HomeMy WebLinkAboutWQ0000701_Permit Renewal Application_20010524cl ra l'DObSon
>t �O
From . Sf UT'EMA �Pv
Resources, -Re. (?e : WQOOOO� OI
May 24, 2001
NCDENR
Division of Water Quality
Non -Discharge Permit Section
1617 Mail Service Center
Raleigh, NC 27699-1617
Shannon,
Enclosed you will find all the corrections we talked about concerning the Tyson Foods
permit application. Each set of corrections is labeled to show exactly what corrections
were made. Also you will find a letter delegating Dan Crow the authority to sign off on
all matters concerning this permit. . Lastly you will find a Certificate of Authority for
Tyson Poultry, Inc.. If this means we need to change the name on the permit could you
please send the correct forms to me and I will take care of this matter. I have also given
copies of the corrections to the regional offices overseeing the site reviews. If I can be of
any further assistance please give me a call.
Sincerely,
Alan Brown
Director of Technical Services
DEN1R-Fa
JON 19 2001
D �
Phone 336.492.6395 -- Fax 336.492.6394
6f 8 Ijames Church Road — Mocksville, NC 27028
r. r
STATE ; =
N0,1 Department of The'
Secretary of State
CARO L
GERZ'TFICATE OF AVMORITY
I, ELAINE, F. MARSHALL.. Secretary of State of the State
of North Carolina, do hereby certify that
TYSON POULTRY, INC.,
a corp071ation organized under- the laws of Delavvare, having
filed- on this date an application conforming to the
7•equir-emken.ts of the General Statutes .of North Carolina,'a copy
of which is hereto attached, is hereby granted aiithori-t to
'transact business-,i.n. the State of North Carolina.
IN WITNESS WHER&oF, I have hereunto sei my
hand and Rffixed my oj*ial seal at the City of
Raleigh, dais 5th day of February, 1999.
Se.creiaryof Srajc.
i..G,"7 -2JIC 1 ICN DS: 37 FM FAX NO,
k,, r D
State of North Carolina J /
Department of the Secretary of State �� ''✓ '�i ���
FEB'U 5 �3377"
A 0 3 6 ;' 0 6 3 APPLICATION FOR CERTIFICATE OF AUTHOWTY_,__ _
i:tursi;=1 :o y55- :5-03 of ti:e Gen ,aul Statutes of North Carolina, the undersigned cop o -
P �0A_ ?�R4' STAT';-
applies For a_C.:r(Mcet:.of Authority to transact business in the State of North Carolina, ari+lM)T•FfQZ11,1NA.
pta=sc suEmi:s the following:
I . The nnme of t7e corporation is T' SON POULTRY, INC . ; and if
,Ile Corpora tc naate is unavailable for Lisa in the State ofNorth Carolina, rite name t5u corporation
W.sncs to Ilse is-TYSON POULTRY, . INC.
Da A=
2. The state or country under whose laws the corporation was organized is:
3. The date of incorporation was .09i 2 /96 ;its perod of duration is: Pe. �e _ua1
A. Th; street a dress of :he principal office of the corporation is:
Nurr.bor. and Stree. 2110 Oaklawn Drive
Cit., State, Zip Code Springdale, Arkansas 72762
The railing address if different froar:rhe street address of the principal office of the cerpor.itio-iis:
0. Box 2020, Cpringdaie, Arkansas 72762
b. The street address and county of the rq�stercd office in the Stare ofNorth Cucolina is:
225 Hillsborough Street
1umbv-ar:d Strut
St<�ac,.Zi?Cede Raleigh,County
_ North Carolina Z�6o3 Wake
y„
7.
T itc mailing sddress if differenifrom the street.address of the registered office in theStme of.tior,.h
Carolina is:
S. The name of the registered agent iti the State of North Carolina is: tC m Corporat—ion System
9. Tl:e m innes, tirles. and usual business addresses of the current officers of :Le cMoration s:c: (ittach if
n_cc Sary):
-Vrrnrc� 1 c' ..c., A&Lres-c
attached 1:st of
.L—
P'A'J-2-1-2DCl `1CN GB:3' I'll FAX NO. P. 0_4
APPLICATIONFOR CERTIFICA TE. OFA UTHOF17T
Pa,-, e 2
10. Attached is a Certificate cf Existence (or, document of similar impo.,), duly authenticziec jy ih�
Scerciay cf Slate or other official having custody of ccrporate records in the state o: coun:iy of
:ncorporation. The CertiTcate of Existence must be an original and less !ha_n six
months old.
11. I`tht corporation required to use a fictitious narne in order to transact business ir, this Slate,' -I copy
the resolution of i;s board of dirlc=rs; eerti fed by its secretary,,zdop6n2 iht Ecu:ions nark is
a:tathcd.
12. Th`. applicator 'All! be effective upon fling, unless a delayed date and/or time is specified: `
This is the 2Eth cloy of Jarrsary , 19„99
TYSON POULTRY, 1NC
Name of Corpora.ioti
SiJ�4146irc
PEnn�s Leatherbp, 'Sr. Vice Pries. , -Finance
Type or Print Nane and -:tic a:.d Trc'surer
r
Iv*071-'• S:
1. Filing fs'e is S250. This document and one exact or conformed copy of this application must be'ti let!
with :lie Secretary of State.
