Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
140003_PERMIT INFORMATION_20171231
E� AF 1Wd WR North Carolina Department of Environment and Natural Resources Pat McCrory Governor John Looper B.G. Looper' and Sons / Wesley Looper 4695 Petra Mill Rd Granite Falls, NC 28630-8332 Dear John Looper: John E. Skvada, III Secretary October i, 2014 Subject: Certificate of Coverage No_ AWS 140003 B.G. Looper and Sons / Wesley Looper Swine Waste Collection, Treatment, Storage and Application System Caldwell County In accordance with your renewal request, we .are hereby forwarding to you this Certificate of Coverage (COC) issued to John Looper, authorizing the operation of the subject animal waste management system in accordance with General Permit AWG 100000. This approval shall consist of the operation of this system including, but not limited to, the management and land application of animal waste as specified in the facility's Certified Animal Waste Management Plan (CAWMP) for B.G. Looper and Sons 1 Wesley Looper, located in Caldwell County, with a swine animal capacity of no greater than the following annual averages: Wean to Finish: Feeder to Finish: Boar/Stud: Wean to Feeder: Farrow to Wean: Gilts: Farrow to Finish: 260 Farrow to Feeder: Other: If this is a Farrow to Wean or Farrow to Feeder operation, there may be one boar for each 15 sows. Where boars are unnecessary, they may be replaced by an equivalent number of sows. Any of the sows may be replaced by gilts at a rate of 4 gilts for every 3 sows. This COC shall be effective from the date of issuance until September 30, 2019, and shall hereby void Certificate of Coverage Number AWS 140003 that was previously issued to this facility. Pursuant to this COC, you are authorized and required to operate the system in conformity with the conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational' information must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to the CAWMP and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. Please read this COC and the enclosed State General Permit carefully. Please_pay careful attention to the record keeping and monitoring conditions in this permit. Record keeping forms are unchanged with this General Permit. Please continue to use the same record keeping forms. 1636 Mail Service Center, Raleigh, North Carolina 27699-1636 Phone: 919-807-6464 \ Internet: htto:/iwww.ncdenr.00v/ An Equal Oppomnity %Affirmative AcWn Employer— Made in pal by reeyded paper If your Waste Utilization Plan (WP) has been developed based on site-specific information, careful evaluation of future samples is necessary. Should your records show that the current WUP is inaccurate you will need to have a new WUP developed. The issuance of this COC does not excuse the Permittee from the obligation to comply with all applicable laws, rules, standards, and ordinances (local, state, and federal), nor does issuance of a COC to operate under this permit convey any property rights in either real or personal property. Per NRCS standards a 100 -foot separation shall be maintained between water supply wells and any lagoon, storage pond, or any wetted area of a spray field. Please be advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If any parts, requirements, or limitations contained in this COC are unacceptable, you have the right to apply for an individual permit by contacting the Animal Feeding Operations Program for information on this process. Unless such a request is made within 30 days, this COC shall be final and binding. In accordance with Condition 11.22 of the General Permit, waste application shall cease within four (4) hours of the time that the National Weather Service issues a Hurricane Warning, Tropical Storm Warning, or a Flood Watch associated with a tropical system for the county in which the facility is located. You may find detailed watch/warning information for your county by calling the Greenville/Spartanburg, SC National Weather Service office at (864) 848-3859, or by visiting their website at: http://www.weather.gov/gsp/ This facility is located in a county covered by our Asheville Regional Office. The Regional Office staff may be reached at 828-296-4500. If you need additional information concerning this COC or the General Permit, please contact the Animal Feeding Operations Program staff at (919) 807-6464. Sincerely, for Thomas A. Reeder Director, Division of Water Resources Enclosure (General Permit AWGI00000) cc: (Certificate of Coverage only for all ccs) Asheville Regional Office, Water Quality Regional Operations Section Caldwell County Health Department Caldwell County Soil and Water Conservation District WQROS Central Files (Permit No. AWS 140003) AFO Notebooks ky X_ WA . `ir 1EDEERR North Carolina Department of Environment and Natural Resources Division of Water Quality Beverly Eaves Perdue Coleen H. Sullins Governor Director October 1, 2009 John Looper B.G. Looper and Sons / Wesley Looper 4695 Petra Mill Rd Granite Falls, NC 286308332 Dee Freeman Secretary Subject: Certificate of Coverage No. AWS 140003 B.G. Looper and Sons / Wesley Looper Swine Waste Collection, Treatment, Storage and Application System Caldwell County Dear John Looper: In accordance with your renewal request, we are hereby forwarding to you this Certificate of Coverage (COC) issued to John Looper, authorizing the operation of the subject animal waste management system in accordance with General Permit AWG 100000. This approval shall consist of the operation of this system including, but not limited to, the management and land application of animal waste as specified in the facility's Certified Animal Waste Management Plan (CAWMP) for the B.G. Looper and Sons / Wesley Looper, located in Caldwell County, with a swine animal capacity of no greater than the following annual averages: Wean to Finish: Feeder to Finish: Boar/Stud: Wean to Feeder: Farrow to Wean: Gilts: Farrow to Finish: 260 Farrow to Feeder: Other: If this is a Farrow to Wean or Farrow to Feeder operation, there may be one boar for each 15 sows. Where boars are unnecessary, they may be replaced by an equivalent number of sows. Any of the sows may be replaced by gilts at a rate of 4 gilts for every 3 sows. The COC shall be effective from the date of issuance until September 30, 2014, and shall hereby void Certificate of Coverage Number AWS 140003 that was previously issued to this facility. Pursuant to this COC, you are authorized and required to operate the system in conformity with the -conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational information must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to the CAWMP and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. Please carefully read this COC and the enclosed State General Permit. Please pgy careful attention to the record keening and monitoring conditions in this permit. Record keeping forms are unchanged with this General Permit. Please continue to use the same record keeping forms. 1636 Mail Service Center, Raleigh, North Carolina 27699-1636 Location: 2728 Capital Blvd., Raleigh, North Carolina 27604 One Phone: 919-733-32211FAX: 919-715-05881 Customer Service: 1-977-623-8748 NofthCarotina Internet vnvw.naveterquatiiy.org Namrally An Equal Opporijnityl Affirmadvo Action Employer If your Waste Utilization Plan (WUP) has been developed based on site-specific information, careful evaluation of future samples is necessary. Should your records show that the current WUP is inaccurate you will need to have a new WUP developed. The issuance of this COC does not excuse the Permittee from the obligation to comply with all applicable laws, rules, standards, and ordinances (local, state, and federal), nor does issuance of a COC to operate under this permit convey any property rights in either real or personal property. Per 15A NCAC 2T .0105(h) a compliance boundary is provided for the facility and no new water supply wells shall be constructed within the compliance boundary. Per NRCS standards a 100 -foot separation shall be maintained between water supply wells and any lagoon, storage pond, or any wetted area of a spray field. Please be advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If you wish to continue the activity permitted under the General Permit after the expiration date of the General Permit, then an application for renewal must be filed at least 180 days prior to expiration. This COC is not automatically transferable. A name/ownership change application must be submitted to the Division prior to a name change or change in ownership. If any parts, requirements, or limitations contained in this COC are unacceptable, you have the right to apply for an individual permit by contacting the Animal Feeding Operations Unit for information on this process. Unless such a request is made within 30 days, this COC shall be final and binding. In accordance with Condition I1.22 of the General Permit, waste application shall cease within four (4) hours of the time that the National Weather Service issues a Hurricane Warning, Tropical Storm Warning, or a Flood Watch associated with a tropical system for the county in which the facility is located. You may find detailed watch/warning information for your county by calling the GreenviilelSpartanburg, Sc National Weather Service office at (864) 848-3859, or by visiting their website at: www.arh.noaa.gov/er/gsp/ This facility is located in a county covered by our Ashevilie Regional Office. The Regional Office Aquifer Protection Staff may be reached at (828) 296-4500. If you need additional information concerning this COC or the General Permit, please contact the Animal Feeding Operations Unit staff at (919) 733-3221. Sincerely, for Coleen H. Sullins Enclosure (General Permit AWG 100000) cc: (Certificate of Coverage only for all ccs) Asheville Regional Office, Aquifer Protection Section Caldwell County Health Department Caldwell County Soil and Water Conservation District APS Central Files (Permit No. AWS 140003) AFO Notebooks ot.oF wArE9QG John & Rudy & Wesley Looper B.G. Looper and Sons / Wesley Looper 4695 Petra Mill Road Granite Falls NC 28630 Dear John & Rudy & WesIey Looper: Michael F. Easley, Governor William G. Ross Jr., Secretary North Carolina Department of Environment and Natural Resources Alan W. Klimek, P_ E_, Director . fI Division of Water Quality October 1, 2004 OCT 15 2004 Subject:. Certificate of Coverage No. AWS 140003 B.G. Looper and Sons / Wesley Looper Swine Waste Collection, Treatment, Storage and Application System Caldwell County On -June 11, 2004, the North Carolina Division of Water Quality (Division) issued a revised State General Permit for swine facilities. The General Permit was issued in accordance with the directive of Senate Bill 733 (Session Law 2003-28). In accordance with your application received on February 24, 2003 and in accordance with the directive of Senate Bill 733, we are hereby forwarding to you this Certificate of Coverage (COC) issued to John & Rudy & Wesley Looper, authorizing the operation of the subject animal waste collection, treatment, storage and land application system in accordance with General Permit AWG100000_ The issuance of this COC supercedes and terminates your previous COC Number AWS 140003 which expires October 1, 2004. This approval shall consist of the operation of this system including, but not limited to, the management of animal waste from the B.G. Looper and Sons / Wesley Looper, located in Caldwell County, with an animal capacity of no greater than an annual average of 260 Farrow to Finish swine and the application to land as specified in the facility's Certified Animal Waste Management Plan (CAWMP). If this is a Farrow to Wean or Farrow to Feeder operation, there may also be one boar for each 15 sows. Where boars are unneccessary, they may be replaced by an equivalent number of sows. Any of the sows may be replaced by gilts at a rate of 4 gilts for every 3 sows The COC shall be effective from the date of issuance until September 30, 2009. Pursuant to this COC, you are authorized and required to operate the system in conformity with the conditions and limitations as specified in the General Permit, the facility's CAWMP, and this COC. An adequate system for collecting and maintaining the required monitoring data and operational information must be established for this facility. Any increase in waste production greater than the certified design capacity or increase in number of animals authorized by this COC (as provided above) will require a modification to the CAWMP and this COC and must be completed prior to actual increase in either wastewater flow or number of animals. Please carefully read this COC and the enclosed State General Permit. Since this is a revised State General Permit, it contains new requirements in addition to most of the conditions contained in the previous State General Permit. Enclosed for your convenience is a package containing the new and revised forms used for record keeping and reporting. Please pay careful attention to the record keepin and monitoring_ conditions in this permit. Aquifer Protection Section — Animal Feeding Operations Unit 1636 Mail Service Center, Raleigh, North Carolina 27699-1638 Orte NorliCarolina Phone: 919-733-32211 FAX: 919-715-05881 Intemet h2o.enr.state.nc.us AaNnallyAn Equal Opportunity/Affirmative Action Employer — 50% Recycled110% Post Consumer Paper L If your Waste Utilization Plan has been developed based on site specific information, careful evaluation of future samples is necessary. Should your records show that the current Waste Utilization Plan is inaccurate you will need to have a new Waste Utilization Plan developed. The issuance of this COC does not excuse the Permittee from the obligation to comply with all applicable laws, rules, standards, and ordinances (local, state, and federal), nor does issuance of a COC to operate under this permit convey any property rights in either real or personal property. Upon abandonment or depopulation for a period of four years or more, the Permittee must submit documentation to the Division demonstrating that all current NRCS standards are met prior to restocking of the facility. Per 15A NCAC 2H .0225(c) a compliance boundary is provided for the facility and no new water supply wells shall be constructed within the compliance boundary. Per NRCS standards a 100 foot separation shall be maintained between water supply wells and any lagoon, storage pond, or any wetted area of a spray field. Please be advised that any violation of the terms and conditions specified in this COC, the General Permit or the CAWMP may result in the revocation of this COC, or penalties in accordance with NCGS 143- 215.6A through 143-215.6C including civil penalties, criminal penalties, and injunctive relief. If you wish to continue the activity permitted under the General Permit after the expiration date of the General Permit, an application for renewal must be filed at least 180 days prior to expiration. This COC is not automatically transferable. A name/ownership change application must be submitted to the Division prior to a name change or change in ownership. If any parts, requirements, or limitations contained in this COC are unacceptable, you have the right to apply for an individual permit by contacting the staff member listed below for information on this process. Unless such a request is made within 30 days, this COC shall be final and binding. This facility is located in a county covered by our Asheville Regional Office. The Regional Office Water Quality Staff may be reached at (828) 296-4500. If you need additional information concerning this COC or the General Permit, please contact Duane Leith at (919) 715-6186. Sincerely, for Alan W. Klimek, P.E. Enclosures (General Permit AWG 100000) cc: (Certificate of Coverage only for all cc's) Asheville Regional Office, Aquifer Protection Section Caldwell County Health Department Caldwell County Soil and Water Conservation District Permit File AWS140003 APS Central Files ....7 V\ t' V i .J t t -I Sal 5111 10000 Producer: B. G. Looper & Sons / Wesley Looper Adl--�2 if Location: 4673 Petra Mill Road (SR 1740), Granite Falls, NC 28630 _ (828) 396-7567 82S Telephone: John Looper WeslgyLooper ) 396-91.02. Type Operation: Swine rn Number of Animals: 260 Sow Farrow to Finish C (Design Capacity) R O cc The waste from your animal facility must be land applied at a.specified rate to prevent pollution of J surface water and/or groundwater. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer required for the crops in the fields where the waste is to be applied: This waste utilization plan uses nitrogen as the limiting nutrient. Waste will be analyzed twice each year to determine nutrient content. Soil tests for all fields receiving wastes will be taken every other year so that all plant nutrients can be balanced for realistic yields of the crop to be grown. Several factors are important in implementing your waste utilization plan in order to maximize the fertilizer value of the waste and to ensure that it is applied in an environmentally safe manner: 1. Always apply waste based on the needs of the crop to be grown and the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize. 2. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and available water holding capacities. 3. Normally waste shall not be applied to land eroding at greater than 5 tons per acre per year. With special precautions, waste may be applied to land eroding at up to 10 tons per acre per year. 4. Do not apply waste on saturated soils, when it is raining, or when the surface is frozen. Either of these conditions may result in runoff to surface waters which is not allowed under North Carolina Division of Environmental Management (NCDEM) .0200 regulations 5. Wind conditions should also be considered to avoid "drift and downwind odor problems. RECEIVED 1 DENR / DWQ Aquifer Prate&Ian Section NSA? 3 0 2009 - urd"W G3u P D V% -� o i rie(a�e T— 53�$ acres. A, Qrd,4e0l (t)up o►n 7114fkoo3 -VO lnJc404e T- !+ W3 +a rev4pco acres. C.ae.9 6. To maximize the value of nutrients for crop production and to reduce the potential for pollution, the waste should be applied to a growing crop or applied to bare ground not more than 30 days prior to planting. Injecting the waste or disking will conserve nutrients and reduce odor problems. The estimated acres needed to apply the animal waste is based on typical nutrient content for this type of facility. Acreage requirements should be based on the waste analysis report from your waste management facility. Attached' you will find information on proper sampling techniques, preparation, and transfer of waste samples to the +lab for analysis. This waste utilization plan, if carried out, meets the requirements for compliance with 15A NCAC 2H .0217 adopted by the Environmental Management Commission. V, Estimate of Volume of Waste Produced Amount of Waste Produced Per Year (gallons, W, tons, etc.) 260 sows X 14481 gallons of waste/sow/year = 2,725,060gallons of waste/year 100 acre inches of waste/year Amount of Plant Available Nitrogen (PAN) Produced Per Year 1,030,0001 gallons of slurry X 10.01 lbs. PAN(not incorporated)/ 1000 gallons of waste =-10,.300 lbs. PAN/year from slurry 1,695,0602 gallons of anaerobic lagoon liquid X 682 lbs. PAN (irrigated)/Acre inch X 27,154 gallons/acre 4,245 lbs. PAN/year from lagoon liquid Total PAN = 14.545 lbs./year Note 1: Values used are actual on farm records. Note 2; values used are based on analysis of waste -from similar livestock operations in North Carolina which irrigate anaerobic lagoon liquid (source: USDA-NRCS FOTG Practice Standard 633 -Waste Utilization page 633-46). Actual nutrient content of waste pumped from this system may vary from these values. waste analysis will be made of the actual manure slurry and lagoon liquid twice per year. The ^applicator is cautioned that P and A may be over applied if application is made based on Nitrogen alone. This plan only addresses Nitrogen. 3 .01 Sludge buildup in lagoons is limited to waste from one farrowing/nursery house directly discharging into lagoon #2. All other wastes are directed into earthen settling basins where solids are trapped and liquids runoff into lagoons. Sludge depths in both lagoons will be determined at least every five years, with excess sludge removed as appropriate. The sludge will be nutrient rich and will require precautionary measures to prevent over application of nutrients or other elements. 4 0 10 ;• taa Applying the above amount of waste is a big job. You should plan time and have appropriate equipment to apply the waste in a timely manner. The crop fields shown on Tables 1 and 2 are available for waste application. It will not be necessary and may not be desirable to apply waste to each of these fields in any given year. It is assumed that for row crops only a fraction of the total annual nitrogen requirement will be applied using animal waste. The Lbs. of Nitrogen Per Acre shown in the tables are estimated annual nitrogen (N) requirements of the crop to be grown based on the potential productivity of the soil and assuming no double cropping. The Recommended Lbs. of N to be applied per acre indicate the Nitrogen that ca' be reasonably applied to the crop and used by the crop in a timely manner. Appropriate forms are attached for use by the landowner to record actual application of manure slurry and anaerobic lagoon liquid, balancing the nitrogen requirements of the crop with the plant available nitrogen applied. Table 1: ACRES OWNED BY PRODUCER Recommended Tract Field ## No. soil Crop Type Rotation Realistic Anticipated Yield Lbs. N Lbs. N to Acresl Required to be Useable Per Ac. Applied2 91 11 Cecil Tobacco 2800 lbs 1 4.4 1 80 1 352 Barleyl 70 bu 1 4.4 1 105 1 462 91 21 Cecil'ITobacco/I 2800 lbs 1 4.7 1 80 1 376 1 91 31 Cecil lCorn/ 1 95 bu 1 6.7 1 119 1 797 1 41 Cec 1 91 5lHibritnIFescue-GI bu 1 4.0 2.5 ton 1 3.3 1 95 1 313 3131 ! 91 6IHibritnIFescue-GI ton 1 6.8 2.5 ton I 4.5 1 95 1 427 4271 1 91 7 1 Hibritn Fescue -G i _ 2.5 _ton _ _ _ ! 5.4 1 95 _1 513 5131 1 91 8IHibritnIFescue-GI 2.5 ton ! 4.0 1 95 1 418 418_ 1 121 2.1 Cecil Fescue -GJ _ 3.0 ton L 2.0 1 112 1.224 224 Barley 70 bu 1 4.0 1 105 1 420 121 41 Cecil. (Fescue -GJ 3.0 ton 1 7.0 112 1784 784_ 12] 51 Cecil Fescue -GJ 3.0 ton 1 6.8 1 112 1 761.7611 121. 61. Cecil lBarlev/ 1 70 bu 1 5.0 1 105 1 525 1 � t• Recommended Realistic Lbs. N Lbs. N to Tract Field Soil Crop Anticipated Acresl Required to be # No. Type Rotation Yield Useable Per Ac. Annlied2 131 2 Cecil Barley/ 70 bu 4.3 1 105 1 451 Corn 95 bu 4.3 119 512 131 31 Cecil I Barley/ 70 bu 3.8 105 399 Corn 95 bu 3.8 119 452 13.1 41 CecilABarle-v/ _1 70 bu 1 4.7 1 105 1 493 1 151 21 Cecil Barley/70 bu 3.3 105 346 -- Tobacco -j- 2800 lbs 1 3.3 1 80 264 1. 151 31 Cecil (Fescue -G1 3.0 ton 1 4.0 1!_112 448 448L 1 15.1 _41 Cecil I Fescue -G1 _ 3 .0 ton 1 3.5 1 112 1 392 392 L 1 151 51.Cecil (Corn/ 1 95 bu I 7.8 1 119 1 928 1 4.4 151 81 Cecil IB 119 151 91 Cecil Barle 70 bu 5.9 105 620 Corn[.95 bu 1 5.9 119 702 1 Pacolet.I Fescue -HL __ 3.0 ton ----L- _ 2.5 1 150 1 375 375 1 Chewacl Corn 95 bu 1 1.9 119 226 226 151 101 Cecil Corn/- 95 bu 1 1.8 119 214 Barle 70 bu 1.8 105 189 21171 21Anr)linclCorn/ 1 95 bu 1 1.3 1 119 1 155 I c 44 21171 51AnnlinalCorn/ I 95 bu 1 4.0 1 119 1 476 1 21171 6IADul 220 Total 1163.2 1 _17,482 17,323 6 +. The useable acreage represents the total acreage of the field rninus the required buffer areas which border streams or residential areas. 2 More than one nitrogen amount to be applied is given per field, depending on the crop to be grown in the crop rotation. This Nitrogen is from animal waste only. If nutrients from other sources such as commercial fertilizer are applied, they must be accounted for. Nitrogen must be based on realistic yield expectation. Table 2: ACRES RENTED Realistic Lbs. N Tract Field Soil Crop Anticipated Acresl Required ## No. Type Rotation Yield Useable Per Ac. Recommended Lbs. N to to be Applied2 211-91 1IAPr)linqIFescue-HI 3.0 tons 1 6.2 150 930 930 1 21191 21Ann1inalTobacco/1. 2800 lbs 1 6.0 1 80 1 480 1 52711 11Cecil 1Fescue-H{ 3.0 tons 1 3.0 1 150 1 450 4501 52711 2 Cecil Corn 95 bu 1 3.2 1 119 381 95 Barleyl 70 bu 1 3.2 1 105 336 52711 3-1Cecil [Tobacco/I 2800 lbs 1 1.5 1 80 1 120 1 6921 11Cecil (Corn/SG 1 95 bu 1 4.8 1 119 1 571 5711 1 2 1. Cecil + Fescue -HI 3'. 0 tons .1 5. 