 Dogue-P 21.10 21.10 Fescue Hay 4.4 Tons 8/1-7/31 195 0 0 Broad. 98 0.00 4.82 0.00 101.64 1619 9 S21 Dogue-P 21.10 21.10 Fescue Pasture 4.4 Tons 8/1-7/31 147 0 0 Broad. 74 0.00 3.63 0.00 76.63 1619 10 S21 Fairview 7.10 7.10 Fescue Hay 39 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 30.3 1619 10 S21 Fairview 7.10 7.10 Fescue Pasture 39 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 22.80 1619 11 S21 Fairview 7.90 7.70 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad 80 0.00 3,95 0.00 30.43 1619 11 S21 Fairview 7.80 7.70 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 22.83 1619 12 S21 Fairview 4.60 4.30 Fescue Hay 3.9 Tons 811-7/31 173 0 0 Broad. 871 0.00 4.28 0.00 18.38 1619 12 S21 Fairview 4.60 4.30 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 13.81 1619 13 S21 Fairview 2.20 2.20 Fescue Hay 3.6 Tons 8/1-7PU 160 0 0 Broad. 80 0.00 3,95 0.00 8.6 1619 13 S21 Fairview 2.20 2.20 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 0 0.00 2.96 0.00 6.52 1643 2 S21 Fairview 21.20 1.9.60 Fescue Hay 4.3 Tons 8/1-7/31 191 0 0 Broad. 191 0.00 9.44 0.00 184.96 1643 3 111 Fairview 67.10 64.10 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 137 0.00 47.50 0.00 3,044.94 1643 5 Ul. Riverview-P 11.60 1 1.00 Fescue Pasture 4.5 Tons 8/1-7/31 150 0 0 Broad. 150 0.00 52.01 0.00 572.12 1643 6 111 Fairview 44.70 41.90 Fescue Pasture 3.9 Tons 8/1-1/31 130 0 0 Broad. 130 0.00 45.0II 0.00 1,888.68 1656 1 Ul Fairview 22.10 21.70 Small Grain,Silage 7.8 Tons 9/1-3/31 87 0 0 Broad. 52 0.00 18.10 0.00 392.76 1656 1 Ul Fairview 22.10 21.70 Soybeans,Manured,Double Crop 30 bu. 4/1-9/1.5 117 0' 0 Broad, 117 0.001 40.57 0.00 880.33 1656 2 Ul clifford 10.10 10.00 Small Grain,Silage 10.3 9/1-3/31 120 0 0 Broad. 72 0.00 24.97 0.00 249.65 1656 2 Ul Clifford 10.10 10.00 Soybeans,Manured,Double Crop 41 bu. 4/1-9/15 159 0 0 Broad. 159 0.00 55.13 0.00 551.31 1656 4 Lll 10ifford 8.60 6.80 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 72 0,00 24.97 0.00 169.76 1656 4 111 Clifford 8.60 6.80 Soybeans,Manured,Double Crop 41 bu. 4/1-9/15 159 0 0 Broad.1 159 0.00 55.13 0.00 3'74.89 1656 5 III Clifford 10.40 9.80 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 72 0.00 24.97 0.00 244.66 f Database Version 3.1 Date Printed:3/20/2 'VVUT Page f tI Waste'Utilization Table Year I Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Rc9'd Applied Applied (acre) (acre) (Field) (Field) (Ibs/A) (lbs[A) (lbs/A) Source Total Use. APplic. Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A 'Pons 1000 gals tons 1656 5 U.l Clifford 10.40 9.80 Soybeans,Manured,Double Crop 41 bu. 4/1-9/15 139 0 0 Broad. 159 0.00 55.13 0.00 540.29 1657 1 S21 Fairview 41.10 40.00 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 170.95 1657 1 S21 Fairview 41.10 4.0.00 Fescue Pasture 3.9 Tons 8/1.7/31 130 0 0 Broad. 65 0.00 3.21 0.00 128.46 1683 2 Ul Fairview 21.60 19.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 19.14 0.00 371.32 1683 2 U1 Fairview 21.60 19.40 Soybeans,Manured,Double Crop 31 bu. 4/I-9/15 121 0 0 Broad. 121 0.00 41.96 0.00 813.93 1684 4 Ul Fairview 31.70 28.00 Fescue Flay 3.9 Tons 9/1-7/31 173 0 0 Broad. 173 0.00 59.99 0.00 1,679.52 1746 1 S21 Fairview 2.50 2.50 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 182 0.00 8.99 0.00 22.48 1746 2 U1 Fairview 11,40 9.70 Small Grain,Silage 8.6 Tons 9/1-3131 95 0 0 Broad. 57 0.00 19.76 0.00 191.71 1746 2 Ul Fairview 11.40 9.70 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad. 124 0.00 43.001 0.00 417.06 1754 1 Ul Clifford '8.40 7.40FSmallain,'Silage 10.4 9/1-3/31 115 0 0 Broad. 69 0.00 23.92 0.00 177.04 1754 1 Ul Clifford 8.40 7.40 ,Manured,Double Crop 40 bu. 4/1-9/15 156 0 0 Broad. 156 0.00 54.09 0.00 400.271950 1 S21 Fairview 14.20 13.50 scueasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 137 0.00 6.77 0.00 91.38 1981 1 S21 Clifford 4.40 4.10 Fescue Hay 4.6 Tons 8/1-7/31 204 0 0 Broad. 102 0.00 5.04 0.00 20.6 1981 1 S21 Clifford 4.40 4.10 Fescue Pasture 4.6 Tons 8/1-7/31 153 0 0 Broad. 77 0.00 338 0.00 15,49 1981 2 S21 Fairview 70.00 67.00 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 264.82 1981 2 S21 Fairview 70.00 67.00 Fescue Pasture 3.6 Tons 811-7/31 120 0 0 Broad.. 60 0.00 2.96 0.00 198.62 2759 1 U2 Fairview 18.90 18.60 Fescue Hay 3.9 Tons 8/1-•7/31 173 0 0 Irrig. 61 95.39 0.00 1,774.31 0.00 2759 1 Ul Fairview 18.90 18.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 26 0.00 8.34 0.00 155.01 2759 1 U2 Fairview 18.90 18.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Irrig. 46 71,74 0.00 1,334.40 0.00 2759 1 Ul Fairview 18.90 18.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 20 0.00 6.25 0.00 116.25 2779 1 Ul Fairview 9.60 9.00 Small Grain,Silage 7.8 Tons 9/1-3/31 87 0 0 Broad. 52 0.00 18.10 0.00 162.90 2779 1 U1 Fairview 9.60 9.00 Soybeans,Manured,Double Crop 30 bu. 411-9/15 117 0 0 Broad. 117 0.001 40.57 0.00 365.11 E Database Version 3.1 Date Printed: 3/20/2 WU T Page F t Waste Utilization Fable Year I Nitrogen Comm Res. Manure Li.gnid Solid L.igpaid Solid PA Fero. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient ppli.ed Applied Applied Applied Reqd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (lbs/A) Source Total Use. Appfie. Applic. 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N N N Method N gat/A Tons 1000 gals tons 2779 2 Ul Fairview 4.10 3.50 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 173 0.00 59.99 0.00 209.95 2824 1 S21 Fairview 3.50 3.50 Fescue Pasture 3.9 Tons 8/1-•7/31 130 0 0 Broad. 130 0.00 6.42 0.00 22.48 2824 2 S21 Fairview 6.40 6.40 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 6.42 0.00 41.11 2984 5a U2 Fairview 13.20 13.20 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Irrig. 39 57.56 0.00 759.72 0.00 2984 5a Ul Fairview 13.20 13.20 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 16 0.00 5.62 0.00 74.15 2984 5a I12 Fairview 13.20 13.20 Soybeans,Manured,Double Crop 31 hu. 4/1-0/15 12) 0 0 Irrig. 85 125.44 0.00 1,655.81 0.00 2984 5a Ul Fairview 13.20 13.20 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 36 0.00 12.48 0.00 164.77 2984 5b UI State P 3.20 3.20 Small Grain,Silage 9.5 Tons 9/1-3/31 1i15 0 0 Broad. 63 0.00 21.85 0.00_ 69.9 2984 5b Ul State-P 3.20 3.20 Soybeans,Manured,Double Crop 36 bu. 4/1-9/15 140 0 0 Broad. 140 0.00 48.54 0.00 155.34 2984 6 U2 Codorus 5.20 5.20 1 Small Grain,Silage *10.0 9/1-3/31 0106 0 0 Irrig. 25 36.30 0.00 188.78 0.00 2984 6 U2 Codorus 5.20 5.20 Small Grain,Silage *10.0 9/1-3/31 ;106 0 0 Broad. 39 0.00 13.52 0.00 70.32 2984 6 U2 Codorus 5.20 5.20 Soybeans,Manured,Double Crop_ 46 bu. 4/1-9/15 177 0 0 Irrig. 68 100.35 0.00 521.83 0.00 2984 6 U1 Codorus 5.20 5.20 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Broad. 109 0.00 37.7 0.00 196.53 2984 7 U2 lCodorus 13.90 13.90 Small Grain,Silage *10.0 9/1-3/31 *106 0 0 Inyg. 34 49.59 0.00 689.24 0.00 2984 7 Ul Codorus 13.90 13.90 Small Grain,Silage *10.0 9/1-3/31 "106 0 0 Broad. 30 0.00 10.40 0.00 144.59 2984 7 U2 Codorus 13.90 13.90 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Irrig. 93 137.25 0.00 1,907.72 0.00 -2984 7 Ul Fodorus 13.90 13.90 Soybeans,Manured,Double Crop 4.6 bu. 4/1-9/15 177 0 0 Broad. 84 0.00 29.13 _ 0.00 404.85 2985 09 Ul Fairview 6.50 6.50 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 57 0.00 19.76 0.00 123.47 2985 09 Ul Fairview 6.50 6.501Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad- 124 0.00 43.00 0.00 279.47 2985 10 Ul Fairview 7.50 7.50 Small Grain,Silage 7.8 Tons 9/1-3/31 $7 0 0 Broad. 52 0.00 18.10 0.00 135.75 2985 10 Ul Fairview 7.50 7.50 Soybeans,Manured,Double Crop 30 bu. 4/1-9/15 117 0 0 Broad. 117 0.00 40.57 0.00 304.26 9306 1 Ul airview 11.70 11.70 Small Grain,Silage 8.3 Tons 9/1-3/31 92 ao 0 Broad. 55 0.00 19.14 0.00 223.94 f Database Version 3.1 Date Printed:3/20/2 WUT page 7 1 Waste Utilization Table Year 1 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (Ibs/A) PA ManureA Manure Manure I Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (Ibs/A) (lbs/A) (lbslA) Source Total Use. Applic. Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gavA Tons 1000 gals tons 9306 1 Ul Fairview 11.70 11.70 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 41.96 0.00 490.88 9313 4 Ul Clifford 20.30 19.20 Fescue Hay 4.8 Tons 8/1-7/31 213 0 0 Broad. 213 0.00 73.85 0.001 1,418.02 9504 3 Ul Fairview 7.20 5.30 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 19.14 0.00 101.44 9504 3 1 Ul airview 7.20 5.30 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 41.96 0.00 222.36 9674 3 UI Fairview 2.10 2.10 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 57 0.00 19.76 0.00 41,50 9674 3 U1 Fairview 2.10 2.10 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Bro rd. 124 0.00 43.00 (LOp 90_24 9965 1 Ul Fairview 36.90 36.90 Small Grain,Silage 8.3 Tons 9/I-3/31 92 0 0 Broad. 55 0.00 17.69 0.00 652.88 9965 1 Ul Fairview 36.90 36.90 Soybeans,Manured,Double Crop 31 bu. 4/1-9115 121 0 0 Broad. 121 0.00 38.78 0.00 1,431.14 --- 9965 2 S21 Fairview 22..70 22.70 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 182 0.00 8.99 0.00 204.12 Total Applied,1000 gallons 11,271 A4 Total Produced,1000 gallons 1,905.3 Balance,1000 gallons -9,366.0 Total Applied,tons 47,075.05 Total Produced,tons 10,904.00 Balance,tons -36,171.07 Notes: 1. In the tract column,-symbol means leased,otherwise,owned. 2. Symbol*means user entered data. f Database Version 3.1 Date Printed:3/20/2 WU`i'Page F 4 Waste Utilization Table Year 2 itrogeu Comm Res. Manure Liquid Solid. Liquid Solid PA Fert. (lbs/A) PA Manurr.A Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (arse) (Field) (Field) {lbs/A) (Ibs/A.) (]bs/A) Source Total Use. APpbc• Applic 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 0025 1 1 Ul Fairview 8.101 7.90 Small Grain,Silage 8.6 Tons 9/1-3131 95 0 0 Broad. 38 0.00 13.18 0.00 104.09 0025 1 Ul Fairview 8.10 7.90 Corn,Silage 19.0 *2/15-8/15 20' 0 20 Broad. 187 0.00 64.84 0.00 512.23 0025 2 1 Ul Fairview 6.90 5.50 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 31.56 0.06 173.54 0025 2 U1 Fairview 6.90 5.50 Fescue Pasture 4.1 Tons 8/1-7B] 137 0 0 Broad. 69 0.00 23.75 0.00 130.63 0106 1 Ul Masada 19.80 19.80 Small Grain,Silage 11.0 911-3/31 122 0 0 Broad. 49 0.00 16.92 0.00 335.03 0106 1 UI i Masada 19.80 19.80 Corn,Silage 24.0 *2/15-8/15 262 0 20 Broad. 242 0.00 83.91 0.00 1,661.42 0106 2 U1 Clifford 16.00 16.00 Small Grain,Silage 10.4 9/1-3/31 115 0 0 Broad. 69 0.00 23.92 0.00 382,.80 0106 2 Ul lifford 16.00 16.00 Soybeans,Manured,Double Crop 40 bu. 4/1-9115 156 0 0 Broad. 156 0.00 54.09 0.00 865.46 0106 3 S21 Masada 13.10 13.10 Fescue Pasture 4.3 Tons 8/1-7/31 143 0 0 Broad. 143 0.00 7.07 0.00 92.55 0106 4 U] Riverview-P 6.90 6.90 Small Grain,Silage 9.0 Tons 9/1-3/31 Ion 0 0 Broad. 40 0.00 13.87 0.00 95.70 0106 4 U] Riverview-P 6.90 6.90 Com,Silage _ 22.0 *2/15-8/15 240 0 20 Broad. 220 0.00 76.28 0.00 526.35 01 66 5 U1 Fairview 25.70 25.70 Small Grain,Silage 8.6 Tons 9/1-3B 1 9$ 0 0 Broad. 38 0.00 ,13.18 0.00 338.6 0106 5 U1 Fairview 25.70 25.70 Corn,Silage 19.0 *2/15-8/15 207 0 20 Broad. 187 0.00 64.84 0.00 11666.38 0106 6 U1 Fairview 51.60 49.00 Fescue Hay 4.1 Tons 8/1-7/31 i R2 0 0 Broad. 91 0.00 31.56 0.00 1,546.10 0106 6 Ul Fairview 51.60 49.00 Fescue Pasture 4.1 Tons 8/1-7B1 137 0 0 Broad. 69 0.00 23.75 0.00 1,163.8 0246 1 S21 Fairview 6.90 6.40 Fescue Hay 3.9 Tons 8/1-7B 1 173 0 0 Broad. 173 0.00 8.55 0.00 54.70 0246 5 S21 Fairview 12.35 12.30 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 120 0.001 5.93 0.00 72.9 0250 1 S21 Riverview-P 1.90 1.90 Fescue Hay 4.5 Tons 8/1-7/31 200 0 0 Broad. 200 0.00 9.88 0.00 18.77 0250 2 S21 C;odonrs 1.20 1.20 Fescue Hay 4.5 Tons 8/1-7/31 190 0 0 Broad. 190 0.00 9.39 0.00 11.26 0250 3 S21 Codorus 2.30 2.30 Fescue Hay 4.4 Tons 8/1-7/31 196 0 0 Broad. 186 0.00 9.19 0.00 21.14 0250 4 521 Fairview 3.60 3.601Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Brad. 182 O.OU 8.99 0.00 32.37 0250 5 S21 Fairview 1.30 1.10 Fescue Hay 4.3 Tons 8/1-7/31 191 0 U 1 Broad. 191 0.00 9.4 0.00 10.38 Database Version 3.1 Date Printed:3/20/2 WTJT'Page c 1 Waste Utilization Table Year 2 Titrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/.A) PA MamxeA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Regd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (Ibs/A) (lbs/A) Source Total Use. Applic. Applic., 1000 Tract Field ID Soil Series Acres Acres Crap RYE Period N N N Method N gal/A Tons 1000 gals tons 0250 6 1 S21 Fairview 5.00 2.20 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 160 0.00 7.91 0.00 17.3 0250 7 1 S21 Codorus 2.90 2.40 Fescue Hay 4.4 Tons 8/1-7/31 186 0 0 Broad. 186 0.00 9.19 0.00 22.06 0250 8 S21 Woolwine 7.50 6.20 Fescue Hay 3.5'Tons 8/1-7/31 155 0 0 Broad. 155 0.00 7.66 0.00 47.48 0258 1 Ul Fairview 35.60 35.60 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad, 37 0.00 11.80 0.00 419.92 0258 1 1 Ui Fairview 35.60 35.60 Corn,Silage 18.4 *2/15-8/15 201 0 20 Broad. 181 0.00 58.02 0.00 2,065.37 0259 2 Ul 4-airview 3.60 3.60 Small Grain,Silage 7.8 Tons 9/1-3/31 97 0 0 Broad. 35 0.00 12.07 0.00 43.44 0258 2 U1 Fairview 3.60 3.60 Corn,Silage 17.4 *2/15-8/15 190 0 20 Broad. 170 0.00 58.95 0.00 212.20 0258 3 U1 Fairview 13.30 12.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 37 0.00 11.80 0.00 146.26 0258 3 Ul Fairview 13.30 12.40 Corn,Silage 18.4 *2/15-8/15 201 0 20 Broad. 181 0.00 58.02 0.00 719.40 0269 1 f21 Fairview 25.70 25.10 Fescue Pasture 3.9 Tons 8/1-7/31 00 0 0 Broad. 130 0.00 6.42 0.00 161.22 0269 2A S21 Fairview 12.40 12.20 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 4.49 0.00 54.85 0269 2A S21 Fairview 12.40 12.20 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 41.29 0269 2B S21 Fairview 9.40 8.40 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 33.20 0269 2B S21 Fairview 9.40 8.40 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 24.90 0269 4 S21 Fairview 4.10 3.80 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 '0.00 15.02 0269 4 S21 Fairview 4.10 3.80 Fescue Pasture 3.6 Tons 8/1-7131 120 0 0 Broad. 60 0.001 2.96 0.00 11.27 0269 5 S21 Fairview 17.10 17.10 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 4.49 0.00 76.88 0269 5 S21 Fairview 17.10 17.10 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 57.88 0271 3 U2 Codorus 5.10 5.00 Small Grain,Silage *10.0 9/1-3/31 •106 0 0 Irrig. 20 28.93 0.00 144.63 0.00 0271 3 Ul Codorus 5.10 5.00 Small Grain,Silage *10.0 9/1-3/31 *106 0 0 Broad. 23 0.00 7.90 0.00 39.53 0271 3 U2 Codorus 5.10 5.00 COm,Silage 28.0 *2/15-8/15 291 0 20 Irrig. 125 194.47 0.00 922.36 0.00 0271 3 Ul .odorus 5.10 5.00 Corn,Silage 28.0 *2/15-8/15 291 0 20 Braid. 146 0.00 50.62 0.00 253,1 F Database Version 3.1 Date Printed:3/20/2 WUT Page 1 14 Waste Utilization Table Year 2 Nitrogen Cornet Res. Manure Liquid Solid Liquid Solid PA Pert. lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (lbs/A) Source Total Use. APplic• APp9c. 1000 Tract Field Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tans 0271 4 1 U2 Fairview 13.40 13.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Irrig, 17 25.38 0.00 340.13 0.00 0271 4 Ul Fairview 13.40 13.