(R n'isrd ,Vtry 1998) (Torrr-t B-071
CORIIORATICNS DIVISION +00 N. SAI,ISRURY ST. RALFIGH, NC 27603-5905
,KCC2.:
t �v
State of North Carolina
Department of Environment, Health and Natural Resource
Division of Environmental Management ~` `
Non -Discharge Permit Application Form _
(THIS FORM MAY BE PHOTOCOPIED FOR USE AS AN ORIGINAL) � 1-11
LAND APPLICATION OF OTHER RESIDUAL SOLIDS ® ;
This application is intended for facilities which are EXEMPT from 40 CFR Part 5 711
GENERAL INFORMATION:
1. Applicant's name (please specify the name of the municipality, corporation, individual, etc.):
Tyson Foods, Inc.
2, Print Owners or Signing Official's name and title (the person who is legally responsible for the facility and its compliance):
Daniel Crowe, Plant Manager
Mailingaddress: 501 Sheffield Rd_, P.O. Rnx 11,8
City: Harmony State: NC • Zip: 28634
Telephone Number: ( 704 ) 546-2602
4. Application Date: .Sez tember. . 20n0
5. Fee Submitted: S 325.00 [The permit processing fee should be as specified in 15A NCAC 2H .0205(c)(5).)
6. Specify whether these residuals will be land applied to: x_ agricultural lands, forest, public contact suss,
reclamation sites; (Please be advised,if these residuals will be distributed for lawn or home garden use, the
application for the "DISTRIBUTION OF RESIDUAL SOLIDS' should be completed'rather than this application.)
7. If the altemative for residual disposal consists of "surface disposal" as defined under 40 CFR Part 503, please complete the
application titled "SURFACE DISPOSAL OF RESIDUAL SOLIDS. Please identify if there is any storage of residuals in
a surface impoundment or disposal thru landfiIling. Explain:
N/A
8. For Class B Residuals (or CIass A Residuals to be land applied on a dedicated site), please specify the number of acres on
which residual solids are to be land applied under the authority of this permit
proposed in this application: 4 A _ 6 _ acres; to—, (current and proposed): 2 h 7, . , 6 _acres
R. County(ies) where residuals will beland applied: —AlPxand , Davie, Rowan, Wilkes
�LazULin., Moore, Richmond
II. PERMIT INFORMATION:
Application No. (will be completed by DEM):
Specify whether. project is: new; _X renewal`; X modification
For renewals. complete all sections included in the application. in addition, please submit updated cumulative loadings
iur the ten (10) pollutants and updated owner's agreement for site.
lrthis application is being submitted as a result of a renewal or modification to an existing permit. list pie existing permit
number-Wo 1nn07nl and its issue date March 31, 1998
FORvi: LAORS 02/95 Pate 1 or 71,
III. FACILITY INFORMATION (attach additional pates for additional sources of residuals):
1. Name of facility where residuals are generated or prepared: m nn >+ nnH G { Tn- ua
Faciliypermitnumber:N00005126 facilitypermitholder: T)zGnn „Eon(J':G Tni-
-3`" Specify whether facility in Section IlI.I :is owned by: federal;' X private; state;' local. government
4 Specify facility design flow: 3.- 0 MGD; facility average daily flow: 2.8 MGD;
Type of residual storage: Ahnxra nrj?>>nt9 tank
Volume of residual storage: 5 _0 00
Length of residuals, storage at facility', 30 days (the Division requires a minimum 30 days storage in units that
are separate from treatment system, i.e. not in clarifiers, aeration basins, etc.);
Maximum.storage time of residuals between application events: 37 days:
Estimated volume -of residuals: ,4 (dry tonstyr.);
5. Ale there any other storage facilities, other than the above, currently on site: Yes, x No.
If Yes, please identify:
6. Facility contact (person familiar with residuals preparation): D a n i e 1 Crowe
7. Facility contact's telephone number: ( 704 ) 546-2h02
8. Location of treatment facility: NC State;. I r ed a l]_ ' - County
9. Mailing address: P.O. Box 1 )8: 1;01 SheffiPl'a Ra -
Harmon3Z, NC 28634
I0: Latitude: 35 57 20 Longitude: 80 43 20
11. Specify the.,source of the residuals: treatment of water (alum sludges); _X , treatment of industrial wastewater
(100% industrial residuals); treatment of industrial wastewater mixed with'domestic wastewater (please specify.
appropriate percentages of % industrial wastewater, % domestic wastewater);
other (explain):
Attach an explanation of either the treatment process, manufacturing process, or how the waste is generated. Provide full
and complete'details of the entire process.
12. Does the facility which generates the residuals have an approved, pretreatment program? X Yes; r No.
This includes facilities which are classifiedas-a "Class I" facility (any publicly owned treatment works required, under 40
CFR 403.8, to have an approved pretreatment program or any facility treating domestic sewage that is classified as "Class
I" by the, appropriate federal or State authority)
IV. RESIDUALS INFORMATION (attach additional pages for additional sources .of residuals):
1. Information for Hazardous Waste (RCRA) Determination. The information requested on the limitations specified below
-pertain only to those residuals that are generated from a municipal was treatment facility with'industrial contnbution
or active pret reatment program and from any other treatment facility with wastewater sources that include industrial sources.
a. Are any of the residuals covered by this'application listed in 40 CFR 261.3I-261.33? Yes; X No. If Yes,
list the number(s):
FORM: LAORS 02/95 Page 2 of 18
' 4V
V . PATHOGEN REDUCTION INFORMATION (attach add., pages for additional sources of. residuals]
In accordance with 15A NCAC 2H .0200, pathogen reduction canbe-achieved using either 40 CFR Part 257 or 40 Cal.