5 —L 150 1 825 8251 --_I 3 Cecil [Corn/SG 1 95 bu 1 4.4 1 119 1 524 5241 1 1 4 Cecil !Corn/SG 1 95 bu 1 3.9 1 119 1 464 4641 I - 5 1 Cecil -I Fescue --HI 3.0 tons 1- 4..5 150 675 675 6 Cecil Corn SG 1 95 bu 5.5 119 655 655 1 7 ! Cecil i Corn/SG 1 95 bu 1.0 � 119 _ I 119 1191 VA I 31Cecil ICorn/ 1 95 bu 1 4.9 1 119 1 583 1 • See footnotes for Table 1. Total 74.4 9,157 8,952 •7 WASTE: UTILIZATION PLANT Table 2 Continued: ACRES RENTED Recommended Realistic Lbs. N Lbs. N to Tract Field Soil Crop Anticipated Acresl Required to be # No. Type Rotation Yield Useable Per Ac. Applied2 51951 11ApplinglTobacco/I 2800 lbs 1 1.0 80 80 1 SmallGrn 45 bu 1.0 77 77 2 A lin Tobacco 2800 lbs 4.5 80 360 3 Cecil ISmallGrnl Tobacco/ 45 2800 bu lbs 4.5 2.5 77 80 20Q 347 JSma11Grnj 40 bu 1 2.5 1 _ — 68 1 170 1514 1 Cecil ITobaccoZI 2800 lbs 1 1.0 1 80 1 80 --ISma1IGrnI 40 bu 1.0 1 68 1 68 1433 1 Cecil Tobacco 2800 lbs 2.0 80 160 ISmallGrni 40 bu 2.0 1 68 1 136 1472 11 Cecil ITobaccoZI 2800 lbs 2.5 80 200 1—!SmallGrn 2 Cecil SmallGrn Tobacco/ 40-bu 2800 lbs 2.5 1.0 68 80 80 170 40 bu 1 1.0 68 68 3 Cecil ITobaccoZI 2800 lbs 1 5.0 1 80 400 Sma11Grn 40 bu 1 5.0 1 68 1 340 1487 1A A lin Tobacco 2800 lbs 4.0 80 320 1B Cecil ISmallGrnl ITobaccoZI 45 2800 bu lbs 1 4.0 1 1 7.8 1 77 80 624 308 SmallGrni 40 bu 7.8 68 503 1438 1 Apiplin Tobac c oJ 2800 lbs 12.0 80 960 ISmallGrnl 45 bu 12.0 77 924 * See footnotes for Table 1. 7A 1,�,O N, LA AT ...... 7A, TE.'M F -TA-7 Table 2 Continued: ACRES RENTED Recommended Realistic. Lbs. N Lbs. N to Tract Field Soil Crop Anticipated Acresl Required to be # No. - Type Rotation Yield Useable Per Ac. Applied2 1427 1j Cecil ITobacco/I 2800 lbs 1 13.0 1 50 11040 SmallGrn 40 bu 13.0 68 884 21Cecil Tobacco 2800 Ibs 4.0_ 80 320 jSma13.Grnj 31C cil ITobaccoZI 40 2800 bu lbs �4.0 6.9 — 68 80 552 2721 smallGrnj 40 bu 1 6.9 1 68 1 4691 2139 11 Ago 1 in Tobacco 2800 lbs 4 6.0 80 4$0 1 Sma11G-n 45 bu 6.0 77 4621 -2 A plina Tobacco 2800 lbs 4.4 80 1 352 SmallGrn 45 bu 4.4 77 339 215$ 3 Ce( LaccoLl 2800 lbs' 2.5 80 200 5 Cecil SmallGrn Tobacco/ 40 2800 bu lbs 2.5 1.7 68 80 136 170 jSma11Grnj 40 bu j 1.7 1 68 116 6 tCecil. j Tobacco 2800 lbs 1 2.9 1 80 232 ISmallGrni 40 bu 1 2.9 1 68 j 197 7 Cecil TobaccoZj 2800 lbs 1 2.5 1. 80 1., 20$ ISmallGrni 40 bu 1 2.6 68 177 2138 4 Cecil Tobacco 2800 lbs 4.2 80 336 I ISmallGrn 40 bu ! 4.2 L--68 1 2861 11!143^ �19 7,G7 7971 ? �71� or 156 5 414 6.9 jigjoagj .o i _..o. _ 1 6.0 1 Iso 1qOO 400_l See footnotes for Table 1. f To+ 4 19 ) 000 J 1! a', I % U— FI � � - ". F. - -GNf--�-PLAN 1 1' Totals from above Tables Acres Lbs. N Utilized2 Table 1_ 163.2 .17,482 _ 1 17,323 Table 2 I 19+.3 20 0 -2 l4� 00� Total 3_5 Z-9- 137 524 - I __ � •36, 323 Amount of N Produced = (14,545)��5 N Deficit = (21,7%8•) �7$ * See footnotes for Table 1. This. summary indicates that only about 43 percent of the total annual nitrogen requirements can be provided for the crops as listed for the fields available using animal waste produced on this farm. Your facility does not meet Natural Resources Conservation_ Service design standards, however it appears to contain at. least 90 days of temporary storage and the temporary storage must be removed on the average of once every 3 MONTHS. In no instance should the volume of waste being stored exceed the maximum liquid level marker on each structure. These markers will be set as follows: Settling Basin #1 - 1 ft. .7 in. below the top of dam. Settling Basin #2 - 1 ft. 8 in. below the top of dam. Settling Basin. #3 - (overflows directly to Lagoon # 2) Settling Basin #4 - 1 ft. 6 in.'below the top of darn. Lagoon ## 1 - 1 ft. 11 in. below the emergency spillway. Lagoon ## 2 - 1 ft. 7 in. below the emergency spillway. Call the focal Natural Resources Conservation Service (formerly Soil Conservation Service) or Soil and Water Conservation District office after -you receive the waste analysis report for assistance in -J determining the amount per acre to apply and the proper application rate. U.S. DEPARTMENT OF AGRICULTURE NATu AL RESOURCES CONSERVATION SERVICE SOIL MAP LEGEND B. G. Locper &'Sons - Looper, Sohn PAGE 1 OF 1 02/15/01 - Map Soil name symbol ApB jAppling sandy loam, 2 to 8 percent slopes - ApD jAppling sandy loam, 8 to 15 percent slopes CeB2 lCec_1 sandy loam, 2 to a percent slopes, eroded CeD2Cecil sandy loam, 8 to 15 percent slopes, eroded Cm lChewacla loam, occasionally flooded HbD lHibriten very cobbly sandy loam, B to 15 percent slopes HbF lHibriten very cobbly sandy loam, 15 to 50 percent slopes PaE jPacolet fine sandy loam, 15 to 25 percent slopes - - - r NONTECHNICAL SOILS DESCRIPTION REPORT H. G. Looper & Sons - Looper, John Map Soil name and description Symbol APB Appling sandy loam, 2 to a percent slopes These gently sloping, very deep, well drained soils are on uplands. They formed in residuum from felsic rocks. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink -swell potential is f low. Seasonal high water table is below 6.0 feet. ApD Appling sandy loam, 8 to 15 percent slopes These strongly sloping, very deep, well drained soils are on uplands. They formed in residuum from Eelsic racks. 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. CeB2 CeD2 Cm Cecil sandy !cam, 2 to 8 percent slopes, eroded These gently sloping, very deep, well drained, eroded f soils are on uplands. They formed in residuum from felsic rocks. They have a loamy surface layer and a clayey subsoil. Permeability is moderate and shrink -swell potential is low. Seasonal high water 4 table is below 6.0 feet. { Cecil sandy loam, B to 15 percent slopes, eroded These strongly sloping, very deep, well drained, eroded soils are on uplands. They formed in residuum from felsic rocks. 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. Chewacla loam, occasionally 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 soils are subject to occasional flooding. HbD Hibriten very cobbly sandy loam, 8 to 15 percent slopes NONTECHNICAL SOILS DESCRIPTION REPORT B. n. Looper & Sons - Looper, John Map Soil name and description Symbol These strongly sloping, moderately deep, well drained soils are on uplands. They formed in residuum from j sillimanite schist. They have a loamy surface layer and subsoil. Many 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. f _ HbF ! Hibriten very cobbly sandy loam, 15 to 60 percent slopes r These moderately steep to steep, moderately deep, well drained soils are on uplands. They formed in residuum from sillimanite schist_ They have a loamy surface -- layer and subsoil- Many cobbles and gravels are present throughout these soils. Soft bedrock is within a depth of 20 to 46 inches. Permeability is moderate and shrink -swell potential is low. Seasonal high water table is below 6.0 feet. PaE Pacolet fine sandy loam, 15 to 25 percent slopes These`moderately steep, very deep, well drained soils are on uplands. they formed in residuum from felsic rocks. 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. U.S. DEPARTMENT OF AGRICULTURE PAGE 1 OF I NATURAL RESOURCES CONSERVATION SERVICE 02/15/01 LAND CAPABILITY AND YIELDS PER ACRE OF CROPS AND PASTURE B. G. Looper & Sons - Looper, John (Yields are those that can be expected under a high level of nonirrigated management by mapunit name. Absence of a yield indicates that the soil is not suited to the crop or the crop generally is not grown on the soil) I Map symbol ( I Land I I I I I i I Corn I Grass hay I I I I I and soil name j I capability I I I I I I I I I I I k { I { ! I I I I I 4 I I Bu I Tons Ape I i 95 Appling---------I 2E I I I I I I I I ApD I € I I I I E I I 70 Appling------.---I 4E I CeB2 I I I I ( I I I I 95 Cecil -----------I 2E I I I I I I I I CeD2 k I I I I I I I 1 s0 Cecil -----------I 4E ! I 1 I I I I Cm I I 100 Chewacla--------k SW I Hb0 I I I I I { I Hibriten--------I 6S I I I I I I I € I I HbF I I I I I Hibriten--------I 79 I I I I I I Pae Pacolet---------I EE I I I I I I I Y l ' • - _,. - - - �+M1--� ,t CO nod 4 CY to F- t - •. ��iv - .4 �_ _ firs' R� T e A� �• _, •s '` � i�i ] "�'- i - � fly t-,- 3 + f ..� ;,may 7 �! F •�S T r _ [ - ` l.i "Y tiE ii:• Y, x )+icy .M+ -p �- -•S, i � ,C,Q`%% �% �f � � ~J �� it ' - • � � • I '�T Y�+3 '�, �a1�s�' �x ��� Cr 11 w IM SCS -CPA -015 n' U. S. DEPARTMENT OF AGRICULTURE 12-85 C0".5er11a-i6tn i D I aV► a p SOIL CONSERVATION SERVICE ;. Owner Operator 8 . l'� •ILQ J2 Pe- r E)tf*"J.r#' County �' d j,�1 p State— Soil tate C ,4'SC`° Soil survey sheet (s) or code nos.. 7-- -2 117 1 Aproximate scale /A _ v N f ;. Prepared by U. S. Department of Agriculture, Soil Conservation Service cooperating y j with C o d & i P.11_ _ SD 1 4- 1A? a { Conservation District •' v -i d r rJ•'+f S '!'; 1' -��.r' Y.ii��Li.��r"iCi�"•;i lia1 �:; �'' c¢4 `r: - , r+ , D ,fir !x � � ♦ s:F�•a yJ'i y V ••' E; 7�y.� Sf O �lti:' r } .. � ' �81� - ,t. r_ y�,.� . -,,t r .v'��•j-res ��� ,..S�r� `11,�•�t�r+JR_rS. �'�i {a-1+ ',ts s;L" � ;.: k.. , ;}, r-�y �� r1?�-� ;+ es �.�G{•�r45iaTa�3. j�y:Z� sof � � � �� :s { "4 _; �'b. ' E- e � Sr- Xe s' " I'.��''f'#•`1�+ jy� t}y"}�iV'owl wW or •P�t,°1 i;h✓' >< _ T ? y� } tea' .i��`'•�Y Jl ." t t -�' Q ��"'' - ' �� � �s � .* r •� 1 +ft' _� �'` '� ..1 Hsi -43 i :,�'. .- - �• '✓moi ••y�•J.. �■' _ +-_-. ,L _ ..I - .'>L-r3i ',j € rYil_ - �_,a a -. _-yrs i. ,. •.y� _ l' y -r 'a-- 'ti. ,t it � ,t` ry.�• '�i?"` $, f_ f� _ ., • ^ r X• A j .= ti.. "��� �� i +e!' . � °d .!f !.�=-�y�rfi`���r�'4 �� r � � a �,_ a. i ''}-3E:;dr� �- w � '� �: r t-_ �i7'• if y � , 'k" a , � � f i . 9 - T- - y �t } oLi ,X31: 14 .r ,�'�`�® yT'- IMY, Vu WX u� !rte ti •3 3 . �� ¢ :_ � ,� '�' t� '� � _ Q . m � - 5 ,�,� � .az ���� 1 s'� x.yt �'x U. S. DEPARTMENT OF AGRICULTURE SCS-CPA-15 cbv%sevval �'j"' 1W. -1-77 -T- Owner Operator C-1 Loon e r in County w e State Vosa' Soil survey sheet (s) or code nos. T— _ Approximate scale N Z6 S: •J " Prepared by U. S. Department of Agriculture, Soil Conservation Service cooperating �+J with �' c� W L' � 5 0 �� t�- (A), 4E Y _ Conservation District - 67 42 US. DEPARTMENT OF AGRICU RE SCS - CPA - 16 SOIL CONSERVATION SERVICE 2 -81 CONSERVATION PLAN MAP Owner r,0V!R?,Vki In a Operator 60012e -y A- 501, :5 County C, 14,ie I I State H• C, I Date 1-2) Approximate acres Approximate scale '1 Cooperating with - C Q I Of w I 1 4,1 W Conservation District Plan identification 7-137/ Photo number Assisted by C f- c USDA Soil Conservation Service MEOW 7 — 'r'� s rY .r[ - �. - Ms f � �� wx c �t�♦ t-� _s � — ' - ti _ AAs- r r j . ��' �� � � } ?t• _ `-� r S � � •� •�' � �"",�' '. ZZ .4-4. . r � � •�-3 i�•, '--rte`' - "S d. r IMS `;�- xr r -.. -c f.^ -_ •�i�_..a..,;•: •�"•_'+•"'cam � y `��,� w ��� • ,p tWL �...r..,,�r �;11 9V r..t! r • � _ ter. � j, +Y - -7frr^ ,i' -kms -.y .3'�!"' A}i.-•.i`1' +; r� st • .C��T; Lti 'j�FT � � y . 71 OAK I WE 51 f -It W.;�, • i s! �• � � ;...� .„+tee- -`�� `i [1 _t � , - �.iii_i Y - �r .� i � :L.id- 'ci • K i ��Y 7� � - , .. � moi''? '.�f•!a �� - _ F•= -Z .wr ,�: j �” � fry t .rF Re- :d.xca e:Y-• - 37r ^�.'J7f "� ^ter - 1• 472 i off 1 .� •'� _ -�. . � � I ` - ,'n' i� �i �� i -_-•.cud-..: i .•. VI Li Li - Yl 4V X 4� f4 t6o M. 3 • mat", a ` SOO i - rm, A', . i c .. - i . 1'.�� Y _ L �' 'x' 1,'iFx477, Y` ..ate � {i7f.` J �.• :«•,&1 I` � .� - - ✓ `kf'.� "I - ' F Vit. - r c�•°r" �' - �p t lYrr 1' u✓ 31 A' k!� y .... � j �'A � c �'�,.•�'�•,� r�.�utirry.�y„,"�awwfl�q �[$Y . f .' r, `(� .�7,�,,, +�,.i j 1� f# �' i'yw �.. •hs tu. �` Y .+f`i t. a,� ata, ' +,✓`•.:tee - , }e �,jf pd,q"?a� PPA 4' n LAW T11 iq � � •Y ,.yi�h �Y �S, FIY G M. 3 • mat", a ` SOO i - rm, A', . i c .. - i . 1'.�� Y _ L �' 'x' 1,'iFx477, Y` ..ate � {i7f.` J �.• :«•,&1 I` � .� - - ✓ `kf'.� "I - ' F Vit. - r c�•°r" �' - �p t lYrr 1' u✓ 31 A' k!� y .... � j �'A � c �'�,.•�'�•,� r�.�utirry.�y„,"�awwfl�q �[$Y . f .' r, `(� .�7,�,,, +�,.i j 1� f# �' i'yw �.. •hs tu. �` Y .+f`i t. a,� ata, ' +,✓`•.:tee - , }e �,jf pd,q"?a� PPA 4' n LAW 427 41 Ai +' ��'"o--ate• _ - �'�, ��� _ lb (j ^� i! •� e_ �' '",.�•-•— yo- ;i� i �'�_� _ �� ITf _ f t . x _ s vemo, T U.S. DEPARTMENT OF AGRICULTURE SCS - CPA - 16 • SOIL CONSERVATION SERVICE �•' - 2 -81 ''xt - CONSERVATION PLAN MAP - - MOwner J G ar `! S:f a fir, v, e s Operator County C a 1 419 e l t State N, C• Date 3ZO o '? = Approximate acres N /1q Approximate scale N .� Cooperating with _ o P S o , { W Q 4-e Ir Conservation District Plan identification — 21 3 9 Photo number 14 Assisted by — e'� 1 l� • 4o V wp s —USDA Soil Conservation Service ' !F-c�:• - ,."rc'a _ ti•i•.! •a,,FS :'rt••°j'. ?AES±':•__ WN - �W�2-m iw--. _ 1L ,;r ie. I M 19, A N . ol I k k- Ilk. • ayv... ''' - 'tea 771 21 All� ^ � '. }�� r '.t `•y. � �._^ -iii F/ Y .7= ��'il�;;ft► � _ e{:i ry 1 s LZ r L71 '� c ��- �•+-�._ .. — - wti fir s-�F�_ -R • • 4- r w ��I ti � • � � r .� '� 4'..'r, . � 7• --moi•-- �Y �`�'�! � _ 4Te�~_-+_y� � � -+ r�T� . �_ •1 � � •� � tit _� fr.: yy..���.i ._•-^ Y� j'y fi=r : � �Y - _�. '.�!►._ lye-.• - - _ _ r -t •.y f } rLt .- y -��• i� ..• T. iy:- a ♦. - _ - • . - _� _t�� � �s-. a .-}4r: , � �.�s-a © it • — - � t'_•�. : AftAL m • '��i: It r r Or 6r `MM�j, t r� • ',,� . ��� � .'� .� ti`s- - - ii.' �' - - -`� �, ; 4 ' S� � _ . is - �"+�•"+::. W " r` � _> �. � y,. �'" f #�'_ �-• is ■ ���'-.� - },'` � � ,a`� "i . , � _ � •rte..' f,..�� - � .itf _ -�-'yr : •�`. ` r fit' L�' - ..��.- .�'R`. # !!II i_-� ,._'!i^.__, '[+-. `. 4 'yam '�a - _ - _ - aw '�r� •>i• ir�.a�}M4==t y ;k" • '�•�' �.� - _ •!•�:. � � �'"'� moi' i-:��.�."� js�^',;,� - � T+ l —_ K� }r�"�-.,.<�. y4t �- i�T .fit t•r•..""try� at., MP WN .07 � "� -_ - - „' ` � .t �'• is `* �a�. '��t let .i _ =: 11 I � Mita ��• AL _ ir�rt 1 � 'E. J. i+.. �, �:� u ��Y•.. � rFrr ,� � r b � ,,� .� ,. �, � s� �,� `�.vs:+aF-77 'yi'•a: i Y.. . .. �'" � � w- !.•' M+"'"n. i'`tr.r `%'-•1 -. �. re��� tai •F�ft�,yR,.r �i� rt -e,� ,..r+ r•+�� - "'�. _--,�.y�r s-_ �-: '��•a'vd � � "?�Cyw,�eM'"'. ix� '}x ='^. lit _ ri �L N. 514 �. � '�' •i1`lf a ►!rr' 4'.��..: � �;k'H-s'Y '� � yR :r� �5..t. �. _ �� rr Y3 1, ASL.-.„�-a.�y. .`�.. T�T � �s. -i • } . h Kr. • A � 8 ' �ya., i}l if � v ��� n ,J di sr: A�}Jrj' r - n�:t•L� � - r ki'N°� iT,� ,fit' ;+s' . � W �.f.-�����'-�sn ,t � . 7.Iry .lr. _ 1•� "- YDS. '�' k l�.a� '*� 4�•�r F4"u. "�' � ,sot it' k7%.i L_• .nk ter -5":_ _ t ..,.r 15, Qt i•pGt i_ "h'!•.'r - ;49 av_ r +4- .•.� a'T- a .may,".' 4L Ali,�jyi` 1 i• - _ ni.� \3�. =.��y� i �- w V • -?• �i -3y' � - _.;D `-:x •t s �4Fy `F�,1a' j,4, .Fi.w - ti Y C� j a"'-ir..� -.i- i,!�"1-1., .''r If 4F - 7. ) • :iii'.' �►yy� "'rF''t.F .r� �i� :-'L -.N i t . i�'`�•�ai' .. ��� � . f alb � s � ''< ' � +s '� � 71'� i � r e y'i•r. : 3nT .'..; ¢ =`�,A�' ? yam, - - fit ts:•yr� ..�r �- ��� — �'f'�� .� �;�Y��i; �'zfk� .—•'��, ' /.. '+1 �s,�' ����1�`,tE�1���81�+:L U.S. DEPARTMENT OF AGRICULTURE SCS - CPA -lfi P SOIL CONSERVATION SERVICE Z -3I CONSERVATION PLAN MAP Owner Ted ra�uR-,, Operator E-L'P_ 4- Al,ck Sfa rives County Circ lyre J! _ _ State Al s, Date sz' Approximate acres Approximate scale A/c 10' Scadez Cooperating withConservati r- " Plan identification 7 Photo number Assisted by _ "y IQ. Lvlia v _ _ USDA Soil Conservat SCS -CPA -015 U. S. DEPARTMENT OF AGRICULTURE 12-55 SOILCONSERVAT ION SERVICE SOIL MAP Owner Tie a Operator M C 4- S S --car Vr e s County e l d w e 11 State Soil survey sheet (s) or code nos. 1 I R 7 Aproximate scale Prepared by U. S. Department of Agriculture, Soil Conservation Service cooperating fi with 0-a [ d w o t f So; 1� t� a -F e�_ Conservation District 1 i k r �1-. v L • "�� `' 'f .../ _ +.oaf _ ` ( _ � - y11� SCS -CPA -015 U. S. DEPARTMENT OF AGRICULTURE 12-55 SOILCONSERVAT ION SERVICE SOIL MAP Owner Tie a Operator M C 4- S S --car Vr e s County e l d w e 11 State Soil survey sheet (s) or code nos. 1 I R 7 Aproximate scale Prepared by U. S. Department of Agriculture, Soil Conservation Service cooperating fi with 0-a [ d w o t f So; 1� t� a -F e�_ Conservation District Yi,~ _�� �� - -F �•t � ..r _ � title+" t ' �•= - '4y�- J � 1 _,1+ �f� ,� '�, ` � S - •?z i � '3 , - ��iS�,S. �y -•T� 4� - �: ^ :� . • �-iMa.�_ —�_ - -,try- a��� r #:�: aw 1 i. ^'`,w.�'1F / •-�Y` .�.`=,s�'-'�'..j_7"?.'7) --a i may' - 'F difjF'''�•L"y U DEPARTMENT OF AGRICULTURE SOIL CONSERVATION SERVICE SCS -CPA -1& 2 -3I CONSERVATION PLANMAP Owner F Operator 5 +ar e s County o We State N - C• Date -7- Approximate Approximate acres IN Approximate scale I Cooperating with LA) 0-�- e111 Conservation District Plan identification T— I 3 ! — 2 Photo number N F Assisted by i, . ,. ' USDA Soil Conservation Service 13 - •rte' � �� .b x� �l � r � ��' f+� • _"'-r �' - �1 .t � ^'� /•� r � - � • - .•��-_���' _ .. - � �-.- � + ��♦„ ._far .! � + • 1. Y� - !� � s, SAS • s_ 3.2 .J _ �r sr. 00 N P7 _,� �• � t � .�ilE .� h_. r�.:�sa rrjri,t.:.� ::1r'!`_r. r:� ,+� .r - � • � , --�•�,tj' `fir d tit --�' y? ?= • -� �� - .'fir. � .�� t`i!-t�y� *. �'L aQ�:*. ��..-•.FaS: r� ,.xy +� - ty - 1 a. it C. U. S..DEPARTMEXT OF AGRICULTURE SOIL MAP SCS -CPA -15 (a-32) Owner '{ 0� r. IrC ' i Operator M E ' S ; a rv, e 5 County C r State C. Soil survey sheet (s) or code nos. — f 3 1i T— J+ 7 ? . T— 151 Approximate scale " Prepared by 1. S. Department of Agriculture, Soil Conservation Service cooperating with a± "e c W 0 .lE r Conservation District Ci I a WA Lk - CeB2 PS Cm- tv Ap D ApB --4 CBD 2 2 -1C a -Z2 B 2 1750 CBS 2 U. S DEPARTMENT OF AGFUCULTURE SCS -CPA -15 (3-43) SOIL MAP Owner Operator M E 4- 5 County C. State - N I C --.— Soil survey sheet (s) or code nos., T- 143 1 -7- !+ 9 2 , 7- IS I+ Approximate scale Prepared by U. S. Department of Agriculture, Soil Conservation Service cooperating with 0- afdwl- V Sol ( -- W a -Ler Conservation District ' � �yz� - � rL �- +�} rte; a l• »%' .�,�n�l�.,�r ,mi gd''�'-�.' �,� � �Y- � � �.y y� ,rt r ; �Y�' 7�x F� �^-�r�.ti •„- ����x , f��j� �y� y` � . ,yam r . - � �i -fir �` S l � - '•�+ .4 !g w-�. T%-l" mil; r 3 Z•� ti_'�..r� {�, ,1��"rr'-y y r..a:T •. �i�� _ t � �_� -�+- - � �• � Xy�3s �-3� r �"��.y � ��L 4� fig -� ;-'%"?A � �� .s i -� � _ � !�'n`_f�Sa+f' _� + ..•y e,'��'}�9,y+� �T'; �.�i j.r•.. -moi 3 �_ �S` r :T}� 4 1 .- -.- y L i •.� i r � # rT 1 • I 1 • • L - • � �fii y'R ' MEW lK Aw ••• , �' L • • ffilld • •_ + '�- . � �'„ � ";��• • e`er � z.. �;' �� k�: •, ' Au AL I '�'.,•� � • � .atm.. ��"-' �� •'+� _ _ •�.�_ "�-, _� °--ice- r'+L Tt. s - _ "�' - z ti - ':.. ,.- .ryk'?�� - •� ,� � -= tip' _ . �1i Pf Cj U. S. DEPARTMENT 4F AGR;CLJL'CURE SOIL MAP SCS -CPA -15 (3-88) Owner Operator M E Q 5 ar County State N. C. Soil survey sheet (s) or code nos. - 143 - I - S . 'I Approximate scale Prepared by U. S. Department of Agriculture, Soil Conservation Service cooperating with a t w e 11 S o' t 4- W a f,- r Conservation District CSTT�`�r� f �� I ) l r. ix it ,. �T�.�� yl. tigL - �✓�� z QEPARTI11,4T OF AGRICUL7U RE �h i+ SOIL CONSERVATION SEFiVICE CONSERVATION PLAN 14AP . 1� 75-:?, Owner Ke y, , o -I k' a Operator L� dr,` & M. � t a rNP5 County Ga 2 State _ ,(�a. Date Approximate acres Approximate scale /� = 119%f9 I Cooperating with Caldwell Sni% i- PJalfr Conservation District i Plan identification T) -,q C 5 57 Photo number i Assisted by ,f K55FIl L Xdt USDA Soil Conservation Service j '�►•,.._ ice? _ -� ?:'1r#.: r.+� yl:f ''M1• , y SCS -CPA -015 1Z-85 SOIL MAP U.S. DEPARTMENT OF AGRICULTURE SOIL CONSERVATION SERVICE Owner ke h v, e 4 kl k yk Operator R E'L R S S " e S County . e a I d " P f/_ _ State Soil survey sheet (s) or code nos. Aproximate scale N. Prepared by U. S. Department of Agriculture. Soil Conservation Service cooperating with — C--- 1 d Lde I I S Q 1 1 k&Lo, - - e r Conservation District LEGEND FOR MAPS SHOWING THE FIELDS TO BE USED FOR THE UTILIZATION OF WASTE AND WASTE WATER. Approximate Farm Boundaries 17 Tract Number for the farm (ref. Table 2) Field Numbers (ref. Table 2) Field Acreage (The actual acreage that may be used to land apply waste is limited to that shown in Table 2.) Buffer areas where no waste or wastewater may be applied (ref_ "Required Specifications") Known Streams LEGEND FOR MAPS SNOWING THE FIELDS TO BE USED FOR THE IITILIZATION OF WASTE AND WASTE WATER. Aunroximate Farm Boundaries 7 f ? 9 Tract Number for the ;a n (ref. Table 2 ) O Field Numbers (ref. Table 2) 55. Field Acreage (The actual acreage that may be used to land apply waste is limited to that shown in Table 2.) Buffer areas where no waste or wastewater may be applied (ref. "Required Specifications") MMMOO-W .gown Streams SCS -CPA -0t s Y2 -OS SOIL MAP U. S. DEPARTMENT OF AGRICULTURE SOIL CONSERVATION SERVICE Owner ke h in e 4 h_ k ya c Operator�P-' E -L R 5 5 +2 V ", e s_ County C, 1d ids e f I State Soil survey sheet (s) or code nos. T— •S 19 a ., .- Aproximate scale Prepared bU_ S. Department of Agriculture. Soil Conservation Service cooperating with C,.- l 01 W e I I 5. -1 .4 W a -4- e�- Conservation District WASTE. UTILIZATION PLAN Narrative of Operation This waste utilization plan is for two businesses (B. G. Looper & Sons, and Wesley Looper) that jointly operate a single waste management system. B. G. Looper & Sons manages a 160 sow farrow -to -finish swine operation and Wesley Looper manages a 100 sow farrow- to -finish swine operation. Animals are housed in 11 buildings. Some of the buildings have solid floors, some have slatted floors with underfloor pits that are flushed and recharged with lagoon water weekly, and some have slatted floors - with underfloor pits that are flushed with lagoon water numerous times each day. With the exception of one farrowing/nursery building, all wastes is collected in one of 3 earthen or 1 concrete settling basins. The waste is trapped in slurry form in a settling basin, while the water is automatically drained into one of two lagoons. All earthen structures will have minimum top widths of 8 feet, will have uniform and well vegetated side slopes, and have maximum liquid level markers installed. Surface water is diverted from all structures by earthen diversions and roof guttering. Pipes bringing wastes into structures will extend far enough to prevent side slope erosion when waste levels are at their lowest. All structures do not appear to be unsafe, and do not pose a life threatening hazard if an immediate collapse occurs. The total holding capacity of the 4 settling basins and 2 lagoons is estimated to be 326,046 cubic feet. The storage period is estimated to exceed 90 days. However with a 90 day storage period; the treatment volume for both lagoons is less than recommended. This existing waste collection system will produce effluent that is higher in nutrient content, and has stronger odors during land application than conventional lagoon systems. Waste is land applied using two methods, irrigation and truck mounted tank Lagoon liquid is irrigated on nearby fields. It is pumped through portable pipe to up to four stationary big guns. Most soil in this area is classed as Cecil sandy clay loam. Application rates for these clayey soils should not exceed 0.3 inch per hour. The total application amount (from the time the pumps are turned on until they are turned off) should not exceed I inch. Calibration of the irrigation equipment is required so the application rate is not exceeded. Slurry from the 4 settling basins is pumped into a 1 X00 gallon truck mounted tank and spread on owned and rented fields too distant to receive irrigated waste. Application of this waste will be applied as directed in the "Required Specifications" (see pages 11 - 12) of this plan. In addition, timing of waste application will normally follow this schedule: Fescue: February -May September -November Corn: March -July Barley: October -November Tobacco: April -June Sm. Grain Cover Crop: October -March Note 1: Nitrogen applied to a small grain winter cover crop that is not harvested should be included in the nitrogen budget for the following row crop. 9 WASTE UTILIZATION PLAN REQUIRED SPECIFICA TIONS 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 which reaches surface water is prohibited. Illegal discharges are subject to the assessment of civil penalties of 510,000 per day by the Division of Environmental Management for every day the discharge continues. 2. These producers own adequate land to properly apply the waste generated by these facilities. If the producers do not own adequate land to properly dispose of waste, they shall provide NRCS with a notarized written 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 facility to secure an update of the Waste Utilization Plan when there is a change in the operation, increase in the number of animals, method of utilization, or available land. 3. Animal waste shall be applied to meet, but not exceed, the Nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climate conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. 