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 20 0.00 6.80 0,00 91.07 0271 4 U2 Fairview 13.40 13.40 Corn,Silage 18.4 *2115-8/15 201 0 20 brig. 83 122.49 0.00 1,641.35 0.00 0271 4 UI Fairview 13.40 13.40 Corn,Silage 18.4 *2/15-8/15 201 0 20 Broad. 98 0.00 33.98 0.00 455.33 1299 1 Ul Clifford 64.50 62.00 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 48 0.00 16.64 0.00 1,031.89 1299 1 Ul Clifford 64.50 62.00 Cam,Silage 22.5 *2/15-8115 245 0 20 Broad. 225 0.00 79.02 0.00 4,836.98 1319 1 Ul Riverview-P 13.30 13.30 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 40 0.00 13.87 0.00 184.46 1319 1 UI Riverview-P 13.30 13.30 Corn,Silage _ 22.0 *2/15-8/15 240 0 20 Broad. 220 0.00 76.28 0.00 1,014.55 1351 1 Ul Riverview-P 7.00 6.90 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 40 0.00 13.87 0.00 95.70 1351 1 UI Riverview-P 7.00 6.90 Corn,Silage 22.0 *2/15-8/15 240 0 20 Broad. 220 0.00 76.28 _ 0.00 526.35 1351 3A Ul Riverview-P 4.60 4.60 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 40 0.00 13.87 0.00 63.80 1351 3A Ul Riverview-P 4.60 4.60 Corn,Silage 22.0 *2/15-8/15 2.10 0 20 Broad. 220 0.00 76.28 0.00 350.90 1351 3B Ul Riverview-P' 11.80 10.80 Fescue Pasture 4.3 Tons 8/1-7/31 143 0 0 Broad. 143 0.00 49.58 0.00 535.50 1351 4 U1 Buncombe 10.00 10.00 Small Grain,Silage 5.0 Tons 91 1-3/31 56 0 0 Broad. 22 0.00 7.77 0.00 77.67 1351 4 UI Buncombe 1.0.00 10.00 Corn,Silage 10.0 *2/15-•8/15 109 0 20 Broad. 8 0.00 30.86 0.00 308.60 1351 5 Ul Fairview 8.80 8.80 Small Grain,Silage 9.3 Tons 9/1-3/31 92 0 0 Broad.1 37 0.00 12.76 0.00 112.29 1351 5 U1 Fairview 8.80 8.80 Corn,Silage 18.4 *2/15-8/15 201 0 20 Broad. i81 0.00 62.76 0.00 552.28 15.13 3 Ul It airview 19.30 18.50 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 37 0.00 12..76 0.00 236.06 151.3 3 UI Fairview 19.30 18.50 Corn,Silage 18.4 *2/15-8/15 201 0 20 Broad. 181 0.00 62.76 0.00 1,161.05 1513 4 UI Fairview 2.60 2.00 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad.1 38 0.00 13.18 0.00 26.35 1513 4 Ill Fairview 2.60 2.00 Corn,Silage 19.0 *2/15-8/15 207 0 20 Broad. 187 0.00 64.84 0.00 129.68 1513 5 Ul Codorus 23.90 2-3.70 Small Grain,Silage *10.0 9/1-3/31 *106TO 0 Broad. 42 0.00 14.70 0.00 348.43 f Database Version 3.1 Date Printed:3/20/2 WUT Page 1 14 Waste Utilization Table Year 2 Nitrogen Carom Res. Manua; "Liquid Solid Liquid Solid PA Fert. Obs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Rod Applied Applied (acre) (acre) (Field) (Field) (Ibs/A) (Ibs/A) (Ibs/A) Source Total Use. APplic• Applic. 1000 Tract Field ID 1 Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 1513 5 Ul Codorus 23.90 23.70 Com,Silage 28.0 *2/15-8/15 291 0 20 Broad. 271 0.00 93.97 0.00 2,226.99 1619 1 821 Fairview 12.70 12.70 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 4.49 0.00 57.10 1619 1 S21 Fairview 12.70 12.70 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 42.98 1619 2 S21 Fairview 13.50 13.50 Fescue Hay 4.1 Tons 8/1-7131 182 0 0 Broad. 91 0.00 4.49 OAO 60.69 1619 2 S21 Fairview 13.50 13..50 Fescue Pasture 4.1 Tons 811-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 45.69 1619 3 S21 Buncombe 7.00 7.00 Fescue Hay 3.0 Tons 8/1"•7/31 133 0 0 Broad. 67 0.00 3.29 0.00 23.00 1619 3 S21 Buncombe 7.00 7.00 Fescue Pasture 3.0 Tons 8/1-7/31 100 0 0 Broad. 50 0.00 2.47 0.00 17.2 1619 4 S21 Fairview 23.60 23.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.001 4.28 0.001 100.86 1619 4 S21 Fairview 23.60 23.60 Fescue Pasture 3.9 Tons 8/1-7/31 L 30 0 0 Broad. 65 0.00 3.21 0.00 75.79 1619 5 S21 Fairview 15.00 15.00 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 .59.2 1619 5 S21 Fairview 15.00 15.00 Fescue Pasture 3.6 Tons 9/1-7/31 120 0 0 Broad. 60 _0.00 2.96 0.00 44.47 1619 6 S21 Masada 4.60 4.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 19.66 1619 6 S21 Masada 4.60 4.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 14.77 1619 7 S21 Riverview-P 4.70 4.70 Fescue Hay 4.5 Tons 8/1-7/31 200 0 0 Broad. 100 0.001 4.94 0.00 23.22 1619 7 S21 Riverview-P 4.70 4.70 Fescue Pasture 4.5 Tons 8/1-7/31 150 0 0 Broad. 75 0.00 3.70 0.00 17.42 1619 8 S21 Fairview 6.90 6.90 Fescue Hay _ 3.1 Tons 8/1-7/31 138 0 0 Broad. 69 0.00 3.41 0.00 23.52 1619 8 S21 Fairview 6.90 6.90 Fescue Pasture 3.1 Tons 8/1-7/31 103 0 0 Broad. 52 0.00 2.55 0.00 17.56 1619 9 S21 Rogue-P 21.10 2 1.10 Fescue Hay 4.4 Tons 8/1.7/31 195 0 0 Broad. 98 0.00 4.82 0.00 101.64 1619 9 S21 Dogue-P 21.10 21.10 Fescue Pasture 4.4 Tons 8/1-7/31 l47 0 0 Broad. 74 0.00 3.63 0.00 '76.63 1619 1.0 S21 lFairview 7.10 7.10 Fescue Hai' 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 30.34 1619 10 S21 Fairview 7.10 7.10 Fescue Pasture 3.9 Tons 1 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 22.80 1619 11 S21 airview 7.80 7.70 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.951 0.00 30.43 6 Database Version 3.1 Date Printed: 3/20/2 VVgUT Page 1 14 Waste Utilization'fable Year 2 Nitrogen Comm. Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pphed Applied Applied Applied Rod Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) Obs/A) Source Total Use. Applic. Applic. 1000 Tract Field 19) Soil Series Acres Acres Crop RYE Period N N N Method N gal/A. Tons 1000 gals tons 1619 11 S21 Fairview 7.80 7.70 Fescue Pasture 3.6'rons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 22.83 1619 12 S21 Fairview 1 4.60 4.30 Fescue Hay 3.9 Tons 8/1-7/31 l 73 0 0 Broad. 87 0.00 4.28 0.00 18.38 1619 12 S21 Fairview 4.60 4.30.Fescue Pasture 3.9 Tons 8/1•-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 13.81 1619 13 S21 Fairview 2..20 2.20 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 8.69 1619 13 S21 IFairview 2.20 2.20 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 6.52 1643 2 S21 Fairview 21.20 19.60 Fescue May 4.3 Tons R/1-7/31 l91 0 0 Broad. 191 0.00 9.44 0.00 184.96 1643 3 Ul Fairview 67.10 64.10 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 137 0.00 47.50 0.00 3,044.94 1643 5 Ul Riverview-P 11.60 11.00.Fescue Pasture 4.5 Tons 8/1-7/31 150 0 0 Broad. 150 0.00 52.01 0.00 572.12 1643 6 Ul Fairview 44.70 41.90 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 45.08 0.00 1,888.68 1656 1 Ul Fairview 22.10 21.70 Small Grain,Silage 7.8 Tons 9/1.3/31 87 0 0 Broad. 35 0.00 12.07 0.00 261.84 1656 1 Ul lairview 22.10 21.70 Corn,Silage 17.4 *2/15-8/15 190 0 20 Broad. 170 0.00 58.95 0.00 1,279.11 1656 2 U1 Clifford 10.10 10.00 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 48 0.00 16.64 0.00 166.43 1656 2 Ul Clifford 10.10 t0.00 Corn,Silage 22.5 *2/15-8/15 245 0 20 Broad.. 225 0.00 78.02 0.00 780.16 1656 4 Ul Clifford 8.60 6.80 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 48 0.00 16.64 0.00 113.18 1656 4 U1 Clifford 8.60 6.80 Com,Silage 22.5 *2/15-8/15 245 0 20 Broad. 225 0.00 78.02 0.00 530.51 1656 5 Ul Clifford 10.40 9.80 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 48 0.00 16.64 0.00 163.10 1656 5 Ul Clifford 10.40 9.80 Corn,Silage 22.5 *2/15-8/15 245 0 20 Broad. 225 0.00 78.02 0.00 764.55 1657 1 S21 Fairview 41.10 40.00 Fescue Hay 3.9 Tons 9/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 170.95 1657 1 S21 Fairview 41.10 40.00 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 128.46 1683 2 Ul lFairview 21.60 19.40 Small Grain,Silage 8.3 Tons 9/1•-3/31 Q2 0 0 Broad. 37 0.00 12.76 0.00 247.54 1683 2 Ul Fairview 21.60 19.40 Com,Silage 18.4 *2/15-8/15 201 0 20 Broad. 181 0.00 62.76 0.00 1,217.53 1684 4 U1 Fairview 31.70 28.00 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 173 0.00 59.99 0.00 1,679.59 f Database Version 3.1 Date Printed:3/20/2 VJU T Page 1 14 Waste Utilization Fatale Year 2 iitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fort. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient ppHed Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (lbs/A) Source Total Use. Applic. Applic. 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 1746 1 1 S21 Fairview 2.50 2.50 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 182 0.00 8.99 0.00 22.48 1746 2 Ul Fairview 11.40 9.70 Small Grain,Silage 8.6 Tons 9/1-3/31. 95 0 0. Broad. 38 0.00 13.18 0.00 127.81 1746 2 U1 Fairview 11.40 9.70 Com,Silage 19.0 *2/15-8/15 207 1 0 20 Broad. 187 0.00 64.84 0.00 628.95 1754 1 Ul Clifford 8.40 7.40 Small Grain,Silage 10.4 9/1•-3/31 115 0 0 Broad. 46 0.00 15.95 0.00 118.03 1754 1 Ul Clifford 8.40 7.401 Com,Silage 21.9 *2/15-8/15 239 0 20 Broad. 219 0.00 75.94 0.00 561.92 1950 1 S21 Fairview 14.20 13.50 Fescue Pasture 4.1 Ton. 8/1-7/31 137 0 0 Rrnud. 137 0.00 6.77 0.00 91.39 1981 1 S21 Clifford 4.40 4.10 Fescue Hay 4.6 Tons 8/1-7/31 204 0 0 Broad. 102 0.00 5.04 0.00 20.66 1981 1 S21 Clifford 4.40 4.10 Fescue Pasture 4.6 Tons 8/1-7/31 153 0 0 Broad. 77 0.00 3.78 0.00 15.49 1991 2 S21 Fairview 70.00 67.00 Fescue Hay 3.6 Tons 8/1-7/31 180 0 0 Broad. 80 0.00 3.95 0.00 264.82 1981 2 S21 Fairview 70.00 67.00 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 6 0.00 2.96 0.00 198.62 2759 1 U2 Fairview 18.90 18.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Iffig. 61 95.39 0.0 1 1,774.31 0.0 2759 1 Ul Fairview 18.90 18.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 26 0.00 8.34 0.00 155.01 2759 1 U2 Fairview 18.90 18.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Iffig. 46 71.74 0.00 1,334.40 0.00 2759 1 Ul airview 18.90 18.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 20 0.00 6.25 0.00 116.25 2779 1 Ul. Fairview 9.60 9.00 Small Grain,Silage 7.8 Tons 9/1-3/31 87 0 0 Broad. 35 0.00 12.07 0.00 108.60 2779 1 Ul Fairview 9.60 9.00 Corn,Silage 17.4 *2/15-8/15 190 0 20 Broad.. 170 0.00 58.95 0.00 530.51 2779 2 U1 Fairview 4.10 3.50 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 173 0.00 59.99 0.00 209.95 2824 1 S21 Fairview 3.50 3.50 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 6.42 0.00 22.48 2824 2 S21 Fairview 6.40 6.40 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 6.42 0.00 41.11 2984 5a U2 Fairview 13.20 13.20 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Iffig. 26 38.37 0.00 506.481 0.00 2984 5a Ul Fairview 13.20 13.20 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. I 0.00 3.74 0.00 49.43 2984 5a U2 Fairview 13.20 13.20 Corn,Silage 18.4 *2115-8/15 201 0 20 Irrig. 127 187.42 0.00 2,473.98 0.00 f Database Version 3.1 Date Printed:3/20/2 WUT Page 1 14 Waste Utilization Table Year 2 litrogen Comm lies. Manure liquid Sol.id liquid Solid PA Fort. (lbs/A) PA IvlanureA Manure Manure Manure Nutrient Nutrient Nutrient pphed Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) Qbs/A) Obs/A) ObsiA) Source Total Use. Applic, Applic, 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1003 gals tons 2984 5a Ul Fairview 13.20 13.20 Corn,Silage 18.4 *2/15-8/15 201 0 20 Broad. 54 0.00 18.72 0.00 247.15 2984 5b Ul State-P 3.20 3.20 Small Grain,Silage 9.5 Tons 9/1-3/31 105 0 0 Broad. 421 0.00 14.561 0.00 46.6 2984 5b Ul State-P 3.20 3.20 Corn,Silage 21.9 *2115-8/15 239 0 20 Broad. 219 0.00 75.94 0.00 242.99 2984 6 U2 Codorus 5.20 5.20 Small Grain,Silage *10.0 9/1-3/31 •l06 0 0 Irrig. 16 .24.20 0.00 125.85 0.00 2984 6 L1] Codorus 5.20 5.20 Small Grain,Silage *10.0 9/1-3/31 106 0 0 Broad. 26 0.00 9.02 0.00 46.88 2984 6 U2 Codorus 5.20 5.20 Corn,Silage 28.0 *2115-9115 201 0 20 brig. 104 153.49 0.00 799.10 0.06 2984 6 U1 odonis 5.20 5.20 Corn,Silage 28.0 *2/15-8/15 291 0 20 Broad. 167 0.00 57.91 0.00 301.11 2984 7 U2 Codorus 13.90 13.90 Small Grain,Silage *10.0 9/1-3/31 °106 0 0 brig. 22 33.06 0.00 459.49 0.00 2984 7 Ul Codorus 13.90 13.90 Small Grain,Silage *10.0 9/1-3/31 1106 0 0 Broad. 20 0.00 6.94 0.00 96.39 2984 7 U2 Codorus 13.90 13.90 Corn,Silage 28.0 *2/15-8/15 291 0 20 Irrig. 142 209.56 0.00 2,912.87 0.00 2984 7 Ul Codorus 13.90 13.90 Corn,Silage 28.0 *2/15-8/15 291 0 20 Broad. 129 0.001 44.73 0.00 62.1.73 2985 09 U1 Fairview 6.50 6.50 Small Grain,Silage 8.6 Tons 9/1-3/31 9, 0 0 Broad. 38 0.00 13.18 0.00 85.64 2985 09 Ul Fairview 6.50 6.50 Corn,Silage 19.0 *2/15-8/15 207 0 20 Broad, 187 0.00 64.84 0.00 421.46 2985 10 Ul Fairview 7.50 7.50 Small Grain,Silage 7.8 Tons 9/1-3/31 87 1 0 0 Broad. 35 0.00 12.07 0.00 90.50 2985 10 Ul Fairview 7.50 7.50 Corn,Silage 17.4 *2/15-8/15 190 0 20 Broad. 170 0.00 58.95 0.00 442.09 9306 1 Ul Fairview 11.70 11.70 Small Grain,Silage 8.3 Torts 9/1-3/31 92 0 0 Broad. 37 0.00 12.76 0.00 149.29 9306 1 Ul Fairview 11.70 11.70 Corn,Silage 18.4 *2/15-8/15 201 0 20 Broad. 181 0.00 62.76 0.00 734.28 9313 4 Ul Clifford 20.30 19.20 Fescue Hay 4.8Tons 8/1-7/31 213 0 0 Broad.. 213 0.00 73.85 0.001 1,418.02 9504 3 U1 Fairview 7.20 5.30 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 37 0.00 12.76 0.00 67.63 9504 3 U1 lFairview 7.20 5.30 Com,Silage 18.4 *2/15-8/15 201 0 20 Broad. 181 0.00 62.76 0.00 332.62 9674 3 Ul Fairview 2.10 2.10 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 38 0.00 13.18 0.00 27.67 9674 3 Ul Fairview 2.10 2.10 Com,Silage 19.0 *2/15-8(15 207 0 20 Broad. ➢87 -0.00 b4.84 0.00 136.16 F Database Version 3,1 Date Printed:3/20/2 AfUT page l ,4 Waste Utillaation'fable Year 2 itrcgen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (Ibs/A) PA ManureA Marron: Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (lbs/A) Source Total Use. Applic. Applic. 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N lei N Method N gal/A Tons 1000 gals tons 9965 1 Ul Fairview 36.90 36.90 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 37 0.00 11,80 0.00 435.2 9965 1 Ul Fairview 36.90 36.90 Com,Silage 18.4 *2/15-8/15 201 0 20 Broad. 181 0.00 58.D2 0.00 2,140.79, 9965 2 S21 Fairview 22.70 22.70 Fescue Hay 4.1 Tons 8/1-7131 192 0 0 Broad. 182 0.00 8.99 0.00 204.12 Total.Applied,1000 gallons 13,433.94 Total Produced,1000 gallons 1,905.38 Balance,1000 gallons -11,528.56 Total Applied,tons 54.385.80 Total Produced,tons 10,904.00 Balance,tons -43,481.80 Notes: 1. In the tract column,-symbol means leased,otherwise,owned. 2. Symbol*means user entered data. 6 Database Version 3.1 Date Printed:3/20/2 WLJT Page 1 14 Waste Utilization.'fable Year 3 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fort. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied. Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (ibs/A) (lbs/A) (lbs/A) Source Total Use. Apple. Applic. 1.000 Tract Field ID I Soil Series .Acres Acres Crop RYE Period N N N Meftd N gal/A Tons 1000 gals tons 0025 1 Ul Fairview 8.10 7.90 Small Grain,Silage 8.6 Tons 9/1-3/31 i15 0 0 1 Broad. 57 0.00 19.76 0.00 156.14 0025 1 Ul Fairview 8.10 7.90 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad. 124 0.00 43.00 0.00 339.66 0025 2 U1 Fairview 6.90 5.50 Fescue Hay 4.1 Tons 811-7/31 192 0 0 Broad. 91 0.00 31.56 0.00 173.54 0025 2 Ul Fairview 6.90 5.50 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 2.3.75 0.00 130.63 0106 1 Ul Masada 19.80 19.80 Small Grain,Silage 11.0 9/1-3/31 122 0 0 Broad. 73 0.00 25.38 0.00 502.55 0106 1 U1 Masada 19.80 19.80 Soybeans,Manured,Double Crop 40 hel. 411-9115 156 0 0 Broad. 156 0.00 54.09 0.00 1,071.00 0106 2 Ul Clifford 16.00 16.00 Fescue Hay 4,8 Tons 8/1-7/31 213 0 0 Broad. 