503. Since the .pathogen reduction requirements found in 40 CFR Part 257 (note, Processes 'td Significantly Reds_.
Pathogens" or PSRP) areincorporated into 40 CFR Part 503, only Part 503 is listed below, Please check which of.
following applies to the subject residual:
__X 100% Industrial Residuals with no domestic contribution (Skip this section, proceed to Section VI)
Residuals froth the _treatment of water (Alum Sludges) -with no domestic contribution (Skip this section, proceed to Section '
_ Residuals from aniatai •processing plants (if the residuals are being injected into the soil, please, explain the process and the -
equipment used, skip this section and proceidto Section VI
_ IndustrW residuals with domestic contribution.
1. In accordance with 40 CFR Part 503, a'residuil can not be land applied if it does not meet one of the following alternatives
for Class B pathogen reduction.
Please specify a, bl, b2, W, b4, b5 or c from below (submit all lab analysis, test results and calculations):
a. at least seven residuals samples s;,ould be collected at the time of use and analyzed for Fecal.coliforms during each
monitoring period. The geometric mean of the densities of these samples will be calculated and should be.less than
2,000 000 most probable number per gram of'total dry solids, or less than 2,006,000 Colony Forming Units per gram
of total dry solids.
b, the residuals must be treated by one of.the following "Process to:Significantly Reduce Pathogens" (PSRP).
i : Aerobic Digestion,- residuals are agitated with air -or oxygen to maintain aerobic conditions for a specific mean cell
residence time and temperature between 40 days at 20o Cand 60 days at I50C.
2. Air Drxing - residuals are dried on sand beds or on paved or unpaved basins for a minimum of three months.
During two of the three months, the ambient average daily temperature is above 00 C.
3.. Anaerobic DiW ion - residuals are treated, in the absence of air for -a specific mean cell residence time and
temperature between 15 days at 350 C to 550.0 and 60 days4i 200 C. -
4• Cowl sting -'using either the within -vessel, static aerated pile, or windrow composting methods, the temperature
of the residuals are raised to 400 C or higher for five days. For four hours during the five days, the temperature in
the compost pile exceeds 550 C.
5. Lime Stabilization sufficient lime is added to the residuals to raise the pH -of the•residuats to 12 after two hours
ofcontact.
c. The residuals shall be treated by a process that is equivalent to a "Process to Significantly Reduce Pathogens" (PSRP),
as -determined by the permitting authority, based on an evaluation of the recommendations provided by the Pathogen
Equivalency Committee.
VI. RESIDUALS TRANSPORT AND APPLICATION:
1. How will the residuals be delivered to the application sites (leak proof trucks, etc.)? T hp r P,� lea 1 s
will be *delivered using'650.0 al. aluminum leak proof. trucks
2. What type of equipment will be utilized for land application? A T r a c t o r a n d- p•u 11 t a n k w i 11 b e -u s e d
—f-0 1 and 'a=ly thi S material
3. How will. the application of the residual be controlled to ensure that there is proper distribution over the site?
Pre —calibration of equipment•wi.11 ensure proper application
rates
FORM: LAORS 02/95 Page 4 'of 18
Will the land application operation utilize a contractor who specializes in -Residuals Management or will the
4 PP � ix pe � _ permittee
'� y managtutent the program?. X Contractor; Permittee. If a contractor is utilized,, provide the name of.the firm, a
contact, address, and telephone number: EMA 'Resources, Inc . _ C/Q. Alan Brown
618 Iiame6 Ch. Rd (336) 492'-6395
C Mocksville, NC 27028
SITE EVALUATION AND. RECOMMENDED ,LOADING RATES:
1. The following sites are to be used for land application under this permit application [please attach map(s),see La.]:
Application Area [acres] Maximum slope
,Site No. - County OwnerlLessee (excludingbuffers) fin nsrcent)
SEE," SITES", SECTION ,
Note: If more than ten (loysites are to be.covered by this application, please attach a form listing all of the sites along
with the information listed below:.
a. A viciniiy map must be attached.' This map must show, the location of each site in ''relation to at, least two
geographical references and'urajor intersection (numbered roads, named streams/rivers, etc.).
b. For all new or modified sites, a detailed site location map must be attached delineating both total and buffered acres.
This map must be drawn to scale with topographical contour intervals not exceeding ten feet or 25% of total site relief
(whichever is more descriptive) and showing the property lines;,all,existing wells, all surface waters and drainage ways
and all dwellings within 500 feet of the land application areas; and all buffers,-'
Note: The following buffers must be maintained. If residuals are sprayed on the sites, larger buffers may be required:
1: 400 feet from any habitable residence or place of public -assembly under separate ownership or which is to be sold
for surface residual application,
200 feet from any habitable residence or place of public assembly under separate ownership or which is to be sold
for subsurface residual injection.
2.. 100 feet between the disposal area and any public or private water supply source, all streams classified as WS or B,
waters classified as SA or SR and any Class I or Class 11 impounded reservoir used as a source of drinking water.t
3. 100 feet between any surface residual application area and any stream, lake, river, or natural.drainage way,
50 feet between any subsurface residual -injection-area and any stream, lake, river, or natural drainage way.t
4. 50 feet between the residual application area and property lines :for, both surface and subsurface application (if the
original permit was issued with the buffer distance to property line as 100 feet. updated maps must be submitted
and new acreage delineated for the buffer to be reduced).
5'. 10 feet between the disposal area and any interceptor drains or surface water diversions (upslope).