4. Animal waste may be applied to land that has a Resource Management System (RMS) or an Alternative Conservation System (ACS). If an ACS is used the soil loss shall be no greater than 10 tons per acre per year and appropriate filter strips will be used where runoff leaves the field. These filter strips will be in addition to "Buffers" required by DEM. 5. Odors can be reduced by injecting the waste or disking after waste application. Waste should not be applied when the wind is blowing. 6. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. 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 conditions conducive to odor or flies and provide uniformity of application. 8. Animal waste shall not be applied to saturated soils, during rainfall events, or when the surface is frozen. 9. Animal waste shall be applied on actively, growing crops in such a manner that the crop is not damaged by burning or smothering of the plant. This is an important consideration where swine, poultry or other ammonia rich waste is being surface applied. Surface broadcast solids or slurries may damage crops if leaf surfaces are matted. Generally waste should be applied such that no more than 20 to 25 percent of the leaf area is covered. This should not normally be a concern where diluted, low nutrient waste is irrigated or surface broadcast from a liquids holding structure. Where crops are severely damaged due to waste application, the plants cannot assimilate the nutrients and discharge of pollutants to surface waters is likely to occur. 10 WASTE UTILIZAT.ION'.'-P LAN REQUIRED SPECIFICA TIONS 10. Waste nutrients shall not be applied in fall or winter for spring planted crops. 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 on bare soil. 11. Animal waste shall not be applied closer than 25 feet to surface water. This distance may be reduced for waters that are not perennial provided adequate vegetative filter strips are present. 12. Animal waste shall not be applied closer than 100 feet to wells. U. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 14. Waste shall be applied in a manner not to reach other property and public right-of-ways. 15. Animal waste shall not be discharged into surface waters, drainage ways or wetlands by a discharge or by over -spraying. Animal waste may be applied to prior converted wetlands provided they have been approved as a land application site by a "technical specialist". Animal waste should not be applied on grassed waterways that discharge directly into water courses, and only then at agronomic rates provided the application causes no runoff or drift from the site. 16. Domestic and industrial waste from wash down facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. 17. Lagoons and other uncovered waste containment structures must maintain a maximum operating level to provide adequate storage for a 25 -year, 24-hour storm event in addition to the one (1) foot mandatory freeboard. 18. A protective cover of appropriate vegetation will be established on all disturbed areas (lagoon embankments, berms, pipe runs, etc.). If needed, special vegetation shall be provided for these areas and shall be fenced, as necessary, to protect the vegetation. Vegetation such as trees, shrubs, and other woody species are not allowed on lagoon dams. Lagoon areas should be kept mowed and accessible. Lagoon berms and structures should be inspected regularly for evidence of erosion, leakage, or discharge. 19. 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. 20. 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. 11 WASTE UT12LIZAT1.ON PLAN WASTE UTILIZA'T'ION PLAN AGREEMENT Name of Farm: B.G. Looper & Sons / Wesley Looper Owner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established in the approved animal waste utilization plan for the farm named above. 1(we) know that any expansion to the existing design capacity of the waste treatment and storage system or construction of new facilities will require a new certification to be submitted to the North Carolina Division of Environmental Management (NCDEM) before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface wasters of the state from a storm event less severe than the 25 -year, 24-hour storm. The approved plan will be filed on-site at the farm office and at the office of the local Soil and Water Conservation District and will be available for review by NCDEM upon request. Name of Facility Owner: B.G. Looper & Sons / Wesley Looper (Please print) Signature: i S' nature: Date: Date: ,5--11 - M Signature: Date: Name of Manager(If different from owner): John Looper/Weslev Looper Signature: Signature: Date: Date: Signature: Date: Name of Technical Specialist: (please print) Cecil L. Haynes Affiliation: Natural Resources Conservation Service Address (Agency): 120 Hospital Avenue, NE, Suite 2 Lenoir NC 28645 Signature: Date:�� ��C7Q0 12 0 Location: 4673 Petra Mill Road (SR 1740), Granite Falls, NC 28630 Telephone: John Looper 828-896-5960, Wesley Looper 828-396-9102 Type Operation: Swine Number of Animals:260 Sow farrow to Finish (Design Capacity) Storage Structure(s): Two lagoons, two Waste Storage Ponds and two settling basins Application Method(s): Irrigation gEn and tractor ulled manure slurry spreader The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface water and/or groundwater. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer required for the crops in the fields where the waste is to be applied. This waste utilization plan uses nitrogen as the limiting nutrient. You must have the animal waste analyzed at least twice each year to determine nutrient content as close to the time of application as practical and at least within 60 days of the date of application before the application cycle. Soil nutrients in all fields where waste will be applied must be analyzed at least annually so that all plant nutrients can be balanced for realistic yields of the crop to be grown. Soil test and waste analysis records shall be kept for five (5) years. Several factors are important in implementing your waste utilization plan in order to maximize the fertilizer value of the waste and to ensure that it is applied in an environmentally safe manner: 15 Le� 5,e--5 7 yes G�-x-{-�c,W-e- ac.kzs oR r,�rr qac`= oaf d�s�o�ti A 1 t11WClyJ app -Ly WCIJ LC L)6JCU U11 L. 11C 1LCCUJ U1 Li 1C t-; -L U JJ LV iJC YLUW11 Q11U the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize. Lime must be applied to application fields as recommended by soil test to maintain the plant uptake of nutrients. 2. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and available water holding capacities. 3. Normally waste shall not be applied to land eroding at greater than 5 tons per acre per year. With special precautions, (see Required Specification No. 4) waste may be applied to land eroding at up to 10 tons per acre per year. 4. Do not apply waste on saturated soils, when it is raining, or when the surface is frozen. Either of these conditions may result in runoff to surface waters, which is a violation of the North Carolina Division of Water Quality (NCDWQ) .0200 regulations. 5. Wind conditions at the time of field application of waste should also be considered to avoid drift and downwind odor problems. 6. To maximize the value of nutrients for crop production and to reduce the potential for pollution, the waste should be applied to a growing crop. Otherwise apply waste no earlier than 30 days prior to planting a crop or prior to forages breaking dormancy. Injecting or otherwise incorporating the waste below the soil surface will conserve nutrients and reduce odor problems. This plan is based on waste application by truck/tractor drawn slurry spreader and overhead irrigation for this is the manner in which you have chosen to apply your waste. If you choose to alter the method(s) of application in the future, you need to revise this plan. Nutrient levels for various waste application methods are not the same. The estimated acres needed to apply the animal waste are based on typical nutrient content for swine animal waste systems in North Carolina. Actual acreage requirements shall be based on waste analysis reports from storage structures in your waste management system. Attached you will find information on proper sampling techniques, preparation, and transfer of waste samples to the lab for analysis. Your waste storage facility (lagoon) is designed for 90days of temporary storage and the temporary storage must be removed on the average of once every 3 months. Call your technical specialist after you receive the waste analysis report for assistance in determining the amount per acre to apply and the proper application rate prior to applying the waste. Only persons who hold a valid certificate as an operator in charge of an animal waste management system shall operate the waste management system, which is covered by this waste utilization plan. The North Carolina Water Quality Commission will provide training and certification of operators. This waste utilization plan, if carried out, meets the requirements for compliance with 15A NCAC 2H .0217 (the .0200 rules) adopted by the Water Quality Commission. nr `0 '' 0 JILU"JL"4L. LJi na.7L.= rLVLAL1L:C6i rCi AGpi Estb-nate of Volume of Waste Produced Amount of Waste Produced Per Year (gallons, ft3, tons, etc.) 260 sows X 10481 gallons of waste/saw/year = 2,725,060 gallons of waste/year - 100 acre inches of waste/year Amount of Plant Available Nitrogen (PAN) Produced Per Year 1,030,0001 gallons of slurry X 10.01 lbs. PAN(not incorporated)/ 1000 gallons of waste = 10,300 lbs. PAN/year from slurry 1,695,0602 gallons of anaerobic lagoon liquid X 682 -lbs. PAN (irrigated)/Acre inch X 27,154 gallons/acre = 4.245 lbs. PAN/year from lagoon liquid Total PAN = 14,545 lbs.lyear tote 1.: Values used are actual on farm records. Note 2: alues used are based on analysis of waste from similar Livestock operations in North Carolina which irrigate naerrobic lagoon liquid (source: USDA -MRCS FOTG Practice tandard 633 -waste Utilization page 633-46). Actual nutrient content of waste umped from this system may vary from these values. Waste nalysis will be made of the actual manure slurry and lagoon liquid twice per year. she applicator is cautioned that P and K may be ver applied if application is made based on itrogen alone. This plan only addresses �itrogen. Sludge buildup in lagoons is limited to waste from one farrowing/nursery house directly discharging into lagoon #2. All other wastes are directed into earthen settling basins where solids are trapped and liquids runoff into lagoons. Sludge depths in both lagoons will be determined at least every five years, with excess sludge removed as appropriate. The sludge will be nutrient rich and will require precautionary measures to prevent over application of nutrients or other elements WASTE APPLICATION TABLES The crop fields shown in the Waste Application Tables that follow are available for waste application. It will not be necessary and may not be desirable to apply waste to each of these fields in any given year. The Lbs. of Nitrogen Per Acre shown in the tables are estimated annual nitrogen (N) requirements of the crop to be grown based on the potential productivity of the soil and assuming no double cropping. The Recommended Lbs. of N to be Applied per acre indicates the Nitrogen that can be reasonably applied to the crop and used by the crop in a timely manner using animal waste alone. It will not be practical to meet all the nutrient needs of some crops with animal waste. Supplemental applications of commercial fertilizer may be required during the growing season in order to meet all crop nutrient needs. It is assumed that for certain row crops only a fraction of the total annual nitrogen requirement can be applied using animal waste. The landowner shall record the actual waste application volume made on each field on the Department of Water Quality Waste Application Record Form. (See Attachment) The following legend explains the crop codes used in the field application tables: . ' 4' Table 4. N fertilization rates based on realistic yield expectations (RYE) (Source: Hodges, 1998) 115 Crop Suggested Nitrogen Application Rate Annual ryegrass (hay*) 40.0 to 50.0 Ib N/dry ton Bermudagrass (hay*) 40.0 to 50.0 Ib N/dry ton Corn (grain) 1.0 to 1.25 Ib N/bu Com (silage) 10.0 to 12.0 Ib N/ton Cotton 0.06 to 0.12 Ib N/lb lint Millet (hay*) 45.0 to 55.0 Ib N/dry ton Oats (grain) 1.0 to 1.3 Ib N/bu Rye (grain) 1.7 to 2.4 Ib N/bu Small grains (hay*) 50.0 to 60.0 lb N/dry ton Sorghum (grain) 1.5 to 2.0 Ib N/cwt Soybeans (in special cases) 3.8 to 4.0 Ib N/bu Tall fescue (hay*) 40.0 to 50.0 Ib N/dry ton Wheat (grain) 1.7 to 2.4 Ib N/bu *Annual maintenance guidelines. NRCS standards require that the nitrogen rate be reduced by 25 percent if fields are grazed. Realistic Yields for CmB2: Clifford sandy loam, Z to S percent slopes, moderately eroded in Caldwell Countv Barley (Grain) ........ .............................. Corn (Grain) ................................................................... Oats (Grain) ................................................................... Rye (Grain) ................................................................... Wheat (Grain) ................................................................... Fescue (Hay) .................................... ...... I ....... I ............. ... Mixed Cool Season Grass (Hay) ................................................................... 77 Bushels 1.49 115 Realistic Estimated Phosphorus 1.11 132 Nitrogen Nitrogen Removal Crop Yield Factor Rate (Ibs/acre) (Ibs PzOS/acre) Barley (Grain) ........ .............................. Corn (Grain) ................................................................... Oats (Grain) ................................................................... Rye (Grain) ................................................................... Wheat (Grain) ................................................................... Fescue (Hay) .................................... ...... I ....... I ............. ... Mixed Cool Season Grass (Hay) ................................................................... 77 Bushels 1.49 115 29 ............................................................................................................................................................................................................ 119 1.11 132 52 Bushels .................................................................................................................................................................................................... 97 Bushels 1.13 109 24 .................................................................................................................................................................................................... 57 Bushels 2.01 115 19 ............................................................................................................................................................................................................ 57 Bushels 2.01 115 29 ............................................................................................................................................................................................................ 4.8 Tons 44 209 .... ... ............................................ 75 .. ......................................................... ............................................................................................ 3.3 Tons 44 146 47 Realistic Yields for CmDZ: Clifford sandy loam, 8 to 15 percent slopes, moderately eroded in Caldwell Countv ;Barley (Grain) ................................................. ,Corn (Grain) 65 Bushels �1.49 ................................. I ................. 100 1.11 Bushels 97 111 25 6 .................................... I..............-.- ..� Oats (Grain) ........................................................................................................................................................................................... 1$2 Bushels 1.13 92 20 .................................................................................................................................................................................................................................................................................. ,Rye (Grain) Realistic Estimated Phosphorus 148 Bushels 2.01 1 96 1 24 I ............................................................................................................................................................................................................................................................................... ,Fescue (Hay) Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs PZOS/acre) ;Barley (Grain) ................................................. ,Corn (Grain) 65 Bushels �1.49 ................................. I ................. 100 1.11 Bushels 97 111 25 6 .................................... I..............-.- ..� Oats (Grain) ........................................................................................................................................................................................... 1$2 Bushels 1.13 92 20 .................................................................................................................................................................................................................................................................................. ,Rye (Grain) 148 Bushels 1 2.01 1 96 1 16 .................................................................................................................................................................................................................................................................................. ,Wheat (Grain) 148 Bushels 2.01 1 96 1 24 I ............................................................................................................................................................................................................................................................................... ,Fescue (Hay) 14 Tons 1 44 1 176 1 63 1 IMixed Cool Season Grass 12.8 Tan 44 ........................................................ � 123 40 1 (Hay) I .............. Realistic Yields for CvA: slopes, occasional)y Codorus loam, 0 to z percent flooded in Caldwell Count Realistic Estimated Phosphorus Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs P205/acre) Barley (Grain) 181 Bushels 1 1.44 1 1171 31 1 .... ... ............................................................... ........... Corn (Grain) ...................................................... 140 ............... 1.06 .:........... ......................... 148 ................... ................................................................... 62 Bushels .................................... ....................................... Oats (Grain) ................................ 1102 ...................... ..................................... 1.07 ....................... 109 I .............................................. ................. ........... .-...... 26 ,Bushels .................................................................................................................................................................................................................................................................................. ,Rye (Grain) 160 Bushels 1 1.86 1 112 1 20 1 ................................................................................................................................................................................................................................................................................ ,Wheat (Grain) 160 Bushels 1 1.86 1 112 1 30 1 ................................................................................................................................................................................................................................................................................. ,Fescue (Hay) 4.5 To 1 42 1 189 1 71 1 .................................................................................................................................................................................................................................................................................. Mixed Cooi Season Grass 13.3 Tons 42 137 ; 46 (Hay) ...................................................................................................................................................................................................................................................... E 1 r T Realistic Yields for FaE: Fairview fine sandy loam, 15 to 25 percent slopes in Caldwell Countv Barley (Grain) 48 1.49 Realistic Estimated Phosphorus .................................................................................................................................................................................................................................................................................. Bushels Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs P2O5/acre) Barley (Grain) 48 1.49 71 18 .................................................................................................................................................................................................................................................................................. Bushels Nitrogen Nitrogen Removal Corn (Grain) 77 1.11 85 34 I ........................................................................... Bushels ................................................................................................................... ................... ...................................... .......... ........ Oats (Grain) 60 1.13 ........ 67 15 ................ 32 Bushels Bushels .................................................................................................................................................................................................................................................................................. Rye (Grain) 35 2.01 70 12 50 Bushels ............ ...................................................................................................................................................................................................................................................................... Wheat (Grain) 35 2.01 70 18 .................................................................................................................................................................................................................................................................................. Bushels Fescue (Hay) 3.2 Tons 44 139 49 .................................................................................................................................................................................................................................................................................. Mixed Cool Season Grass 2.3 Tons 44 100 32 (Hay) .................................................................................................................................................................................................................................................................................. Realistic Yields for HtD: Hibriten very cobbly sandy loam, 8 to 15 percent slopes in Caldwell Countv Barley (Grain) 43 1.6 Realistic Estimated Phosphorus 14 ............................................................................................................................. Corn (Grain) Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs P2O5/acre) Barley (Grain) 43 1.6 28 Bushels 14 ............................................................................................................................. Corn (Grain) 64 1.25 16 Bushels 38 ........................................................................................................................... Oats (Grain) 54 1.3 Bushels ................................................................................................................................. Rye (Grain) 32 2.4 Bushels ................... .............................. ....... ............... ......................... Wheat (Grain) ................ 