107 0.00 36.92 0.00 590.84 0106 2 Ul Clifford 16.00 16.00 Com,Silage 21.9 *2/15-8/15 239 0 .20 Broad. 219 0.00 75.94 0.00 1,214.97 0106 3 S21 Masada 13.10 13.10 Fescue Pasture 4.3 Tons 8/1-7/31 143 0 0 Broad. 143 0.00 7.07 0.00 92.55 0106 4 Ul Riverview-P 6.90 6.90 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 60 0.00 20.80 0.00 143.55 0106 4 Ul Riverview-P 6.90 6.90 Soybeans,Manured,Double Crop 38 bu. 4/1-9/15 148 0 0 Broad. 148 0.00 51.32 0.00 354.09 0106 5 Ul Fairview 25.70 25.70 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 57 0.00 19.76 0.00 507.94 0106 5 Ul Fairview 25.70 25.70 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad. 124 0.00 4.3.00 0.0U 1,104.98 0106 6 Ul Fairview 51.60 49.00 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 31.56 0.00 1,546.10 0106 6 Ul Fairview 51.60 49.00 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 23.75 0.00 1,163.82 0246 1 S21 Fairview 690 6.40 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad 173 0.00 8.55 0.00 54.70 0246 5 S21 Fairview 12.35 12.30 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 120 0.00 5.93 0.00 72.92 0250 1 S21 Riverview-P 1.90 1.90 Fescue Hay 4.5 Tons 8/1-7/31 200 0 0 Broad. 200 0.00 9.88 0.00 18.77 0250 2 S21 Codorus 1.20 1.20 Fescue Hay 4.5 Tons 8/1-7/31 190 0 0 Broad. 190 0.00 9.39 0.00 11.26 0250 3 S21 Codorus 2.30 2.30 Fescue Hay 4.4 Tons 8/1 7/31 186 0 0 Broad. 186 0.00 9.19 0.00 21.14 0250 4 S21 Fairview 3.60 3.60 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 182 0.00 8.99 0.00. 32.37 T0250 5 S?.1 'airview 1.30 1.10 Fescue Hay 4.3 Tons 8/1-7/31 f 91 0 0 Broad. 191 0.00 9.44 0.00 10.38 6 Database Version 3.1 Date Printed:3/20/2 Vl/1JT Page 1 '4 Waste Utilization Table year.3 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA Manurrrl Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (ibs/A} (lbslA) Source Total Use. Apphc• Applic. 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 0250 6 1 S21 IFairview 5.00 2.20 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 160 0.00 7.91 0.00 17.39 0250 7 S21 Codorus 2.90 2.40 Fescue Hay 4.4 Tons 8/1-7/31 196 0 0 Broad. 186 0.00 9.19 0.00 22.06 0250 8 S21 Woolwine 1 7.50 6.20 Fescue Hay 3.5 Tons 8/1-7131 155 0 0 Broad. 155 0.00 7.66 0.00 47.48 0258 1 Ul Fairview 35.60 35.60 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 17.69 0.00 629.88 0258 1 Ul Fairview 35.60 35.60 Soybeans,Manured,Double Crop 31 bu. 4/1•0/15 121 0 0 Broad. 121 0.00 38.78 0.00 1,380.72 0258 2 1Il Fairview 3.60 3.60 Small Grain,Silage TR Tons 9/1-•3/31 R7 0 0 Broad. 52 0.00 18.10 0.00 65.16 0258 2 1 Ul Fairview 3.60 3.60 Soybeans,Manured,Double Crop 30 bu.. 4/1.9115 117 0 0 Broad. 117 0.00 40.57 0.00 146.05 0258 3 1 Ul Fairview 13.30 12.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 17.69 0.00 219.40 0258 3 Ul Fairview 13.30 12.40 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 38.78 0.00 480.92 0269 1 S21 Fairview 25.70 25.10 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 6.42 0.00 161.22 0269 2A S21 Fairview 12.40 12.20 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 91 0.00 4.491 0.00 54.85 0269 2A S21 Fairview 12.40 12.20 Fescue Past= 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 41.29 0269 2B S21 Fairview 9.40 8.40 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 33.20 0269 2B S21 Fairview 9.40 8.40 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 24.90 0269 4 S21. Fairview 4.10 3.80 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 1.5.02 0269 4 S21 Fairview 4.10 3.80 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 11.27 0269 5 S21 Fairview 17.10 17.10 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad.. 91 0.00 4.49 0.00 76.88 0269 5 S21 Fairview 17.10 17.10 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.38 0.00 57.88 0271 3 U2 Codorus 5.10 5.00 Small Grain,Silage *10.0 9/1-3/31 "106 0 0 brig. 29 43.39 0.00 216.94 0.00 0271 3 U1 Codorus 5.10 5.00 Small Grain,Silage *10.0 9/1-3/31 *l06 0 0 Broad. 34 0.00 11.86 0.00 59.29 0271 3 U2 Codorus 5.10 5.00 Soybeans,Manured,Double Crop 46 bu. 4/1-•9/15 177 0 0 Itrig. 82 121.01 0,00 605.07 0.00 0271 3 Ul Codorus 5.10 5.00 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Broad. 95 �0�.00 - 0.00 164.70 Database Version 3.1 Date.Printed:3/20/2 WUT Page 1 14 Waste Utilization Table Year 3 Nitrogen Comm Res. Manure Liquid Solid liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient ppiied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) pbs/A) (lbs/A) (lbs/A) Source Total Use. Applic. Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000,gals tons 0271 4 IJ2 Fairview 13.40 13.40 Small Grain,Silage 8.3'rons 9/1-3/31 92 0 0 brig. 26 38.07 0.00 510.20 0.00 0271 4 U1 Fairview 13.40 13.40 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 29 0.00 10,19 0.00 .136.60 0271 4 U2 Fairview 13.40 13.40 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 lrrig. 56 82.64 OAO 1.,107.42 0.00 0271 4 Ul airview 13.40 13.40 Soybeans,Manured,Double Crop 31 bu. 4/1••9/15 121 0 0 Broad. 65 0.00 22.54 0.00 302.01 1299 1 Ul Clifford 64.50 62.00 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 72 0.00 24.97 0.00 1,547.83 1299 1 U1 Clifford 64.50 62.00 Soybeans,Manured,Double Crop 41 bu. 4/1-9/1.5 1,Q 0 0 Broad. 159 0.00 55.13 0.00 3,418.1 1319 1 Ul Riverview-P 13.30 13.30 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad, 60 0.00 20.80 0.00 276.70 1319 1 Ul Riverview-P 13.30 13.30 Soybeans,Manured,Double Crop 38 bu. 4/1-9/1.5 148 0 0 Broad. 14$ 0.00 51.32 0.00 682.52 1351 1 U1 Riverview-P 7.00 6.90 Small Grain,Silage 9.0 Tons 9/1-3/31 1h0 0 0 Broad. 60 0.00 20.80 0.00 143.55 1351 1 Ul i Riverview-P 7.00 6.90 Soybeans,Manured,Double Crop 38 bu. 4/1-9/15 148 0 0 Broad. 148 0.00 51.32 0.00 354.09 1351 3A Ul Riverview-P 4.60 4.60 Small Grain,Silage 9.0 Tons 9/1-3/31 100 0 0 Broad. 60 0.00 20.80 0.00 95.70 1351 3A U1 Riverview-P 4.60 4.60 Soybeans,Manured,Double Crop 38 bu. 4/1-9/15 148 0 0 Broad. 148 0.00 51.32 0,00 236.06 1351 3B U1 Riverview-P 11.80 10.80 Fescue Pasture 4.3 Tons 8/1-7/31 143 0 0 Broad. 143 0.00 49.58 0.00 535.50 1351 4 Ul Buncombe 10.00 10.00 Small Grain,Silage _ 5.0 Tons 911-3/31 56 0 0 Broad, 34 0.00 11.65 0.00 116.50 1351 4 UT uncornbe 10.00 10.00 Soybeans,Manured,Double Crop 21 bu. 4/1-9115 82 0 0 Broad. 82 0.00 28.43 0.00 284.32 1351 5 Ul Fairview 8.80 8.80 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 19.14 0.00 168.43 1351 5 Ul Fairview 8.80 8.80 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 41.96 0.00 369.21 1513 3 U1 Fairview 19.30 18.50 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 19.141 0.001 354.09 1513 3 Ul Fairview 19.30 18.50 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 41.96 0.00 776.17 1513 4 Ul Fairview 2.60 2.00 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 57 0.00 19.76 0.00 39.53 1513 4 Ul Fairview 2.60 2.00 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad, 1241 0.00 43.00 0.00 85.99 1513 1 5 Ul Codorus 23. 00 23.70 Small Grain,Silage *10.0 9/1-3/31 *106 0 1 0 Broad, 64 0.00 22,05 0.00 522.64 6 Database Version 3.1 Date Printed:3/20/2 wur Page 1 `.4 Waste Utilization Table Year•3 Nitrogen Comm i Res, Manure Liquid Solid Liquid Solid PA -Fert. (lbs/A) PA ManurcA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) OWN Obs/A) (lbs/A) Source Total Use. APplic• Applie, 1000 Tract Field ID I Soil Series Acres Acres Crop RIVE Period N N N Method N gal/A Tons 1000 gals tons 1513 5 Ul Codorus 23.90 23.70 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Broad. 177 0.00 61.37 0.00 1,454.53 1619 1 S21 Fairview 12.70 12.70 Fescue Hay 4.1 Tons 811-7/31 182 0 0 Broad. 91 0.00 4.49 0.00 57.10 1619 1 S21 Fairview 12.70 12.70 Fescue Pasture 4.1 Tons 811-7/31 137 0 0 Broad. 69 6.00 3.38 0.00 42.98 1619 2 S21 Fairview 13.50 13.50 Fescue Hay 4.1'Pons 8/1-7/31 L 82 0 0 Broad. 91 0.00 4.49 .0.00 60.69 1619 2 S21 Fairview 13.50 1.3.50 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad. 69 0.00 3.39 0.00 45.69 1619 3 S21 Buncombe 7.00 7.00 Fescue Hay 3.0 Tons 8/1-7/31 1 133 0 1 0 Rrood. 67 0 00 3.2 0.00 23.00 l619 3 S21 Buncombe 7.00 7.00 Fescue Pasture 3.0 Tons 8/1-7/31 100 0 0 Broad. 50 0.00 2.47 0.00 17.29 1619 4 S21 Fairview 23.60 23.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 100.86 1619 4 S21 Fairview 23.60 23.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 75.79 1619 5 S21 Fairview 15.00 15.00 Fescue Hay 3.6 Tons 8/1-7/31 (b0 0 0 Broad. 80 0.00 3.95 0.00 59.29 1619 5 S21 Fairview 15.00 15.00 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 44.47 1619 6 821 Masada 4.60 4.60 Fescue Hay 3.9 Tons 8/1-7131 173 0 0 Broad. 87 0.00 Y 4.28 0.00 19.66 1619 6 S21 Masada 4.60 4.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 14.77 1619 7 S21 Riverview-P 4.70 4.70 Fescue Hay 4.5 Tons 8/1-7/31 200 0 0 Broad. 100 0.00 4.94 0.00 23.22 1619 7 S21. Riverview-P 4.70 4.70 Fescue Pasture 4.5 Torts 8/1-7/31 150 0 0 Broad. 75 0.00 3.70 0.00 17.42 1619 8 S21 Fairview 6.90 6.90 Fescue Hay 3.1 Tons 8/1-7/31 138 0 0 Broad. 69 0.00 3.41 0.00 23.52 1619 8 S21 Fairview 6.90 6.90 Fescue Pasture 3.1 Tons 8/1-7/31 103 0 0 Broad. 52 0.00 2.55 0.00 17.56 1619 9 S21 Dogue-P 21.10 2 1.10 Fescue Hay 4.4 Tons 8/1-7/31 195 0 0 Broad. 981 0.00 4.82 0.00 101.64 161.9 9 S2.1 Dogue-P 21.10 21.10 Fescue Pasture 4.4 Tons 8/1-7/31 147 0 0 Broad. 74 0.00 3.63 0.00 76.63 1619 10 S21 Fairview 7.10 7.10 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 30.34 1619 10 S21 Fairview 7.10 7.10 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 65 0.00 3.21 0.00 22.80 1619 11 S21 Eairview 7.80 7.70 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.00 3.95 0.00 30.43 6 Database Version 3.1 Date Printed:3/20/2' WUT Page 2 °4 Waste Utilization Table year.3 Nitrogen Comm Res- Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (lbs/A) Obs/A) (lbs/A) Source Total Use. Apphc• Applic. 1000 Tract Field ID Soil Series Acree Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 1619 11 S21 Fairview 7.80 7.70 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 22.83 1619 12 S21 Fairview 4.60 4.30 Fescue Hay 3.9 Tons 8/1-7/31 1 173 0 0 Broad. 87 0.00 4.28 0.00 18.38 1619 12 S21 Fairview 4.60 4.30 Fescue Pasture 3.9 Tons 8/1-7/31 1 130 0 0 Broad. 65 0.00 3.21 0.00 13.81 1619 13 S21 Fairview 2.20 2.20 Fescue Hay 3.6 Tons 8/1-7/31 160 0 0 Broad. 80 0.001 3.95 0.00 8.69 1619 13 S21 Fairview 2.20 2.20 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 6.52 1643 2 S21 Fairview 21.20 19.60 Fescue Hay 4.3 Tons 9/1-7/3) 101 0 0 Rroad, 101 0.00 0.44 0.00 184.96 1643 3 Ul Fairview 67.10 64.10 Fescue Pasture 4.1 Tons 8/1-7/31 137 0 0 Broad, 137 0.00 47.501 0.00 3,044.94 1643 5 Ul Riverview-P 11.60 11.00 Fescue Pasture 4.5 Tons 8/1-7/31 150 0 0 Broad. 150 0.00 52.01 0.00 572.1 1643 6 Ul Fairview 44.70 41.90 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 45.08 0.00 1,888.68 1656 1 Ul Fairview 22.10 21.70 Small Crain,Silage 7.8 Tons 9/1-3/31 87 0 0 Broad. 52 0.00 18.10 0,00 392.76 1656 1 Ul Fairview 22.10 21.70 Soybeans,Manured,Double Crop 30 bu. 4/1=9/15 l 17 0 0 Broad. 117 0.001 40.57 0.00 880.33 1656 2 Ul lifford 10.10 10.00 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 72 0.00 24.97 0.00 249.65 1656 2 Ul 'lifford 10.101 10.00 Soybeans,Manured,Double Crop 41 bu. 4/1-9/15 159 0 0 Broad. 159 0.00 55.13 0.00 551.31 1656 4 U1 Clifford 8.60 6.80 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad. 72 6.00 24.97 0.00 169.76 1656 4 Ul Clifford 8.60 6.80 Soybeans,Manured,Double Crop 41 bu. 4/1-9/15 159 0 0 Broad. 159 0.00 55.13 0.00 374.89 1656 .5 Ul lifford 10.40 9.80 Small Grain,Silage 10.8 9/1-3/31 120 0 0 Broad, 72 0.00 24.97 0.00 244.66 1656 5 U1 Clifford 10.40 9.80 Soybeans,Manured,Double Crop 41 but. 4/1-9/15 159 0 0 Broad. 159 0.00 55.13 0.00 540.29 1657 1. S21 Fairview_ 41.10 40.00 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 87 0.00 4.28 0.00 170.95 1657 1 S21 Fairview 41.10 40.00 Fescue Pasture 3.9 Tons 8/1-7/31 1.30 0 0 Broad. 65 0.001 3.21 0.00 128.46 1683 2 U1 Fairview 21.60 19.40 Small Grain,Silage 8.3'Tons 9/1-3/31 92 0 0 Broad. 55 0.00 19.14. 0.00 371.3 1683- 2 Ul Fairview 21.60 19.40 Soybeans,Manured,Double Crop 31 but. 4/1-9/15 i?1 01 0 Broad. 121 0.00 41.96 0.001 813.93 1684 4 U 1 Fairview 31.70 28.00 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 173 0.00 59.99 0.00 1,679.59 6 Database Version 3.1 Date Printed:3/2WT WLTT Page 2 "..4 Waste Utilization'fable Year 3 'itrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fort. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Req'd Applied Applied (acre) (acre) (Field) (Field) (ibs/A) (Ibs/A) (Ibs/A) Source Total Use. Applic. Applic. 1000 Tract Field ID I Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 1746 1 S21 l'airview 2.50 2.50 Fescue Hay 4.1 Tons 8/1-7/31 l82 0 0 Broad. 182 0.00 8.99 0.00 22.48 1746 2 Ul Fairview _ 11.40 9.70 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. 57 0.00 19.76 0.00 191.71 1746 2 Ul Fairview 11.40 9.70 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad. 1.24 0.00 43.00 0.001 417.06 1754 1 Ul i'!ifford 8.40 7.40 Small Grain,Silage 10.4 9/1-3/31 115 0 0 Broad. 69 0.00 23.92 0.00 177.0 1754 1 Ul F:lifford 8.40 7.40 Soybeans,Manured,Double Crop 40 bu. 4/1-9/15 116 0 0 Broad. 156 0.00 54.09 0.00 400.27 1950 1 S21 11,airview 14.20 13.50 Fescue Pasture 4.1 Tons 811-7131 1 137 0 0 Rroad. 137 0.001 6.77 0.00 91.38 1981 1 S21 I flbrd 4.40 4.10 Fescue Hay 4.6 Tons 8/1-7/31 204 0 0 Broad. 102 0.00 5.04 0.00 20.66 1981 1 S21 Clifford 4.40 4.10 Fescue Pasture 4.6 Tons 8/1-7/31 153 0 U Broad.1 77 0.00 3.78 0.00 15.49 1981 2 S21 Fairview 70.00 67.00 Fescue Hay 3.6 Tons 8/1-7/31 1.50 0 0 Broad. 80 0.00_3.95 0.001 264.82 1981 2 S21 Fairview 70.00 67.00 Fescue Pasture 3.6 Tons 8/1-7/31 120 0 0 Broad. 60 0.00 2.96 0.00 198.62 2759 1 , U2 Fairview 18.90 18.60 Fescue Hay 3.9 Tons 8/1-7/31 113 0 0 Irrig. 61 95.39 0.00 1,774.31 0.00 2759 _1 U1 Fairview 19.90 .18.60 Fescue Hay 3.9 Tons 8/1-7/31 173 0 U Broad, 26 0.00 8.34 0.00 155.01 2759 1 U2 Fairview 18.90 18.60 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 brig. 46 71.74 0.00 1,334.40 0.00 2759 I iJl Fairview 18.90 18.60 Fescue Pasture 3.9 Tons 8/1-7/31 13Q 0 0 Broad. 20 0.001 6.25 0.00 116.25 2779 1 Ul lFairview 9.60 9.00 Small Grain,Silage 7.8 Tons 9/1-3/31 87 0 0 Broad. 52 0.00 18.10 0.00 162.90 2779 I IJl Fairview 9.60 9.00 Soybeans,Manured,Double Crop 30 bu. 4/1-9/15 117 0 0 Broad. 1.17 0.00 -40.57 0.00 365.11 2779 2 Ul Fairview 4.10 3.50 Fescue Hay 3.9 Tons 8/1-7/31 173 0 0 Broad. 173 0.00 59.99 0.00 209.95 2824 1 S21 T airview 3.50 3.50 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 6.42_ 0.00 22.48 2824 2 S21 Fairview 6.40 6.40 Fescue Pasture 3.9 Tons 8/1-7/31 130 0 0 Broad. 130 0.00 6.4' 0.00 4I.11 2984 5a U2 Fairview 13.20 13.20 Small Grain,Silage 8..3 Tons 9/1-3/31 92 0 0 Irrig. 39 57.56 0.00 759.72 0.00 2984 5a Ut Fairview 13.20 13.20 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 16 0.00 5.62 0.00 7415 2984 5a U2 Fairview 13.20 13.20 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 brig. 85 125.44 0.00 I,655.81 0.00 6 Database Version 3.1 bate Printed.:3/20/21 VVUT page 2' °4 Waste Utilization'fable Year 3 Nitrogen Carnet Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/A.) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Rod Applied Applied (acre) (acre) (Field) (Field) (lbs/A) (lbs/A) (IbsfA) Source Total Use. Applic• Applic. Icoo Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N gal/A Tons 1000 gals tons 2984 5a Ul Fairview 13.20 13.20 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 36 0.00 12.48 0.00 164•.77 2984 5b lJl IState-P 3.20 3.20 Small Grain,Silage 9.S Tons 9/1-3/31 I Os 0 0 Broad. 63 0.00 21.85 0.00 64.77 90 2984 5b Ul State-P 3.20 3.20 Soybeans,Manured,Double Crop 36 bu.. 4/1-9/15 140 0 0 Broad, 140 0.00 48.54 0.001 155.34 2984 6 U2 Codorus 5.20 .5.20 Small Grain,Silage *10.0 9/1-3/31 IU6 0 0 Irrig. 25 36.30 0.00 198.78 0.0 2984 6 Ul I Oxlorus 5.20 5.20 Small Grain,Silage *10.0 9/1-3131 *106 0 0 Broad. 39 0.00 13.52 0.001 70.32 2984 6 U2 Codorus 5.20 5.20 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Irrig. 68 100.35 0.00 521.83 0.00 2984 6 UI Codorus 5,20 5.20 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Broad. 109 0.00 37.79 0.00 196.53 2984 7 U2 Cudorus 13.90 13.90 Small Grain,Silage *10.0 9/1-3/31 '106 0 0 Irrig. 34 49.59 0.00 689.24 0.00 2984 7 Ul Codorus 13.90 13.90 Small Grain,Silage *10.0 9/1-3/31 Y 106 0 0 Broad, 30 0.00 10.40 0.00 144.59 2984 7 U2 odorus 13.90 13.90 Soybeans,Manured,Double Crop 46 bu. 4/1-9/15 177 0 0 Irrig. 93 137.25 0.00 1,907.72 0.00 2984[ 7 U1 Codonrs 13.90 13.90 Soybeans,Manured,Double Crop _ 46 bu. 4/1-9..115 177 0 0 Broad. 84 0.00 29.13 0.00 404.85 2985 09 Ul Fairview 6.50 6.50 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad..1 57 0.00 19.76 0.00 128.47 2985 09 UI Fairview 6.50 6.50 Soybeans,Manured,Double Crop 32 bu. 4/1-9/15 124 0 0 Broad. 1.24 0.00 43.00 0.00 279.47 2985 10 U1 Fairview 7.50 7.50 Small Grain,Silage 7.8 Tons 9/1.361 87 0 0 Broad. 52 0.00 18.10 0.00 135.75 2985 10 Ul Fairview 7.50 7.50 Soybeans,Manured,Double Crop 30 bu. 4/1-9/15 117 0 0 Broad. 117 0.00 40.57 0.00 304.26 9306 1 U 1 Fairview 11.70 11.70 Small Grain,Silage 8.3 Tons 9/1-3/31 42 0 0 Broad. 55 0.00 19.14 0.00 223.94 9306 _1 UIFairview 11.70 11.70 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 41.96 0.00 490.88 9313 4 Ul Clifford 20.30 19.20 Fescue Hay 4.8 Tons 8/1-7/31 213 0 0 Broad. 213 0.00 73.85 0.00 1,418.02 9504 3 Ul Fairview 7.20 5.30 Small Grain,Silage 8.3 Tons 9/I-3/31 92 0 0 Broad. 55 0.00 19.14 0.00 101.44 9504 3 Ul Fairview 7.20 5.30 Soybeans,Manured,Double Crop 31 bu. 411-9/15 121 0 0 Broad. 121 0.00 41.96 0.00 222.36 9674 3 U1 Fairview 2.10 2.10 Small Grain,Silage 8.6 Tons 9/1-3/31 95 0 0 Broad. .57 0.00 19.7 0.00 41.50 9674 3 UI Fairview 2.10 2.10 Soybeans,Manured,Double Crop 32 bu. 4/1-9/I5 124 0 0 Broad. 124 0.00 43.00 0.00 90.2 6' Database Version 3.1 Date Printed:3,120/21 WUT Page 2 '4 Waste Utilization Table Year 3 Nitrogen Comm Res. Manure Liquid Solid Liquid Solid PA Fert. (lbs/A) PA ManureA Manure Manure Manure Nutrient Nutrient Nutrient pplied Applied Applied Applied Reqd Applied I Applied I (acre) (acre) (Field) (Field) Obs/A) (lbs/A) (tbs/A} Source Total Use. APphc• Applic. 1000 Tract Field ID Soil Series Acres Acres Crop RYE Period N N N Method N galiA Tons 1000 gals tons 9965 1 UI Fairview 36.90 36.90 Small Grain,Silage 8.3 Tons 9/1-3/31 92 0 0 Broad. 55 0.00 17,69 0.00 652.98 9965 1 Ul Fairview 36.90 36.90 Soybeans,Manured,Double Crop 31 bu. 4/1-9/15 121 0 0 Broad. 121 0.00 38.78 0.00 1,431.14 9965 2 S21 Fairview 22.70 2.2.70 Fescue Hay 4.1 Tons 8/1-7/31 182 0 0 Broad. 182 0.00 8.99 0.00 204.1 Total Applied,1000 gallons 11,271.44 Total Produced,1000 gallons 1,905.38 Balance,1000 gallons -9,366.06 Total Applied,tons 49.034.84 Total Produced,tons 10,904. 00 Balance,tons -37,130.84 Notes: 1. in the tract column, symbol means leased,otherwise,owned. 2. Symbol*means user entered data. 6 Database Version 3.1 Date Printed:3/20/2' WLJT Page 2 '4 The Irrigation Application Factors for each field in this plan are shown in the following table. Infiltration rate varies xith soils. If applying waste nutrients through an irrigation system,you must apply at a rate that will not result in runoff. This table provides the maximum application rate per hour that may be applied to each field selected to receive wastewater. It also lists the maximum application amount that each field may receive in any one application event. Irrigation Application Factors Application Rate Application Amount Tract Field Soil Series (inchesihour) (inches) 0271 3 Codorus 0.45 1.0 0271 4 Fairview F 0.45 1.0 2759 1 Fairview 0.45 1.0 2984 5a Fairview 0.45 1.0 2984 6 Codorus 0.45 1.0 2984 1 7 Codorus 0.45 1.0 AT 751 natahaca VP.rcinn 1 nata Printed 1i1)n;1m4 TAF Papa 1 rf 1 The Available Waste Storage Capacity table provides an estimate of the number of days of storage capacity available at the end of each month ofthe 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 W S a- a i Source Name Herman Dairy SIM Design Storage Capacity a s) Start Date 7/1 90 Plan Year Month Available Storage Capacity(Days) 1 1 90 1 2 90 1 3 90 1 4 60 1 5 29 1 6 90 1 7 90 1 8 90 1 9 90 1 10 90 1 11 60 1 12 29 2 1 49 2 2 90 2 3 90 2 4 90 2 5 59 2 6 29 2 7 59 2 8 90 2 9 90 2 10 90 2 11 90 2 12 59 3 1 90 3 2 90 632751 Database Version 3.1 Date Printed: 03-20-2014 Capacity Page 1 of 2 Axaflable Waste StoragaCamcity Source Name I Herman Dairy Slurry Design Storage Capacity(Days) Start Date 7/1 90 Plan Year Month Available Storage Capacity(Days) 3 3 90 3 4 60 3 5 29 3 6 90 3 7 90 3 8 90 3 9 90 3 10 90 3 11 60 3 12 29 *Available Storage Capacity is calculated as of the end of each month. 632751 Database Version 3.1 Date Printed: 03-20-2014 Capacity Page 2 of 2 Crop Notes The following crop note applies to field(s): 3, 7, 4,3B,5 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 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, 4, 5, 8e 1, 10, 11, 12, 13,2,2A,2B,3,4,5,6 Fescue: Piedmont Adaptation: Weil-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 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. MAR 2 8 2019 11Y prr-QUF'.P' H.rraiore4 @ cpn cIT.s s fo7; 632751 Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page 1 of 8 The following crop note applies to field(s): 6,3 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. The following crop note applies to field(s): 3, 5, 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 121bs.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): 1,3A,4 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. 632751 Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page 2 of 8 The following crop note applies to field(s): 09.. l, 10,2,3,4, 5,5a Corp.Silage:Piedmont and Mountains In the Piedmont,corn'shouid 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 3/44 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): 1,5b 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): 2,3, 7 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 ib/ac.,for drilled use 15 to 20 ib/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 200 lb/ac.N to pure-stand fescue for hay production;reduce N rates by 25%to 50%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. 632751 Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page 3 of 8 The following crop note applies to field(s): 3, 7, 9, 1 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 200 lb/ac.N to pure-stand fescue for hay production;reduce N rates by 25%to 50%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, 4, 5, 8, 1, 10, 11, 12, 13,2,.2A,2B,4, 5,6,8 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 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 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 200 lb/ac.N to pure-stand fescue for hay production;reduce N rates by 25%to 50%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): 6 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 200,lb/ac.N to pure-stand fescue for hay production;reduce N rates by 25%to 50%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. 632751 Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page" 4 of 8 The following crop note applies to field(s): 3,5,6,7 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 20-301bs/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): 1,3A,4 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. The following crop note applies to field(s):09, 1, 10,2,3,4, 5, Sa 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. 632751 Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page 5 of 8 The following crop note applies to field(s): 1,5b 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. The following crop note applies to field(s): 3, 5,6,7 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 l0%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 121bs.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. 632751 Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page 6 of 8 The following crop note applies to field(s): 1,3A,4 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): 09, 1, 10,2,3,4,5,5a 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 NQSU"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 121bs.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. 632751 ^Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page 7 of 8 The following crop note applies to fieldts j: 1,5b 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. 632751 Database Version 3.1 Date Printed: 03-20-2014 Crop Note Page 8 of 8 EMERGENCY ACTION DEAN PHONE NUMBERS DWQ _ EMERGENCY MANAGEMENT SYSTEM SWCD 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 frorrt 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 reasons)-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. 1 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 small sump or ditch away from the embankment to catch all seepage, put in a submersible pump, and pump back to lagoon. b. If holes are caused by burrowing animals. 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 Sheriffs 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. Contractors Name: b. Contractors Address: c. Contractors Phone: 2 December 13, 1996 6: Contact the technical specialist who certified the lagoon (MRCS. Consulting Engineer, etc.) 4 a. Name: 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. December 18. 1996 Dall•y Farm 'Waste Management Odor Control Cliecklist Soal cc _ C:Iusc —- lilllt's to A•lillinlize MOB- l--Site Specific➢"raclicca"", I ar:nslcad Dairy proclucliulr Fl VL^pli<livc or tvoodcd bufl'crs Recommended hest Inanngenlenl practices l�Good judlynerll 111141 corlinlon sense •--------.--- P=ctcd toffs cu•h�l,:llllcr-. ....Wcl Irnuurefo crcJ•sorSa, s-.. c - --- - - .--- --...._._.. _ c nr Much lai ••• _ . � rontolia drying will)proper veill Billion f4T Ituulfiie checks and macilcictlance oil walerurs, hydl��uts,pipes,stuck casks Ikddcd.creas Urine — ---p� Promote drying►dth proper veartiluflorl _ I Poi-al Illlcrobial decollillositloll Replace wd or inalture-covered bedding hluuure dry slacks • I il-lial nlicrobiall cleccnllpusiti011 I'rovidc liyuul drainaibc Ior stored nlallurc Sloruge lank ur basin 0 har•litil micr•tlbiul decomposition; f] Ifuilaui or ulid-level londing --- - surl:rce • Mixing while 111911g; Q 'I'nak covers • Aghulion when emplyiub 0 Bilsin surrace isms ofsolids; MiliillkC lot rullofrand liquid aiddidwis t� Agitate Duly prior to manure reniuvid _ __ O l°roved biological additives or oxidants 5culiue basin surfaces o pariisil ticicrubilll deconillosiliun O i.iduid drainuge from settlecl solili5 —� - l - ---- — - • Miming while filling b Relllove solids regularly AghWivn +vhcu emptying Aimunc,slurry or sludge •' Agitnlivn Wllcn silrcuc�ing C7/Soil injcctiun of s{urrylsluA6es — sprender outleis a YAWN gas emissions 0 Wash residual manure from spreader atllef lose ❑ Proven biologic.'ll ndlhllves or oxidants VI o Uncovered nrnuu'r, • Vuialilc gas eUl'rssiolls while l=) Soil injection of slurry/sludges � - — V Q0 slurry or sludge Oil licid drying ❑ Soil ipcorporntion widlin'Is firs surfaces C� Spread in thin uniform layers for rapid drying _ I'rovc_n biological sidclilivcs or oxidants � a FIusII fagks - • alioll of recycled Iagouli O Flush link covers; - --' —'—' liquid while Iauks are filling O L'slenei fill lines to near bottom of tanks with "IlO.-siplion Yews Outsidcdrairi collccliun Agitalinn cYuling+tiaslcwalcr -- O Box covers -- -- ------- or jimclioa boxes comcyouce AM('" November 11, 199o, pap Sisot rec C:lase Q31�5L s Iu,1'liltlnolze 04 m. -- - Lilt stations Agitation duriu6 sua lmik covers l i tank _ S(lc.Spccltic lAritrticcs T� ❑ Sump . filling and dtmyclown -End afdrainpipcs at AbiGitioit dttrius wasle'vatcr ❑ �xicald discharge point of pipes undcrnc;lth lilgaoll Conveyance I:lboort liquid level Lugu;m sarL:ccs • ,,tile gas enrlssioi►: Proper lagoon llduial capacity; — -- -- • Biological udxllig; Corrcet iriboon SIM(up proecdores; .... ..... ... .... ... � • .Jlglt:.iti_�ti........_.__....... �..lvQiui iu • u'fa�e�rc•i- -v !o s ulna ratio• --3_�----- -- ---- --=--=-- __���-._ L9� Minhtram agilaiisbn when pumping; fJ Mcchntlical aeration; _ ❑ Promi biulogical additives li rigaii-mi sprinkler •• High pressure agilatioir; - Irlilgalc on dry days witil little or uo wind; - -- -- --looazlcs ( . Whid drill / Minlnluitl recontlltended operating procedure; ® Ptimp inlake near lagoon liquid surface; ❑ P11111p 111:0ilt second slags lagoon; ! I".lash 1•csidaal maijure from pipes at eud•of _ slurry/sludge pumpings I)c�ld a;linlltls i• Carcass decompositiotl 1'toper disposillon o>Tcarctlsscs• -- -- -- ---� ---- — -- 5lanllinb�e:rici around • lmprolicr drainage; Grade and landscape suchthat -- lilcililics • Miclobaal ticcomposillon at away li•onl flacilitics crgmile matter A•lud l:-0c1:L'lI O11tO ID11b11C -; ii'ooi•ly iloaiutained access roiicls U Irarlll RcceSs road maintenance -- •-� - �"--- ----- --- ronds from fnrul access Additional 11ifortnaCi°11: _ Available Froui CniIIC Manure lU anageglCttl ; 000 RlilcIUMP Packet NCSU,County Lxlciision Center - - - - Dairy C-ducalional Unit Malinrc Malingcincul Systcm -Luke Wheeler Road Field Laboratory; E13AE 209-95 NCSU-BAE, Lagoon Design and Manabcineut for Mvestock Manure•I•rentn:cnt and Sloinge; Gr3AR 103-83 NCSU-DAE &I-magcmew of Dairy Wastewater; EBAL• 106-83 NCSU-IJAC Calibration of Manure mid Wns1e►valcr Application Equipotcnl; E13A1r Fact Shcci NCSU-DAG Nnlsauce Concerns in Animal Manure Management:Odors acid flies; PROM, 1995 Conference Proceedings Florida Cooperative Tstcnslott AAIUC- November 11, 19'1G, I'abc 7. Insect Go"brol Checklist for Animal Operations ------ Stitn•cc— __ -,- -- --�(�giae•_� - lbA<ll's to d✓uith•vl'Itisests ---'----- - ;--- ----.... .. . . .