6. 25 feet between the disposal area and any interceptor drains or surface water diversions (dowmlope).
-7. 25 feet. between the disposal area and any groundwater lowering and surface. drainage ditches.
t, SPECIFY THE NAME OF AND CLASSIFICATION OF THE CLOSEST DOWNSLOPE SURFACE WATERS
(as established by the Environmental Management Commission) TO -THE LAND APPLICATION SITE(S). USE
THE ATTACHED INFORMATION SHEET (PAGE.9,OF 18) TO OBTAIN THIS. INFORMATION.
FORM: LAORS 02/95 Page 5 of 18
A A
CALCULATIONS WORK SHEET:®c..$
*his work sheet is designed to assist the Division of Environmental Management in reviewing this application as expediti
)ssible. [ts preparation in a complete and accurate manner -is critical to this review. For permits that cover multiple'so ..
siduals or different residuals from the same source, use additional work sheets. S -
A. ,List the specific residual that is covet; ed ;.by these calculations (place or, process of ongr
Wbatare the total dry tors of this residual to be. land applied each- .year?
'Total Dry Tons = Gallons of Residuals *'%'SQjjd4t * 8.34 lbsJgalloa
Tzrod�ced annually 100.
2,000 lbs./ton
Total Dry Tons..= 10.1 6 0 9., 0 9 0 * 3 * 8.341bs./gallon
100
2.000. lbs./ton
5543 Dry Tons per year -
If the quantityof residual wi11 vary significantly or if there will be a larger initial; application, please attach a detailed
explanation and provide ralctilations for each variation.
B . Complete the following 'calculations to establish the portion of the residual that .is made
up of the various parameters:
% Total Solids = '12.53
(PLEASE. NOTE THAT ALL CONSTITUENTS ARE TO. BE IN TOTAL CONCENTRATIONS)
PARAMETER. m /L
CadmiumND
+ % Solids.(Decimal)
-"m /k dry wt.
x. 0.0o2
= lbs./dry ton
=
x 0.002
—
Co er
Lead
= 183
x 0.002
= .366
Nickel �
� �
_
— ND
"�
x 0.002
= ND
.
x 0002
= .012
Zinc
= 6
_
—
X 0.002
= .312
Ammorli a-N '
x 0.002
i= 7 1.6
rnlrnm, I-
I
Magnesium
NO3-NO2-N
Phos horns
. .Potassium
Sodium
TKN
OTHER:
FORM: LAORS 02/95
Page '11 of 18
MEJU#
fit C
�n
® o 00 11
o 00 0
IM o +t E
® o 00 n
2
7.8
43.
able Nitrogen (PAN) calculations and land application area requirements:
0 0� Mineralization Rate (MR)
o
(These.Values can be established for the specific residual or default values can be used for domestic wastewater treatonent
residuals..If actual values are established attach the documentation. The default values are as follows):
Unstabilizcd Primary and Secondary Residuals 40%
z 4 Aerobically Digested Residuals .30%, , _
[ Anaei^ bically Digested Residuals.. 20%
pos
Com led Residuals 1096
(If the. default valves are used, attach an explanation as -to why the spec chosen default value is appropriate.)
2. Complete the following calculationsforthe application method proposed (Please' note, the Mineralization
'Rate [MR] should be utilized in the following calculations as a decimal):
PAN for Surface Application
PAN - [(MR) x .(TKN = NH3)] + .5 x (NH3) + (NO3-NO2-11)
PAN=[ -3 x( 716nn )]+.5x(, �F8nC1' )+—(j
PAN = 28640 PPM Dry Weight
PAN for Subsurface Application
PAN = [(MR)x(TKN - NH3)] + (NH3) +. (NO3-NO2-N) ,
4 PAN, = [ -- 3 x (, 71600 35800 ' )] + C. 35800 ) + n
PAN = 46540 PPM DryWeight
3. Total PAN to be land.applied per year
Total dry tons of residual to. be land applied per year: 5541
Total PAN in pounds = (PAN in mY/kg-Dry Weight) z Po ng / Ton
per dry ton '1,000,000
= (PAN in PPM Dry Weight) x 0.002
_ c) 3.. 0 8 Pounds nXy Ton/Year INJECTION
Total PAN in pounds _ (PAN in Pounds / Dry Ton) x Total tons of residual to be land applied
-93 - 08 x .5543
— 515,942.44 Pounds year
Due to the fact 'that organic nitrogen is mineralized slowly over time, the amount of nitrogen that conies available in years
following the initial application must be taken -into consideration when calculating application rates. f6r the subsequent
years. This being the case, please attach an evaluation of this factor and its impact on loading rates. Show the adjusted pan
for at least five years.
The maximum adjusted annual PAN is pounds/Year. SEE MAXIMUM ADJ . PAN
4,, Crop information on nitrogen uptake per year SECTION
(Division Recommendations) (Provide for the Crops 3peclfied)
Crop(s) PAN (lbsJacre/year) PAN (lbs./acre/year)
Alfalfa, ' 200 200
Bermuda Grass (Hay, Pasture),, .220 22Q
FORM:. LAORS, `02/93 Page 12 of 18
.
_! �N�.
k
Blue Grass. .
120
Corn (Grain
i )
160
Corn (Silage)p:-
-
Cotton70
200-
y
Fescue
250''y>
Forest (Hardwood & Softwood)
'
2
75
NCO
75
Small Grain (Wheat, barley, oats)
I00 1 0
-sorghum, Sudez (Pasture)
100
Sorghum, Su dex (Silage)
180
Soybeans
220
2 2
Timothy, Orchard, & Rye Grass.