32 I................ 2.4 Bushels ................................................................................................................................. Fescue (Hay) 2.4 Tons 50 ................................................................................................................................. Mixed Cool Season Grass 1.6 Tons 50 (Hay) .......... ...........I ...... I ....... I................................................................................ ............ 69 16 ......................................................................................................................................... 80 28 ......................................................................................................................I................... 71 14 .......................................................................................................................................... 77 11 ......................................................................................................................... 77 16 .......................................................................................................................................... 120 .......................................................................................................................................... 38 80 .......................................................................................................................................... 23 • Realistic Yields for HtF: Hibriten very cobbly sandy loam, 15 to 60 ercent Slopes in Caldwell Count Realistic Estimated Phosphorus Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs P205/acre) Barley (Grain) 38 1.6 60 14 Realistic Yields for NaB: Nathalie sandy loam, Z to 8 percent slopes in Caldwell Countv Bushels j Realistic Estimated Phosphorus ................................................................................................................................................................................................................................I......... Corn (Grain) 156 1.25 70 25 Crop Bushels Factor Rate (lbs/acre) I ................................................................................................................................. Oats (Grain) Z.01 I ....... 1.3 I .......................-........................................................................ 62 12 2.01 IBushels48 ........................................................................ j4 Tons ; I ............................. in............................................................................. Rye (Gra) !28 Mixed Cool Season Grass 2 4 ! 67 9 .......................................................................................................................................................................................................................................... Bushels Wheat (Grain) 28 2.4 67 14 Bushels .......................................................................................................................................................................................................................................... !Fescue(Hay) I2.1 Tons 50 105 I 33 ... ................................................ Mixed Cool Season Grass .-----............................................................................................................................................ 11.4 Tons 50 70 20 (Hay) ...................................................................................................................................................................... I I ............................................... Realistic Yields for NaB: Nathalie sandy loam, Z to 8 percent slopes in Caldwell Countv Barley (Grain) ..................................... 65 Bushels 1 1.49 1 96 ........................................................................................ (Grain) 102 Realistic Estimated Phosphorus (Corn Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs P205/acre) Barley (Grain) ..................................... 65 Bushels 1 1.49 1 96 ........................................................................................ (Grain) 102 1.11 113 (Corn Bushels j Oats {Grain) ........................................................................................ �$1 Bushels � 1.13 I 91 ....................................................................................................................................................................... Rye (Grain) �48 Bushels Z.01 95 Wheat (Grain)148 Bushels 2.01 95 ................................................................................. Fescue (Hay) ........................................................................ j4 Tons ; 44 178 Mixed Cool Season Grass E2.9 Tons 44 1 125 j (Hay) ................ 125 I, .......................................................................................... 45 1 I .......................................................................................... t 20 ......................................................................................... _ 16 .......................................................................................... 24 ................................................................ 63 .......................................................................................... 40 • Realistic Yields for NaD: Nathalie sandy loam, 8 to 15 percent slopes in Caldwell Countv Barley (Grain) 54 1.49 Realistic Estimated Phosphorus Bushels Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs P205/acre) Barley (Grain) 54 1.49 81 21 Bushels Fes -H! Fescue Hay ...................... ............................................................................................................................................................................................................................................................ Corn (Grain) 86 1.11 95 38 Bushels I � I .................................................................................................................................................................................................................................................................................. Oats (Grain) 68 1.13 77 17 Bushels .................................................................................................................................................................................................................................................................................. Rye (Grain) 40 2.01 80 13 ........................................................................................................................................................................................................................ Bushels .......................................................... Wheat (Grain) 40 2.01 80 20 Bushels .................................................................................................................................................................................................................................................................................. Fescue (Hay) 3.4 Tons 44 150 53 -............................................................................................................................................................................................................................................................................... Soybeans (Double Cropped - 27 3.89 106 22 Manured) Bushels ...................................................................................................................................................................... Mixed Cool Season Grass (Hay) ................................................................................................................................ 2.4 Tons 44 ............................................................................................................. ............................................................................................................ 106 34..................................... CROP CROP CODE Smgr-1I Small Grain Hay Corn -0 Corn Grain Fes -GI Fescue Grazed Fes -H! Fescue Hay Rye -HI Annual Rye grass Hay I } Bar-Gri Barley Grain SmGr Small Grain Soy Soybeans I � I The following legend explains the soil codes which represent the specific soil types that are found in the fields which are available for animal waste application: u Component Legend Caldwell County, North Carolina USDANatural Resources Tha eaanshcwsenyrier.'jvso3s :�� "" a `"s "" °_� Tabular Data Version_ 10 Conservation Senice Tabular Data Version Date: 05111/2009 Page 1 of 1 Pct Pct slope Map unit symbol and name rasp unit Component name Component kind Law RV High CmB2: Clifford sandy loam, 2 to 8 percent slopes, moderatey eroded 85 Clifford Series 2 5 8 CmD2: Clifford sandy loam, 8 to 15 percent slopes, moderatey eroded e5 Clifford Series 8 12 15 CvA: f odorus loam, 0 to 2 percent slopes, ocrasionalty flooded 80 Codorus Series 0 1 2 FaE: Fairview fine sandy loam, 15 to 25 percent slopes a5 Fairview Series 15 20 25 HtD: Hbnten very cobbly sandy team, 6 to 15 percent slopes 85 Hdziten Series 8 12 15 HtF: Hihaten very cobbly sandy loam. 15 to 60 percent slopes 85 Hibriten Series 15 38 60 NaB: Naiha3ie sandy loam, 2 to 8 percent slopes 85 Nathalie Series 2 5 8 NaD: Nathalie sandy loam, 8 to 15 percent slopes 85 Nathalie Series B 12 15 USDANatural Resources Tha eaanshcwsenyrier.'jvso3s :�� "" a `"s "" °_� Tabular Data Version_ 10 Conservation Senice Tabular Data Version Date: 05111/2009 Page 1 of 1 Table 1: WASTE APPLICATION FIELDS Nitrogen rates from http://nutrients.soil.ncsu.edu/yields/index.php and "Soil Fertility on Organic 40 Farms", Table 4 -Page 10 by Keith R. Baldwin. Table 1: ACRES OWNED BY PRODUCER TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED 9 1 CmB2/CmD2 Corn -G 109 Bushels 4.4 1.1 LB N/BU 120 528 Bar -Gr 70 Bushels 4.4 1.5 LB N/BU 105 462 2 CmB2/CmD2 Corn -G 109 Bushels 4.7 1.1 LB N/BU 1.20 564 Bar -Gr 70 Bushels 4.4 1.5 LB N/BU 105 462 3 CmB2/CmD2 Fes -G 4.4 tons 6.7 33 LS N/TON 192.5 x .75 = 144 965 4 CmB2/CmD2 Corn -G 109 Bushels 9.2 1.1 LB N/BU 120 1,104 Bar -Gr 70 Bushels 9.2 1.5 LB N/BU 105 966 5 Htd/Htf Fes -G 2.25 tons 3.3 48.8 LB N/TON 110 363 6 Htd/Htf Fes -G 2.25 tons 4.5 48.8 LB N/TON 1.1.0 495 7 Htd/Htf Fes -G 2.25 tons 5.4 48.8 LB N/TON 110 594 8 Htd/Htf Fes -G 2.25 tons 4.0 48.8 LB N/TON 110 440 0 12 1 CmB2/CmD2 Fes -G 4.4 tons 5.4 33 LB N/TON 192.5 x .75 = 144 778 2 CmB2/CmD2 Fes -G 4.4 tons 2.0 33 LB N/TON 192.5 x .75 = 144 288 Ej - I k" At, vi sn .' '.i 41. > . . . . . . . . . . . . . . . . . . . . . . . . . . TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED 12 3 CmB2/CmD2 Corn -G 109 Bushels 4.0 1.1 LB N/BU 120 480 Bar -Gr 70 Bushels 4.0 1.5 LB N/BU 105 420 4 CmB2/CmD2 Fes -G 4.4 tons 7.0 33 LB N/TON 192.5 x .75 = 144 1,008 5 CmB2/CmD2 Fes -G 4.4 tons 6.8 33 LB N/TON 192.5 x .75 = 144 979 6 CmB2/CmD2 Corn -G 109 Bushels 5.0 1.1 LB N/BU 120 600 Bar -Gr 70 Bushels 5.0 1.5 LB N/BU 105 525 13 1 CmB2/CmD2 Corn -G 1.09 Bushels 6.1 1.1 LB N/BU 120 732 Bar -Gr 70 Bushels 6.1 1.5 LB N/BU 105 641 2 CmB2/CmD2 Corn -G 109 Bushels 4.3 1.1 LB N/BU 1.20 516 Bar -Gr 70 Bushels 4.3 1.5 LB N/BU 105 452 3 CmB2/CmD2 Corn -G 109 Bushels 3.8 1.1 LB N/BU 120 456 Bar -Gr 70 Bushels 3.8 1.5 LB N/BU 105 399 4 CmB2/CmD2 Corn -G 109 Bushels 4.7 1.1 LB N/BU 120 564 Bar -Gr 70 Bushels 4.7 1.5 LB N/BU 105 494 0 15 1 CmB2/CmD2 Corn -G 109 Bushels 2.3 1.1 LB N/BU 120 276 Bar -Gr 70 Bushels 2.3 1.5 LB N/BU 105 242 2 CmB2/CmD2 Corn -G 109 Bushels 3.3 1.1 LB N/BU 120 396 Sar -Gr 70 Bushels 3.3 1.5 LB N/BU 105 347 3 CmB2/CmD2 Fes -G 4.4 tons 4.0 33 LB N/TON 144 576 4 CmB2/CmD2 Fes -G 4.4 tons 3.5 33 LB N/TON 192.5 x .75 = 144 504 o TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED2 15 5 CmB2/CmD2 Corn-G 109 Bushels 7.8 1.1 LB N/BU 120 936 Bar-Gr 70 Bushels 7.8 1.5 LB N/BU 105 819 6 CmB2/CmD2 Corn-G 109 Bushels 7.0 1.1 LB N/BU 120 840 Bar-Gr 70 Bushels 7.0 1.5 LB N/BU 105 735 7 CmB2/CmD2 Corn-G 109 Bushels 4.4 1.1 LB N/BU 120 528 Bar--Gr 70 Bushels 4.4 1.5 LB N/BU 105 462 8 CmB2/CmD2 Corn--G 109 Bushels 4.7 1.1 LB N/BU 120 564 Bar-Gr 70 Bushels 4.7 1.5 LB N/BU 105 494 9 CmB2/CmD2 Corn-G 1.09 Bushels 5.9 1.1 LB N/BU 120 708 Bar-Gr 70 Bushels 5.9 1.5 LB N/BU 105 620 FaE Fes-H 3.2 Tons 2.5 43 LB N/TON 139 348 CvA Corn-G 140 Bushels 1.9 1 LB N/BU 148 281 15 10 CmB2/CmD2 Corn-G 109 Bushels 1.8 1.1 LB N/BU 120 216 Bar-Gr 70 Bushels 1.8 1.5 LB N/BU 105 189 2117 1 NaB/NaD Corn-G 94 Bushels 4.0 1.1 LB N/BU 104 416 Bar-Gr 60 Bushels 4.0 1.46 LB N/BU 88 352 2 NaB/NaD Corn-G 94 Bushels 4.0 1.1 LB N/BU 104 281 Bar-Gr 60 Bushels 4.0 1.46 LB N/BU 88 238 3 CmB2/CmD2 Corn-G 109 Bushels 4.2 1.1 LB N/BU 120 504 Bar-Gr 70 Bushels 4.2 1.5 LB N/BU 105 441 4 NaB/NaD Corn-G 94 Bushels 4.3 1.1 LB N/BU 1.04 447 Bar-Gr 60 Bushels 4.3 1.46 LB N/BU 88 378 5 NaB/NaD Corn-G 94 Bushels 4.0 1.1 LB N/BU 104 416 Bar-Gr 60 Bushels 4.0 1.46 LB N/BU 88 352 0 m TRACT FIELD No. No. SOIL TYPE CODE CROP REALISTIC CODE ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED 2117 6 NaB/NaD Corn -G 94 Bushels 2.1 1.1 LB N/BU 104 218 Bar -Gr 60 Bushels 2.1 1.46 LB N/BU 88 185 7 NaB/NaD Corn --G 94 Bushels 2.9 1.1 LB N/BU 104 302 Bar -Gr 60 Bushels 2.9 1.46 LB N/BU 88 255 0 5141 1 CvA Fes -H 4.5 Tons 1.0 42 LB N/TON 189 189 0 2119 1 NaB/NaD E'es-H 3.7 Tons 4.6 44.3 LB N/TON 164 754 2 NaB/NaD Fes -H 3.7 Tons 1.5 44.3 LB N/TON 164 246 3 NaB/NaD Fes -H 3.7 Tons 1.0 44.3 LB N/TON 164 164 TOTALS THIS TABLE j 174 32,494 m Table 2: ACRES RENTED BY PRODUCER TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD LBS. N NITROGEN REQUIRED APPLICATION PER ACRE RATE MAXIMUM LBS. OF N TO BE APPLIED 5140 1 CvA Fes -H 4.5 Tons 0.7 42 LB N/TON 189 132 5139 1 CvA Fes -H 4.5 Tons 1.8 42 LB N/TON 189 340 859 1 CmD2/HtF Fes -H 3 tons 1.7 46 LB N/TON 140 238 5271 1 CmB2/CmD2 Fes --G 4.4 tons 3.0 33 LB N/TON 193 x .75 = 144 432 2 CmB2/CmD2 Corn -0 109 Bushels 3.2 1.1 LB N/BU 120 384 Bar -Gr 70 Bushels 3.2 1.5 LB N/BU 105 336 3 CmB2/CmD2 Corn -G 109 Bushels 1.5 1.1 LB N/BU 120 180 Bar -Gr 70 Bushels 1.5 1.5 LB N/BU 105 158 1371 1 CmB2/CmD2 Corn -G 109 Bushels 5.0 1.1 LB N/BU 120 600 Bar -Gr 70 Bushels 5.0 1.5 LB N/BU 105 525 2 CmB2/CmD2 Corn -G 109 Bushels 4.0 1.1 LB N/BU 120 480 Bar -Gr 70 Bushels 4.0 1.5 LB N/BU 105 420 3 CmB2/CmD2 Corn -G 109 Bushels 4.9 1.1 LB N/BU 120 588 Bar -Gr 70 Bushels 4.9 1.5 LB N/BU 105 515 0 E TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED 1372 1 CmB2/CmD2 Corn -G 109 Bushels 11.0 1.1 LB N/BU 120 1,320 Bar -Gr 70 Bushels 11.0 1.5 LB N/BU 105 1,155 1427 1 CmB2/CmD2 Corn -G 109 Bushels 13.0 1.1 LB N/BU 120 1,560 SmGr 40 Bushels 13.0 1.7 LB N/BU 68 884 2 CmB2/CmD2 Corn -G 109 Bushels 4.0 1.1 LB N/BU 120 480 SmGr 40 Bushels 4.0 1.7 LB N/BU 68 272 3 CmB2/CmD2 Corn -G 109 Bushels 6.9 1.1 LB N/BU 120 828 SmGr 40 Bushels 6.9 1.7 LB N/BU 68 469 2139 1 NaB/NaD Corn -G 94 Bushels 6.0 1.1 LB N/BU 104 624 SmGr 45 Bushels 6.0 1.7 LB N/BU 77 462 2 NaB/NaD Corn -G 94 Bushels 4.4 1.1 LB N/BU 104 458 SmGr 45 Bushels 4.4 1.7 LB N/BU 77 339 215B 3 CmB2/CmD2 Corn -G 109 Bushels 2.6 1.1 LB N/BU 120 312 SmGr 40 Bushels 2.6 1.7 LB N/BU 68 177 5 CmB2/CmD2 Corn -G 109 Bushels 1.6 1.1 LB N/BU 120 192 SmGr 40 Bushels 1.6 1.7 LB N/BU 68 109 6 CmB2/CmD2 Corn -G 109 Bushels 2.9 1.1 LB N/BU 120 348 SmGr 40 Bushels 2.9 1.7 LB N/BU 68 197 7 CmB2/CmD2 Corn -G 109 Bushels 2.6 1.1 LB N/BU 120 312 SmGr 40 Bushels 2.6 1.7 LB N/BU 68 177 TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RA'Z'E LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED 2138 4 CmB2/CmD2 Corn -G 109 Bushels 4.2 1.1 LB N/BU 120 504 SmGr 40 Bushels 4.2 1.7 LB N/BU 68 286 5368 1 CmB2/CmD2 Corn -G 109 Bushels 8.9 1.1 LB N/BU 120 1,068 SmGr 40 Bushels 8.9 1.7 LB N/BU 68 605 2 CmB2/CmD2 Corn -G 109 Bushels 2.0 1.1 LB N/BU 120 240 SmGr 40 Bushels 2.0 1.7 LB N/BU 68 136 3 CmB2/CmD2 Fes -H 4.4 tons 6.0 33 LB N/TON 193 1,158 5369 6 CmB2/CmD2 Corn -G 109 Bushels 1.8 1.1 LB N/BU 120 216 SmGr 40 Bushels 1.8 1.7 LB N/BU 68 122 7 CmB2/CmD2 Corn -G 109 Bushels 2.5 1.1 LB N/BU 120 300 SmGr 40 Bushels 2.5 1.7 LB N/BU 68 170 8 CmB2/CmD2 Corn -G 109 Bushels 2.1 1.1 LB N/BU 120 252 SmGr 40 Bushels 2.1 1.7 LB N/BU 68 143 1 CmB2/CmD2 Corn -G 109 Bushels 0.9 1.1 LB N/BU 120 1.08 SmGr 40 Bushels 0.9 1..7 LB N/BU 68 60 10 CmB2/CmD2 Corn -G 1.09 Bushels 1.9 1.1 LB N/BU 120 230 SmGr 40 Bushels 1.9 1.7 LB N/BU 68 130 11 CmB2/CmD2 Corn -G 109 Bushels 4.8 1.1 LB N/BU 120 570 SmGr 40 Bushels 4.8 1.7 LB N/BU 68 325 5195 1 NaB/NaD Soy 27 Bushels 1.0 3.8 to 4.0 LB N/BU 106 106 SmGr 45 Bushels 1.0 1.7 LB N/BU 77 77 • 40 a.; m R ' TRACT FIELD SOIL TYPE CODE CROP REALISTIC ACRES SUGGESTD LBS. N MAXIMUM LBS. No. No. CODE ANTICIPATED USABLE NITROGEN REQUIRED PER OF N TO BE YEILD/ACRE APPLICATION RATE ACRE APPL[ED2 SmGr 45 Bushels 4.5 1.7 LB N/BU 77 347 3 CmB2/CmD2 Corn -G 109 Bushels 2.5 1.1 LB N/BU 120 300 SmGr 40 Bushels 2.5 1.7 LB N/BU 68 170 1514 1 CmB2/CmD2 Corn -G 109 Bushels 1.0 1.1 LB N/BU 120 120 SmGr 40 Bushels 1.0 1.7 LB N/BU 68 68 1431 1 CmB2/CmD2 Corn -G 109 Bushels 2.0 1.1 LS N/BU 120 240 SmGr 40 Bushels 2.0 1.7 LB N/BU 68 136 1472 1 CmB2/CmD2 Corn -G 109 Bushels 2.5 1.1 LB N/BU 120 300 SmGr 40 Bushels 2.5 1.7 LB N/BU 68 170 2 CmB2/CmD2 Corn -G 109 Bushels 1.0 1.1 LB N/BU 120 120 SmGr 40 Bushels 1.0 1.7 LB N/BU 68 68 3 CmB2/CmD2 Corn -G 109 Bushels 5.0 1.1 LB N/BU 120 600 SmGr 40 Bushels 5.0 1.7 LB N/BU 68 340 1487 lA NaB/NaD Corn -G 94 Bushels 4.0 1.1 LB N/BU 104 416 SmGr 45 Bushels 4.0 1.7 LB N/BU 77 308 1B CmB2/CmD2 Corn -G 109 Bushels 7.8 1.1. LB N/BU 120 936 SmGr 40 Bushels 7.8 1.7 LB N/BU 68 530 1438 1 NaB/NaD Corn -G 94 Bushels 12.0 1.1 LB N/BU 104 1,248 SmGr 45 Bushels 12.0 1.7 LB N/BU 77 924 40000 1 CmB2/CmD2 Fes -H 4.4 tons 7.3 33 LB N/TON 193 1409 TOTALS THIS TABLE 166.5 32,027 1 The useable acreage represents the total acreage of the field minus the required buffer areas that border streams or residential areas. Actual total acres in the fields listed may, and most likely will be, more than the acres shown in the tables. 2 This N is the total amount of Nitrogen needed per crop/field/year 3 For Cover crops of Ryegrass and small grains - if cover crop is not harvested then the N rate of 30 lbs/acre shall be used followed by the recommended N requirements for the following crop. If the cover crop is harvested then apply N at 50 lbs/acre. 4 For the fields listed apply N at a rate specified for the soil type listed when planting a cover crop of small grain or ryegrass. 0 Table 3 presents a summary of all nitrogen requirements and the total nitrogen to be applied using animal waste for all fields, which are available for waste application. TABLE 3: SUMMARY OF WASTE APPLICATION USEABLE ACRES TOTAL CROP MAXIMUM LBS. N NITROGEN TO BE APPLIED REQUIREMENT IN USING WASTE POUNDS FROM TABLE 1. 174 32,494 FROM TABLE 2. 166.5 32,027 TOTAL ALL TABLES 340.5 64,521 Plant available Nitrogen produced per year from animal waste and Wastewater is approximately 1 4,54 5 pounds. Therefore this summary indicates that about 22 percent of the total annual nitrogen requirements can be provided for the crops as listed for the fields available using animal waste produced on this livestock operation. MAPS SHOWING THE FIELDS TO BE USED FOR THE UTILIZATION OF WASTE. NARRATIVE OF OPERATION Narrative of Operation This waste utilization plan is for two businesses (B. G. Looper & Sons, and Wesley Looper) that jointly operate a single waste management system. B. G. Looper & Sons manages a 160 sow farrow -to -finish swine operation and Wesley Looper manages a 100 sow farrow- to -finish swine operation. Animals are housed in 1 L buildings. Some of the buildings have solid floors, some have slatted floors with underfloor pits that are flushed and recharged with lagoon water weekly; and some have slatted floors with underfloor pits that are flushed with lagoon water numerous times each day. With the exception of one farrowing/nursery building, all wastes is collected in one of 3 earthen or I concrete settling basins. The waste is trapped in slurry form in a settling basin, while the water is automatically drained into one of two lagoons. All earthen structures will have minimum top widths of8 feet. will have uniform and well vegetated side slopes, and have maximum liquid level markers installed. Surface water is diverted from all structures by earthen diversions and roof guttering. Pipes bringing wastes into structures will extend far enough to prevent side slope erosion when waste levels are at their lowest. All structures do not appear to be unsafe, and do not pose a life threatening hazard if an immediate collapse occurs. The total holding capacity ofthe 4 settling basins and 2 lagoons is estimated to be 326,046 cubic feet. The storage period is estimated to exceed 90 days. However with a 90 day storage period, the treatment volume for both lagoons is less than recommended: This existing waste collection system will produce effluent that is higher in nutrient content, and has stronger odors during land application than conventional lagoon systems. Waste is land applied using two methods, irrigation and truck mounted tank. Lagoon liquid is irrigated on nearby fields. It is pumped through portable pipe to up to four stationary big guns. Most soil in this area is classed as Cecil sandy clay loam. Application rates for these clayey soils should not exceed 0.3 inch per hour. The total application amount (from the time the pumps are turned on until they are turned off) should not exceed 1 inch. Calibration of the irrigation equipment is required so the application rate is not exceeded. Slurry from the 4 settling basins is pumped into a 1 500 gallon truck mounted tank and spread on owned and rented fields too distant to receive irrigated waste. Application of this waste will be applied as directed in the "Required Specifications" (see pages 11 -12) of this plan. In addition, timing of waste application will normally follow this schedule: Fescue: February -May September -November Corn: March -July Barley: October -November Sm. Grain Cover Crop: October -March REQUIRED SPECIFICATIONS 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 which reaches surface water is prohibited. Illegal discharges are subject to the assessment of civil penalties of $10,000 per day by the Division of Water Quality for every day the discharge continues. 2. Animal waste shall be applied to meet, but not exceed, the Nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climate conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. Actual yields may be used in lieu of realistic yield tables at the discretion of the planner. 3. Animal waste shall be applied to land eroding less than 5 tons per acre per year. Animal waste may be applied to land that has a Resource Management System (RMS) or an Alternative Conservation System (ACS). If a RMS or ACS is used the soil loss shall be no greater than 10 tons per acre per year and appropriate filter strips will be used where runoff leaves the field. These filter strips will be in addition to "Buffers" required by DWQ. 4. Odors can be reduced by injecting the waste or disking after waste application. Waste should not be applied when the wind is blowing or any other condition exists which may cause a danger of drift from the irrigation field. 5. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. 6. 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 conditions conducive to odor or flies and provide uniformity of application. 7. Animal waste shall not be applied to saturated soils, during rainfall events, or when the surface is frozen. T, REQUIRED SPECIFICATIONS 8. Animal waste shall be applied on actively growing crops in such a manner that the crop is not damaged by burning or smothering of the plant. Surface broadcast solids or slurries may damage crops if leaf surfaces are matted. Generally waste should be applied such that no more than 20 to 25 percent of the leaf area is covered. This should not normally be a concern where diluted, low nutrient waste is irrigated or surface broadcast from a liquids holding structure. Where crops are severely damaged due to waste application, the plants cannot assimilate the nutrients and discharge of pollutants to surface waters is likely to occur. The potential for salt damage from animal waste should also be considered. 