- --- Stle Specific I raclices 1 (jukl Systems - ••--- I;tu h Chtllcit Acctnnulathvn oCsolids -- - O Flush systent Is designed and oloctrijud - ----- sufricientty to remove nccunntltlled solids liomt gullets as designed. ' Ei--Kcmovci»•' v�mcctruraFt .. .. Lagmus andr MIS - -- . -C usted Sulids --- 6 s,settling bas(ns and Arts where hest breeding Is sipparcitt to ntiuinrizc Iltc crustlug of solids to a depth ofno more tltau G- _ 8 irtcltes over more thtnt 3Q%of'surface. Excessive Vcgcl:ttiv • I�+ccnying vcbcl:rtion - --- f �r;tittt,tin vegetative conUol along bamks of - Grotrth lagoons amd alllet inipoundinems to prevent _ acetuuu(ation of dectrying vegetative tmailer -�-`- - -_- --' ---_--- - -- - along tvalel's edge ott imputindmtcutrs perintcter. _ .__ Dry Systems �- - - -- Fccde s Iced Spill;�gc - -- --l Design.operalo told tnairtlaiu reed systems(c.g., - -- bankell and troughs)to miubn(z'e the r accut►tulaiiom ouccaying wastage. fie Clean uh sp(1litge on n roullnc basis(e.g.,7 - Ill day Interval during summen, 15-30 day Interval daring whiter). _ l'cecl Stooge a At cutritrlal"setts el teed residues Itedttce moisture tRecttnttilatiott%vitttiti artd mound inunedintc pterintctcr or teed storage areas by(usuring clrainage away from site andfor providing-adetlunte contarnrttetjl coveted bN for ltrcwcr's grain and shmilar high /m:oisturcgrain products). Ej hispect Car nud reiuove or break up accumulatcd solids lit rilicr strips around feed storage as needed. AMIC-November 11. 1996, 1':;ge i Solrrcc-- —Cause - _ -_ UMPS to Control I hsetls _ --- -Bile 5pccitic!'raclicesT - -- Aniul:d iJUldintt Arctls • Nccuuiui�iliunc ora:lirnt;l wastes lililtlinaic low areas 11lat h•nit lttoistluv alaula :ntd fccc!tv:astagc tcllcCS:ttld ulller locations Where Iyuste necuumbles:tnd distalbance by tnlfuulis is ntinimal. Ivlailtlain rence rotes and filter strips.wand :nlintnl huldi:lb areas to nliniruize acculnwaitions orwasics(i.e.,ihspecl ror and . . .... .... .... . . . . remove or break up nccutlndnte-j solids ns UiY R•icunue li:lrulliitb Accnitnihiliants or;minutl tv:tstcs tyf ltcntovc s lilla�;c Oil Itrnntine il�sis(e.g.,7- 10 ---� ~-- Syslen;s clay interval (filling sulrmtcr; 15-30 tiny inlcrval duril)&whl(cr)tvltctx Manures is funded for land appliention ar disposal. lvJ Provide for adequntc drai stage nlouud tnalnlre: ! stockpiles. Inspect ror;and rc►nove or brenk tap accumulated %vustes bt filter strips uroond stockpiles cold ---_ - —_ -- _ manure handling areas as heeded. For utttre inlilitil;llion caotact the Cooperative lixtctlslun Service.Uel>attmenl.or cotonloluby,Dox 761.3,North Cerolina Sinle University, - - itAcigh, MC,27695-7613. r Ah•IIr 'lvember 11. 19,96. Page 2 �..• . WUP Tract Maps . Tract, Field, and Irrigation Dull Listing Herman Dairy Farm Inc. Land Use 1 Tract or Field# Total Acres Broadcast Acres Iraciated Acres Landowner Tract 0026 Map 1 Weston Johnson&Anita H. Beach 1 8.1 7.9 Cropland 2 6.9 5.5 Hayland Tract 106 Map 3 Herman Dairy Farm 1 19.8 19.8 Cropland 2 16.0 16.0 Cropland/Hayland 3 13.1 13.1 Pastureland 4 6.9 6.9 Cropland 5 25.7 25.7 Cropland 6 51.6 49.0 Hayland/Pastureland Tract 246 Map 7 Irene S. Price 1 6.9 6.4 Hayland 5 12.35 12.3 Pastureland Tract 250 Map'S Irene S. Price 1 1.9 1.9 Hayland 2 1.2 1.2 Hayland 3 2.3 2.3 Hayland 4 3.6 3.6 Hayland 5 1.3 1.1 Hayland 6 5.0 2.2 Hayland 7 2.9 2.4 Hayland 8 7.5 6.2 Hayland Tract 258 Map 9 Herman Dairy Farm 1 35.6 35.6 Cropland 2 3.6 3.6 Cropland 3 13.3 12.4 Cropland Tract 269 Map 7 Ned,Rodney,&Kay Herman 1 25.7 21.1 Pastureland 2A 12.4 12.2 Hayland/Pastureland 26 9.4 8.4 Hayland/Pastureland 4 4.1 3.8 Hayland/Pastureland 5 17.1 17.1 Hayland/Pastureland Tract 271 Map 23 Herman Dairy Farm 3 5.1 5.0 6.0 Cropland 4 13.4 13.4 13.4 Cropland Tract 1299 Map 15 Adams Family&Dr.Glover 1 64.5 62.0 Cropland Page 1 of 4 Tract, Field, and Irrigation! Pull Listing Herman Dairy Farm Inc. Land Use/ Tract or Field# Total Acres Broadcast Acres Irri ated Acres Landowner Tract 1319 Map 13 Paul& Dena Collie, Mary Walker 1 13.3 13.3 Cropland Tract1351 Map 11 Gary R Walker&Nancy Walker 1 7.0 6.9 Cropland 3A 4.6 4.6 Cropland 313 11.8 10.8 Pastureland 4 10.0 10.0 Cropland 5 8.8 8.8 Cropland Tract 1513 Map 12 Rita Dejarnette 3 19.3 18.5 Cropland 4 2.6 2.0 Cropland 5 23.9 23.7 Cropland Tract 1619 Map 19 W L Barkley Estate 1 12.7 12.7 Hayland/Pastureland 2 13.5 13.5 Hayland/Pastureland 3 7.0 7.0 Hayland/Pastureland 4 23.6 23.6 Hayland/Pastureland 5 15.0 15.0 Hayland/Pastureland 6 4.6 4.6 Hayland/Pastureland 7 4.7 4.7 Hayland/Pastureland 8 6.9 6.9 Hayland/Pastureland 9 21.1 21.1 Hayland/Pastureland 10 7.1 7.1 Hayland/Pastureland 11 7.8 7.7 Hayland/Pastureland 12 4.6 4.3 Hayland/Pastureland 13 2.2 2.2 Hayland/Pastureland Tract 1643 Map 10 Louise Barnes Herman 2 21.2 19.6 Hayland 3 67.1 64:1 Pastureland 5 11.6 11.0 Pastureland 6 44.7 41.9 Pastureland Tract 1656 Map 5 Scott Stamey Dairy Farm 1 22.1 21.7 Cropland 2 10.1 10.0 Cropland 4 8.6 6:8 Cropland 5 10.4 9.8 Cropland Tract 1667 Map 21 Scott Stamey-Off Glass Rd. 1 41.1 40.0 Hayland/Pastureland Page 2 of 4 Tract, Field, and Irrigation Pull Listing Herman Dairy Farm Inc. Land Use Tract or Field# Total Acres Broadcast Acres Irrigated d Acres Landowner Tract 1683 Map 16 Herman D Shook 2 21.6 19.4 Cropland Tract 1684 Map 17 Herman D Shook 4 31.7 28.0 Hayland Tract 1746 Map 6 Pennell&Roberson 1 2.5 2.5 Hayland 2 11.4 9.7 Cropland Tract 1754 Map 18 Rachel Deal&Others 1 8.4 7.4 Cropland Tract 1960 Map 4 Lonnie W. Elder 1 14.2 13.5 Pastureland Tract 1981 Map 14 L.E. Herman 1 4.4 4.1 Hayland/Pastureland 2 70.0 67.0 Hayland/Pastureland Tract 2759 Map 22 Herman Dairy Farm 1 18.9 18.6 18.6 Hayland/Pastureland Tract 2779 Map 24 Kent&Rodney Herman 1 9.6 9.0 Cropland 2 4.1 3.5 Hayland Tract 2824 Map 20 W L Barkley Estate 1 3.5 3.5 Pastureland 2 6.4 6.4 Pastureland Tract 2984 Map 25 Herman Dairy Farm,Kent&Rodney 5a 13.2 13.2 13.2 Cropland 5k 3.2 3.2 Cropland 6 5.2 5.2 5.2 Cropland 7 13.9 13.9 13.9 Cropland Tract 2985 Map 25 Herman Dairy Farm,Arthur L Watts 9 6.5 6.5 Cropland 10 7.5 7.5 Cropland Tract 9306 Map 1 Sipe Bros. Partners 1 11.7 11.7 Cropland Page 3 of 4 Tract, Field, and Irrigation Pull Listing Herman Dairy Farm Inc. Land Use 1 Tract or Field# Total Acres Broadcast Acres Irrigated Acres Landowner Tract 9313 Map 2 Tommy D.Johnson 4 20.3 19.2 Hayland Tract 9504 Map 6 Wiseman,Adams,&Wilke 3 7.2 5.3 Cropland Tract 9674 Map 1 Sipe Family of NC LLC 3 2.1 2.1 Cropland Tract 9966 Map 9 Owen Teague 1 36.9 36.9 Cropland 2 22.7 22.7 Hayland The corresponding soil maps are placed directly behind the tract maps. Note: Tracts that show both broadcast and irrigated acres on the same field have two.different sources being applied to that field. That is why the acreage shows up twice. These are the irrigation fields for Herman Dairy. LJ H 3/24/09 Page 4 of 4 Herman Dairy Farm WUP Fields - Map 1 Tracts 26, 93069 & 9674 lowUSHWY64JU Ir I Ai T{. t` t . >� t •F `,►ii el T930 Field 1• �= T25 Field 1 f Legend T25 �f Minor Roads Field 2 Major Roads Hydrology 25'Stream Buffer 200'Dwelling Buffer Alexa! ail &Water Conservation District 1"=500' 250 500 1,000 1,500 2, Herman ®airy Farm WUP Fields - leap I Tracts 25, 9306, & 9614 01 -� l� ss HWY64-9D ....... _ _— !e. ¢ %V � Field 3 T9306 Field h I 1'25 Fiell 3 -� \P P L : ' r Legend T25' Minor Roads Fi'eld2 ' � ----- Major Roads Hydrology ` Q Soil Map Units N Alexal ail &Water Conservation District 1°'=500' 250 500 1,000 1,500 2,i A Herman Dairy Farm WUP FieWs - Map 2 Tracts 9313 � t ti fnVia , o N • 't 1 r r i f -�._ SR 1�2p � •. k Legend ! -Minor Roads Major Roads Hydrology ®200'Dwelling Buffer ¢ I p}} - .4 �� • ' -r. R1� N Alexa- oil &Water Conservation District V=500' 250 500 1,000 1,500 2,G Ak. Harman Dairy Farm WUP Fields - Map 2 Tracts 9313 T9313 Field 4 a f "�:• ate• �r -- sue - - Legend i��; f t ---Minor_Roads fit' ?» • l. s wa, 1 === Major Roads P' •I "1kr_t 0,� • - ;� •. !. Hydrology A r Soil Map Units N. Alexa, oil &Water Conservation District 1°'®500' 250 500 1,000 1,500 2,C A, Herman Dairy Farm WUP Fields - Map 3 Tract 106 .. r I Fe st. T106 Eel 6 - - A � AM T106 ���•, 4� ,r Flelci 4 4` T106 "� THREE FORKS CHURCH Ra•SR 1313 I r 1 _ Field 3 �• z ,< Legend 25'Stream Buffer yy 4 Hydrology — Minor—Roads ` N l` A Alexar Al &Water Conservation District V=600° 300 600 1,200 1,800 2,4. Herman ®airy Farm WUP Fields o Map 3 Tract 106 �,'. �.."i Field � •� '�` r,yes� -,•-qs � - •.-�' �� �'� 4 - •► ._ Fieldl .��.• _^ ! t4, ► T�1OF ^THREE FORKS CHURCH RD�M� Meld . Legend , -- Minor Roads Major Roads Hydrology Soil Map Units N Alexai ail &Water Conservation District V= 600' 0 300 600 1,200 1,$00 2. Herman ®airy Farm WUP Fields - Map 4 Tract 1950 7- 4 IPP 114 Field 1 row _ — '•� -Minor Roads -- Major Roads 5 Hydrology 200'Dwelling Buffer N Alexar .il &Water Conservation District V=400' 200 400 800 1,200 1 r ` Herman ®airy Farm WUP Fields © Map 4 Tract 1950 V,.r ---•--"-' �. - '� � - -� pup _: -- -.•-__ - - rw OAK ^i - -• - �S Q +• -• _ �^ v IL T IRS Fieldl VOV ' a '-'`.� � "ter' -'• .. ai•. #•syr,• +!'.,. - pp '' Legend A. Minor Roads Major Roads Hydrology Soil Map Units N Alexar ail &Water Conservation District 1"=400' 771�- r 200 400 800 11200 Harman Dairy WUP Fields - Map 5 Tract 1-656 T1656 Fiel 1 ----� �� ' T p. i' a WALKER FOUNDRY LP•SR 1126 l V ti t it -- a f 16�6 x Legend Hydrology +< Major Roads If Minor Roads t 25'Stream Buffer 200'Dwelling Buffer N Alexar )il &Water Conservation District 1°°=500' —1 Fe, 250 500 1,000 1,500 2,000 Ak Herman ®airy WUP Fields - Map 5 Tract 1656 Fielda T1 fs56 _ _ I 1 - ` s WALKER FOUNDRY Li'-SR 1326 k�y #1A PF- - � Field Legend Minor Roads n�GRpell. Major Roads l�a r Hydrology I ��" Soil Map Units s _ 1kd.l 14 t • —J- N Alexa oil &Water Conservation District V=500' Fr 250 500 1,000 1,500 2,00[ AL Herman ®airy WUP Melds - Map 6 Tracts 1746 & 9504 x t i:�' . .� w CHESIER WHITS i� Y F.r .� ..•iTi i}. � K ._field It ,� a x��,�s. ��• � .ti. .��� ��` �' Usable r t . " . T f 74 C C T 1746 ':• Field 2 5 • 1 C y r • . fir - � 1 • Legend Hydrology — - --=-= Major Roads ZE8 WATTS RD-SR 131B Minos Roads 4117 25'Stream Buffer ®200'Dwelling Buffer N Alex2 ,oil &Water Conservation District V=500' m Fr 250 500 1,000 1,500 2,00( Herman ®airy WUP Fields - Map 6 Tracts 1746 & 0504 m A ' C G y - - �CHE,RTER WHITE I x; , , •tit r ., i. el L' Field 2 ' + �t L � i rr �,�.w .� r t . •� �� { 1 ra 5 • ' it. Legend _ sr Hydrology ZCB WATTS RU-SR 1318 s -- - Major Roads Minor Roads Soil Map Units N Alexa oil &Water conservation District 1°°®500' Fe 250 500 1,000 1,500 2,000 � Herman Dairy WUP Fields - Map 7 Tract 246 & Tract 269 VA . •L_ t 0 '. ,�. � ,�� ! Field 5 .ram*" !�• ri 726 r • -. � Fieli 5 ' . m T246 r .� Field 1 Field'1 r T276 n 0 r +' Field 213 Fle d Legend ;;Guu !�;• ,� T269 s Minor Roads Mayor Roads it USHW'6491, a: r +•, r l a ,,,.•� Hydrology r !� '� �'. 25'Stream Buffer 200' Dwelling Buffer N Alexa ;oil &Water Conservation District 1'°m 600' Fr 300 600 1,200 1,800 2,40( At Herman Dairy WUP Fields o Map 7 Tract 246 & Tract 269 T24 6� jINV Field 5 m lF � `I >•' m T24(' . ■ Field t 4 f r. - �'o r . ,PT +�tf}�L No '4a• ��.r�!°4' ��w� ,.i'.f�'':�`�rrr;• ,.� � ' •r"w If _, +. T,2669 ti ''�.. + �'+ � Field 1 r r - ��.,.�;:'x:;�.;' ,r, � Y-�,,=:;,•. PIA ��; �.�,� �'�.,, '� Vim_ �" rr"11""�:�.y�•`� � T26, 40 Field`B f _ ield � - w T=2.69 ! Legend . field.2A - — � Minor Roads Major Roads d• _ _ _ _ t a E Hydrology Soil Map Units N Alexa ;oil &.Water Conservation District 1"°=600' Ft 300 600 1,200 1,800 2,40( Herman ®airy WUP Fields - Map 8 Irene Price Tract 250 , L t 4 4r Tract 250 Usable Acres ~ Field 1-1.9 $ ` Field 2-1.2 Legend Field 3-2.3 Hydrology Field 4-3.6 — Ma* RUads Field 5-1.1 !. Field 6-2.2 � -- Minor Roads s Field 7-2.4 25'Stream Buffer Field 8-6.2 ® 200'Dwelling Buffer ra Alexal oil &Water Conservation District 1°°®300' L—' '- _ R ► 150 300 600 900 1,200 Herman Dairy WUP fields - Map 8 Irene Price Tract 250 Pa- ► 1 A. r f r� • r r . ;1• Tract 250 „ Usable Acres Field 1-1.9 - 8• Field 2-1.2 Field 3-2.3 t ��. `�' �"•.�' a � r F Field 4-3.6 + r• ' - �,'' 9 Field 5-1.1 - ��, _�ti, . . Le end r Hydrology Field 6-2.2 � Major Roads Field 7-2.4 a tip F• -Minor Roads Field 6-6.2 ? Soil Map Units N Alexs oil &Water Conservation District IN,-300' 150 300 600 900 1,20(r ` Herman ®airy WUP Fields - Map 9 Tracts 258 & 9965 Usable L Usable qUsable �. Legend Tracts 258&9965 Streets Major Roads Hydrology 25'Stream Buffer ®200'Dwelling Buffer N Aiexe )oil &Water Conservation District °°=500' Fe, 250 500 1,000 1,500 2,OOG Herman Dairy WUP Melds flap 9 Tracts 258 & 9965 usable TED Usable Ac' 12.4 N� a Usable 4. *,. Legend - I Streets Soil Map Units + �`' 9 -- Major (toads CoA �9�. 5 �,25'Stream Buffer 'CsE ®200'DweNing Buffer —_:Fc82 FcC2 FcD2 F W N Alexa' oil&Water Conservation District 500' Fe{ , 250 500 1,000 1,500 2,000 Ferman ®airy WUP Fields - Flap 10 L.E. Herman - Tract 1643 t 9 L � � • i T1�fi4 r ►: .��. Fiel• 2 � --- . Y- T 1643 ie d � a � 1 _ • - r -T1:fi43 ;`ield% 1 � Field �a m a ooQ a Legend T1 ti43 ! Hydrology Major Roads Minor Roads f ` r•, 25'Stream Buffer 200"Dwelling Buffer N Alexar ail &Water Conservation District 1"=701Y ---._ ''Fe, AL350 700 1,400 2,100 2,800 Herman Dairy WUP Fields - Map 10 L.E. Herman ® Tract 1643 It, �. V1.1543 Fieldi�2 1_` T16- field.3 r' T. wrae,a T1643 . Field 3 • ti 1rT1843. Field 3 � Field 5 ,, � - -' •�,► T1 43 Fie • 6 „a T 3 _ - Legend Field !■• Hydrology Major Roads . .. -- Minor Roads Soil Map Units N Alexa oil &Water Conservation District 1"a 700' _-= - Fr 350 700 1,400 2,100 2,80( Herman ®airy WUP Fields - Map 11 Tract 1351 IL Field!,4 F AS T-113,51 Fief 3B, T1351 Y art N4 �,i Field`3A. . �. • ' sir, 7• s F � 3 x Field:5 T1351 � ' , # URGHRO "4 i° Field.1+ RFaRKSGH ' V, 91 - Legend r _ Hydrology �• , --. - Major Roads Minor Roads �• �' � 25'Stream Buffer wrt ®200'Dwelling Buffer N Alexa oil &Water Conservation District 1"®500' --- - FF 250 500 1,000 1,500 2,00( Harman ®airy WUP Fields - Map 11 'bract 1351 olr it . � T135;1 i Field 4 Y T1y351, ,; .. T1351 a •:[. Field 3S Field 3A T1351 - 3 Field `] i T1351 , i 1F� Field 1: • i Jr F Legend Hydrology -- — Major Roads } -- Minor Roads Soil Map Units N Alexa -oil &Water Conservation district 1"=500' Fr 250 500 1,000 1,500 2,00( Herman Dairy WUP Fields o flap 12 Rita Dejarnette ® Tract 1513 _ •T fi T1, 1 T 513 F'e1, i -- Field 3 - - i 01 r L : o y Legend in + wHydrology + n J h --Major Roads Minor Roads S 25'Stream Buffer ®200'Dwelling Buffer Q N Alexa oil &Water Conservation District 1"=500' Fr 250 500 1,000 1,500 2,000 Herman Dairy WUP Fields ® Map 12 Rita Dejarnette - Tract 1513 PaD y l t 151.3'14 " Fi I• r I `` ' Fieltl 3 t� a Usable T1513 / Field 5 1;k RIM T Ar rn VY 0 r x wo Legend01 w �,, •Y -�' Hydrology p — Major Roads net r' --Minor Roads s Soil Map Units _ ► �i!' N Alexar oil &Water Conservation District 1°°= 500` Fe? 250 500 11000 1,500 2,000 At Herman Dairy WUP Melds o Map 13 Tract 1319 1 �, kk fw„-- w-S - f . -� a �•- • � Field 1 ' � AN,Ilk k N ' tF g �,� � Y5 t�: �•t ''tn��1 ' E Legend ON Hydrology �SY ' 25 Stream Buffer Major Roads t Minor Roads t N Alexar -)il &Water Conservation District 1"=400' Fe, 200 400 800 1,200 1,600 Herman ®airy WUP Fields - Map 13 Tract 1319 'r T1319 x , - ' Field 1 ' ]^ 011 ny��l4.