•
200
200
Please •� -
provide the basis for the uptake rates used if
� � 0 0
dii'fcrent than Division Recommendations:
5. Total'acres needed to land apPly the pounds of available
Total acres needed =
nitro gem calculated above
Pounds of nitrogen needed for cropw '
5159
Minimum 'acres, needed based on. most restrictive PAN
« This value must be the value for she txo — 5---5�
p to' be rown -- acres,
g that has the lowest nitrogen uptake rate per acre.
If there are various crops that will only be the total needed acres using, Y ntili2ed for certain- sites, please,aawh the
g the format outlined above, calculations foi each site and deternsine
D. Calculate the, Sodium Adsorption- Ra<tio,. (SAR)
This section must be, completed in mg/1, to conve
SAR = Na Milli Equivalent + n= mg/!cg x ` solids [as a decimal]
[0.3 (Ca Milli Euiv
i.galenf + Mg Milli Equivalent)] 0.5
CONCEIv"1RATTQN (mg/1) +
SOD Equivalent Weight Milli
11J11d (Na) 5.2 (mg/!) -I-23 Equivalents of Ion -
CALCIUM (Ca) 6 3 9.0
MAGNEsMM'(M 20 = 31.95
SAR = 8) 1 7� (Mo) 4- 12
4.82 14.6
If calculation sheets are being tom let
P ed for more than one residual :or site, please attech
summary sheet that bring the results of all the calcuia '
on sheets to. one point, a
t,
FORM: LA ORS 02/95
.page 13 of 18
hy
" r petetmTne; the Site. Life for this land application site:
Tire;ldetitne pollutant loadings shall not be exceeded. The site life is determined by calculating the number of yeais that the site
{fit can rccei�e. the residual without'exceeding the lifetime 'pollutant loadings. The site life calculations will be based on the most
restrictive crop plant available nitrogen (PAID() requirement specified and. the maximum dry tons of residuals to be land applied
annually. lberefore, in the table below the Tons of Residuals to be AppUed/Acre/Year will'be calculated as:
Most restrictive crop based 'on the plant available nitrogen (PAN) requirement: m a 1 i rt r a ; n
Associated plant available•nitrogen (PAN) requirement 100. (lbsJacrelyear).
2. Minimum acres needed based on most restrictive PAN -(as found in C.5 above): 5159 saes
3• Dry'Tons of Residuals to be land applied per year: 5543 dry.tons'per year
4.- Tons -of Residuals to be Applied/Acre/Yei = Drx TonjeLM of Rec_id Le arc to be and ane . .
Minimum number of acres requir6d for land application
Tons of Residuals to be Applied/Acre/Year = 1 .0 7 '
if any of the application sites are to be loaded at greater than the rate specified above, please specify the loading rate and explain:
Tons .of Residuals to be'_Applied/Acie/Year (different from above) 2_ n .
Explanation: Due to the fact that the 1.07 is based on the most •restr_ic'tive
tern„ cnhaPgiie t crops, _-such aG corn or soybeans 'will require
higher'application rates to meet the PAN -limit.
For the purpose of site life determination, the lifetime pollutant loadings shall not exceed the following for the corresponding
Cation Exchange Capacities (CEC). Site life for the site'coyeied by this application shall be determined by using the lowest
CEC. The appropriate-columnshould be chosen and applied in the "Allowable Lifetime Pollutant Loadings based on CEC" in .
the table below:
CEC < 5 CEC'5-15 CEC > 15
Pollutant (tbs./acre) (lbs-lade) (lbslacre)
Lead 500 I,000 2,000
Zinc 250 500 1,000 _
Copper 125 -250 500
Nickel 125 .250 500 .
Cadmium 4.5 9 18
In the table below, the highest annual loading (Tons of Residuals to be Applied/Acre/Year) specified above, will be multiplied
by the lbs./dry ton of each pouutant as found in B.above. The Site Life can then be determined by:
Site Life (Years) Allowable Lifetime Loading (lbs./acre)
Projected Pounds to. be;. Appiied/Acrefftir.
Pollutant
Tons of
lbs./dry ton of eacb
. Projected
Allowable , Lifetime•
Residuals to be
pollutant
Pounds to be
Pollutant Loadings
Site Life
Applied per
(as found in Part B
AppliedlAcre
based, on- CSC.
(Years)
Acreper Year
above)
/Year , '
'From Chart above
lbs./acre
Lead
1.07 *
_
N/A
soo
N/A'
Zinc'
*
_
250
757
Copper
*
_
_
320
Nickel
*
—
, 01
125.
= 12500
Cadmium
*
_
ND
4.5
— ND
Compare the five (5) pollutant above and determine which pollutant that will result in the shortest life for this site,
The Limiting Pollutant is..' Copper
_ The. Site Life is 320 years.'
FORM: LA ORS 02/95 , Page 14 'of 18 '
RM4
'WA
BRIO
00
Tyson Foods Acreage Addition: FRO Observations, Comments, & Recommendations (4101 Amendment)
-
Farm
---, c
. Field.
. DOQQ .