9. Waste nutrients 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. On soils with a high potential for leaching, multiple application at lower rates should be used. To maximize the value of nutrients for crop production & reduce the potential for pollution, the waste shall not be applied more than 30 days prior to planting of the crop on bare soil, or forages breaking dormancy. Injecting the waste or disking will conserve nutrients. 10. Animal waste shall not be applied closer than 25 feet to surface water. 11. Animal waste shall not be applied closer than 100 feet to wells. 12. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 13. Waste shall be applied in a manner not to reach other property and public right-of- ways. 14. 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 wetlands provided they have been approved as a land application site by a "technical specialist". Animal waste shall not be applied on grassed waterways which discharge directly into water courses. If animal waste is to be applied on other grassed waterways, waste shall be applied at agronomic rates and in a manner that causes no runoff or drift from the site. v EQ REQUIRED SPECIFICATIONS 15. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. 16. A protective cover of appropriate vegetation will be established on all disturbed areas (holding pond embankments, berms, pipe runs, etc.). if needed, special vegetation shall be provided for these areas and 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. Holding pond areas should be kept mowed and accessible. Holding pond berms and structures should be inspected regularly for evidence of erosion, leakage, or discharge. 17. if animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing an "approved closure plan" which will eliminate the possibility of an illegal discharge, pollution and erosion. 18. 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. 19. 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 preplant with no further applications of animal waste during the crop season. REQUIRED SPECIFICATIONS 20. Highly visible permanent markers shall be installed to mark the maximum storage volume of all waste storage ponds. Pumping shall be managed to maintain the liquid level below the markers. 21. 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 element. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these metals approach excessive levels. Soil pH shall be adjusted for optimum crop production and maintained. Soil and waste analysis records shall be kept for five (5) years. Waste application records shall be maintained for five (5) years. 22. Dead animals will be disposed of in a manner that meets NC regulations. North Carolina General Statute 106-403 requires that dead animals be disposed of within 24 hours in a manner approved by the state veterinarian. I U .4 0 0 HdAZO I r- U I ILIA I IUN VI•'LAN AC91' r- IfflMN Name of Farm: Owner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established in the approved animal waste utilization plan for the farm named above. I (we) know that any expansion to the existing design capacity of the waste treatment and storage system or construction of new facilities will require a new certification to be submitted to the North Carolina Division of Water Quality (NCDWQ) before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface waters of the state from a storm event less severe than the 25 -year, 24-hour storm. The approved plan will be filed on-site at the farm office and at the office of the local Soil and Water Conservation District and will be available for review by NCDWQ upon request. I (we) understand that I (we) must own or have access to irrigation or other equipment, to land apply the animal waste described in this Waste Utilization Plan. The equipment must be available at the appropriate time such that no discharge occurs from the lagoon, holding pond, tank, or other unroofed storage structure in a 25 year, 24 hour storm event. I (we) also certify that the waste will be applied on the land according to this plan at the appropriate times and at rates that no run-off occurs. Name of Facility Owner: SG Looper and Sons/Wesley Looper (Please print) Signature: Date: Name of Technical Specialist:(Please print Kevin K Clark Affiliation: Caldwell Soil and Water Conservation District Address (Agency): 120 Hospital Avenue, NE Lenoir, NC 28645 Signature: Date: NARRATIVE OF OPERATION Narrative of Operation This waste utilization plan is for two businesses (B. G. Looper & Sons, and Wesley Looper) that jointly operate a single waste management system. B. G. Looper & Sons manages a 160 sow farrow-to-finish swine operation and Wesley Looper manages a 100 sow farrow- to-finish swine operation. Animals are housed in 11 buildings_ Some of the buildings have solid floors, some have slatted floors with underfloor pits that are flushed and recharged with lagoon water weekly, and some have slatted floors with underfloor pits that are flushed with lagoon water numerous times each day. With the exception of one farrowing/nursery building, all wastes is collected in one of 3 earthen or 1 concrete settling basins. The waste is trapped in slurry form in a settling basin, while the water is automatically drained into one of two lagoons. All earthen structures will have minimum top widths of$ feet, will have uniform and well vegetated side slopes, and have maximum liquid level markers installed. Surface water is diverted from all structures by earthen diversions and roof guttering. Pipes bringing wastes into structures will extend far enough to prevent side slope erosion when waste levels are at their lowest. All structures do not appear to be unsafe, and do not pose a life threatening hazard if an immediate collapse occurs. The total holding capacity ofthe 4 settling basins and 2 lagoons is estimated to be 326,046 cubic feet. The storage period is estimated to exceed 90 days. However with a 90 day storage period, the treatment volume for both lagoons is less than recommended: This existing waste collection system will produce effluent that is higher in nutrient content, and has stronger odors during land application than conventional lagoon systems. Waste is land applied using two methods, irrigation and truck mounted tank. Lagoon liquid is irrigated on nearby fields. It is pumped through portable pipe to up to four stationary big guns. Most soil in this area is classed as Cecil sandy clay loam. Application rates for these clayey soils should not exceed_ 0.3 inch per hour. The total application amount (from the time the pumps are turned on until they are turned off) should not exceed 1 inch. Calibration of the irrigation equipment is required so the application rate is not exceeded. Slurry from the 4 settling basins is pumped into a 1500 gallon truck mounted tank and spread on owned and rented fields too distant to receive irrigated waste_ Application of this waste will be applied as directed in the "Required Specifications" (see pages 11 -12) of this plan. In addition, timing of waste application will normally follow this schedule: Fescue: February -May September -November Corn: March -July Barley: October -November Sm. Grain Cover Crop: October -March REQUIRED SPECIFICATIONS 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 which reaches surface water is prohibited. Illegal discharges are subject to the assessment of civil penalties of $ 10,000 per day by the Division of Water Quality for every day the discharge continues. 2. Animal waste shall be applied to meet, but not exceed, the Nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climate conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. Actual yields may be used in lieu of realistic yield tables at the discretion of the planner. 3. Animal waste shall be applied to land eroding less than S tons per acre per year. Animal waste may be applied to land that has a Resource Management System (RMS) or an Alternative Conservation System (ACS). If a RMS or ACS is used the soil loss shall be no greater than 10 tons per acre per year and appropriate filter strips will be used where runoff leaves the field. These filter strips will be in addition to "Buffers" required by DWQ. d. Odors can be reduced by injecting the waste or disking after waste application. Waste should not be applied when the wind is blowing or any other condition exists which may cause a danger of drift from the irrigation field. S. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. 6. 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 conditions conducive to odor or flies and provide uniformity of application. 7. Animal waste shall not be applied to saturated soils, during rainfall events, or when the surface is frozen. REQUIRED SPECIFICATIONS 8. Animal waste shall be applied on actively growing crops in such a manner that the crop is not damaged by burning or smothering of the plant. Surface broadcast solids or slurries may damage crops if leaf surfaces are matted. Generally waste should be applied such that no more than 20 to 25 percent of the leaf area is covered. This should not normally be a concern where diluted, low nutrient waste is irrigated or surface broadcast from a liquids holding structure. Where crops are severely damaged due to waste application, the plants cannot assimilate the nutrients and discharge of pollutants to surface waters is likely to occur. The potential for salt damage from animal waste should also be considered. 9. Waste nutrients 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. On soils with a high potential for leaching, multiple application at lower rates should be used_ To maximize the value of nutrients for crop production & reduce the potential for pollution, the waste shall not be applied more than 30 days prior to planting of the crop on bare soil, or forages breaking dormancy. Injecting the waste or disking will conserve nutrients. 10. Animal waste shall not he applied closer than 25 feet to surface water. 11. Animal waste shall not be applied closer than 100 feet to wells. 12. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 13. Waste shall be applied in a manner not to reach other property and public right-of- ways. ight-ofways. 14. 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 wetlands provided they have been approved as a land application site by a "technical specialist". Animal waste shall not be applied on grassed waterways which discharge directly into water courses. If animal waste is to be applied on other grassed waterways, waste shall be applied at agronomic rates and in a manner that causes no runoff or drift from the site. 1V -,t REQUIRED SPECIFICATIONS 15. Domestic and industrial waste from washdown facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. 16. A protective cover of appropriate vegetation will be established on all disturbed areas (holding pond embankments, berms, pipe runs, etc.). If needed, special vegetation shall be provided for these areas and 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. Holding pond areas should be kept mowed and accessible. Holding pond berms and structures should be inspected regularly for evidence of erosion, leakage, or discharge. 17. If animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing an "approved closure plan" which will eliminate the possibility of an illegal discharge, pollution and erosion. 18. 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. 19. 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 preplant with no further applications of animal waste during the crop season. i.: q -.,.L REQUIRED SPECIFICATIONS 20. Highly visible permanent markers shall be installed to mark the maximum storage volume of all waste storage ponds. Pumping shall be managed to maintain the liquid level below the markers. 21. 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 element. Zinc and copper levels in the soils shall be monitored and alternative crop sites shall be used when these metals approach excessive levels. Soil pH shall be adjusted for optimum crop production and maintained. Soil and waste analysis records shall be kept for five (5) years. Waste application records shall be maintained for five (5) years. 22. Dead animals will be disposed of in a manner that meets NC regulations. North Carolina General Statute 106-403 requires that dead animals be disposed of within 24 hours in a manner approved by the state veterinarian. i_:4 -A WASTE UTILIZATION PLAN AGREEMENT Name of Farm: Owner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established in the approved animal waste utilization plan for the farm named above. I (we) know that any expansion to the existing design capacity of the waste treatment and storage system or construction of new facilities will require a new certification to be submitted to the North Carolina Division of Water Quality (NCDWQ) before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface waters of the state from a storm event less severe than the 25 -year, 24-hour storm. The approved plan will be filed on-site at the farm office and at the office of the local Soil and Water Conservation District and will be available for review by NCDWQ upon request. I (we) understand that I (we) must own or have access to irrigation or other equipment, to land apply the animal waste described in this Waste Utilization Plan. The equipment must be available at the appropriate time such that no discharge occurs from the lagoon, holding pond, tank, or other unroofed storage structure in a 25 year, 24 hour storm event. I (we) also certify that the waste will be applied on the land according to this plan at the appropriate times and at rates that no run-off occurs. Name of Facility Owner: BG Looper and Sons/Wesley Looper (Please print) 4 Signature: Date: Name of Technical Specialist: (Please print Affiliation : Caldwell Soil and Water Conservation District Address (Agency): 120 Hospital Avenue, NE Lenoir, NC 28645 Kevin K Clark Signature: fl l.J/l� - _ Date: Producer: BG Looper and Sons/Wesley Looper Location: 4673 Petra Mill Road (SR 1740), Granite Falls, NC 28630 Telephone: John Looper 828-896-5960, Wesley Looper 828-396-9102 Type operation: Swine Number of Animals:260 Sow farrow to Finish (Design Capacity) Storage Structure(s): Two lagoons, two Waste Storage Ponds and two settling basins Application Method(s): Irrigation gun and tractor pulled manure slurry spreader The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface water and/or groundwater. The plant nutrients'in the animal waste should be used to reduce the amount of commercial fertilizer required for the crops in the fields where the waste is to be applied. This waste utilization plan uses nitrogen as the limiting nutrient. You must have the animal waste analyzed at least twice each year to determine nutrient content as close to the time of application as practical and at least within 60 days of the date of application before the application cycle. Soil nutrients in all fields -where waste will be applied must be analyzed at least annually so that all plant nutrients can be balanced for realistic yields of the crop to be grown. Soil test and waste analysis records shall be kept for five (5) years. Several factors are important in implementing your waste utilization plan in .order to maximize the fertilizer value of the waste and to ensure that it is applied in an environmentally safe manner: lry 46 1. Always apply waste based on the needs of the crop to be grown and the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize. Lime must be applied to application fields as recommended by soil test to maintain the plant uptake of nutrients. 2. Soil types are important as they have different infiltration .rates, leaching potentials, cation exchange capacities, and available water holding capacities. 3. Normally waste shall not be applied to land eroding at greater than 5 tons per acre per year. With special precautions, (see Required Specification No. 4) waste may be applied to land eroding at up to 10 tons per acre per year. 4. Do not apply waste on saturated soils, when it is raining, or when the surface is frozen. Either of these conditions may result in runoff to surface waters, which is a violation of the North Carolina Division of Water Quality (NCDWQ) .0200 regulations. 5. Wind conditions at the time of field application of waste should also be considered to avoid drift and downwind odor problems. 6. To maximize the value of nutrients for crop production and to reduce the potential for pollution, the waste should be applied to a growing crop. Otherwise apply waste no earlier than 30 days prior to planting a crop or prior to forages breaking dormancy. Injecting or otherwise incorporating the waste below the soil surface will conserve nutrients and reduce odor problems. i This plan is based on waste application by truck/tractor drawn slurry spreader and overhead irrigation for this is the manner in which you have chosen to apply your waste. if you choose to alter the method(s) of application in the future, you need to revise this plan. Nutrient levels for various waste application methods are not the same. The estimated acres needed to apply the animal waste are based on typical nutrient content for swine animal waste systems in North Carolina. Actual acreage requirements shall be based on waste analysis reports from storage structures in your waste management system. Attached you will find information on proper sampling techniques, preparation, and transfer of waste samples to the lab for analysis. Your waste storage facility (lagoon) is designed for 90days of temporary storage and the temporary storage must be removed on the average of once every 3 months. Call your technical specialist after you receive the waste analysis report for assistance in determining the amount per acre to apply and the proper application rate prior to applying the waste. Only persons who hold a valid certificate as an operator in charge of an animal waste management system shall operate the waste management system, which is covered by this waste utilization plan. The -North Carolina Water Quality Commission will provide training and certification of operators. This waste utilization plan, if carried out, meets the requirements for compliance with 15A NCAC 2H .0217 (the .0200 rules) adopted by the Water Quality Commission. Amount of Waste Produced Per Year Esti -nate of Volume of Waste Produced Amount of Waste Produced Per Year (gallons, ft3, tons, etc.) 260 sows X 10481 gallons of waste/sow/year 2, 725,060 gallons of waste/year . 100 acre inches of waste/year Amount of Plant Available Nitrogen (PAt9 Produced Per Year 1,030,0001 gallons of slurry X 10.01 lbs. PAN(not incorporated)/ 1000 gallons of waste = 10,300 lbs. PAN/year from slurry 1,695,0602 gallons of anaerobic lagoon liquid X 682 -lbs. PAN (irrigated)/Acre inch X 27,154 gallons/acre 4.245 lbs. PAN/year from lagoon liquid Total PAN = 14,545 lbs.lyear ote 1_ Values used are actual on farm records. Note 2: clues used are based on analysis of waste from similar Livestock operations in North Carolina which irrigate naerobic lagoon liquid (source: USDA-NRCS FOTG Practice tandard 633 -Waste Utilization page 633-46). Actual nutrient content of waste umped from this system may vary from these values. Waste nalysis will be made of the actual manure slurry and agoon liquid twice per year. the-.applica-tor..._is...cautioned -that .P.-.and...K.-rnay.,be.: cer applied if application is made based on itrogen alone. This plan only addresses ti trogen . Sludge buildup in lagoons is limited to waste front one farrowing/nursery house directly discharging into lagoon 42. All other wastes are directed into earthen settling basins where solids are trapped and liquids runoff into lagoons. Sludge depths in both lagoons will be determined at least every five years, with excess sludge removed as appropriate. The sludge will be nutrient rich and will require precautionary measures to prevent over application of nutrients or other elements WASTE APPLICATION TABLES The crop fields shown in the Waste Application 'Tables that follow are available for waste application. It will not be necessary and may not be desirable to apply waste to each of these fields in any given year. The Lbs. of Nitrogen Per Acre shown in the tables are estimated annual nitrogen (N) requirements of the crop to be grown based on the potential productivity of the soil and assuming no double cropping. The Recommended Lbs. of N to be Applied per acre indicates the Nitrogen that can be reasonably applied to the crop and used by the crop in a timely manner using animal waste alone. It will not be practical to meet all the nutrient needs of some crops with animal waste. Supplemental applications of commercial fertilizer may be required during the growing season in order to meet all crop nutrient needs. It is assumed that for certain row crops only a fraction of the total annual nitrogen requirement can be applied using animal waste. The landowner shall record the actual waste application volume made on each. field on the Department of Water Quality Waste Application Record Form. (See Attachment) The following legend explains the crop codes used in the field application tables: �r�• •� .. _ . ,: yam.. �_ -� y r ,...,.: .. }.Table 4 N fertilization r t "-' b' d oiriirealrstrc yield expectations (RYE) c(So�urc+r Ho9es,t`1998) CroP- Su9e, fate"$,estd Ni#ro en'A PIrcatron ' a - Annual ryogras5 (hay*) ,' 40 Q to:50 0 Ib N/dry fon I 1 13errudagrass {hay*) 40 0 to 50 0 Ib N/dry ton .Corn (gran), 1 0 to,1:25 Ib Nlbu Corn. (silage) ! ' ,1.0 0 to 12 0`ib Nlton' Cotton �' a Qfi to 0 12 Itr: N/lb lint Milld (hay} 45 0 to 55.01b N/dry ton :Oats {grain) =r , r 5 ; 1-0 to 1 3 Ib N/bu' : Rye {gram} to 2.4 Ib Nlbu . grains (h 50 0 to 60 0 Ib Nldry fon Sorghum (grain} , a 1`5 to1;2.0.!Ib Nlcwf _Soybeans {in special cases} fE 3:8 to`4 0:.. Ib N/bu ' i Tall fescue (hay) 40 0 to 50 0 1b N/dry ton Wheat�(7.grair) 1.7 t6 2' Ib Nlbu *Annual roaintenance'guidelines MRCS standards,requEre�that the nitrogen rate pe reduced by'25 percent if felds,are grazed Realistic Yields for CmB2: Clifford sandy loam, 2 to S percent slo es, moderately eroded in Caldwell Count Realistic Estimated Phosphorus Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs PZOS/acre) (Barley (Grain) 177 Bushels 1.49115 29 ......................................................................................................................................................................................................................................................................... Corn (Grain) 1119 1.11 132 52 f Bu5hel5 Oats (Grain) I97 Bushels 1.13 109 24 ................................................................................................................................................................................................ Rye (Grain) I57 Bushels 2.01 115 •....................................................I.................. 19 ........ ......... .... ....................................................................... ....................................................................................................................................... Wheat (Grain) 157 Bushels 1 2.01 115 ......... .................... ......... . 29 ...............................................................................................................-.................-.................................................................................................................................... Fescue Hay14.8 Tons ( 44 209 75 ..... ............ ...................... ............................... .............. .............. ............................................................. Mixed Cool Season Grass �3.3 Tons 44 .................... 145 ........ ................... ............. ......... ......I............................. 47 (Hay) I Realistic Yields for CmD2: Clifford sandy loam, 8 to 15 percent sloDes, moderately eroded in Caldwell County Crop Yield Nitrogen Factor Realistic Nitrogen Rate (lbs/acre) Estimated Phosphorus Removal (lbs P205/acre) Barley (Grain) 165 Bushels 1 1,49 . 97 25 ... .. .. .. . ... .... Corn (Grain) 1. 100 ..... 1 1 44 Bushels Oats (Grain) 102 'es ........... 'u's'hl ................... * ...... 1.07 ................... * .............................. 109 ............................................................. .............................................................. �Oats� (Grain) 182 Bushels.1.......1.13 ........... ................. 1-1.-11 .......... ... 