� � i w w.r r;R -Hydrology � � -= Major Roads • ---Minor Roads Soil Map Units } _ N Alexa- oil &Water Conservation District 1"=400' Fer 200 400 800 1,200 1,60( Herman Dairy WUP Fields - Map 14 L.E. Herman ® Tract 1981 - 4r .y I 9Q r 13,2g �I ►�--, • field 2 r i r N i3 r I 1 Fi • 1 1 r Legend r —Hydrology 0 25'Stream Buffer 0200'Dwelling Buffer Major Roads --Minor Roads _ N Alexar ail&Water Conservation District 1"=500' - FF' 250 500 1,000 1,500 2,000 Herman ®airy WUP Fields a Map 14 _ L.E. Herman - Tract 1981 Tr � r _ f 4• Field 2 a y r 0 y M }i N t •7 r: _ 1 fi 1 s� Field 1 Legend • , 5 ,, Hydrology - Major Roads Minor Roads ',- ,{� Soil Map Units i' •,R!' .} �7'f' k N Alexar ail &Water Conservation District 1'°=500' �—i �— Fe, 250 500 1,000 1,500 2,000 Herman ®airy Farm WUP Fields ® Map 15 Tract 1299 � a vit T Feel 1 i i Legend _ J' � i —Minor Roads -` —=--Major RoarJs , r� —Hydrology ` � � 25'Stream Buffer � _ I - 200'Dwelling Buffer .- r f,}T — — N Alexai ail &Water Conservation District 1"=400' R 200 400 800 1,200 1,60G Herman Dairy Farm WUP Fields - Map 15 Tract 1299 ., + _ - "' r7 f' AL- t � R _ 90 i T7 9 - ie d 7 i r! Legend Minor Roads Major Roads Hydrology _n1� C2S Stream Buffer r Q� ®200'Dwelling Buffer Soil Map Units , = r 1 N Alexar ail &Water Conservation District 1°' 400' - L Fe 200 400 800 1,200 1,600 Hermann ®airy► Farm WUP Fields ® Map 16 Tract 1683 z f 14 t 0 AL f z � Legend ! s n Minor Roads �` {M1 • i --r.'Major Roads Hydrology 25'Stream Buffer j o 200'Dwalling Buffer { .: '� r N Alexar fil &Water Conservation District 1"=300' Fe 150 300 600 900 1,200 Herman ®airy Farm WUP fields - Map 16 Tract 1663 CCr7CNp41 s i s• \� � �i � .. --� T1683 A Field 2 r f } Z •4• 11R -ti-:- — . r� Legend t Minor Roads ' Sp �• l - i - ----Major Roads 1, o Hydrology 25 Stream Buffer N Jc. A ®200'Dwelling Buffer Soil Map Units p N Alexai ail &Water Conservation District 1"=300° FF 150 300 600 900 1,200 AL Herman ®airy Farm WUP Fields - Map 17 Tract 1684 y � . r 4 C- . 1 a T1684 r�,— Field 4 0 �.•i. f ►. �� 3 �- , 4f R � ��•a .-�— � — SR 76'' Legend m� R ,�• _ .-...�.�.• -Minor Roads ----- Major Roads .k� - _ -Hydrology 25'Stream Buffer 1 - � - t •,�.'y i ®20D'Dwelling Buffer �1 h t• 1�'. N r.— r Alexai oil &Water Conservation District 1°°®400' 200 400 800 1,200 1,E Herman Dairy Farm WUP Fields o Map 17 Tract 1664 r � R Ik S � ! S I z T •� T• .�a off, _ - WILDWOOD CIRCLE. SR 164� � Legend � r !� . -Minor Roads _= Major Roads 4 iFf ti. Hydrology ®25'Stream Buffer •y * r ��C - �� 20Y Dwelling Buffer Soil Map Units � �.r�+ � `_�` Tw � . N Alexar Al &Water Conservation District 1°°=400' 200 400 800 1,200 1,6+ Merman Dairy Farm WUP Fields - Map 18 Tract 1754 r �,• - 1 IT } t S r� 4 T1 T54 - Field 1 { r u .4 4 'TA1, ies k BEN t konrP r y ����L�+-SR1183 r Legend �1 , _ •� - -Minor Roads 1 Major Roads . i • - Hydrology �,' r •• ° r r l�., - .�r * ,� 200'Dwelling Buffer N Alexai ,il &Water Conservation District 1°°m 300° 150 300 600 900 1,2 r w Ferman ®airy Farm WUP Fields m ap 18 Tract 1754 1 r ' Y, •1a �ti , *ti i I T1754 Field 1 BEN TH0 PSO T i NLN•SRt1a3 r rr q •, Legend - �—Minor Roads Mnor Roads 1 1 x J i1 Hydrology Clear Sotls N Aiexa oil &Water Conservation District 1"®300° 150 300 600 600 1,2 r Herman ®airy Farm WUP Fields ® Map 19 Tract 1619 13 2, a 111111 ,f - t A ZI - 4 5 i ti t � r f�. , ,� Usable Acres �. 1 Field 1 -12.7 Ac. .� t ! + ' Field 2-13.5 Ac. '{ Field 3-7.0 Ac. 1 Field 4-23.6 Ac. 6 Field 5- 15.0 Ac. Legend Field 6.4.6 Ac. -- Minor Roads Field 7-4.7 Ac. Major Roads *t d�ls'�"a Field 8-6.9 Ac. Hydrology 1 ti g 0 tcjh Field 9-21.1 Ac. Tract Boundary Field 10-7.1 Ac. Field 11 -7.7 Ac. Stream Buffer Field 12-4.3 Ac. EM 200'Dwelling Buffer �y f - - • Field 13-2.2 Ac. 1 N Alexar ail &1Nater Conservation District 1"_700° 350 700 1,400 2,100 2,80 Herman ®airy Farm WUP Fields - Map 1 g Tract 1619 PCIO Zw. P • w �.ediet i � �F .� ije � ♦ i4r • ,�+i '1t r At � r 4 »Y ���`'`� r1 � 1 is � �y+1 y ° 4 _ �• •� Id Usable Acres E r .� f }�'• ,A L Field 1 -12.7 Ac. ^��ti. a �•- Field 2-13.5.Ac. ; �� ■. Field 3-7.0 Ac. Field 4-23.6 Ac. Field 5-15.0 Ac. � �I �� Field 6-4.6 Ac. "* e+ ` Legend 'k- g Field 7-4.7 Ac. Minor Roads ' k �a�5�a Field 8-6.9 Ac. - '� �� r Major Roads , 1 g �tsh Field 9-21.1 Ac. Hydrology i �O Field 10-7.1 Ac. Tract Boundary ` Field 11 -7.7 Ac. __ Field 12-4.3 Ac. Soil Map Units Field 13-2.2 Ac. N Alexa -oil &Water Conservation District 1"= 700° 350 700 1,400 2,100 2,8( A Herman Dairy Farm WUP Relds - Map 20 Tract 2824 ON. A - h •� �i e T2824 z Field 1 T2824 - 'M1 . - Field 2 " Legend r . Minor Roads +5 µ - Major Roads • r ►iydroiogyF �F 25'Stream Buffer �\. N Alexa oil &Water Conservation District 1"=400' F 200 400 800 1,200 1,6( Herman ®airy Farina WUP Fields - Map. 20 Tract 2824 ry E r•l r. Sys•. �...'�' ;-^,�� t '. ►T2824, $ JJ Field 1 R r •cal ... S � rr •��'`.�`' .- `i_• J � � Ik T2824 Field 2 Legend Minor Roads !�a�V • _ 5 l Major Roads -41 }', +■ Hydrology 1 ' .• // 25'Stream Buffer Soil Map Units N Alexa oil &Water Consgrvation District 1"°=400' 200 400 800 1,200 1,6E_ Herman ®airy WUP Fields o Map 21 Tract 1657 1. 0 L 4 r Lt.:sue- N �T. j• ti�rR,ij• �' 4 ' T1657 Field 1 i�t 1 IL i .� Legend _ Minor Roads — - Major Roads G� Hydrology Ile w� 25'Stream Buffer 200'Dwelling Buffer .►r � J t Alexa' oil &Water Conservation District 1°'=400' �— -- Fe a 200 400 800 1,200 1,60( Harman ®airy WUP Fields - Map 21 Tract 1557 ,iO AO ��• � � T1657 Field 1 IV t 4 Legend 4 t ,!� Minor Roads Major RoadsR� Hydrology •SP�a '�'.► '�__ Q Soil Map Units Alexar ail &Water Conservation District 1°°=400' � _�— — ^` —'- — = 'Fe` 200 400 800 1,200 1,600 Ax Herman ®airy Farm WUP Fields - Map 22 Tract 2759 ZEB WATTS RD-SR 1318 OA T2759 Field 1 -. .. Legend —Minor Roads —_--Major Roads 'I +■� , ':E - . Hydrology ►� •"� 25'WSP Buffer THREE FORKS C IIt IRCH RD"SR 1313 ' Q 25'Stream Buffer r5 200'Dwelling Buffer - L r ~ N Alexa ail &Water Conservation District 1°°=400° 200 400 800 1,200 1,E Herman ®airy Farm WUP Fields - Map 22 Tract 2759 i ZE$WATTS RD-SR 1318IL ir ra r59 Field 1 loop S -1 •`� L Legend ., yr f r ! } J �1' + Minor Roads ��� dW Major Roads THREE FORKS CHURCH RD•SR 1313 Hydrology fl .. Soil Map Units - r - TTTCCC""" N Aiexai ail &Water Conservation District 1°°=400° 200 400 800 1,200 1,E r A Herman ®airy Farm WUP Fields o Map 23 Tract 271 1 A Usable y/ % r S i p l T271 field 3 - - r� - 0 Legend --Minor Roads -.-''Major Roads Hydrology - !25'Stream Buffer N Alexar ail &Water Conservation District 1"=400° 200 400 800 1,200 1,6 A Herman ®airy Farm WUP Fields - Map 23 Tract 271 � I * R i�2 � ow Field 4AW anti D, T271 �I C Field 3 {I I4{ i '+� i � ►r r �� y . 4 •_ I t •y ± f Legend -Minor Roads ---= Major Roads Hydrology yi r P Soil Map Units + ti N Alexal Jf &Water Conservation District 1°°®400' _ 200 400 800 1,200 1,6 Herman ®airy Farm WUP Fields - Map 24 Tract 2779 V l7i .l ,N f ..y+ - n�«t!l.�� .a! �1 tiro � ,��. ..� •J 4 � - ,irk, T2779 Y Field 2 .r - -4k +' yA ter' R - 1T!! * •.I r � T2779 ti Field 1 !I r l •-�r �J 'I V + �� A .. 4 n Legend "11 � ar -Minor Roads _=Major Roads �•R R. Hydrology - � •. 200'Dwelling Buffer - 1l N Alexat ail &Water Conservation District V=300' 150 300 600 900 1,2 r -�. Herman Dairy Farm WUP Fields © Map 24 Tract 2779 �1 r , RDD BURGS _r T2779 Field 2 TrvTvr • T�779 .� '�`e s - Field 1. r Legend Minor Roads - •_} R — Major Roads ��s I Hydrology Soil Map Units i N Alexai ail &Water Conservation District n'°=300' 150 300 600� 900 1,2 Herman ®airy Para WUP Fields a Map 25 Tracts 2994 & 2985 -, el D Field 55 s it ► ' _ T298k Field 5b Fieltli9! ;k � , + 1�A - b Legend -Minor Roads ==Major RcadsHydrology r 25'Stream Buffer 200'Dwelling buffer r N Alexar .)il &Water Conservation District 1°°=500' 250 500 1,000 1,500 2,0 i', Herman ®airy Farm WU P Melds o Map 25 Tracts 2984 & 2985 J { Va y. Ilk -� t=ield 5a R• � r •ti t ti F e 'Fieltlx9 r 1 Yf Field 7. — . Legendwpm-- y .� Minor Roads Major-Roads Hydrology y { Soil Map Units N Alexar A &Water Conservation District I" 500' 250 500 1,000 1,500 2,0 U.S. Department of Agriculture Page - 1. Soil Conservation Service 9./6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey' Area- ALEXANDER COUNTY, NORTH CAROLINA Map .-- Symbol Description AcD ASHE-CL•EVELAND COMPLEX, 8 TO 25 PERCENT SLOPES, STONY This map unit consists of strongly sloping to moderately steep Ashe soils and Cleveland soils on ridges and mountain slopes of the Southern Appalachian Mountains. They formed in residuum weathered from granite, gneiss, schist, metagraywacke, and amphibolite. Ashe soils are moderately deep. and somewhat excessively drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Hard bedrock is within a depth of 20 to 40 inches. Permeability is moderately rapid and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Cleveland soils are shallow and somewhat excessively drained. They have a loamy surface layer and subsoil. Numerous stones are, scattered over the surface. Hard bedrock is within a depth of 10 to 20 inches. Permeability is moderately rapid and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. AcE ASHE-CLEVELAND COMPLEX, 25 TO 60 PERCENT SLOPES, STONY This map unit consists of steep to very steep Ashe soils and Cleveland soilb on mountain slopes of the Southern Appalachian Mountains. They formed in residuum weathered from granite, gneiss, schist, metagraywacke, and amphibolite. Ashe soils are moderately deep and somewhat excessively drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Hard bedrock is within a depth of 20 to 40 inches. Permeability is moderately rapid and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Cleveland soils are shallow and somewhat excessively drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface.Hard bedrock is within a depth of 10 to 20 inches. Permeability is ?moderately rapid and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. BeB BETHLEHEM GRAVELLY SANDY LOAM, 2 TO 8 PERCENT SLOPES These gently sloping, moderately deep, well drained soils are on upland ridges and side slopes. They formed U.S. Department of Agriculture Page - 2 Soil Conservation. Service 9J6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Map -- Symbol Description in residuum weathered from high-grade metamorphic rock. They have a loamy surface layer with a significant amount of gravel and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Soft (rippable) bedrock is within 20 to 40 inches of the surface. Seasonal high water table is below 6.0 feet. BeC BETHLEHEM GRAVELLY SANDY LOAM, 8 TO 15 PERCENT SLOPES These strongly sloping, moderately deep, well drained soils are on upland ridges and side slopes. They formed in residuum weathered from high-grade metamorphic rock. They have a loamy surface layer with a significant amount of gravel and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Soft (rippable) bedrock is within 20 to 40 inches of the surface. Seasonal High water table is below 6.0 feet. BrC BETHLEHEM-URBAN .LAND COMPLEX, 2 TO 15 PERCENT SLOPES This map unit consists of gently sloping to strongly sloping Bethlehem soils and urban land. Bethlehem soils are moderately deep and well drained. They formed in residuum weathered from high-grade metamorphic rock. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Soft (rippable) bedrock is within 20 to 40 inches of the surface. Seasonal high water table is below 6.0 feet. Urban land consists of areas where the original soils have been cut, filled, graded, or paved to the extent .that a soil type can no longer be recognized. These areas are used for shopping centers, factories, municipal buildings, parking lots, and other urban uses. BsC2 BRADDOCK AND HAYESVILLE CLAY LOAMS, 6 TO 15 PERCENT SLOPES, ERODED This map unit consists of gently sloping to strongly sloping, u eroded Braddock soils and Hayesville soils in the Southern Appalachian Mountains. Braddock soils are on are on fans, benches, and high stream terraces. They formed in colluvium and old alluvial deposits. Hayesville soils are on ridges and mountain slopes. They formed in residuum weathered from granite, gneiss, and schist. U.S. Department of Agriculture Page - 3 Soil Conservation Service 9/6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Map Symbol Description Braddock soils are very deep and well drained. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink--swe31 potential is moderate. Seasonal high water table is below 6.0 feet. Hayesville soils are very deep and well drained. They have a loamy surface layer and a clayey subsoil. Permeability is moderate 'and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. BsD2 BRADDOCK AND HAYESVILLE CLAY LOAMS, 15 TO 25 PERCENT SLOPES, ERODED This map unit consists of moderately steep, eroded Braddock soils and Hayesville soils in the Southern Appalachian Mountains. Braddock soils are on are on fans, benches, and high stream terraces. They formed in colluvium and old aluvial deposits. Hayesville soils are on ridges and mountain slopes. They formed in residuum weathered from granite, gneiss, and schist. Braddock soils are very deep and well drained. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is moderate. Seasonal high water table is below 6.0 feet. Hayesville soils are very deep and well drained. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. BuA BUNCOMBE LOAMY SAND, 0 TO 3 PERCENT SLOPES, OCCASIONALLY FLOODED These nearly level to gently sloping, very deep, excessively drained soils are on flood plains. They formed in sandy alluvial sediments. They have a sandy surface layer and subsoil. Permeability is rapid and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. These soils are subject to occasional flooding. CeB2 CECIL SANDY CLAY LOAM, 2 TO 8 PERCENT SLOPES, ERODED These gently sloping, very deep, well drained, eroded soils are on uplands. They formed in residuum from felsic rock. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and U.S. Depsrtment of Agriculture Page - 4 Soil Conservation Service 9/6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Hap - Symbol Description shrink-swell potential is low. Seasonal high water table is below 6.0 feet. CfB CECIL-URBAN LAND COMPLEX, 2 TO 8 PERCENT SLOPES This map unit consists of gently sloping Cecil soils and urban land. Cecil soils are very deep and well drained. They are on uplands. They formed in residuum from felsic rock. The surface layer is loamy and the subsoil is clayey. Permeability is moderate. Shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Urban land consists of areas where the original soils have been cut, filled, graded, or paved to the extent that a sail type can no longer be recognized. These areas are used for shopping centers, factories, municipal buildings, parking lots, and other urban uses. ChA CHEWACLA LOAM, 0 TO 2 PERCENT SLOPES, FREQUENTLY FLOODED These nearly level, very deep, somewhat poorly drained soils are on flood plains. They formed in loamy alluvial deposits. They have a loamy surface layer and subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is within a depth of 0.5 to 1.5 feet. These sails are subject to frequent flooding. CnF CLEVELAND-ROCK OUTCROP COMPLEX, 8 TO 90 PERCENT SLOPES This map unit consists of strongly sloping to very steep Cleveland soils and rock outcrop on mountain slopes of the Southern Appalachian Mountains. These soils formed in residuum weathered from granite, gneiss, and schist. Cleveland soils are shallow and somewhat excessively drained. They have a loamy surface layer and subsoil. A significant amount of gravel is present throughout these soils. Numerous stones are scattered over the surface. Hard bedrock is within a depth of 10 to 20 inches. Permeability is moderately rapid and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Rock outcrop consists of areas where bedrock is exposed at the surface. U.S. Department of Agriculture Page - 5 Soil Conservation Service 9/6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Map Symbol Description CsD COWEE-SALUDA COMPLEX, 8 TO 25 PERCENT SLOPES, STONY This map unit consists of strongly sloping to moderately steep Cowee soils and Saluda soils on ridges and mountain slopes in the Southern Appalachian Mountains. They formed in residumm from granite, gneiss and schist. Cowee soils are moderately deep and well drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Soft bedrock is within a depth of 20 to 40 inches. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Saluda soils are shallow and well drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Soft bedrock is within a depth of 10 to 20 inches. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. CsE COWEE-SALUDA COMPLEX, 25 TO 60 PERCENT SLOPES, STONY This map unit consists of steep to very steep Cowee soils and Saluda soils on upland ridges and mountain slopes in the Southern Appalachian Mountains. They formed in residumm from granite, gneiss and schist. Cowee soils are moderately deep and well drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Saluda soils are shallow and well drained. They have a loamy surface layer and subsoil. Soft bedrock is within a depth of 20 to 40 inches. Numerous stones are scattered over the surface. Soft bedrock is within a depth of 10 to 20 inches. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. DaB2 DAVIDSON CLAY LOAMI , 2 TO 8 PERCENT SLOPES, ERODED These gently sloping, very deep, well drained, eroded soils are on uplands and old high stream terraces. They formed in materials weathered from dark colored rock. They have a clay loam surface layer and a clayey subsoil. Permeability is moderate and shrink-swell U.S. Department of Agriculture Pane - 6 Soil Conservation Service 9/6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Map Symbol Description potential is low. Seasonal high water table is below 6.0 feet. DaC2 DAVIDSON CLAY LOAM, 8 TO 15 PERCENT SLOPES, ERODED These strongly sloping, very deep, well drained, eroded soils are on uplands and old high stream terraces. They formed in materials weathered from dark colored rock. They have a clay loam surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Do$ DOGUE SANDY LOAM, 2 TO 6 PERCENT SLOPES, RARELY FLOODED These gently sloping, very deep, moderately well drained soils are on stream terraces. They formed in loamy and clayey alluvial deposits. They have a loamy surface layer and a clayey subsoil. Permeability is moderately slow and shrink-swall potential is moderate. Seasonal high water table is within a depth of 1.5 to 3.0 feet. These soils are subject to rare flooding. EcD EVARD-COWEE COMPLEX, 8 TO 25 PERCENT SLOPES, STONY This map unit consists of strongly sloping to moderately steep Evard soils and Cowee soils on ridges and mountain slopes of the Southern Appalachian Mountains. These soils formed in residuum from granite, schist, and gneiss. Evard soils are very deep and well drained. They have a loamy surface. layer and subsoil. Numerous stones are scattered over the surface. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Cowee soils are moderately deep and well drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Soft bedrock is within a depth of 20 to 40 inches. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. ECE EVARD-COWEE COMPLEX, 25 TO 60 PERCENT SLOPES, STONY This map unit consists of steep to very steep Evard soils and Cowee soils on ridges and mountain slopes of the Southern U.S. Dep&rtment of Agriculture Page - 7 Soil Conservation Service 9/6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Map Symbol Description Appalachian Mountains. These soils formed in residuum from granite, schist, and gneiss. Evard soils are very deep and well drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Cowee soils are moderately deep and well drained. They have a loamy surface layer and subsoil. Numerous stones are scattered over the surface. Soft bedrock is within a depth of 20 to 40 inches. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. HbC HIBRITEN VERY COBBLY SANDY LOAM, 8 TO 15 PERCENT SLOPES These strongly sloping, moderately deep, well drained ' soils are on upland ridges and side slopes. They formed in residuum from sillimanite schist. They have a loamy surface layer and subsoil. A significant amount of cobbles and gravels are present throughout these soils. Soft bedrock is within a depth of 20 to 40 inches. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. HbE HIBRITEN VERY COBBLY SANDY LOAM, 15 TO 60 PERCENT SLOPES These moderately steep to very steep, moderately deep, well drained soils are on upland ridges and side slopes. They formed in residuum from sillimanite schist. They have a loamy surface layer and subsoil. A significant amount of cobbles and gravels are present throughout these soils. Soft bedrock is within a depth of 20 to 40 .inches. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. MaB2 MASADA SANDY CLAY LOAM, 2 TO S PERCENT SLOPES, ERODED These gently sloping, very deep, well drained, eroded soils are on high stream terraces. They formed in old alluvial deposits. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is moderate. Seasonal high water table is below 6.0 feet. U.S. Department of Agriculture Page - 8 Soil Conservation. Service 9/6/94 NONTECHNICAL SOILS DESCRIPTION REPORT . FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Map Symbol Description MaC2 MASADA SANDY CLAY LOAM, 8 TO 15 PERCENT SLOPES, ERODED These strongly sloping, very deep, well drained, eroded soils are on high stream terraces. They formed in old alluvial deposits. They have a loamy surface layer and a clayey, subsoil. Permeability is moderate and shrink-swell potential is moderate. Seasonal high water table is below 6.0 feet. PaD PACOLET SANDY LOAM, 15 TO 25 PERCENT SLOPES These moderately steep, very deep, well drained soils are on uplands. They formed in residuum from felsic rock. They have a loamy surface layer and a clayey subsoil. Permeability is moderate. Shrink-swell potential is low. Seasonal high water table is below 6.0 feet. PcB2 PACOLET SANDY CLAY LOAM, 2 TO 8 PERCENT SLOPES, ERODED These gently sloping, very deep, well drained, eroded soils are on uplands. They formed in residuum from felsic rock. They have -a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. PcC2 PACOLET SANDY CLAY LOAM, S TO 15 PERCENT SLOPES, ERODED These strongly sloping, very deep, well drained, eroded soils are on uplands. They formed in residuum from felsic rock. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. PaC PACOLET-URBAN LAND COMPLEX, 2 TO 15 PERCENT SLOPES This map unit consists of gently sloping to strongly sloping Pacolet soils and urban land. Pacolet soils are very deep and well drained. They formed in residuum from felsic rock. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water U.S. Department of Agriculture Page - 9 Soil Conservation Service 9/6/94 NONTECHNICAL SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER COUNTY, NORTH CAROLINA F Map Symbol Description table is below 6.0 feet. Urban land consists of areas where the original soils have been cut, filled, graded, or paved to the extent that a soil type can no longer be recognized. These areas are used for shopping centers, factories, municipal buildings, parking lots, and other urban uses. RnC RION SANDY LOAM, 8 TO 15 PERCENT SLOPES These strongly sloping, very deep, well drained soils are on upland ridges and side slopes. They formed in residuum from felsic rock. They have a loamy surface layer and subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. RnD RION SANDY LOAM, 15 TO 25 PERCE14T SLOPES These moderately steep, very deep, well drained soils are on upland ridges and side slopes. They formed in residuum from felsic rock. They have a loamy surface layer and subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. RnE RION SANDY LOAM, 25 TO 45 PERCENT SLOPES These steep, very deep, well drained soils are on upland ridges and side slopes. They formed in residuum from felsic rock. They have a loamy surface layer and subsoil. Permeability is moderate and .shrink-swell potential is low. Seasonal high water table is below -6.0 feet. RwB RION-WEDOWEE COMPLEX, 2 TO 8 PERCENT SLOPES This map unit consists of gently sloping Rion soils and Wedowee soils. They are on upland ridges and side slopes. Both of these soils are very deep and well drained. They formed in residuum from felsic rocks. Rion soils have a loamy surface layer and subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. Wedowee soils have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink-swell U.S. Department of Agriculture Page - 10 Soil Conservation Service 9/6/94 NONTECHNICAL SOILS 'DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOY Survey Area- ALEXANDER COUNTY, NORTH CAROLINA Map Symbol Description potential is low. Seasonal high water table is below 6.0 feet. RxA RIVERVIEW FINE SANDY LOAM, 0 TO 2 PERCENT SLOPES, FREQUENTLY FLOODED These nearly level, very deep, well drained soils are on floodplains. They formed in loamy alluvial deposits. They have a loamy surface layer and subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is within a depth of 3.0 to 5.0 feet. This .soil is subject to frequent flooding. StB STATE SANDY LOAM, 2 TO 6 PERCENT SLOPES These gently sloping, very deep, well drained soils are on stream terraces. They formed in loamy alluvial deposits. They have a loamy surface layer and subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is within a depth of 4.0 to 6.0 feet. TfB TATE-FRENCH COMPLEX, 2 TO 10 PERCENT SLOPES This map unit consists of gently sloping to strongly sloping Tate soils and gently sloping French soils in the Southern Appalachian Mountains. Tate soils are on colluvial benches, fans, and coves. French soils are on flood plains. Tate soils formed incoliuvium from granite, gneiss, and schist. French soils formed in recent alluvium. Tate soils are very deep and well drained. They have a loamy surface layer and subsoil. A significant amount of gravels, cobbles, and stones are present throughout these soils. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is below 6.0 feet. French soils are very deep and somewhat poorly drained. They have a loamy surface layer and subsoil. Permeability is moderate in the surface layer and rapid in the underlying material. Shrink-swell potential is low. The seasonal high water table is within a depth 1.0 to 2.5 feet. UdC UDORTHENTS-URBAN LAND COMPLEX, 0 TO 15 PERCENT SLOPES U.S. Department of Agriculture Page - 11 Soil Conservation Service 9/6/94 NONTECHNICAL .SOILS DESCRIPTION REPORT FOR DESCRIPTION CATEGORY - SOI Survey Area- ALEXANDER, COUNTY, NORTH CAROLINA Map Symbol Description This map unit consists of Udorthents and Urban land. The Udorthents consists of areas where the natural soils have been altered by digging, grading, or filling, to the -extent that individual soil types can no longer be recognized. These areas consists primarily of borrow areas, fill areas, or sanitary landfills. The characteristics of the soil material varies such that interpretive statements can not be made without an on-site investigation. Urban land consists of areas where the original soils have been cut, filled, graded, or paved to the extent that a soil type can no longer be recognized. These areas are used for shopping centers, factories, municipal buildings, parking lots, and other urban uses. W` WATER Water WeA WE.HADKEE LOAM, 0 TO 2 PERCENT SLOPES, FREQUENTLY FLOODED These nearly level, very deep, poorly drained soils are on flood plains. They formed in loamy alluvial deposits. They have a loamy surface layer and subsoil. Permeability is moderate and shrink-swell potential is low. Seasonal high water table is within a depth of 1.0 foot. These soils are subject to frequent flooding. Irrigation — Wettable Acres Rv'yl� Se��ge�_ I ��r •. ��� �r Y� � ; •� I.. F M1n'' 4- W 'i f - ter: irk, - .�rv. _. i�. 4C, lm IT n 'L ' 7 Y k — S Y i ..I1' .r. -'h.. '• ...� - .. _ +. .. .� � � _ ... •�I: 1. _ � � .. �I � � � �y � � - NCDENR MRO Fax:7046636040 May 3 2005 16:19 P. 07 e n+n d d1i9 ,a (� i � b j+ t `l t t FROM EHNR PRO . 04.09.2003 12:53 P. 4 CAWMP'WatUbie Aar Hard Bose Traveling Y Gun S stem FIELD DATA SHEET 1. Make and model number ie-62 EMA fl9 n �;6sc- t-XP4 C 2. Bose length ;Q/--[feet) and hose inside diameter(M)�6 [inch) 3. Our;make and model number 41 lJ S%Ise) 4, Gun nozzle size �•U�`' _ [inch], ring orWee, taper bore orifice. S. Gun arc angle 'i ^(degrees) �S� N40) 6. Travel lane.spacing ZA.).) [feet]. Indicate whether__k,,"u n form, random. Number of exterior hydrants Numbe>t+of interior hydrants. . � 7. (dun wetted diameter_2`.?,,0 ' .[feet]. measuteti, ✓based on gun chart. 8. dun pressure ) (psi]• observed at working gauge, determined fromgun charts, calculated(show calculations). **9. Operating pressure at hose reel m � .� (psi]. observed at working gauge, provided by owner. "..10. Supply line size [inch] (from pump to last hydrant). _. "11. Supply Lane length eon'., �.feet(maximum pumping distance). "112, Supply line type PVC, _ alur nuin. **13. Pump make and model number **I4. Pump.capacity, gpMI. **15. Engine snake and:model number ?7'0-iX .d or . **16. electric motor horsepower and rpm srpmJ i t : it is strongly recommended that operating pressure at the reel,and gun wetted diameter be field determined. Locate each hydrant on a copy of the map. Indicato the start and stop of the sprinkler can for each travel lane and shove distance traveled. Shbw the location of the supply line. Irrigated acres will be determined by travel lane Optional data, furnish where possible. CA Information fi,.rnashCd 13y 0 r: and/or Signature of Gwnpr or Facility Representative Si S a1lsA PrinW-Narnc of Owner or Facility Representative Pr-nteli _ [r let '�/J111:i Date Date 7 21 16 *** Only the person or persons collecting the data should sign the data sheet. FROM EHNR RRO 04.09.2003 12:54 P. 5 jAWMP Wefthk*Acre i Hard Hose Traveling Gun System COMPUTATIONAL 'V ORKSHCEET 1 ti 1. Farm Nurriber(Identification) I U' Field lti'umber(Identification) 2. Irrigation System Designation _ZExisting Irrigation System New/.Expanded Irrigation System 3. Number of Travel Lanes #Interior Lanes _ #Exieeior Lanes feet)Length of pull(L1) #Interior Lanes #E*rior Lanes , ealfeet]Length of pull(I.2) #Interor.Lanes. --#Exterior Lanes �feet]Length of pull(P) 4. Wetted Diameter f3f [feet]From field data sheet ���G+�- ���r�. 