Application
Acres -_-
'Crop
Scheduled
removal
(Iblacref
N Removed
;'-Crop (Ibs)
^Pfimary Soil=
r, ,`-,Sedesl'h -
SHWi
(in)'
.- r_ GW Comments -
Recommendations
Bobby"'
RM1-1
59.7
soybeans
150
8955
Mb(.7)Pe(.3)
>36/22
High Cla;WTsuitable
YR
Williamson
RMI-2
82.8
sb/cotton
70
5796
Ch .8 Rv .2
24
Flood Plain
Seasonal
Richmo. Co
RM2.1
18.4
cotton
70
1288
Pe 1.0
25
All Peawick; WT suitable
YR
RM2.2
41.6
cotton
1 70
2912
1 Mn(.9)Pe .1
>36/31
Majority of WD soils; Butter out low
area(map)
YR
RM3-1
17.5
soybeans
150
2625
All Pe
20
Pe(Upland)
YR
RM3-2
90.3
soybeans
150
13545
Mn .6 Pe .4
>36128
Upland; Suitable Water Table
YR
RM3-3
' 32.8
soybeans
150
4920
Pe 1.0
22
all Peawick; WT suitable
YR
RM3-4
65.1
cotton
70
4557
Pe .3 Hs .4 Ch .25
24
Getting into FP: SWPD soil
Seasonal
RM3-5
63.3
cotton
70
4431
Ch(1.0)
14
FP;SWPD soil
Seasonal
RM4-2
41.1
cotton
70
2877
Hs .65 Pe .35
34
Upland; Suitable Water Table
YR
RM4-3
50.4
cotton
70
3528
Pe .8 Hs .2
19
L)land; Suitable Water Table
YR
RM44
85.7
cotton
70
5999
Pe(.7)Mn .1 Hs .2
14
Lower End Reported Shallow Depth to WT;
Verified
Seasonal
RM5-1
•
42.6
cotton
70
-
2982
small porticn(Ch)
large(Ch-.66:Mn.33)
20
Upland: Suitable Water Table
YR
RM5-2
38.2
cotton
70
2674
Pe .8 /Hs .2 ,
32/15
Field has 4 separate sections; Some
sections are less well drained and in FP
Seasonal
'
RM5-3
36.6
cotton/crn
70
2562
Ch .85 HS/Rv .15
34
FP
Seasonal
RM5A
71.9
cotton/crn
1 70
5033
Rv(.7)Ch .3
18
FP; mar inal SHWT
-'
RM7-1
138.1
cm rain
160
22096
Pe .6 Mn .4
20
Upland; Suitable Water Table
YR
RM7-2
23
cm(grain)
160
3680
Mn .85 Pe .15
32
Upland: Suitable Water Table
YR
RM7-3
112.3
cm(grain)
160
17968
Pe-.85,Mn-.15
24
Upland; Suitable Water Table
YR
RM7A
41.9
crn rain
160
6704
Ma .4 Mn .3 Pe .3
17
TRS indicates marginal soils -low lying area;
Rest of field is OK
YR
RM7.5
78.9
cotton
70
5523
Ch .85 ;Rv .14
27
FP; marginal SHWT
YR '
RM7-6
75.3
cotton
70
5271
Ch ail
14
FP: marginal SHWT
YR
RM7-7
31.4
cotton
70
2198
Ch .85 Rv(.15)
32
FP; marginal SHWT
YR
MOB-1
66.6
soybeans
200
13320
Ca;Ae:Fa
>36
Suitable Soils and Topo
YR
Ralin
M08-2
16.4
fallow
50
820
Ca;Ae;Fa
>36
Suitable Soils and Too
YR
Matthews
M08-3
22.5
soybeans
150
3375
Ca;Ae;Fa
>36
Suitable Soils and Too
YR
Moore Co
M084
13
fallow
50
650
1Ca;Ae;Fa
>36
Suitable Solis and Too
YR
- M09:1 .:.
•- -
Removei rom� it ,'
Removed from Permit
Removed From Permtt : `Removed
From•Permit' •`.. .=
>1: ,. :-,' N/A -. -
.•M09-2. -
I2emovedFrom PermiT=
Remo4edFrom Permit
Removed From'Permlt` .:
Removed From Permit'
- N/A
-. •M09-3 '`
'>
RemovedFiom Permit- ..
Removed From Permit
Removed'�From Permit`-' .
Removed From Permit • -
- "N/A. ,
M09-4
50
soybeans
150
7500
Ca;Do
>36
Secluded;Good Soilsrro o
YR
M010-1
75 .
soybeans
150
11250
Ca;Fa;Ae
>36
Secluded;Good Soilsfro o
YR
M010-2
83
soybeans
150
12450
Ca;Fa;Ae
>36
Secluded;Good Soilsfro o
YR -
M010-3
20.6
fallow
50
1030
Ca;Fa;Ae
>36
Secluded;Good Soils/To o
YR
1457.4
151,444.00
"'Mr. Williamson owns a large poultry operation. Some of the fields had been used for litter application.
Many of the soils were eroded and clay exposed at the surface, but residuals will be Injected which should increase infiltration and negate runoff hazard.
All Fields In Richmond Co. were very clayey; therefore, a more shallow wt depth was deemed suitable for application. Cutoff for YR was 18.20• SHWT.
Peawick(Pe) soil series do not sustain corn and soybean yields as well as other series. (Pe) predominates In many fields and the application rates should be adjusted.
to See Table Below for Soil. Series.
ACRONYMS
YR- Yam Remo App11 r .
Wi• WMr Tae4 '
Wa4r iad•VaiJra
'.. Wp9Ym�al'"So11 S.N.