92 ....................... I .......... .............................................. 20 Rye ... {Grain) ...... * ...................... * ......... [4'8-Bu`s'h*e'I's*I ....... '2-."0'1' ...................... 96 ..................................................................... 16 ........................ ........... - ....... I-- ........ Wheat (Grain) .. .......................... [48 Bushelsl .............. 2-01 ..... ........... .... 96 ....... .......................................................................... 24 ............... Fescue (Hay) -1 ........... 4*'Tons ............ ....... 44 1 .................................................. 176 .......... ................... I ...... I .............. ................................ 63 I ...... 1 ........... Mixed Cool Season Grass ....... . 2.8 Tons ............. 44 l .................................... 123 .................................. ...... ...... 40 (Hay) I ..................... .......... ................................................. .......................... ........ .................................................. .............................................. I .................... - ........ I ....... Realistic Yields -tor CVA: Codorus loam,, 0 to 2 percent slojoes, occasionally flooded in Caldwell County Crop Yield Nitrogen Factor Realistic Nitrogen Rate (lbs/acre) Estimated Phosphorus Removal Obs P20.5/acre) Barley (Grain)Bushels 1.4 4 1 17 3 1 ......... .8.1 ................ ..........................................................1.........I....... ....... Corn (Grain) 140 ..........I........... 1.06 .. ........I.......I............... 148 ................... ...............I. - I.- I ...................... 62 Bushels ................... ....... * .............. * ........... Oats (Grain) 102 'es ........... 'u's'hl ................... * ...... 1.07 ................... * .............................. 109 ............. * .......... 26 ' B ............................ * ......... ............................... 6'0 ... Bushels ... Rye (Grain) ...... - 1.86 " '" ' - ...... ................... - 112 ' ' ............. * ...... ................... * ............. 2 ' 0 '*"* ........................ r. -I ..... I ......... I ....................................................................................... iWheat (Grain) 160 Bushels .......................... 1.86 1 .................................................. 112 ................................................ I .......... I ......................... 30 ............................. * ........ ................... -.......................... .Fescue (Hay) ......... 42 ........ I ...... 189 ....................................................................... 71 ......................... .................................................................. ......... . !Mixed Cool Season Grass 3.3 Tons ...... ................. 42 ... * ........ * ............... ........ * ..... 137 ......................................... * ... * ............ * 46 (Hay) ........................................................................... 11 ................... I ..................... ....... ...................... ...................... ... I ............................................................... ....... -_� Realistic Yields for Fa E: Fairview fine sandy loam,. 15 to 25 percent slopes in Caldwell Count Yield Nitrogen Factor Realistic Nitrogen Rate (lbs/acre) Estimated Phosphorus Removal (lbs P2,05/acre) Realistic Estimated Phosphorus 1.6 69 16 Nitrogen Nitrogen Removal Crop Yield Factor Rate (lbs/acre) (lbs PZOS/acre) ............................... ....................................................... 28 Barley (Grain) 48 1.49 71 18 ..................................................................................................................................... Oaks (Grain) 54 Bushels I I Bushels ................................................................................................................................................................................................................................................................................ Corn (Grain) 77 1.11 85 34 2.4 77 Bushels I Bushels .............................................................................................................................................................................................................................................................................. Oats (Grain) 60' 1.13 67 15 16 Bushels I ...................................... Fescue Hay ( ......... G ..........rain.................................................. Rye (G) . 35 ............................................................................. 2.01 7..-0 ...................................................................... 12 ................ ..................... f 1.6 Tons50 ..................... Bushels .................................. 23 (Hay) ..........................I..........1....................................................................................................................................................... .............................................. Wheat (Grain) ....... 35 ........ I......... 2.01 ................................................I......................-.-.........-.............................-----..............-- 70 18 . Bushels (Fescue .................. .......................... ..................... (Hay) ................... ......... �3.2 Tons ...... ..................... 44.........! j .................................................... ....... ..........................................-................. ............... 49 + (Mixed r.............................................................................. Cool Season Grass ............... ......... 2.3 Tons 44 ....................139. .-...........-. 100 ...................................................................................... 32 (Hay} Realistic Yields for HtD: Hibriten very cobbly sandy loam, 8 to 15 percent slo,oes in Caldwell Countv Crop Yield Nitrogen Factor Realistic Nitrogen Rate (lbs/acre) Estimated Phosphorus Removal (lbs P2,05/acre) Barley (Grain) 43 1.6 69 16 Bushels ......................................................................... Corn (Grain) ................ 64 ...........................r. 1.25 ................ ................................. I 80 ............................... ....................................................... 28 Bushels ..................................................................................................................................... Oaks (Grain) 54 1.3 ............................................................................................... 71 14 Bushels Rye (Grain) ..................................................... 32 2.4 77 11 Bushels Wheat Grain 32 2.4 77 16 lBushels ...................................... Fescue Hay ( ...................................................................................................... 2.4 Tons 50 1 120 II ............................................................. . 38 .................................................................... Mixed Cool Season Grass ..................... f 1.6 Tons50 ..................... ................................................l.......................................... 80 .................................. 23 (Hay) ..........................I..........1....................................................................................................................................................... Realistic Yields for HtF: Hibriten very cobbly sandy loam, 15 to 60 percent slopes in Caldwell Countv Crop Yield Nitrogen Factor Realistic Nitrogen Rate (lbs/acre) Estimated Phosphores Removal (lbs P2-0s/acre) Barley (Grain) 38 1.6 6014 25 ........................... ............................. Corn (Grain) IBushels 1.11 113 45 .................................................................... Corn (Grain) ........................................................................................................................................................................................... 156 1.25 .. 7025 ............................................................................................................................................................................................................................................................................ Oats (Grain) Bushels 1.13 91 20 ................................................................................•---............---....---- Oats (Grain) 48 IBushels. -----......................................................................--...--................•-----............................................................ 1.3 6212 16 ......... .....................*............................... Wheat Grain (48 ........................ Bushels 2.01 ....................................................................................................................................... 95 24 ............................................................................................................................................................................................................................................................................ Rye (Grain)2$ ............................ Tons 2.4 f 67 9 Mixed Cool Season Grass 12.9 Bushels 44 125 ..................................................................... .................................................._......._.............. Wheat Grain.) { ...................... 28 ............. ....... ......... 2.4 I ...................... ......................... ....-.............. 67 I 14 Bushels �........-. Fescue {Flay) 2.1 Tons 50 105 33............... ............ ....................................................................................................1....................... Mixed Cool Season Grass I1.4 Tons ..... 50 .............................I......... 70 .. ...... .................... ...................... 20 (Nay) I Realistic Yields for NaB: Nathalie sandy loam, 2 to S ercent slopes in Caldwell Count Crop Yield Nitrogen Factor Realistic Nitrogen Rate (lbs/acre) Estimated Phosphorus Removal (lbs PZOS/acre) lBarley (Grain) I65 Bushels I 1.49 96 25 ........................... ............................. Corn (Grain) 102 1.11 113 45 Bushels ............................................................................................................................................................................................................................................................................ Oats (Grain) I81 Bushels 1.13 91 20 ............................................................I................ !Rye (Grain) 148 ..............---...........................................................................................................................................I...................-...... Bushels 2.01 95 16 ......... .....................*............................... Wheat Grain (48 ........................ Bushels 2.01 ....................................................................................................................................... 95 24 ..................................................................... Fescue (Hay) �4 ............................ Tons 44 ........................................................................................... 178 -3................................. ...... 63 Mixed Cool Season Grass 12.9 ................................................................................................................................................................................. Tons 44 125 40 (Hay) i I Realistic Yields for NaD: Nathalie sandy loam, S to 15 percent slopes in Caldwell Count Realistic Estimated Phosphorus Nitrogen Nitrogen Removal CROP Crop Yield Factor Rate (lbs/acre) (lbs P205/acre) Barley (Grain) 54 1.49 I 81 21 Bushels ..........-•---....................................................I............ Corn (Grain) ............... ...............-.................... 86 1.11 ................................................... I 95 ............................................................................. . 38 Bushels ................... .................................-........... ..... .............. I................ .....................................................................................................................3.......! Oats (Grain) .Bu 1.13 ( 77 .............-.......... 17 Bushels Rye (Grain) 40 2.01 I 80 13 Bushels l ..... Wheat (Grain) 40 2.01 80 20 Bushels I ........................................................................... Fescue (Hay) 13.4 ............................--.--.........---.................................................... Tons 44 1 150 .........-...................................................... 53 ....................................................................................................................................................................................................................................................................... Mixed Cool Season Grass Tons 44 106 34 I2.4 (a) Hy ... CROP CROP CODE:1 The following legend explains the soil codes which represent the specific soil types that are found in the fields which are available for animal waste application: Component Legend Caldwell County, North Carolina Pd of it Pct. slope Map unit synlbol and name map unComponent name component kind Low RV Hioh CmB2: Gifford sandy loam, 2 to 8 percent slopes. moderatey eroded 85 Clifford Series 2 5 8 CmD2: Clifford sandy loans, 8 to 115 percent slopes, moderatey eroded 85 Clifford Series 8 12 15 GVA: Codorus loam, 0 to 2 percent slopes, occa sionaly flooded so Codorus Series 0 1 2 FaF- ' Fairview rirp Sandy loam, 15 to 25 percent slopes 65 Fairview Series 15 20 25 H1D: 1 Hbriten very cobbly sandy loam, 8 to r 15 percent Wpes 65 Higriten Seises 8 12 15 HIF: H65riten vey cobuly sandy bank 15 to 60 perCe77t slopes 65 Hllxiten Sedes 15 38 60 NaB: Nathalie sancy loam, 2 to 8 percent slopes B5 Nathale Series 2 5 $ Nao: Nathalie sandy loam, 8 to 15 percent _ slopes 85 N3thale Series 6 12 15 USDANatural Resources Th6 ep6ishnion'r he maprsrnli�ea�hsupuvL O-.irs mar a>Y Tabf lar D ala Version: 10 Conserralion Ser;•ice Tabular Dab Version Date: 0512WDOP Page 1 o1 1 Table 1: WASTE APPLICATION FIELDS Nitrogen rates From htt ://n-ltrients.soil.ncsu.edu/ ieids/index. h and "Soil Fertility on Organic Farms", Table 4 -Page 10 by Keith R. Baldwin. Table 1: ACRES OWNED BY PRODUCER TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED 9 1 CmB2/CmD2 Corn -G 109 Bushels 4.4 1.1 LB N/BU 120 528 Sar -Gr 70 Bushels 4.4 1.5 LB N/BU 105 462 2 CmB2/CmD2 Corn -G 109 Bushels 4.7 1.1 LB N/BU 120 564 Bar -Gr 70 Bushels 4.4 1.5 LB N/BU 105 462 3 CmB2/CmD2 Fes -G 4.4 tons 6.7 33 LB N/TON 192.5 x .75 = 144 965 4 CmB2/CmD2 Corn -0 109 Bushels 9.2 1.1 LB N/BU 7.20 :1.,104 Bar -Gr 70 Bushels 9.2 1.5 LB N/BU 105 966 5 Htd/Htf Fes --G 2.25 tons 3.3 48.8 LB N/TON 110 363 6 Htd/Htf Fes -G 2.25 tons 4.5 48.8 LB N/TON 110 495 7 Htd/Htf Fes -C 2.25 tons 5.4 48.8 LB N/TON 110, 594 8 Htd/Htf Fes -G 2.25 tons 4.0 48.8 LB N/TON 110 440 0 12 1 CmB2/CmD2 Fes -G 4.4 tons 5.4 33 LB NITON 192.5 x .75 = 144 778 2 CmB2/CmD2 Fes -G 4.4 tons 2.0 33 LB NITON 192.5 x .75 = 144 288 11114.S•`.c r,�•�, t.�aiii --.` �,.i.{ r,'..."al�:;Yux'}. .°J�_ _�r�c at�'.f+�x,.'� �" �g1ri1 •'+�Y.'R,`ry • {�S�_`rl's��''5i''kF_ • # •'. JY• _; �1(`.''h.'i�.�i.. `tliti''i��y••Z��`r n_ '`�� i3�Y_S`1r'(.t£ay�'�,`t..r��ir.s+g�!s'l.rl�'-!�,`� _�r �,��" t;.1'e <k � L��.�5,^2� :.:.F�_�, �h4y�",x2 S�`��'i't!;q��3�.�.�lnsaY,3J��:;s-J�jbf"i5":'.,'r1;:S t�•,� .�r.y + ';r�,'sS*'V. �•'i.'t ,F� r ylr'�__`' - �..;::fi]'5�4.t+�-`R�Xi :.€.wt i.'#,v,y;�r oL' 't.Ft��:�.Y:I e�r.[-StirL1i :.-,_ reirx. ,3_. a.,te..43 . �?upip Mr, . i- %r',d '4.... ,t•:''S.'` 3�' 121: � � � Y{ -ri � r "3',. ..� _, '1,. iPNo� ...� }7r a ••••� u � 1. jj f � i' ir,� .",�' "K, � �' f,�r,,,.1 h yc - �w � r. , _x s ,[r ,+? r +;, a� r t.: �. ... ..r � d. `��, r �'.: d •k, . •4+'�.]S Y,. . i �.�,r .�Y p�.i . .`t•iS.,� ,�,5C ;•�+-:; �,_, = � =��n r '`• 1., S; 'G$7�r�Ji r�%l � l �' � �f Zy.,'.+,�,�.. � sE l t�, i f• , ,•�'rp},�• Sia a _ . a�j!'a i '! , iri C ,_� z Z',T Jr ..?r•�,,Y� wrtf ip�.?'u v. ? f,� rsi� �•� r� n. r a..r{ {. f`si',k? • ' r t ✓;" i:'. `9S.•- _ •G; _ -. "'; +t 'e�' r.'{[ F, y �LJk'..1 t �, �r� .r'!e� `4-,. -,-SAS"•y-[,k�i'r i �,!•1•�-v�; ;.°ii •ip• '.'.h: lL:n ���. -`r; :t . :r3.� %,• i '.;:'};e'-•' ,�c7 r�i ; -� S+" ;3.1. _ is �: 9L^tis` = a.,-'" i•[ "4 't r 4'a.�r'; �'. 7'� p�,�-L-'. .'�a°c +• F '!' �x t . •' �g7�•!�•..I.t�` :,ver., -r� yt'.ir.S�j+tl�. 3 -�i . ¢v-rSi �� ri��k+•CY�° �i,�i,+�' Y�',:-�1�ii;)y�rf.�". .1,f�. 'Erb . ,i Tom.,.- s.?..htl :` i •41� �' r•' V SNC.1T' -�pF.Y� -$. l4, - iy i fi, !2'� S E' LHL. =�'•ft� '�'.y K�,` r:l! k..f '�. i S a•4"v1F7y'S7Y-. ,+e_ a.� - , zix eli i.� '[- T L.! � gfi; � T�T'il.,, `�t�9,tiii�itl-F Ft a iju I��S�.k•.'P.•.i�+C•i.r.«'S2 ;1;_{Hf', _.VM,�-{�.r.M.. �. ���� V -.-�, ' �;i���M' �'.J f.. ,lar '.'r. �V.. Yr;, TRACT FIELD SOIL 'TYPE CROP REALISTIC ACRES SUGGESTD LBS. N MAXIMUM No. No. CODE CODE ANTICIPATED USABLE NITROGEN REQUIRED LBS. OF N YEILD/ACRE APPLICATION PER ACRE TO BE RAT E APPLIED 12 3 CmB2/CmD2 Corn -G 109 Bushels 4.0 1.1 LB N/BU 120 480 Bar -Gr 70 Bushels 4.0 1.5 LB N/BU 105 420 4 Cm32/CmD2 Fes -G 4.4 tons 7.0 33 LB N/TON 192.5 x 1,008 .75 = 144 3 CmB2/CmD2 Fes -G 4.4 tons 6.8 33 LB N/TON 192.5 x 979 .75 = 144 6 CmB2/CmD2 Corn --G 1.09 Bushels 5.0 1.1 LB N/BU 120 600 Sar -Gr 70 Bushels 5.0 1.5 LB N/BU 105 525 13 1 CmB2/CmD2 Corn -G 109 Bushels 6.1 1.1 LB N/BU 120 732 Bar --Gr 70 Bushels 6.1 1.5 LB N/BU 105 641 2 CmB2/CmD2 Corn -G 109 Bushels 4.3 1..1 LB N/BU 120 516 Bar -Gr 70 Bushels 4.3 1.5 LB N/BU 105 452 3 CmB2/CmD2 Corn -G 109 Bushels 3.8 1.1 LB N/BU 120 456 Bar -Gr 70 Bushels 3.8 1.5 LB N/BU 105 399 4 CmB2/CmD2 Corn -G 109 Bushels 4.7 1.1 LB N/BU 120 564 Bar -Gr 70 Bushels 4.7 1.5 LB N/BU 1.05 494 0 15 1 CmB2/CmD2 Corn -G 109 Bushels 2.3 ii 1.1 LB N/BU 120 276 Bar -Gr 70 Bushels 2.3 1.5 LB N/BU 1.05 242 2 CmB2/CmD2 Corn -G 109 Bushels 3.3 1.1 1,B N/BU 1.20 396 Bar -Gr 70 Bushels 3.3 1.5 LB N/BU 105 347 3 CmB2/CmD2 Fes -G 4.4 tons 4.0 33 LB NITON 144 576 4 CmB2/CmD2 Fes -0 4.4 tons 3.5 33 LB N/TON 192.5 x 504 .75 = 144 TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES' USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLYED2 15 5 CmB2/CmD2 Corn -G 109 Bushels 7.8 1.1 LB N/BU 120 936 Bar -Gr 70 Bushels 7.8 1.5 LB N/BU 105 819 6 CmB2/CmD2 Corn -G 109 Bushels 7.0 1.1 LB N/BU 120 840 Bar --Gr 70 Bushels 7.0 1.5 LB N/BU 105 735 7 CmB2/CmD2 Corn -G 109 Bushels 4.4 1.1 LB N/BU 120 528 Bar -Gr 70 Bushels 4.4 1.5 LB N/BU 105 462 8 CmB2/CmD2 Corn --G 109 Bushels 4.7 1.1 LB N/BU 120 564 Bar -Gr 70 Bushels 4.7 1.5 LB N/BU 105 494 9 CmB2/CmD2 Corn -G 109 Bushels 5.9 1.1 LB N/BU 120 708 Bar -Gr 70 Bushels 5.9 1.5 LB N/BU 10.5 620 FaE Fes -H 3.2 Tons 2.5 43 LB N/TON 139 348 CvA Corn -G 140 Bushels 1.9 1 LB N/BU 148 281 15 10 Cm32/CmD2 Corn -G 109 Bushels 1.8 1.1 L3 N/BU 120 21.6 Bar -Gr 70 Bushels 1.8 1.5 LB N/BU 105 189 2117 1 NaB/NaD Corn -G 94 Bushels 4.0 1.1 LB,N/BU 104 416 Bar -Gr 60 Bushels 4.0 1.46 LB N/BU 88 352 2 NaB/NaD Corn -G 94 Bushels 4.0 1.1 LB N/BU 104 281 Bar --Gr 60 Bushels 4.0 1..46 LB N/BU 88 238 3 CmB2/CmD2 Corn -G 109 Bushels 4.2 1.1 LB N/BU 120 504 Bar --Gr 70 Bushels 4.2 1.5 LB N/BU 105 441 4 NaB/NaD Corn -G 94 Bushels 4.3 1.1 LB N/BU 104 447 Bar -Gr 60 Bushels 4.3 1.46 LB N/BU 88 378 5 NaB/NaD Corn -G 94 Bushels 4.0 1.1 LB N1BU 104 416 Bar --Gr 60 Bushels 4.0 1.46 LB N/BU 88 332 r IL .L } .c "e t G � A ..�?:. .4,`.-i�. 'af`-' . f.:Ti".. .,�; '_ '.,. ^SbYff"_: ,�„y?TF''E,' _ .::-;'. Y>F.:2t :Ss. '�" s •F •I_ '�'" ' 't• 1,, e o v ..c, 4 !--i Hit, a; .{'':'' y�y4.��t �i+Y,'H 3•yR�'".ti�M Gr.£h 7d i„�`'a�j 'Y GY'•� "} 'r. i.� '�'• `J�.y��_.�-il�,".�=��.1 .y .y:.{'1 •: �.'F7 .ah",.�����F�y .. i�; K .4. 2� � ;-}�. '� �4 -I ".�f .� ! Cy�Sc., n.j5k•.1�A'� �`- ' J1.� < 1= -f :w.-- + :l .wS , i°arz �:�'I § ., ..•r J ki,t �r' .., 3- +'C-rr `1y,. a��5yv1F�'.I� �`5 'Tr`=l�k t.t -N: t': i1 T- a; ti�S ef,.t-- - :;P...7,. �f Yf� .�P`t4 -,F�+, r.,�_ .,�{; ,,c'a ,, pr Y.#..: ,y.Trt4- ::lv r' _y .sift •- 'Rr.� ';S -x. `%: rN w''.,� "rrl' .!'. 1 yea A7� + �' ry `�•: ,•" t r - '�'�G".r 1i1x'�,' - '.7}`I,,�i. i 7f^,.i ,�.�'?.�=.s Ya r ar' _�� s % irk .s ftii '3 sm' a f'l'y:`S,j�n-� i . '"•I�'2y 5� -'F` st +.0 }..rtt •Y,.1w ...7,.,.i,'.'M iY i, t.i .V..1-'.}f�a,. x.••�'`-- '!,'� • �.7 ♦i y?.1 i'. v �'1 .;7�• "Y�'.`�,r . ' < ;f5. .. �• �, ,y N.r. ,la.s,JC�ih�a „ :S,w,y.- a7! !: a!�3'-'�' al 'i. X w 'rr• r. '.w .rft5 S�' a M rt�� '.�' C �'ViIZ.-. '4 ,�r,�w t,4.'TI, V .i' � i.u'x �'S!� W. Af'� �. 1, f7 � Y' jM' ✓ �' rL1 `,+:•�„ .'.:rJ!�2y`;-'' .�;}� ��t,�e .p{ �•..r '�y" 5,,,, ', ?�-�1'..3w: ��.. �.a � P 1 -. 'y� S:S.: ��',Pr;•or ��' r �ti".- ��fw�' •'•,-u�"`{'-yi ' � s' W 7 ` ` .4 �`x'• .�J e �i � � ihi 5��'/ �j: 1f_ f'fI�n.$' �-'C � +1' YiC. Y� i ^'yi �± 7 e �- � yrs � Ftii `IIxi} - I �.3. �{ :��5. _ R?�5 t , j•._:�• i 0. S � d 4:a{ V �'� h � fy � ;3 '1:rC-\ ' �. Id.r� �� �e+i ��1 � ''< �Y+r"-� w ;:yf .3h i ;e�'tL� � � ,�.. "l: r ,� �,f ir 'J�`.)y� -s S�� .{$"' ..�� i,> •�",f11' 9 K 1./k�I r1+�"'M. .f x k''�• - �' Y�a4..3, � iit a C�e l:� a _ �:. ��� •_� , fY-"� +: - r S.. ��: i��Sp .tf4:21...�+ Yf f,'i._ 4h".. � ..c�.- Y . f'r '� 'y.. ,_ , ' ,�a 'i, K�,1� ,4 � F �.1. 2 4 .L :'i ' 3Ti• -r i.[S'•ys �l '\ �:.: �4 i2 tiL•" TRACT FIELD SOIL TYPE CROP REALISTIC ACRES SUGGES'ID LBS. N MAXIMUM No. No. CODE CODE ANTICIPATED USABLE NITROGEN REQUIRED LBS. OF N YEILD/ACRE APPLICATION PER ACRE TO BE RATE APPLIED 2117 6 NaB/NaD Corn -G 94 Bushels 2.1 1.1 LB N/BU 104 218 Bar -Gr 60 Bushels 2.1 1.46 LB N/BU 88 185 7 NaB/NaD Corn -G 94 Bushels 2.9 1.1 LB N/BU 104 302 Bar -Gr 60 Bushels 2.9 1..46 LB N/BU 88 255 . 0 5141 1 CvA Fes -H 4.5 Tons 1.0 42 LB N/`ION 189 1.89 0 2119 1 NaB/NaD Fes --H 3.7 Tons 4.6 44.3 LB N/TON 164 754 2 NaB/NaD Fes -H 3.7 Tons 1.5 44.3 LB N/TON 164 246 3 NaB/NaD Fes --H 3.7 Tons 1..0 44.3 LB N/TON 164 164 TOTALS THIS TABLE 174 32,494 Table 2: ACRES RENTED BY PRODUCER TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES-'SUGGESTD USABLE NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED2 5140 1 CvA Fes -H 4.5 Tons 0.7 42 LB N/`1'ON 189 132 5139 1 CvA Fes -H 4.5 Tons 1.8 42 LB N/TON 189 340 859 1 CmD2/HtF Fes -H 3 tons 1.7 46 LB N/TON 140 238 5271 1 CmB2/CmD2 Fes -G 4.4 tons 3.0 33 LB NITON 193 x .75 = 144 432 2 CmB2/CmD2 Corn -G 109 Bushels 3.2 1.1 LB N/BU 120 384 Bar -Gr 70 Bushels 3.2 1.5 LB N/SU 105 336 3 CmB2/CmD2 Corn -G 109 Bushels 1.5 7..1 LB N/BU 120 180 Bar -Gr 70 Bushels 1.5 1.5 LB N/BU 105 158 1371 1 CmB2/CmD2 Corn -G 109 Bushels 5.0 1.1 LB N/BU 120 600 Bar -Gr 70 Bushels 5.0 1.5 LB N/BU 105 525 2 CmB2/CmD2 Corn -G 109 Bushels 4.0 1.1. LB N/BU 120 480 Bax -Gr 70 Bushels 4.0 1.5 LB N/BU 105 420 3 CmB2/CmD2 Corn -G 109 Bushels 4.9 1.1 LB N/BU 120 588 Bar -Gr 70 Bushels 4.9 1.5 LB N/BU 105 515 h. "1flP it5c2 :,.��li.:i�i'1•'vJA'1. <Z. 'JFf�. �'S*'�.t lG JS,N� Q •.5�� i"1, Jpl.i- .r4 n7, 1 :5� 1¢ r.rSS. ° i- -K 4� ,-+LifSLni i� y sv;.• .1 _12: 'e... y�, �`v�"i �':w��'� �. �ea�:r56, py,�1l +.,r -�[• y.3���� j;XNj�y:�x �' �Y : � nyr�x, nrf�4F, y� ]�r F 1^Yi+ '7_. '>,'S i.� .� �H. 1,? �"� i�s T�•y � Iry �, J u J i-'..Ii1 i„yj1 '-' 4'i}Fiv iA 17 k 117+.x' Y'"'Ff:� '�vr:.r+' .W Rt/•E`y `,F '1 4 •.-,r: {'n�. rk Rol •-- �- , J ti l' 1Fi: ni. ;'.%i. ra'rir' s. ?awS �a : r r, .,sF''1�,'ifi' n ti RKRj,C 4:!'"�, �, i,,.i};•„{iy�.p ;,a¢r3,-5�3'3r'� „r ht u. �: :e' �.rr"r '�- ar .«�y �� �'$[i S �Y s�'n T •� ' . �" i ': rA!'v 'i5, '� �� J.54 •ip`.,. i9i4 .Y' • + F' �* � � � t� rSJ a �r �' -4 - �'': ..!'r + Y �i-.. �:3s+4�,, .� . S;. h•'3 f�a" {�,. i ^. 4o Q 4t z� � .�: �'-i'f"''�- �� �.£`"-w'� 4�"''I`„',s n r��S..'�, sG aJ`��Tyr'�L':'�, l - k .'S���J . z •t[�y{pl' '� ti�`�s� e ,4{ ;�ry� RY:: Ery.'v , . � [p�' i y��� 'P�w - .. xf. II� 1 A.'�7i i r � �'•. T y .� c ,,rr.S� M1�' .�-4� f y i-•��s f.1" . S' ' J l,i�w.�R'+£ �' -Pi��S . �l .'yJr'�+'µ Qr R e ?.. �� *?� q��rj�}' 7!�''Rzn� a� � �!'e�54`_�`�"�'�-7�r�.Y�r�'�r :rt}' • c�. •'�e, �. {� , r� "' .-r J- .:s � �;, yF: �{r�r �+,-r � "" --r'�`x• �y �' � , . �+�� a'E"'` ��`�'t - ; r�.���� r ;F!rr � rti.4 1 'r!5�.:��in, F"1a�:ti:.v1:i¢;,a. +v�':.7f?.cry' ;'r.'� t, 'S ;;1'+a�FF�.t '�,F,'t-t. �� r#�. �fcr. 5 �,. .