5. Spacing Hydrant Spacing [feet] o [as percent of wetted diameter] 6. Hydrant Layout ✓Multiple Hydrants Single I:ydrant Excessively spaced hydrants 7; Read the irrigated.area per travel pull for the given wetted diameter from the appropriate table and column based oh pattern, spacing, and travel lane location. Travel Lane ngth (Li) Interior or ✓Exterior(Lanq/Hydrant) b 7(a)Acres start end of pull from Table `F_E_2 Column , u 4,5? (b)Acres middle portion of pull (L1) 2'`3.x� {Pull Length. 5 [feet] X`Wetted Width /49 [feet]} 143,560 �I (c) Acres'stop end of pull from Table! CLs?)_ Column 7 Total.acres for Travel Lane Length (]LI) (Sumo a+b.+c) Travel Lane Length (L2) Interior or ✓Exterior(Lane/Hydrant) L1 3 7 (a).4cres.start end of pull from Table• ! 5/li Column (b)Acres middle portion of gull,(LI)- . < z 3 '` (Pull Length �G� [feet] XWetted Width 144 [feet]) !�43,560 jY,Cr l (o)Acres stop end of.pull from. Table' ColunM C- �.S Total acres for Travel Lane Length (L2) (Sum: a+b +c; Travel Lane Length (L3) M_Interior or ✓Exterior(Lane/I ydrant) 6 7 - -.(a)Acres start end of pull from.. Table U,� Column j' y Z;Ifs (b)Acres middle portion of pull (L1) (Pull Length,_ [feet] X ''Netted Width ? y' [feet]} 1 4-3,560 06Z (c)Acres stop end of pull from: ':able _ Column 6 3,5' Total acres for Travel Lane Length-(L3) (Sum: e+ b+ c) g. Multiply the tabulated irrigated acreage value per travel pull by the number of pulls of each category in the field. Sum all-of these.'and this is the total irrigated acreage far the field. 2-.o (a) Acres per Travel Lane Length(1.,1) X ' _ #Lames 2•6 , Acres ..; (b) Acres per Travel Lane Length(L2) X /_#Lanes _ S _ -Acres (c) Acres per Travel Lane Length (r13) X / #Lanes 3.5 ^Acres --�otal CAWMP* Wettable Acres for fi �� ,ski + $�) Wettable Acre Computational Worksheet Completed by: = Dater 071676 gk rrrlrl:u FROM EHNR PRO .04.09.2003 12:54 P. 6 ;4WMP Wattabk i4e►e - / .Hard Hose Traveling Gun S stem F COMPUTATIONAL WO SH 1 , (Identification)I. Farm 21u�nber ( r�.f _ �' Field Nt tuber(Identification) 5A&-!Ei�s- �� -C�, 2. Irrigation.System Designation ✓ Existing Irrigation System' New/Expanded Irrigation System 3, Number,*of Travel Lanes _ #Interior Lanes�,_#ExtIerior Lanes �6`J' feet]Length of puU(LI) #Interior Lanes #Exterior Lames j,yc) _[feet)Length of pull(U) I #Interior Lanes #Exterior Lanes { [feet]Length of pull(L3) 4, Wetted Diameteri.i'; [feet] From field data sheet 'E7 17 S. Spacing ;740 Hydrant Spacing [feet] ?` [as percent of wetted diameter] 6, Hydrant Layout ✓'lviultiple Hydrants ____,Single Hydrant Excessively spaced Hydrants 7.. Read the irrigated area per travel pull for the given wetted diambter Brom the appropriate table and column based on pattern, spacing, and travel lane location. Travel Lane Length ()(.1) Interior or 1/Exterior(LancMydrant) �,74_(a)Acres start end of pull from . ' Table -- U Column. 3 (b)Acres middle portion of pull(L1) {Full Length .66 [feet].X .Wetted Width ? '- [feet]) '43,560 W (c)Acres stop.end of pull from Table :rnis 9y Column C� Total acres for') ravel Lane Length (LU) (Sum;.i+ b+c) !ravel Lane Length (L2) Interior or " Exterior(Lanr/Hydrant) ,=;'/ (a)Acres start end.of hull from Table ': ' Columnn (b)Acres middle portion of pull (LI) {Pull Len h feet Wetted Width ?V , feet 143 560 (c)Acres stop end of pull from Table: / ,5 column_ C Total acres for Travel Lane Length.(L2) (Sum:.a+ b+e) Travel Lane.Lergth (L3; t/ Interior or Exterior(Lane/Hydrant) l�7( (a)Acres start end of pull.from Table: -' ~[ Column ��7 ?, 3 (b)Acres middle portion of pull (LI) {Pull Length [feet] X. Wetted Width ? (feet)) 143,560 05F) (c)Acres stop end of pull from Table I L' Column 6 Total acres for Travel Lane Length (L�) (Sum: a+ b + c) S. Multiply the tabulated irrigated acreage value per travel pull liy the number of pulls of each category in the field. Sum all o:these and this is-the total irrigated acreage for the field. 7 . (a) Acres per Travel Lane Length(L1) X _ #Lanes __ [�_ Acres i 5 (b) Acres per Travel Lane Length(L2) X /_#Lanes =Y_�5 Acres (c) Acres per Travel Lane Length (U) X " / #La��s a_ J:L__Acres .a- Total CA�V1V P Wettable Acres for fi -fib +2 8�) attable Acre Computational Worksheet Completed by. = - Date: ++QQy - 4 N FROM EHHR PRO 04.09.2003 12:55 P. 7 ,A%MP WoUabl•Acre Hard Hose Traveling Gun SystemCOMPUTATIONAL W O MKS E T fiarrr,Number(Identification) Field?dumber(Identi n fication) _,_��' G 2. Irrigation System Designation ✓Existing Irrigation System New/Expanded Irrigation System 3. Number of Travel Lanes # Ilnten*6r Lanes _,#Exterior Lanes �-cY� [feet]Length of pull(U) ~�#Interior Lanes„�,#Ex'Gerior Laney ,6 [feet]Length of pull(LZ) #Interior Lanes > .-#Exterior Lanes . Zr [foat]Length of pull(L3) Ole 4: We Diameter y.i`/ ` [feet] From field data sheety�� H. dram'S acin feet ° [as percent of wetted diameter] 5. Spacing y P g [feet) 6. Hydrant Layout ✓Multiple Hydrants Single I�ydrant Excessively spaced Hydrants I. Read the irrigated area per travel pull for the given wetted diameter ftom the appropriate table and:column based oti pattern, spacing, and travel lane location. Travel Lane Length(LI) _ Interior or ►/.Exterior(Lane/Hydrant) (a)Acres start end of pull from Table c-6R,. Column _(.3Z (b) Acres middle portion of pull (L1) (Pull Length 21,E .[feet) X Wetted Width i �[feet]) f 43,560 f _(c) Acres stop end of pull from Table Column 62 _T I Total acres for Travel Lane Length (U) (Sam: i+b.+ c) Travel Lane Length (L2)_ Interior or Exterior(LanelHydrant) G.ill 'CI37(a)Acres start end of pull from Table F - Column _ y j �(b) Acres middle portion of pull (L]} Ap �331� (Pull Length_[feet) X Netted Width /!L [feet]) 143,560 4 (c) Acres stop end of pull from Tabl., e Total acres for Travel Lane Length ('I.,2) (Sum:'a+Ib + c) Travel Lane Length (U) Interior or 1/Ex-terior(La:ie/Hydrant) 1J7 .(a)Acres start end of pull from Table Column. �. I.3 (b) Acres middle portion of pull (L1) "3 (Pull Length._[feet] X Wetted Widths[feet]} /43,560 QUI- (c) Acres stop end.of pull from Table' Column ?,( Total acres for Travel Lane Length (0) (Sum: a+ b + c) $. Multiply the tabulated irrigated acreage value per travel pull by the number of pulls of each,category in the field. ,Sum al! of these and this is the total irrigated acreage for the field. .7 (ef Acres per Travel Lane Length(L1) X _ ,�' #Lanes �_ Acres . _(b) Acres per. 'travel Lane Length(L2)- X / #Lanes u, =3_ Acres �( (c) Acres per Travel Lane Length(L3) X __ #Lanes a 2: Acres I' ��Fltlltll! " iI tal CAW MP Wettable Acres for 690.M. ' '�, b + 8e C... _ - F ORA Wettable Acre Computational Worksheet Completed by: = Date: BEAL 02167 FROM EHNR ARO 04.09.2003 12:55 P. 8 ;AWMP Weftbla Acre N&J:4y u V/7 t1%T Hard Hose Traveling Gun System COMPUTATIONAL WORK-SKEET 1, Farm Number(Identification). oZ- YFi ifi ) Gi 2. Irrigation System.Designation ��lvicisting Irrigation System. , __ New/]Expanded Imgafon System 3. Number of Travel Lanes # interior Lanes _#Exterior Lanes `� feet]Length of pud(Ll) #Interior Lanes #Exterior Lanes (feet]Length of pull(L2) #Interior Lanes #Exierior Lanes [feet]Length of POP) 4. Wetted Diameter [feet) From field data sheet 5. Spacing , ;71k) Hydrant Spacing[feet] f [as percent of wetted diameter] 6. Hydrant Layout Multiple Hydrants Single Hytlrant Excessively spaced Hydrants,�._ 7. Read the irrigated area per travel pull for the given wetted diameter from the appropriate table and column based on pattern, spacing, and travel lane location, Travel Lane Length (M) interior or ✓Exterior('Lane/Hydrant) (a).Acres start•end of pull.from Table 9690 " Column (b)Acres middle portion of pull(L1) f {Pull Length i�L[feet] X Vetted Width, [feet]) /43,560 (c) Acres stop end of pull from TableU Columns Total acres for Travel Lane Length(L1) (Sum.$+b+ c) Travet Lane Length (L2) Interior or Exterior(Larie/Hydrant) (a)'Aores start end.of pull from Table• Column (b)Acres middle portion of pull (L1) {pull Length [feet] X Wetted Width. [feet]) 1�43,560 (c)Acres stop end of pull from Table Column Total acres for.Travel Lane Length (L2) (Sum: it,+.b f c) Travel Lane Length (0)„^Interior or Exterior(Lajje/Hydrant) (a)Acres start end of pull from Table_ column (b)Acres middle portion of pull(LI) {Pull Length [feet] X Wetted Width [feet]) /43,560 (c)Acres stop end of pull from Tablb Column Total acres for'Travel Lane Length (0)(Sumi; a+ b t c) 8. Multiply the tabulated irrigated acreage velue per travel pull by the number of pulls of each category in the field.-Sum all of these and this is the total irrigated acreage for the field. a Acres per Travel Lane Length(Li) X � �#Lanes (b) Acres per Travel Lane Length(L2) X #Lanes _____Acres (c) Acres per Travel Lane Length(L3) X #L Arras ✓j.�•- Total CAWMP Wettable Acres for fie + 0c) Date: Z.- Wettable Aare Computational Worksheet Completed by: 02187� a ***END*** Wettable Ac es Work Sheet 'Tract No/. Pull Number Wetted Internal Arc Pull Length Pull Width Acres i Acres Acres Total ;tic Diameter External Angle U Stop End Start End Acres X required Svecifications 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 dishing 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). 632751 Database Version 3.1 Date Printed:3/20/2014 Specification Page 1 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. 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. 632751 Database Version 3.1 Date Printed:3/20/2014 Specification Page 2 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. 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. 632751 Database Version 3.1 Date Printed-3/20/201 a. Specification Page 3 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. 632751 Database Version 3.1 Date Printed:3/20/2014 Specification Page 4 STATE: NC PROJECT: Herman Dairy WUP Y: LJH DATE: 3/29/20o9 CHECKED BY: DATE: JOB NO.: S- _..c CT:Days of Storage,for WUP 6.Rainfall minus evaporation on pond surface 11.4 minus _w 12.1 equals -0.7 inches/12= -0.1 feet per 3 Months 7.25yr-24hr rainfall on pond surface Rainfall = 5.5" = 0.5 feet 8.Freeboard+Emergency Spillway stage= 1.5 feet B. SUMMARY OF DESIGN VOLUMES 1.Surface Runoff for 3 months 27458 tuft 2.Waste Volume 0 cuft 3.Waste Volume(additional source) 0 cuft 4.Wash Water Volume 36096 cuft 5.25 yr-24 hr Runoff 20458 cuft TOTAL 84,013 cuft 6.Rainfall minus evaporation on pond surface -0.06 feet 7.25yr-24hr rainfall on pond surface 0.50 feet 8.Freeboard + Emergency Spillway Stage 1.50 feet TOTAL 1.9 feet [ C.Sizing Waste Storage Pond"AS BUILTS"Volume C(os-r_ ,.to A'A's 74 ft X 173 ft top width (to top of dam) 'Alp, � 70 ft X 165 _ft tou,width s 03 a�g Slope 1 :1',., Fr 1 :1 Slope Slope 2 :1 \\ 60.0 ft X 145.0 ft Q mid section �' 2:1 Slope ■ 50 ft X 125 ft bottom width Depth Top Bottom Mid Area Volume= 10 /6 Lr( 11550 ) + ( 6250 ) + 4( 8,700)] Volume= 87,667 cuft Exceeds the 90 days loading VOLUME NEEDED= 84,013 cuft Normal Pump out Volume= 27,458 + 0 + 36,096 + -0.1 x 74 x 173 = 62,810 cuft per 90 days = 254,729 cuft per year = 469,819 gallons per 90 days = 1,905,376 gallons per year Maximum Pond Level(Pump-out Elevation)= 0.60 + 1.50 + 20,458 / ( 70 x 165 ) 3.8 below top of dam MAR 2 8 2019 600cows_Waste Storage Calcs_90days.xls Page 2 U. S. Department of Agriculture NC-ENG-14 Soil Conservation Service 8/72 File Code ENG-11 PLAN- OF EXCAVATED FARM POND // SCD _ J Name 9� eh -�� ��� No . REAP Date �y - Req - - — LENGTH 7 SIDE SLOPE_TO 1 LU U. /� c ., � AVE. TOP ELEV. /IOQ� ,wMID SECTION /s°__�/�' / W Q� �zYi AVE. BOTTOM ELEV. / ff LENGTH �I Volume cu. -yd-s-. Acre ft. 2.10 Pond Use Wy e 51t1-�'E' �12 ' berm with less than 6' spoil height sloped away from pond 1' berm with less than 3' spoil height uniformly spread & sloped away from pond Volume in depth Farea of_top) + (area of bottom) + (4 x area midsection cu yds. 6 / 27 Surface Area acres ; « Location Sketch Volume REAP Cost Sharing cu. yds. Soil Type B.M. Description Elev. Distribution: 1 copy landuser 1 copy plan folder /� CXu r Ar fG /e jak) Y r� ft(� -�- � 4 j.� r to sx 17S -� 4 � J Lo J : 5 -- IeZS"0 -F— POGO Xl S la& �e /0/ ? SCS•ING•536 s It. S.DEPARTMENT Or AGRICULTURE �"•.1_70 SOIL CONSERVATION SERVICE SOIL INVESTIGATION TO DETERMINE SUITABILITY OF PROPOSED POND SITE FARMER'S NAME DISTRICT ►" DATE_ �1,_ ' COUNTY_ S.C. S. PHOTO SHEET NO. WORK UNIT + 1W TERSHEI3 AREA MEASUREM£NTSI� CROPLAND A URE ACRES 1 J• �',�C G�Ur�, WOO ACRES TOT ACRES POND CLASS WORK UNIT CONSERVATIO;.IST SKETCH OF PROPOSED POND SHOWIM WHERE BORINGS WERE MADE (Approx. meal* Locale ee/trtnee point center line a/dam and Jde+Mfy on sletcA. I i t A" �. Ca,.•c.rC rc Waii ria IP S.,oPwr iva 11 c ', ' i /Sl�dui ✓6 utj j ee Swor* �r•I 1 ._46.5_ _fir.. :6 .. _ -:�zll SIopE� _..? SL•.A. I I i Y 1 a�.t {2/f 5!6pe-) 41:7 BL•t A .4U• b BL-D _.Top oe i)a+ Elt'::SB:6 i Z.'. : : .rF ..._--.._...BAD_._.. �✓$1H. -�-BTU - :.. :�i@I :: f SHOW BORING NUMBER AND PROFILE DEPTH MaAe and list darn-site and spllhoay borMps first•then paraded area end borrow pit bortnps•separate with ruFt l nod line. /Continued on back salient nacaaaaryl Mow uoler table elevations on dam-site borines. SCALE 1 2 3 4 5 6 7 8 9 30 11 12 13 114 H 15 i6 17 18 j 19 11 20 211122 29 M LL ML M 4r'CL CL C 48e-5'IAL )AL; MLRL T I i r MLJIML ILI BORINGS MADE BY RL M DM SIGNATURE &TITLE +'Yr `^'° + 7 3• j �crc w�'is MAR 2 8 2019 • TOTALCROPLAND- ACRES PASTURZ-ACM WO()j)LANI)_ACRES • • SX=jj OF PROPOSED POND SHOWING WHERE BORINO VVERE MADE (Approx.aaae I"--feet) ■■■■■■■■■■■■ ■■r■■■r■■■r■■ sons■■■MIN■■■■EEO■■■■■■■■■■ ■ ■ ■ ■ rrr■a■■■■r■■■n■■r■■ ■ ■ . r■■w■■n■■■■■■r■ ■ ■■■■■ ■■ ■o■ ■■ ■r ■■non■ ■■ r.� ■■.1 ■■ ■ ■■■�' ■ IA ■ ■■■■■ r ■ ■sons■ ■■■■■■■ 11■■i■■■ mom ME ■ ��1 f i■■ ONES■■n■■■■■■■ ■■�i�l M■■■■■r■■■■■■■r■■■■ ■■■■■li■■■�■■■ ■■■■■ ■soon ■■■ ■■■■■■■ ■soma■ ■■so■ 000000 momBORING NUbEDER AIND PROFILE ■■■ .I©I' an i�i�Id�1Et�1f • +®! �� �E�7��k71 �m��l� F�il��'''��■s'■2- ■`''��■I■ire■I■a �■I■'■Irinl■1■ NMI a ■�r�r0110WOM■I■NE■UMMIMMME ���■�■■'■■_�■�r'■fir.■�■■�■�■■�■�■�■� ,r MAR 2.8 M19 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 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. Landfill at municipal solid waste facility permitted by NC DEQ under GS 15A NCAC 13B .0200. i l Rendering at a rendering plant licensed ender C:r.'106 ,60.?. Complete incineration according to 02 NCAC 52C .0102. A composting system approved and permitted by•tie 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. a In the case of dead poultry, only, placing in a disposal pit of a siie and design approved by the NC Department of Agriculture&Consumer Services(G.S. 106-549.70). a Any method which, in the..professional opinionjof.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. s A catastrop is limo"al ji disposai 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. e Burial must bedone 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. c Sigrsature of Farm Owner/Manager Date fA,�4 SCE 3 Z! R _ Si nature of Technical Specialist Date