"G�a>%
i - �9HWi MI'
wD
>ae
FD
<Ix
G
LdINW
SWED
>ae
Cn
LMdda
SWR
Ix. xa
Odnan
ND
•ae
Fa
Fm
WO
aae
fxbW
MnD
xa.N
Homspprp
SWR
Ix.b
Ma
Wp
>ae
MO
MapGan
Wp
>ae
Mn
MiWaen
K9
aae
h
Pm+}
MWD
]Ire
Rn�.Ha.
wo
>ae
V>
VaurLx
WO
a<9
G
i
Application Rates Accordina to RYE on Specific Soil Tvne
d
� Soi1 Senes "`
Corn RYE
(butac)
N'-uptake
�(Ib/acre)
Cotton RYE
(Ib/ac) '
N uptake
�:(Iblacre)
Soybeans RYE
� =.(bu/ac) X
N uptake'
(Iblacre)
Chewacla
150
.169
750,
23
55
206
Hornsboro.
115
129
775
23
40
150
Masada
125
141
700
21
48
180
Mayodan
110
124
650
20
40
150.
McQueen
110
124
650
20
40
150
3 Peawick
20
28
Riverview
- 120
135
_650
20
' 45
169
N uptake;
t, .:
Corn
1.125
Cotton
0.030
Soybean
3.750
a�i � �`•;-r�N��:. ,� ��1���"�Yttiia g� � ���� ff r��.'�ac'i��„�`�
MR
elf"A-A
AN
,
y 1 _+ a+^ra'.�4,y-'Y ~4.'�r� f'' -1_ l a •' •fft f .tL r `.AW _3 p ' .;7' f ..f`fi+ i �....
elf
p,fi,."✓�a: 5 }4-. A.
7"1+' „? xr"+� K' ;i` v ^? � a t .+y' T' 1 i�aa - �` 4 `' �P�' '� ` fi °� o� ^..+ ✓ 3"f
V&' -
•�.�,��t{ JA, r 'b• ` w ti£tv.dPe�°y{it�'d4 �A� r *a ss
ir'ir yti f vv
3;� u'F •?S a rskl `.•:d .:"',S'J�`r+r6'X:'',ryr F' r �.:"-
! g
�" � .� :.i�d� -d7 .. s: W' �+FE.. � 'i6t�._ a� f�t'� � `"'iF` F �ie�. «� ,t ,Y'Si� �°•y,� �,'•s.; �43'
-
,rwko WI:f= rs rf`� r•i 3 #r*�tr J .o} Yq_ d +S
�� ��31-.wp�ui`y b..a lk E �II�� #„a. �,��sv�`rr r,�v �`.. y' •y,iy���1 ��,� `��}�a ` d'+�s�r�S,a.
tMs,"c F -
� t, ar c t � � 'Sf. .+* s•y ;�'_ -„ `fir ¢,.. �.
Cl v4 . .}r : arr �' � .T.• v f • 4'i .a TRt'•#a"• r t3 .a .'�,,,bv key `•'1
JW
# r 41' i,V, ' :AP `*an °+ 1 } '•" C - ur� y �rn�,' a t�v� ' f /g,A, S ''"_? "' a.4 '`�i`f-""
J n� f¢ s` tr"_i'e..?yx,'i •J• °.4 c.'i' F "' J y/ sr. t ' +
YN'1
�s r te�rr,,,,� ..•a'
x',.1�"=yV i ti +}'r:.�viy.-jJ'
- ,�„� �} 1 fA. j3 :{'Y C �in$�; �,Fk'- �'_n 1�-Jd'4: r ti � ��.•
rn
�� a#s'j••e�,'R: 'fiaca s7+' d i7'+ +'S ?"'r• �.rt -:.t. e'-,+k, YI•• c ;K ,„,�{_ '
awl
�J�� J`' ��',�rdt`•���',. �,,.1 t.5'f : xt'�yF,... 4�F. �.� ��..�,.��'' �tK ,t,', `�
1 'O
PW
.Shp -
-
Lu+ `.�..._ f T'i J� 3, �•4 �yy, 4 ,"i y � ,/7oyr¢+fa.'zt'� E _.. $4 '
r f'il .. 6 . � . 1 J � � �• P'� � f� T Y � `, ^o�'�'•-"�'? . 3 y .� r ��
°r,wy��:.c>"
- 'r-9-�` t r �."y3'`y5 f ere' u;+-'ryt �t 1� r'' s--.�1 `^� ".'� .,.F .`.. •. .c NEW!
�
f� ' > _.? 17' 1�q�.kY `. ''F .S'` .s;, ".'r- �i•{-•c,'�. R+�'Sh� J',,y. x` ,�.. -; r%-�'�
Ws� ° d �" rs.•a•r. � � ti cY� ssp = Y '.6k � � � ��'¢ o r � ' n�'� �"�.r R a'ad� ,�ci- 6"' 3
Ya�Ys ��F,,,s�, Y �,,,, �c� qJ�s.��. u� K�� �.q�K, U�.. Wit.•, � # 'e Y �T;� ��' z 4 �i3" e t` a;�re 4i � � ral l�s*a.