�, *y� x �� r7': :•w �.r. aM;c_ �i:3 •Z. } Y, 4,. .`Fr` • 'rte, �J tY.{ •3r � 'xk"r �'i_ 5 iiJ'.. , yC` �'���riG S�����` '�jIS ��:R , Gz��t'aiYf- :.3 •J• „- ,,tr Lf9•tR. 4- 7l+�•',�f'refF�"'•. Att�., ?M1S''�i. y''f.�i,��- �i4P�r:i.y^�'rS„A,`r'`SF-`�e"''�. �t.,f.;��sCY+J� :n,J a3,"�, ,tii�,F,r(5;�J'�c`X`ar�>1}-�,�r'3i?i'[T.�t�!�l5N�"_5 �+T-'a�- L` •�4aA. aY�_ �iLelea`a,'•1 ,�']r�•!Y�5�'s'.�� s; ..r ,��� r^"a''f1.t,r '.�.F�f?J.' f :,�7v�n •" ' st .7i.4Ytu���y�.,. y��! 1 �' ;ra1'� l .GYr€Ee!1iriS.y�1 r !D 'Yn ✓'vr' il'r, r �` t. 1 S'r�t' iF..G, '!'[}i �. r� w�j , ' S �!{' -i .-��r.,; �� -.�rrAt��eY RACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACREr ACRESS��UtrV USABLE GZ:TF' T NITROGEN APPLICATION RATE LBS. N BS. REQUIRED PER ACRE MAXIMUM AXIMUM LBS. OF N TO BE APPLIED 1372 1 CmB2/CmD2 Corn -G 109 Bushels 11.0 1.1 LB N/BU 120 1,320 Bar -Gr 70 Bushels 11.0 1.5 LB N/BU 105 1,155 1427 1 CmB2/CmD2 Corn -G 109 Bushels 13.0 1.1 LB N/BU 120 1,560 SmGr 40 Bushels 13.0 1.7 LB N/BU 68 884 2 CmB2/CmD2 Corn -G 109 Bushels 4.0 1.1 LB N/BU 120 480 SmGr 40 Bushels 4.0 1.7 LB N/BU 68 272 3 CmB2/CmD2 Corn -G 109 Bushels 6.9 1.1 LB N/BU 120 828 SmGr 40 Bushels 6.9 1.7 LB N/BU 68 469 21.39 1 NaB/NaD Corn -G 94 Bushels 6.0 1.1 LB N/BU 104 624 SmGr 45 Bushels 6.0 1.7 LB N/BU 77 462 2 NaB/NaD Corn -G 94 Bushels 4.4 1.1 LB N/BU 1.04 458 SmGr 45 Bushels 4.4 1.7 LB N/BU 77 339 2158 3 CmB2/CmD2 Corn -G 109 Bushels 2.6 1.1 LB N/BU 120 312 SmGr 40 Bushels 2.6 1.7 LB N/BU 68 177 5 CmB2/CmD2 Corn -G 109 Bushels 1.6 1.1 LB N/BU 120 192 SmGr 40 Bushels 1.6 1.7 LB N/BU 68 109 6 CmB2/CmD2 Corn -G 109 Bushels 2.9 1.1. LB N/BU' :1.20 348 SmGr 40 Bushels 2.9 1.7 LB N/BU 68 197 7 CmB2/CmD2 Corn -G 109 Bushels 2.6 1.1 LB N/BU 120 312 SmGr 40 Bushels 2.6 1.7 LB N/BU 68 177 .i 4 ,, �_ 4 -,1 1"� s'•zYy y,:...1 . °Y's �� to 'S -0 �,. f} '.,;Y ` a 1.Z7� a -�`/ �` �e�'F, • i ._•r�ji Yr 7•^ f Y 7 IY ,Y �t:w - �' `4 '�``,'Je+lf} Y ,; `r'L "'�a,,1R¢r,Y}: {j- �f H 1J,�_ ,` �� r$ F � 1 �.�i-r� ,� e- �i 'v' I yz a ril'Xe".4;. Y �.,{ ` 5 _r, 'T- ,�L ;� L;iC, .•�v F7i i�1Y7$�E��Mj�r.- iw )i Yi, e.. ? tS3•;. Ji�§ r.Y .•i l„� 5,� Y�.ai., LY r I .•h,,�, x ai', ti,,W?i, r 1. yCf.'?l✓;lir .s �;:h• rr : 3,,kri df:4wi i7'i'� .q L. i', •f 1'.`t�+ ra%'t:GYr- f t,u. ti sv i M{x ';;a .:,. L.s ! .v •vro•�' T v y�?''i%tir.a .+ r E N- ."'t �' � fir- i t=•" k ,'S."s ,n�`� t'I �'y. y, f; 't'S � �..k1�; .+i�j '�„" Vy'I,.' 'v�, I F'..F .`�.}� lyY sT• , -5 ity ,-. >'qr . ;a .i •j' 'd}y� :yam :. i.r �r i', "'' e�.�?"k`eiw�"�.1 3•'.!" j3 i ?��'i! x�'[ . � r a�,Yr r-+�� �151N r 'd ; w e•!:"i •. _ 1 ; 4. �'sc+:3it r3''�..5 n ri1v�I .-rr•:rY , r C k . � ��s" � � yLn �R "; S' ` ° ''S5'S t � ,.q '.tea•, ..!• ti S , Y„'!?C �` ' . ,•ptr v 5"r•S� Y _'°.' • i4ay}y?^''T:s y ,,' ; ,'`�,.,;.ydi''.�i' •+SP .i..A� 1:. f},1. �.�a'M,t iLL_11V .�j• r�-;. �:. G. l �r ..M7't 15.�.#� ��11'�i1:( er�--.�i4 "�,�` Tk�� 1� 'd*y�'JC � }T I�•i��.J t� M't't..r. y ^�Z� 1 ', S r¢F� = �'. ���.� �}' tfh�� " _�,'yya!--• iiL''�'� � 1;���',' �'.. Y�p• rt'Y� °�r, �J`a4" Y .�. y ISI �•�.:; tt ti ` QC �jKl,,•w RTS+• . .it •i. ^;;Y i k " ,.Y�.,�." Y. ! • i .P.. 5 a t -.'. �5;�� . ,fi. 4 �M ''ti-�.t,wr:..>.c� a _ 7 a ?�".S�'�iaa'; ,:xr •. Y , TRACT No. FIELD No. SOIL TYPE CODE CROP CODE REALISTIC ANTICIPATED YEILD/ACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS. N REQUIRED PER ACRE MAXIMUM LBS. OF N TO BE APPLIED 2138 4 CmB2/CmD2 Corn -G 109 Bushels 4.2 1.1 LB N/BU 120 504 SmGr 40 Bushels 4.2 1.7 LB N/BU 68 286 5368 1 CmB2/CmD2 Corn -G 109 Bushels 8.9 1.1 LB N/BU 120 1,068 SmGr 40 Bushels 8.9 1.7 LB N/BU 68 605 2 CmB2/CmD2 Corn -G 109 Bushels 2.0 1.1 LB'N/BU 120 240 SmGr 40 Bushels 2.0 1.7 LB N/BU 68 136 3 CmB2/CmD2 Fes -H 4.4 tons 6.0 33 LB N/TON 193 1,158 5369 6 CmB2/CmD2 Corn -G 109 Bushels 1.8 1.1 LB N/BU 120 216 SmGr 40 Bushels 1.8 1.7 LB N/BU 68 122 7 CmB2/CmD2 Corn -G 109 Bushels 2.5 1.1 LB N/BU 120 300 SmGr 40 Bushels 2.5 1.7 LB N/BU 68 170 8 CmB2/CmD2 Corn -G 109 Bushels 2.1 1.1 LB N/BU 120 252 SmGr 40 Bushels 2.1 1.7 LB N/BU 68 143 1 CmB2/CmD2 Corn -G 109 Bushels 0.9 1.1 LB N/BU 120 108 SmGr 40 Bushels 0.9 1.7 LB N/BU 68 60 10 CmB2/CmD2 Corn -G 109 Bushels 1.9 1.1 LB N/BU 120 230 SmGr 40 Bushels 1.9 1.7 LB N/BU 68 130 11 CmB2/CmD2 Corn -G 109 Bushels 4.8 1.1 LB N/BU 120 570 SmGr 40 Bushels 4.8 1.7 LB N/BU 68 325 5195 1 NaB/NaD Soy 27 Bushels 1.0 3.8 to 4.0 LB N/BU 106 106 SmGr 45 Bushels 1.0 1.7 LB N/BU 77 77 r- TRACT No. FIELD SOILTYPE CODE No. CROP CODE REALISTIC ANTICIPA'T'ED YEILWACRE ACRES USABLE SUGGESTD NITROGEN APPLICATION RATE LBS.N REQUIRED PER ACRE MAXIMUM LBS. O17 N TO BE APPLIED2 SmGr 45 Bushels 4.5 1.7 LB N/BU 77 347 3 CmB2/CmD2 Corn -G 109 Bushels 2.5 1.1 LB N/BU 120 300 SmGr 40 Bushels 2.5 1.7 LB N/BU 68 170 1514 1 CmB2/CmD2 Corn -G 109 Bushels 1.0 1.1 LB N/BU 120 120 SmGr 40 Bushels 1.0 1.7 LB N/BU 68 68 1431 1 CmB2/CmD2 Corn -G 109 Bushels 2.0 1.1 LB N/BU 120 240 SmGr 40 Bushels 2.0 1.7 LB N/BU 68 136 1472 1 CmB2/CmD2 Corn -G 109 Bushels 2.5 1.1 LB N/BU 120 300 SmGr 40 Bushels 2.5 1.7 LB N/BU 68 170 2 CmB2/CmD2 Corn -G 109 Bushels 1.0 1.1 LB N/BU 120 120 SmGr 40 Bushels. 1.0 1.7 L13 N/BU 68 68 3 CmB2/CmD2 Corn -G 109 Bushels 5.0 1.1 LB N13U 120 600 SmGr 40 Bushels 5.0 1.7 LB N/BU 68 340 1487 1A NaB/NaD Corn -G 94 Bushels 4.0 1.1 LB N/BU 1.04 416 SmGr 45 Bushels 4.0 1.7 LB N/BU 77 308 1B CmB2/CmD2 Corn -G 109 Bushels 7.8 1.1 LB N/BU 120 936 SmGr 40 Bushels 7.8 1.7 LB N/BU 68 530 1438 1 NaB/NaD Corn -G 94 Bushels 12.0 1.1 LB N/BU 104 1,248 SmGr 45 Bushels 12.0 1.7 LB N/BU 77 924 40000 1 CmB2/CmD2 Fes -H 4.4 tons 7.3 33 LB N/TON 193 1409 TOTALS THIS TABLE 166.5 32,027 Table 3 presents a summary of all nitrogen requirements and the total nitrogen to be applied using animal waste for all fields, which are available for waste application. TABLE 3: SUMMARY OF WASTE APPLICATION Plant available Nitrogen produced per year from animal waste and Wastewater is approximately 14,545 pounds. Therefore this summary indicates that about 22 percent of the total annual nitrogen requirements can be provided for the crops as listed for the fields available using animal waste produced on this livestock operation. USEABLE ACRES TOTAL CROP MAXIMUM LBS. N NITROGEN TO BE APPLIED REQUIREMENT IN USING WASTE, POUNDS FROM TABLE 1. 174 32,494 FROM TABLE 2. 166.5 32,027 TOTAL ALL TABLES 340.5 64,521 Plant available Nitrogen produced per year from animal waste and Wastewater is approximately 14,545 pounds. Therefore this summary indicates that about 22 percent of the total annual nitrogen requirements can be provided for the crops as listed for the fields available using animal waste produced on this livestock operation. I The useable acreage represents the total acreage of the field minus the required buffer areas that border streams or residential areas. Actual total acres in the fields listed may, and most likely will be, more than the acres shown in the tables. Z This N is the total amount of Nitrogen needed per crop/field/year 3 For Cover crops of Ryegrass and small grains - if cover crop is not harvested then the N rate of 30 lbs/acre shall be used followed by the recommended N requirements for the following crop. If the cover crop is harvested then apply N at 50 lbs/acre. 4 For the fields listed apply N at a rate specified for the soil type listed when planting a cover crop of small grain or ryegrass. s a�llST1� T�LIZAT�C zF-A _sN 1 5-111 1 Doo o Producer: B. G. Looper & Sons 1 Wesley Looper &11�2 ;e Location: 4673 Petra Mill Road (SR 1740. Granite Falls NC 28630 Telephone: Type Operation: Swine (528) 396-7567 Weslev Lo Number of Animals: 260 Sow Farrow to Finish (Design Capacity) 2 The waste from your animal facility must be land applied at a specified rate to prevent pollution of surface water and/or groundwater. The plant nutrients in the animal waste should be used to reduce the amount of commercial fertilizer required for the crops in the fields where the waste is to be applied. This waste utilization plan uses nitrogen as the limiting nutrient. Waste will be analyzed twice each year to determine nutrient content. Soil tests for all fields receiving wastes will be taken every other year so that all plant nutrients can be balanced for realistic yields of the crop to be grown. Several factors are important in implementing your waste utilization plan in order to maximize the fertilizer value of the waste and to ensure that it is applied in an environmentally safe manner: 1. Always apply waste based on the needs of the crop to be grown and the nutrient content of the waste. Do not apply more nitrogen than the crop can utilize. 2. Soil types are important as they have different infiltration rates, leaching potentials, cation exchange capacities, and available water holding capacities. 3. Normally waste shall not be applied to land eroding at greater than 5 tons per acre per year. With special precautions, waste may be applied to land eroding at up to 10 tons per acre per year. 4. Do not apply waste on saturated soils, when it is raining, or when the surface is frozen. Either of these conditions may result in runoff to surface waters which is not allowed under North Carolina Division of Environmental Management (NCDEM) .0200 regulations 5. Wind conditions should also be considered to avoid drift and downwind odor problems. i. rd'd eol Loup f1bn I)h4IZ4a3 -VO iwel"de 'T— IL-1 3 +o re". L a� ogre s. 6. To maximize the value of nutrients for crop production and to reduce the potential for pollution, the waste should be applied to a growing crop or applied to bare ground not more than 30 days prior to planting. Injecting the waste or disking will conserve nutrients and reduce odor problems. The estimated acres needed to apply the animal waste is based on typical nutrient content for this type of facility. Acreage requirements should be based on the waste analysis report from your waste management facility. Attached you will find information on proper sampling techniques, preparation, and transfer of waste samples to the lab for analysis. This waste utilization plan, if carried out, meets the requirements for compliance with 15A NCAC 2H .0217 adopted by the Environmental Management Commission. WASTE U71L1ZATION PLAN I Estimate of Volume of Waste Produced Amount of Waste Produced Per Year (gallons, W, tons, etc.) 260 sows X 10481 gallons of waste/sow/year = _2,725,060 gallons of waste/year 100 acre inches of waste/year Amount of Plant Available Nitrogen (PAN) Produced Per Year 1,030,0001 gallons of slurry X 10.01 lbs. PAN(not incorporated)/ 1000 gallons of waste = 10,300 lbs. PAN/year from slurry 1,695,0602 gallons of anaerobic la;oon liquid X 68' lbs. PAN (irrigated)/Acre inch X 27,154 gallons/acre = 4,2245 lbs. PAN/year from lagoon liquid Total PAN = 14,545 lbs./year Note 1: Values used are actual on farm records. Note 2: Values used are based on analysis of waste from similar livestock operations in North Carolina which irrigate anaerobic lagoon liquid (source: USDA-NRCS FOTG Practice Standard 633 -Waste Utilization page 633-46). Actual nutrient content of waste pumped from this system may vary from these values. waste analysis will be made of the actual manure slurry and lagoon liquid twice per year. The applicator is cautioned that P and K may be over applied if application is made based on Nitrogen alone. This plan only addresses Nitrogen. 9 WASTE L _;: kiTtO -PLAN".."' Sludge buildup in lagoons is limited to waste from one farrowingh:ursery house directly discharging into lagoon #l. All other wastes are directed into earthen settling basins where solids are trapped a»d liquids runoff into lagoons Sludge depths in both lagoons will be determined at least every five years, with excess sludge removed as appropriate. The sludge will be nutrient rich and will require precautionary measures to prevent over application of nutrients or other elements. rd .'WAST. -E, bUTIGZATIO� PIAN �- Applying the above amount of waste is a big job. You should plan time and have appropriate equipment to apply the waste in a timely manner. The crop fields shown on Tables 1 and 2 are available for waste application. It will not be necessary and may not be desirable to apply waste to each of these fields in any given year. It is assumed that for row crops only a fraction of the total annual nitrogen requirement will be applied using animal waste. The Lbs. of Nitrogen Per Acre shown in the tables are estimated annual nitrogen {N) requirements of the crop to be grown based on the potential productivity of the soil and assuming no double cropping. The Recommended Lbs. of N to be applied per acre indicate the Nitrogen that can be reasonably applied to the crop and used by the crop in a timely manner. Appropriate forms are attached for use by the landowner to record actual application of manure slurry and anaerobic lagoon liquid, balancing the nitrogen requirements of the crop with the plant available nitrogen applied. Table 1: ACRES OWNED BY PRODUCER Recotnrnended Tract Field Soil Crop # No. Type Rotation Realistic Anticipated Yield Lbs. N Lbs. N to Acresl Required to be Useable Per Ac. App1_ied2 I I 1 Barlevl 70 bu 1 4.7 1 105 1 4931 91 41 Cecil Korn/ 1 95 bu 1 9.2 1 119 11095 1 1 91 5IHibritn[Fescue-GI Cecil 2.5 ton 1_ 3.3 _1 95 1 313 3131 1 91 61HibritnIFescue-GI Cecil 2.5 ton I 4.5 1 95 1 427 4271 1 91 7 I Hibritn I Fescue -G 1 2-5 ton 1 5_._4 1_ _ _95 1 513 5131 1 91 _8 I Hibritn I Fescue -G I 2.5 tori 14.0 1_ 95 1 418 4181 1 121 21 Cecil_ I Fescue G 1 3.0 ton_ 1 2.0 1__ 112 1 224 224.L 1 121 31 Cecil (Corn/ 1 95 bu 1 4.0 1 119 1 476 1 121 41 Cecil IFescue-GI 3.0 ton 1 7.0 J 112 1 784 784 121 51 Cecil IFescue-GI 3.0 ton 6.8 1 112 761 7611 121 61 Cecil 1$arlev/ 1 70 bu 1 5.0 1 105 1 525 1 I I 1 Tobaccol 2800 lbs 1 5.0 1 80 1 4001 5 WA-,,S--TE---!.-UTIfLIz l o, Recommended Realistic Lbs. N Lbs. N to Tract Field Soil Crop Anticipated Acresl Required to be ## No. Type Rotation Yield Useable Per Ac. Applied2 131 21 Cecil IBarlev/ 1 70 bu 1 4.3 1 105 1 451 1 131 31 Cecil Barle 70 bu 3.8 _ 105 399 CornI 95 bu 1 3.8 1 119 1 4521 131 41 Cecil Barle 70 bu 1 4.7 1 105 493 1 Corni 95 bu 1 4.7 1 119 5591 151 21 Cecil 1Barle 1 70 bu 1 3.3 1 105 346 95 bu _1 119 I- Tobacco 2800 lbs 1 3.3 1 80 150 264 1 151 31 Cecil Fescue -GI 3.0 ton 1 4.0 _ 112 1448 448 1 151 41 Cecil IFescue-GI 3.0 ton 1 3_5 I 112 1 392 3921- 151 51 Cecil Corn 1 95 bu 1 7.8 119 928 1 -1 - Barleyl 70 bu .j 7.8 I 105 1 819 151 61 Cecil ICorn 95 bu 1 7.0 1 119 833 1 1 Barleyf-- 70 bu 7.0 105 7351 -1 151 71 Cecil jBarleyj 1 70 bu _ 1 4.4 105 _ 462 Corn 95 bu 4.4 119 524 1 151 81 Cecil IBarlev/ 1 70 bu 1 4.7 1 105 1 493 1 15 9[ Cecil Barle 70 bu 1 5.9 1 105 620 1 I _1 Cornl _ 95 bu 1„ 5.9 1 119 d 7021 1 1 IPacoletIFescue-HI 3.0 ton 1 2.5 1 150 _1 375 3751_ I I _IChewaclfCorn 1 95 bu 1 1.9 1 119„ 1 226 2261 1 151 101 Cecil ICorn/ 1 95 bu 1 1.8 1 119 1 214 1 21171 31 CecilTobacco 2800 lbs 4.2 80 335 I I -i Barle�t- 70 bu 4.2 105 441 (21171 n 41ADpli Tobacco 2800 lbs 4.3 80 344 l Barleyl 70 bu 1 4.3 105 451 21171 SlAipplin Corn 95 bu 4.0 119- 476 Barley] 70 bu 4.0 105 420 121171 -1 61Ann1ina1BarlPv/ 1 - 70 bu 1 2.1 1 105 T1 220 1 Tobacco j 2800 _lbs _1_ -2.9 _1 _80 1 2321 Total 1163.2 1 � 17,482 1 17.323 • - tom. - - - __ .._.,sr_ __ - - - � ATOIE-UTI LAITi-P LAN.lIx The useable acreage represents the total acreage of the field minus the required buffer areas which border streams or residential areas. Z More than one nitrogen amount to be applied is given per field, depending on the crop to be grown in the crop rotation. This Nitrogen is from animal waste only. If nutrients from other sources such as commercial fertilizer are applied, they must be accounted fon Nitro en must be based on realistic yield expectation. Table 2: ACRES RENTED 52711 21Cecil Corn 95 bu 1 3.2 1 119 1 381 BarievI 70 bu 1 3.2 1 105 1 336 52711 31Cecil (Tobacco/I 2800 lbs 1 1.5 1 80 1 120 1 1 21Cecil IFescue-HI 3.0 tons 1 5.5 Recommended 1 825 8251 Realistic ICornLSG 1 Lbs. N Lbs. Nto Tract Field Soil Crop Anticipated Acresl Required to be ## No. Type Rotation Yield Useable Per Ac. Applied2 21191 11 AD l inci I Fescue -H 3.0 tons F 6.2 1 150 930 930 1 21191 21At)T)linQITobacco/I 2800 lbs 1 6.0 1 80 1 480 1 52711 21Cecil Corn 95 bu 1 3.2 1 119 1 381 BarievI 70 bu 1 3.2 1 105 1 336 52711 31Cecil (Tobacco/I 2800 lbs 1 1.5 1 80 1 120 1 1 21Cecil IFescue-HI 3.0 tons 1 5.5 1 150 1 825 8251 1 31Cecil ICornLSG 1 95 bu 1 4.4 I 119 �1 524 5241 1 1 41Cecil (Corn/SG 1 95 bu --1 3.9 1 119 1464 4641 1 1 5 1 Ceci _ !Fescue -Hi 3.0 tons 1 _ 4.5 1 150 1 675 6751 1 I 6 1 Cecil _I Corn/SG 1 _ _ 95 bu _ 1 5.5 „ 1 119.1_655 655 1 7 1 Cecil Corn/SG 1 95 bu 1 1.0 1_ 119 _ I 119 119j 1 I I Total 74.4 —._-- 9,157 __-- • See footnotes for Table 1. 7 8,952 0 • WASTE UTILIZATION PLAN Table 2 Continued: ACRES RENTED Recommended Realistic Lbs. N Lbs. N to Tract Field Soil Crop anticipated Acresl Required to be 4 No. Type Rotation Yield Useable Per Ac. Applied2 5195 �_ 1 Apolincrl Tobacco / 1 2800 lbs_ 1.0 1 80 I 80T SrnallGrnl 45 bu 1.0 1 77 77 2 A L31incr Tobacco I 2800 lbs 4.5 80 360 3 1 Cecil SmallGrnl Tobacc_o.f. i 45 2800_ buI lbs 4.5 77 3471 SmallGrn 40 bu 2.5 68 170 1514 1 Cecil ITobaccoll 2800 lbs 1.0 80 80 ISmallGrni 40 bu 1.0 1 68 1 681 1431 1 Cecil Tobacco 2800 lbs 2.0 80 160 ISma11GrnI 40 bu 1 2.0 1 68 1 136 14721 1 Cecil--- To acro/ 2800 lbs--+ 2.5 80 200 2 Cecil SmallGrn Tobacco 40 2800 bu lbs 2.5 1 1.0 fib 80 1 80 170 Is 11Grn 40 bu 1.0 68 681 3 Cecil ITobacco 2800 lbs 5.0 80 400 ISma11GrnI 40 bu 5.0 1 68 1 340 14871 1A I Ann 1i ncr Tobacco 2800 lbs 4.0 80 320 Cecil ISmallGrnI To acco 45 2800 bu lbs 1 4.0 1 7.8 77 81B 3081 Sma11Grn 40 bu 1 7.8 1 68 1 503 1438 1 An lin Tobacco 2800 lbs 12.0 80 960 ISmallGrnl 45 bu 12.0 77 924 See footnotes for Table 1. 7A WASTE UTILIZATION PLAN Table 2 Continued: ACRES RENTED Recommended Realistic Lbs. N Lbs. N to Tract Field Soil Crop Anticipated Acresl Required to be # No. Type Rotation Yield Useable Per Ac. Applied2 14271 11 Cecil Tobacco I 2800 lbs 1 13.0 1 80 11040 I Sma 1Grnj 40 bu 1 13.0 1 68 8841 _ — 2�Cecil ITobacco 1 2800 lbs 1 4.0 80 320 __ __ 3 Cecil SmallGrn Tobacco/ 40 2800 bu lbs 4.0 6.9 68 80 552 2721 IsmailGrnI 40 bu 6.9 68 Y 4691 2139 -IIA-o-olinalTobacco/I 2800 lbs 6.0 80 480 1 SmallGrnl 45 bu 1 6.0 77 1 4621 2 1 A -or- MO lbs 1 4.4 1 80 1 352 ISmallGrnj 45 bu 4.4 1 77 3391 I 21581 3 Cecil ITobaccoZI 2800 lbs 2.5 80 200 SmallGrn 40 bu 2.5 68 170 5 Cecil Tobacco 2800 lbs 1.7 I 80 136 ISmallGrni 40 bu 1 1.7 1 68 1 116 1 6 Cecil ITobacco./I 2800 lbs2.9 80 232 'Cecil SmallGrn 40 bu 1 2.9 68 197 7j_ Tobacco 2800 lbs 2.6 80 208 Sma11G=I 40 bu 2.6 68 177 2138 4 Cecil Tobacco 2800 lbs 4.2 80 336 ( I Smal 1Grn L 40 bu ! 4.2 1 68 2861 1443 l I Cecil Corn,SG 9.5 big I , .7 119 I 797 797L _I 2 Cecil Carn/SG 95 hu� I 4.8 119 1571 571-L l 1 I ! 4 I I See footnotes for Table 1. Total 1177.4 1 117rRAI; I 16,803 w 1 WASTEUTILt-,ZATION' PLAN Totals from above Tables Acres Lbs. N Utilized2 Table 1 a 17,323 Table 2 177.4 z7 4- 16,803 Total 329.1 j35,327- - 34,126 Amount of N Produced = (14,545) 14,5451 N Deficit = (19, 581) 19, 581 See footnotes for Table I. This summary indicates that only about 43 percent of the total annual nitrogen requirements can be provided for the crops as listed for the fields available using animal waste produced on this farm. Your facility does not meet Natural Resources Conservation Service design standards, however it appears to contain at least 90 days of temporary storage and the temporary storage must be removed on the average of once every 3 MONTHS. Tn no instance should the volume of waste being stored exceed the maximum liquid level marker on each structure. These markers will be set as follows: Settling Basin ##1 - Settling Basin 42 - Settling Basin 43 - Settlir_g Basin 44 - Lagoor_ ## 1 - Lagoon # 2 1 ft. 7 in. below the top of dam. 1 ft. 8 in. below the top of dam. (overflows directly ,to Lagoon ## 2) 1 ft. 6 in. below the top of darn. 1 ft. 11 in. below the emergency spillway. 1 ft. 7 in. below the emergency spillway. Call the local Natural Resources Conservation Service (�ormerly Soil Conservation Service) or Soil and Water Conservation District office after you receive the waste analysis report for assistance in determining the amount per acre to apply and the proper application rate. i U.S. DEPARTMENT OF AGRICULTURE PAGE 1 OF 1 NATURAL RESOURCES CONSERVATION SERVICE 02/15/01 SOIL MAP LEGEND B. G. Lcoper & Sons - Looper, John Map Soil name symbol Ap5 jAppling sandy loam, 2 to 8 percenr slopes ApD JAnpling sandy loam, 8 to 15 percent slopes CeB2 ICecil sandy loam. 2 to 8 percent slopes, eroded CeD2 jCeCil sandy lcam, 8 to 15 percent slopes, eroded Cm IChewacla 'loam, occasionally flooded Hb0 jHibriten very cobbly sandy loam, 8 to 15 percent slopes HbF lHibriten very cobbly sandy loam, 15 to 50 percent slopes PaE jpacclet fine sandy loam, 15 to 25 percent slopes 7 • 1JONT£C414ICAL SOILS DESCR-TTPTI'uN REPORT 46 1 B. G. Looser 6 sons - Looper, John Map Soil name and description Symbol Ao£ j Appling sandy loam, 2 to a percent slopes These gently sloping, very deep, well drained soils are on uplands. They formed in residuum from felsic rocks. 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. APD Appiing sandy loam, 6 to 15 percent slopes These strongly sloping, very deep, well drained soz'_s are on uplands. They formed in residuum from felsic rocks. 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. J COS2 Cecil sandy loam, 2 to 3 percent slopes, eroded These gently sloping, very deep, well drained, eroded soils are on uplands. They formed in residuum from felsic rocks. They have a loamy surface layer and a j clayey subsoil. Pe-meability is moderate and shrink -swell potential is low. Seasonal high water table is below 6.0 feet- CeD2 Cecil sandy loam, a to 15 percent slopes, ero.:ed These strongly sloping, very deep, well drained, eroded soils are on uplands. They formed in residuum from felsic rocks. They have a loamy surface layer and a clayey subsoil. Permeahility is moderate and shrink -swell potential is low. Seasonal 'nigh water table is below 6.0 feet. Cm Chewacla loam, occasionally 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 soils are subject to occasional flooding. HbD £ibriten very cobbly sandy loam, 3 to 15 percent slopes NONTECHNICAL SOILS DESCRIPTIOREPORT B. G. Looper F� Sons - Loaper, John Map f Soil name and description Symbol These strongly sloping, moderately deep, well drained soils are on uplands. They `_armed in residuum From niilimanite schist. They have a loamy surface layer and subsoil. Mary 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. HbF Hibriten very cobbly sandy loam, 15 to 60 percent slopes These moderately steep to steep, moderately deep, well drained soils are on uplands. They formed in residuum from sillimanite schzst. They have a loamy surface laye- and subsoil. Many 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 I table is below 6.0 feet. Pay I Pacolet fine sandy 'loam, 15 to 25 percent slopes These :moderately steep, very deep, well drained soils are on uplands. They formed in residuum from felsic rocks. Thev have a loamy surface layer and a clavey subsoil- Permeability is moderate. Shrink -swell potential is low. Seasonal high water Laale is below 6.0 feet. � \1 U.S. DEPARTMENT OF AGRICULTURE NATURAL RESOURCES CONSERVATION SERVICE LAND CAPABILITY APIA YIELDS PER ACRE OF CROPS AND PASTURE E. G. Loose- § Sans - Looper, John PAGE 1 V.� 0z/1s/01— (Yields are those that can be expected under a high level of nonirrigated :.ianagement by mapunit name. Absence of a yield indicates that the soil is not suited to the crop or the trop generally is not grbwn on the soil) I Map symbol ! I Land { I I I I I I Corn I Grass hay I ! I I { and scil name i I capability { { { ! # I I ! { Bu I Tons I I I I I 1 I ! I I APR I I I I I 95 Appling---------{ 22 I I { ApD I { ! I ! I # 70 ApBlinc--------- 4E I I CeB2 I I I I I I I { 95 Cecil -----------I xE I I { I I I I I ! I t CeDz i ! I I I I so Ceci1----------- { 4E Cm I { 100 Chewacla--------i 3w ! I I { HbD ! I I I Hihriten--------I 6s ! I I I { I } I I I I I i HhF ! I I I I I I I I ! Ribriten--------I 'S { I { I I I I PaE Pacozet---------i 6E I I I { I I I / • LEGj D FOR MAPS SHOWING THE FIELDS TO SE USED FOR TH1s UTILIZATION OF WASTE AND WASTE WATER. --�nnroximate Farm 2oundaries Tract. Number for the farm (ref. Table 2) ID Field Numbers (ref. Table 2) Field Acreage (The actual acreage that may ` be used to land apply wase is limited to that shown in Table 2.) Buffer areas where no wast' or wastewater may be applied (ref. "Ream red -aryd..i...'%u Tis Y. :!S ^Ir." .. rr_...--t_.•�' Specifications") Known ,Streams S •� .,� y :.! « � .� �.: i ,� �.; ��l .y� ,:yyY�,t ���.! � � r �1�Y t zv ��.y. rrrpyy,,ii ``'ir*,'r�� r} •m Ll:.�� i y�• 1 r "els` iir��< lr # ! ra�~gf'h7 �� 4f y 4�f' I ,j - SJ � � � ..i •s I; .w p I} � �..�}. � IY . .. 1 teY.�' L i CC" 1 �i - � •O- �� �,, y �� ! {lsh� � � � t�Z�S�;ri s .:1+ � � �. 1.. i r �i�5 :�!� r I 1 is �s.�4 LLL t '+PI frrrU.' "p+�j•� - . 4 1 ��w;a. tr z , �'.,',{,_ w�.siNj ''1����r �� � 'r+ �'; 'c,•i.: ��..., ��. �- ,� i?,t�{ ,l, 1: � 1 3�'; d J.` fi 17:y ''� f��i�:V I`'-��, r'��^. �. ,..Y3 � `4l D-!7 /J� r ��r?i �" ,f l.rr, } Y I�, � _t;ii (/y� Qi f��:•.��-. /� i `�•..'�` �!® I� 7' i ! /� 4yF �� � Y] �, --� � _ ":-.Tr ]�^" ��r1••ya�'? w! {M -.. } '�� Z� . tr '�•�I�[[yyy '�z Ol J OC N S r 3rd y�� y�1 µ a t t'a+ks �.,� x.' q'` r '?•�f�'y 11 O G - t• >; F �q., �`�«r,, t y � ! ° .' { � flt €; � i; j�f,v^ S �, M� Xtv 1, .�i f,.. .� li, � �' t(�'1 4�' '; � Q y m D t utl� Jr�� �rl�`-i'� •,1 �«"��'ay-'� 7tr''� . !��- ,^' }'r�...y! sj. .. ., rl'} �.'" � girt � �•'. ' �, �..# .. . f b 9� 1�.. +` � .�� � 7 S =� � � r t �:-,, `� r��' ' � �} � �.II ! Y �. •;� �"' �i r•� i i'�'1���. I� �.i''(�i 1 •,.,'.'' Nf,� p��5' 7 p j .• 1 f kl�'`r� t `! 4d�� 1 11y H'1 if� i,. 0 „+4 . �,.•.•Y. }:A '. Ca Ul r it IMit�j} 6' k k s T I;ril 1, #a W + qi yt��f �y.3 Is�zr°a ='1'.ir�l, Q``=�kis 'f�9•'i l '�}z! 7�h 1� .� @ d '. :+ris. v ► r�r ; h # 1 rpt y n� '•`"'- I/' r �.. je y Vjk frh ,r�' 11 9n j 6'./�r. �,,�,*'t'' k L r r?'+.n:ti}� , r i'a � �' }�! � 5 v � r t h+ - 'k �"^ d �r• C• 9n1 ��t y.ar- � }t t. �ti.ol ! ��f"-�• I••r L l� �� {' SL, ®`�. � n � I � -r 4 ��a G{. 'IW '{,,t � .:.�%',�� r� � � �! t' x. ;4tiw. P .�. " I�f `4 ` x', � �.:r , � s �'S:� +! tet! k 9� , • �'� « Isst' .:� '-Iter" n, 'A ,,,, �� + �� S �1 }�#F,Yw �. il Al O 1, � � ' �r r. b � � � d .r !� 1 1 � '1 �'4k � d i _.y, e f'�. d -� i. ' � �.. 1 �fi i H l • �d r�,,5• ' •ti �� �.��� �// 1��\��1'�� r 5 i,�,�,4C? ��`I�yfy �pTI. # �l y�q I .i���:_: � y �� r � 1 jM���';��fA� sWY. 1�. . \ yt4.�g' 4 . •� .i1`I, i�. •r.� v� �.Myot '' 3 .dz l i '. e_ r�f�'k `il�'14 Lt- I I CD O�f.�I' !'ff3. rr �i,p • f :~ �.I I •i L3 O �_°;r.y�fn• y.,j' W,'' y r�ih' "r y `�}a 1 l�.y.�G ,—F r. -"�ISPP.It �V"•;c �t fh.., 1I�,7✓1-' h '� r. r�r + 4., ��'f4C.1.; :3C�1����1 ��r ` Lr±"4' �� ` � � �' 3�'�'�dhp �.���L y� � �� 9''�'.y' � �,<?�����•t•'t dQ� I�,�.a,��vil��;�l�} �yy�lk`iw',y�h:?yt:{q�7, Tl rQ•r f"1 ,i+ 5 y f ) I' tl�js'.wN'-0:,rii � ' i � 1 � �y.'N•: D � � r p q�'u��h�a u?I �" ^•� a �}e.� r�i+ufy � - O � O �Ty/� L *, fd i r i�/ �j4 � �'r ! i M F/N�` - �.'rl'j� �y r�,4 I '+ S !� .✓-. 5 i ' �yllf i t .[}�J'• �] r1 _T i 1 ),ir i1 y'/� i '•� 1,C_ '• C7), t4 b 1 I 1, tf,i � (p "� Kf , �! Ar _J/� y /, h?y;�' is '�i 3�+ 1 �� i ' �M` k ���i � � �' Su �•� L- E. OQ tb � N � +� r rr 1. 1 r i .il s ti� , 7 r�� +` ,r +5j� aa�';ti 74 F �, 1 ��•��>�� �. x' w r ,� w ,�5� •" ��. 1 rug :`�� y I�41re; i� 7 r"$ C1 '� �%�'` 1C �� ,! �,,�•p��kx•wy� w. � i ��a ;,,''` '1, if.��'�iw'�p�'���' �'4��;Rrzfi!.�F � jµ4 .• � " e t r P, � i � , � .,� ar ' tdi 1 � '� p ��rA' �k y �� �,- !�� y! r f r r t I y I i Y7�4f'+� stuff �. rr ,1� 4y7 'rt �ri ..w4ity * ��'rr :}^• f s�r+ r �1r.. ,�. ' T �•` ;xf�! O ! r••. -� .+� %1sy% . t�F,, ,6V�'�r S�s�.i.��,,�,�,a,�,f�#f,'�:�4If� r�:Yr�`F�y7�.ki,'�1/y-�1 r/_jI1� � •.�'+''�kf��7X r"�'5},�+S��,} .: ti r$+r�(+.' �3�k'}'�."� i�n' 1'Jf�� ia.{ � ' �' �. � 44 1/4 = O �* rs4�S'i •° t fj�';7{I 4Njdi�lai'�Fll•��;!41'1., r', C4••is,:Y'"l; �_.� rL� h*1 "¢i ,t • ' L ., IS \ r,�. r 1 F, _ ' 0 C7 �=�'�'t. ]rte ; • fL• - �r � f �r C r �vi t / V a s,_ °l;I i'i :: t+ •' I I •t �. it o k D fi (� a 1 �r a ➢ } ^ tY j w A ��q"?s ��q1 f +�y�(�q e {,r, l •.s � `. �': q2 � O O Z iv m ..I 'w� t��mF�'t A.��r� �.I 1 � 7�rF�$' � f r• ti'• } y y �r« •t <e��� �-GF r, P' F 4� {• I `1 3 i� iy f t i b a� f �. �' C1 GI ' '� S �•fi': '1 • J� yi' Ff, .�%, '", �rLr' �I. r� D 6 - - t4�, �...• �' rn* 00 S 2 A \ p a 1 " !"•r����kr. +�1.".1.,l ' c l :r" 74 e G C +i. a m m � fLrle�•} ,� � �fr� r � 7�y``k1- � �, v1.� /� 'i'� � v � ' f. +( Wyly T1400 I •Y r fC- fi1k-.! !- 1 b� F .� 1��•A�ri T` � �r�Q.:, - � � � � �F�a�a }I.. t( f f ` , r'; 4• «PiS i�.! L . . YY{ C.tR.. r ,.� h. R 4 �: t 3 A 6 SV u L � $ , � _. chi `-_ Von •i%t>. - "k. 3. y, � .i �' i OR' Igo , r poll • "'� � 3 y �Y"C,y�y*lA�r}'j����: �a lj�y�i"�' t «ia }�y�� a %` � r Y� 3 m� ♦ T�}'F� i s a 4: Q` Z Pii oil �'�slow `C !,� y j�7 r •macno ' I {�`T IJ � " ,.6 �[' ,gyp ���>�r� - ri � J� � Vii; ! ,aj p � P �'� s4^F r�� ° �; • �� a, N �` `fie �'��; a`' � � ,e �� � + I.' _` k � tri { 6 i3 toy �t -1 i �a \{ ,y in .mow f➢ i ��% :� i=/� '.� e �. I,AMI t x d O �� ° r �k ��, s �g4 lots At a �`'s.,.., u! fv rn `r7 0 EA Y t M y d 'L7 C} '�'� d4• � n •:'fit" SC�y> t i.� {� lh.: £ ^ �i b., - n it .SGS.:"��i� rP.l�'i�4."t�'� , .�t'✓f+�A � J 'A - - a hk- ; ri�Y rlf �II _ � 't���#,.`'�"""3"�',.t�` '' Y i; i7 �y {1 •s sc J'�_ _ r, J� 1. � fes: p e��.:.;, K cam'- vy • � ..'_i �, ice'%' i- �.� ='i_ �r +ter _::�r'�_•� �- �'�r .r d r� }s ���•yj<�• �� �J••*� .• �, a ir•si�. .{r �.xte 0 Sct �' `s _ ���s by r:y=t'a• s e: wRi'-_ •- w� '`L'.fi r K,y r� - ^ �. �~ r~� R •>> x . i - a c • 1. ♦ ��r- i S. .1 �/. _ * :sem "�s _ �'�' r tr ��' `�rl,' �; �. �i x h�'yi�_� +._ g - - � '•;. IPa �+. � y?+ 4 �ti-�•!r `1 t�Srl %y J�=•s'�j ��l'J�f� I„JJJ {y/ :.i ��. �� }_� •y 7 ! r� ! � �.,r� a. r� i -? --i � j'I r r _. 5.5 i, J r't a :4; /�rvr:Y�. 7 1'f jt. E � f� ���., .�. r�'i rZ ri� lrA� r t `FSS `}• �,:.ir�}�� S�.•y�.si �,. ��i ^r y; L. rr � y / � .�5.•+ '� ey .�.p � _ i - � - r.3 :•y i �} s 7 r. • - ! .. t i / rf i i j r 7c'�=� ;y`Kr-J R�,y a Yui rn►� i J,:•� 1r ��� s3r€•'i� J ^'�- � 4 ' F:. .r� iF'x r 3 .1`-->t �' '-�• ��� t zlv ,. rr _•ls.r i • l� rf ti. .'_ rs � } '” n•.� .r '�"�_ low J�8 ?yam � -R Fr } :. �...•% -}y-i-i-�a� _ i ?•� .3+ a n ••r `�- yl .J - a ..r arY i` _ rn �..'r. � � F3.-•`� • - :�.� - � j?Y'!Y. y d .-� , f ti� - � � Y' 2`� r `.e�fr,r rF-^ , ��'` - -_��. - -'S �-'�}fir ��'���-�,��� w�' s..•,,- •'j •. •• :y }, i ! •r r( j' { ,.i ' � as `' ' _ V•-" . 5i. � w - Tr,} -l� • f a • Y i. .n •. >xr-,_�_ f r � 1' � -- r� � ♦a=rt a ��y ��r � ]:/ r�s�._ � v s .��♦ T. JY`'; -i '`�r' � _ - j+yt CJ ,.ate ,� '� ,T- t.� .b ''. _ T24 "� � ',i i';:,.'.t. •-� •x � •`r• -. wl. FFtau'i.; ��.- i _ ,,' _ � �.1L't - - _ 'S'} -y cl•7• _ -s.fA _ '� i* . -,....•' x- a ;i v ?r- j tl r.. -•' y '•�L - r t. ' ,. -J �.,#,sr.j rfl c 3-. -�.� i, ,cam r_- � -.__�� '•_.•f f! rr ar- r_ -:!w- <-. -� ••. s -: �yT i t '� s . ��+ r .-.:, a � - + � -� l �# s � ,��/ j l.rJ ;yr:l ; r", .r ? �-r. '�..."' a`y' ✓a --;_ __ rI •p r !�' � '��w,y3 ,- " :r.I.�f•_-=. `t_ r / � - �-r.. .x _ /�• •IRr' -_4�3 _ t jJ +.,-• _ r��^ R•.:>�;, - lr a f�� ♦ • r-. s _ �-. i d' 7 - J �'.a r 3 ,! i L�Gl- _ a ^ta �y v orf � :� t-- � � - �� � .-r-ai•"-.,2'r�jii -7 i �F�yR - J ��.j.� YrIR � � ? ••1 lR �> _ :3-. � F.. e, _�,. �x a .i j�- � 4`. r Fi i�}• + .i /�Z��,���Y -i � •• j _ -• r; •y,y_� �-%' c v'har' s- • t „�-`"r. _ '%s- " ='4' 1:- � ;'�_ •_ _ ,�.�.-1:?;=. �lC�! el r�ri.Y+�-=?'•: '". �., ;!may_ � - 'J. • � • ��X sm i�rrt ��' � rPii11 M lfui� k IR ,14 4 -fir• � .�)/*r 4: k1 �1��a rJ'� +✓u�'�[�rf i�µ.rl�J 1 w��ry1�T��j eriri y §�.I �r� ^M L} ! r � lAEyt ♦ 1� JI alta rr} � �` �qq�[ J �' � 41 ���y r'71 �4 b t � Ir � kll'a4'r: �'�9f �.!'F�i�YFN,'*'r,�;�,�i�Jji�„(j<,���s71f`�!r �.i���*�;�r��+,4��ll�i•ry'.. 1".). 17jr, y'r;r't ' {r=tlr t +] � �J •i y r! f} �tYr�£ ,`tyy��,��� ♦-J'Ji � syJa _ ' r t • kJ� � yK Y�•a • �s,C .� � „"n- _y'ca � ..�f�; '-yi�'b+['•�""'•"� �S � r w '�'rf ; yyr i� , , " � � AWW ELM - 1%Y� - � r-� -�� � ��;�--. +Z'• "�; diiF�'i,��,r� Fes' J �- -t�`'- �- ,-r�r ��'-- ,n-� _fes '„��-'-w�-• ,t-�.'-•`s r ;' �; �_- r F � �� Z.. 4 �z�� t r!. `�T u •� .,_ � cam_ - �". '= d �`3a.•' I R Fv ...rc•fX L r i 'i ! .. 4 .Cir . - i7%2-€t�.�-...t'�i�l-+..�'i.4 �., :� �j' `-' /�1 t. _ _ - '. T�in.�5' • ='� U.S. DEPARTMENT OP AGRICULTURE SCS - CPA • 16 r SOIL CONSERV ATI ON SERVICE 00, ,- " CONSERVATION PLAN MAP P ';-7 Owner _ J G � r w S -,a: Y- V1 s Operator -� 'r County C oH W i i l State N• C Date 3F:000-2 - Approximate acres hi X13 Approximate scale N fA Cooperating with 0 a l d w e, ! i Conservation District Plan identification ___ T=_ ? Photo number + •. ^ " Assisted byY.�,e s USDA Soil Conservation Service �><`'��,.,"�;� a,�{ ,�. •ter-,`� -'��;y��- _ 3 .�. •fir - .i ��•�:` '�:�- witi..i,: z' e' �� c _' — .Ik i1�&', - �-_ -;,iqg—, . I . , 4 U.S. DF_PARTMEj'4T OF AGRICULTURE SCS -CPA _1E SAIL CONSERVATION SERVIC-E 2 -31 CONSERVATION PLAN MAP Owner T. G a V4 + ar -jes Operator Mv A County C_ d w p i I State C. Date I Approximate acres N Approximate scale 1A 4,q Cooperating with 1L_S,,,i f -L W -L e r Conservation District Mir Plan identification 1 14- 7 2 Photo number N 1A Assisted by C; USDA Soil Conservation Service "r"353 a Isar F � . . ug� ". _4 Z:7 bj, 7, r elf 13 '138 Vix 3. 7r 47 r -22 T, N -:..�. - �, `N � -1471-- � �� - 4 _ •.fro ,. z4Z7 RK I J7 7) -01 _ j e U.S. DEPARTMENT OF AGRICULTURE SCS • CPA - 1 6 SOIL CONSERVATION SERVICE . _ 2-81 �r CONSERVATION PLAN MAP. -� i ;rte Owner T� a a u.' Operator �o(�!i e S tc� v e s- County Q W e. V State- ni C- __ Date s Approximate acres Approximate scale 1A r Cooperating with _ �' a �, w e •�� S o, � ��A a -'-e V. ,• __,•� Conservation District � s Plan identification Photo number Assisted by USDA Soil Conservation Service ' /GGr�f� Y T �� � t_•� "Y i.1b�. � •�Sf4 ]3 Tri � A '_ti � ^ �+ .rte ^!� .i +R•ii �' _ :. •}�.�. �• rTf..c __ .�'trr�"__='�'� _ _._• .. 13 .• _ _ . _?1��'s�i4M�. ._ +� _fit _ .._ ter: - ZW ,ii+�`�-.t�'f'• � - _ �t7' s."15:�`�:T. ;fit r' �r;+'ira-7i����"T ... r rte. •Z /���'_,.,¢;. ti `�f��c ',tom •'' 1 *��-t � _ _ (- �,•..: _�s� �' n• "",may (e+C�..,"' �, k r_-- r �=r �..��.. - - - }�`.; .c f Gi-T. r -s. -i r �::.-} � �•4-'-L _-- Air 7r r ..sr � qAs- 43 ���J.J ��_ �� �•�,t�''y- 1 �/+ '� � i • Q m � ,,:�`.i Vis- ...=+'� f _� � .-�� _ Q,� � r 'i^��*� �.,;` �:. r N1�4S • � ;� ! jam"' . �2�oj .-- � � - .s,�-�",..,�=--'r 37Z -�. �:�^�r`.' ! T , '�� a - _ t a`�'� � :��,- - -��', - _ �� -,2139 's • r �t�� g�,.._������.3,�- '131 *. � .. � _ •.. -, :. --- � �- -=� _ 'r". w.l't�_f��.-f'''�=iil�iJ��'�.:�sL''L� �� i �Xl' . - _. - ��f �� .- •f ��n. _ _ _�.._ _ . —ago=ft- 1755 ...... . .. .. .. .. .. . ...... . .. .. .. .. .. . I ..... .......... "I ..... ..... I 46 U.S. DEPARTMENT OF AGRICULTUREaC�i T-14-271 T-11+39 SCS -CPA -15 SOIL CONSERVATION SERVICE f 11 CONSERVATION PLAN MAP Mart 'Mlle S�aYreS Owner Operator county C a I r2 State No,L-- Date PC Approximate acres —- Approximate scale (.C61 — Cooperating with _3,.; I a Lo"Iel Conservation District Plan identification;:5fV Photo number Assisted by gw.,T11 Ly inn,., CCC -11 �iQvnes USDA Soil Conservation Servicc- Ut . t r yMONK +ST�� ZZ, RIT n > n 0 L, i 0`o 0 CI 0 :1 r r_ :3 n 1, -0 -1 0 t3 m0 1 'A z j in jD rro ID :ri w 0 CL W (D z cr J., XI ZZ, J., '4' Y Wit'"�'_ � � •"_ �� �.t'�+- - -.ice{•" a _ _74 1iJ„ 17 ��"•�� ' �:� `tea F�;,?� � u.s- oEPA RTMENT OF AGRICULTURE SOIL CONSERVATION SERVICE SCS CPA - 16 32 CONSERVATION PLAN MAID Owner Operator M.a 4- S County 4 of W -E I I State N - C • Date Approximate acres N 1A Approximate scale N A Cooperating with Cc,(dW,;_ 11 SO; I L 1,) - Conservation District Plan identification 7-1- 1 ± 3 1 4- 7 2 Photo number N Assisted by—Cea; L - tc D -S USDA Soil Conservation Service lb r It At 7 -K. It 11 2 17 17 7F- 1 2 —N 147Z - L 2j CeD2 E I V. S._i7EPART!AEHi OF AGRICULTURE SOIL MAP SCS -CPA -15 12-3Sj Owner L, C", ! Operator _M r S_ ' gr n_e S _ County _ C . W -,j e I (_ State N.. C . Soil survey sheet (s) or code nos. _i —,1 L-''3) � i — ti= '7 %. T— f� !'; :approximate scale lPrepared by U. S. Department of Agriculture, Soil Conservation Service cooperating I with Cat w e 5 0 [ [ a -Le r Conservation District CeJ2 V, PRE U.S. DEPARTMENT OF AGr1ICtjI_TURE SCS CPA 16 SOIL CONSERVATION SERVICE 2 -al CONSERVATION PLAN MAP Owner _ M_arC,ei18 5 fame s —Operator ME S County C - f L.; e I State N - C - Date Approximate acres N Approximate scale 1A Cooperating with d "o e Conservation District Plan identification �1- 1+31 7- t?r7.-a Photo number N Assisted by C eLz USDA Soil Conservation Service T, ?1-1,4,W jQk M T4 LY It fad 3 2.1 die ;-A .17 M -W-0- IA - Fie Eft M. V, PRE U.S. DEPARTMENT OF AGr1ICtjI_TURE SCS CPA 16 SOIL CONSERVATION SERVICE 2 -al CONSERVATION PLAN MAP Owner _ M_arC,ei18 5 fame s —Operator ME S County C - f L.; e I State N - C - Date Approximate acres N Approximate scale 1A Cooperating with d "o e Conservation District Plan identification �1- 1+31 7- t?r7.-a Photo number N Assisted by C eLz USDA Soil Conservation Service T, ?1-1,4,W jQk M T4 LY It fad 3 2.1 die ;-A .17 M -W-0- �CeD 2 CeU2 U. S. Z} PARTMENT OF AGRICULTUR, SOIL MAP 5C5 -CPA -15 (3-88) Owner Operator ��' { 5 5 Sr 2 5 County State I C C-. Soil survey sheet (s) or code nos. T — 1 U 3 I ! 1 k 7 2 . T— If f ' :approximate scale " Prepared by U. S. Department of :agriculture, Soil Conservation Service cooperating _ r Conservato❑Dis1 'Vi -m ca E a a zr ict ,i- • �,_ - -. x � t -r��3 .� �:. •ice � -'�e S s,t". ly ,5 f���a � (�yy"��� r�sS'i���1"•!✓y'� '_� ,1('y� ?'}L �' y `i w .�_�!Y,t L ;t1./.,.•I }moi fa.-• y-.�' ��.}- "_� i1� �t^�r f'S +. 2`=• l�-jjll��y �+�yJV�l' � � _ 'i i t> �./'�'_��y', �� ' yl"��• �� I �� r���; `,xJ sf` .'T, � yc•� � - �3��y�gf;�� )r �g z�yf=:s"_is _ ..w zWPM- Az ji# ! rs • ��c-:a •''-�. ��•� =t., '"'ji �`'�s: Y�� �!� �'*:' � mss, Y� .' ��'4'=' ,�_� -..rr ^ 1 :�w � - � �.�1�-+fi �S- �' ��i• �` �f w�`i'�. �� y� "_� •r "ice �"�•.. �. ` y.,s�i , � _ _.�,I+"-!;` r + y. a - - 1'U.S. DEPARTmENT OF Sol, Cor4SERVATION CONSERVATION PLAN MA.P r�J owner i • • t Ct Operator r Approximate acr- Approximate/1' 1• with r (d we sr'; e- �r ConservationDistrict Plan identification 14-31 Photo number N / A 4 i-ai n gm ROM r - - • �' y f "" r �1r� � 1.'c �. �' ' - _ � • • �r.��r.:�3i,'��ia�s+'s}."a�.�.7�3 �";',{.t -�. r'� Ce U. 5 -DEPARTMENT OF AGRICULTURE SOIL MAP SCS -EPA -I5 (3-88) Owner Operator M` _rR S S ar County— - C a � 41,0 e i( _ State _ _ N Soil survey sheet (s) or code nos. 11— l L= l T-- ILIS-1 4 Approximate scale Prepared by U. S. Department of Agriculture, Soil Conservation Service cooperating with — L' _a (4 w e It CIO, clk o r _ Conservation District SCS -CPA -07S t2. 85 SOIL MAP U. S. DEPARTMENT OF AGRICULTURE SOIL CONSERVATION SERVICE Owner ke h h e K Li a kOperator M F 4- R S 5 v, e s County C,2 14,) State Soil survey sheet (s) or code nos. ,T, = 19 5 - - Aproxirnate scale. N . A Prepared by U. S. Department of Agriculture. Soil Conservation Service cooperating with C-1 1 06, P( I S, - 1 .- z W A -� e r Conservation District _ ., r WASTE UTILIZATION PLAN" � Narrative of Operation This waste utilization plan is for two businesses (B. G. Looper & Sons, and Wesley Looper) that jointly operate a single waste management system. B. G. Looper & Sons manages a 160 sow farrow -to -finish swine operation and Wesley Looper manages a 100 sow farrow- to -finish swine operation. Animals are housed in 11 buildings. Some of the buildings have solid floors, some have slatted floors with underfloor pits that are flushed and recharged with lagoon water weekly, and some have slatted floors with underfloor pits that are flushed with lagoon water numerous times each day. With the exception of one farrowing/nursery building, all wastes is collected in one of 3 earthen or 1 concrete settling basins. The waste is trapped in slurry form in a settling basin, while the water is automatically drained into one of two lagoons. All earthen structures will have minimum top widths of 8 feet, will have uniform and well vegetated side slopes, and have maximum liquid level markers installed. Surface water is diverted from all structures by earthen diversions and roof guttering. Pipes bringing wastes into structures will extend far enough to prevent side slope erosion when waste levels are at their lowest. All structures do not appear to be unsafe, and do not pose a life threatening hazard if an immediate collapse occurs. The total holding capacity of the 4 settling basins and 2 lagoons is estimated to be 326,046 cubic feet_ The storage period is estimated to exceed 90 days. However with a 90 day storage period, the treatment volume for both lagoons is less than recommended. This existing waste collection system will produce effluent that is higher in nutrient content, and has stronger odors during land application than conventional lagoon systems. Waste is land applied using two methods, irrigation and truck mounted tank. Lagoon liquid is irrigated on nearby fields. It is pumped through portable pipe to up to four stationary big guns. Most soil in this area is classed as Cecil sandy clay loam. Application rates for these clayey soils should not exceed 0.3 inch per hour. The total application amount (from the time the pumps are turned on until they are turned off) should not exceed 1 inch. Calibration of the irrigation equipment is required so the application rate is not exceeded. Slurry from the 4 settling basins is pumped into a 1500 gallon truck mounted tank and spread on owned and rented fields too distant to receive irrigated waste. Application of this waste will be applied as directed in the "Required Specifications" (see pages 11 - 12) of this plan. In addition, timing of waste application will normally follow this schedule: Fescue: February -May September -November Corn: March -July Barley: October -November Tobacco: April -June Sm. Grain Cover Crop: October -March Note 1: Nitrogen applied to a small grain winter cover crop that is not harvested should be included in the nitrogen budget for the following row crop. L WASTE REQUIRED SPECIFICATIONS 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 which reaches surface water is prohibited. Illegal discharges are subject to the assessment of civil penalties of $10,000 per day by the Division of Environmental Management for every day the discharge continues. 2. These producers own adequate land to properly apply the waste generated by these facilities. If the producers do not own adequate land to properly dispose of waste, they shall provide MRCS with a notarized written 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 facility to secure an update of the Waste Utilization Plan when there is a change in the operation, increase in the number of animals, method of utilization, or available land. 3. Animal waste shall be applied to meet, but not exceed, the Nitrogen needs for realistic crop yields based on soil type, available moisture, historical data, climate conditions, and level of management, unless there are regulations that restrict the rate of application for other nutrients. 4. Animal waste may be applied to land that has a Resource Management System (RMS) or an Alternative Conservation System (ACS). If an ACS is used the soil loss shall be no gireater than 10 tons per acre per year and appropriate filter strips will be used where runoff leaves the field. These filter strips will be in addition to "Buffers" required by DEM. 5. Odors can be reduced by injecting the waste or disking after waste application. Waste should not be applied when the wind is blowing. 6. When animal waste is to be applied on acres subject to flooding, it will be soil incorporated on conventionally tilled cropland. When applied to conservation tilled crops or grassland, the waste may be broadcast provided the application does not occur during a season prone to flooding. 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 conditions conducive to odor or flies and provide uniformity of application. S. Animal waste shall not be applied to saturated soils, during rainfall events, or when the surface is frozen. 9. Animal waste shall be applied on actively growing crops in such a manner that the crop is not damaged by burning or smothering of the plant. This is an important consideration where swine, poultry or other ammonia rich waste is being surface applied. Surface broadcast solids or slurries may damage crops if leaf surfaces are matted. Generally waste should be applied such that no more than 20 to 25 percent of the leaf area is covered. This should not normally be a concern where diluted, low nutrient waste is irrigated or surface broadcast from a liquids holding structure. Where crops are severely damaged due to waste application, the plants cannot assimilate the nutrients and discharge of pollutants to surface waters is likely to occur. 10 IWASTE.,UTI,LIZ ATION PLAN: REQUIRED SPECIFICATIONS 10. Waste nutrients shall not be applied in fall or winter for spring planted crops. 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 on bare soil. 11. Animal waste shall not be applied closer than 25 feet to surface water. This distance may be reduced for waters that are not perennial provided adequate vegetative filter strips are present. 12. Animal waste shall not be applied closer than 100 feet to wells. 13. Animal waste shall not be applied closer than 200 feet of dwellings other than those owned by the landowner. 14. Waste shall be applied in a manner not to reach other property and public right-of-ways. 15. Animal waste shall not be discharged into surface waters, drainage ways or wetlands by a discharge or by over -spraying. Animal waste may be applied to prior converted wetlands provided they have been approved as a land application site by a "technical specialist". Animal waste should not be applied on grassed waterways that discharge directly into water courses, and only then at agronomic rates provided the application causes no runoff or drift from the site. 16. Domestic and industrial waste from wash down facilities, showers, toilets, sinks, etc., shall not be discharged into the animal waste management system. 17. Lagoons and other uncovered waste containment structures must maintain a maximum operating level to provide adequate storage. for a 25 -year, 24-hour storm event in addition to the one (1) foot mandatory freeboard. 1 S. A protective cover of appropriate vegetation will be established on all disturbed areas (lagoon embankments, berms, pipe runs, etc.). If needed, special vegetation shall be provided for these areas and shall be fenced, as necessary, to protect the vegetation. Vegetation such as trees, shrubs, and other woody species are not allowed on lagoon darns. Lagoon areas should be kept mowed and accessible. Lagoon berms and structures should be inspected regularly for evidence of erosion, leakage, or discharge. 19. If animal production at the facility is to be suspended or terminated, the owner is responsible for obtaining and implementing a "closure pian" which will eliminate the possibility of an illegal discharge, pollution and erosion. 20. 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. 11 • 1 � WASTE UTILIZATION PLAIN AGREEMENT Name of Farm: B.G. Looper & Sons / Wesley Looper Owner/Manager Agreement I (we) understand and will follow and implement the specifications and the operation and maintenance procedures established in the approved animal waste utilization plan for the farm named above. I (we) know that any expansion to the existing design capacity of the waste treatment and storage system or construction of new facilities will require a new certification to be submitted to the North Carolina Division of Environmental Management (NCDEM) before the new animals are stocked. I (we) also understand that there must be no discharge of animal waste from this system to surface wasters of the state from a storm event less severe than the 25 -year, 24-hour storm. The approved plan will be filed on-site at the farm office and at the office of the local Soil and Water Conservation District and will be available for review by NCDEM upon request. Name of Facility Owner: B.G. Looper & Sons / Wesley Looper (Please print) Signature:J; Signature: Date: Date: 15--d-06 Signature: Date: Naive of Manager(If different from owner): John Looper/Wesley Looper Signature: Signature: Signature: Date: Date: Date: Name of Technical Specialist: «lease print) -Cecil L. Haynes Affiliation: Natural Resources Conservation Service Address (Agency): 120 Hospital Avenue, NEt Suite 2 - Lenoir NC 28645 Signature: Date:�1 12 CONSERVATION PLAN MAP Owner $ G Looper & Sonslf'ey Looper Operator County Caldwell State N.C. Date 7-96 Approximate acres Approximate scale 1" — 165' Cooperating with Caldwell Soil & Water Conservation District Conservation District " Plan identification Photo number Assisted by _ I W- 1.yda)t USDA Soil Conservation Service D 0 0 All