,ci
- �'.-} �- F C',ale +� �?� = ii+r 8. - '�a r � ram• a",T .n.. e,-`'Y +� � t� • } �
�.. Scar j. � s s +
-<{nJ. JM� W • 4" x-i ,,�.- Lam' 'P Y k �j L F� 4 i (-
ssta # x fir► ,.r '' "# �� Y' >•la n%�'' . �' •,"` r,ep'+Jy -8^ ,a ..1 � �'i� r ' +2 a'h ��..i� ae '�'t
?.J'Y �`V. h if __��''��''`` [ F} Y ,'tSR' ,4: 3§dif Y 1 1• ed'
i jx; 4 s t + A � x e Y 9o-i JA^ i �3 �r10§ q .l 6 # rir fa • ' e ✓fit
j+'" , ;�>t�.;; 2�{,g.a W jx
P+:t t cy .r SS �i 'i •kra y iff $ i- je �j Jr4
y _ •t
si�pi�
* .T $y'�q ,>•Pr "�< y, A+ °$T¢ -?57 'ne+/ xx 1 ay -c` t. Y,y ,e <•.
Y •5`eMc't�+ .i,.Pu'
#.." `2,. BY•"`: xN •. o Tr, 9t !J ''Yi
;t + '�ii -i� •-S
?.r '�''g� mo�tt'' 1- c •v,-..Y yr!'+ .a saw i �" 3 s { ^ • �'
+ •'7' ,y4kY:.a�'"- .. �y F+3 gt'i''}T�FG^ $ YI -a(, "..' +i .t':+ ' 4PYfl�
+-:s._"4 v' Rp�i.. ,i' at,-ls�.at;il. i a ° a ..,i-• �,+
�! P P -f a + •o.�,�fy- 4'�$d1•e•�`1'�,, y r y�, 'L• c.''� � ti-s %4 - _a: _ t! s� 5 '�5 '. �y�' � �i r�1--��{4' '��,.'#�±'-�; �'"3 a yt ;�`:• Iy. a� e, �' p z,- .
�`C &r t�is e• +r.+ * V�+k i",aI >•i✓•-'S'.�.0iq < of �k' -P�+ �,a t'� +i .xs+rni.�'g s1'�4 ,r sF� ti •,q +, f:✓..+_.
� �T��•.. � �°�t,�'� 3-*..3�sd�c,J,,"�1S �..z�L r,,4� F. _ n�`y� _ °� J 3'� "'�,e1 „� � h� � uu=��' 3. .ai�4 ,4 �a x . °• 4 ;. _.�+
,rs >:- ��s..e �-y = r� � ���e:3�-.R':t€�� . r �,8�^'`"y�..a �, ��sr J��tsi �' _��,� ,,� ..,�- i.� ��',a"�1. `u''s¢ .'�,*�t—• .�'"�� - �, ,� •,,� � � �:_�}'� f' # , �r�°
r: e : ,:�'•3'3er.-.i=r''�k,'KT fi-.ie EQy' a M r•' ^,': r,. y+T„ +rE rd';.i. `,� �5� '� t;r''e ` f ; 4. •, i r"k_.,s:` 'p .
I
co
Tyson Foods Acreage Addition: FRO Observations, Comments, & Recommendations (4101 Amendment)
can anrnn- and coil fvnae a/ fho hnffnm of fha fahlo
,,;F �e c�C�6 G". I �Z-
7 IS rl
Farm'
Field
DOQQ
Application
Acres
Crop
Scheduled
-N
removal
(lb/acre)
N Removed
Crop (lbs)
Primary Soil Series
SHWT-
Synagro
(in)
_
*fI6&6,C6tbments
GW Comments
Recommendations
Bobby
RM1-1
59.7
soybeans
150
8955
Mb .7 Pe .3
>36/22
Shrink Swell in Peawick
Williamson
RM1-2
82.8
sb/cotton
70
5796
Ch .8 Rv(.2)
24
` Ch=SWPD
Richmo. Co
RM2-1
18.4
cotton
70
1288
<Pe 1.0 .
25
All Peawick SS
RM2-2 ..
41.6
cotton
70
2912
Mn(.9)Pe(.1)
>36/31
Peawick(SS)
RM3-1
17.5
soybeans
150
2625
All' -Pe
20
11Mn=1WD,
^�
i5,ea./N fL
RM3-2
90.3
soybeans
150
13545
Mn .6 Pe .4
>36/28
�i�1� (7�
(L
RM3-3
32.8.
soybeans
150
4920
Pe 1.0
22
\
2
RM3-4
65.1
cotton
70
4557
Pe .3 HS .4 Ch :25
24
Pe,Hs(ss);Ch=SWPD
' - • . i x-
RM3-5
63.3
cotton
70
1 4431
Ch(1-.0)
14
SWPD 55�
SCus '
RM4-2
41.1
cotton
70
2877
Hs .65 Pe :35
34
t „� �_�
ern I
RM4-3
50.4
cotton
70
3528
Pe :8 Hs :2)
19
Q
RM4-4
85.7
cotton
70
5999
Pe(.7)Mn(.1)Hs(.2)
14\''
lL'^�ozb!
McQueen sometimes has perched WT
sr-n s A- eft n V(
RM5-1
42.6
cotton
70
2982
small portion(Ch)
large(Ch-.66:Mn.33)
✓
20
`""^r`,\ Q ``�' °-' `�`k Q"6�
n .✓tr4.�.� fff f).
RM5-2
38.2
cotton
70
2674
Pe .8 /Hs .2
32115
/,
O11't'
RM5-3
36.6
cotton/cm
70
2562
Ch .85 HS/Rv .15
34
Mn rG\) r .,f a.e �m• �4I
t5
RM5-4
71.9
cotton/cm
70
5033
Rv(.7)Ch(.3)
18
RM7-1
138.1
cm(grain)
160
22096
Pe .6 Mn .4
20 V.
1 p
e\X I01C. C, m
R?
RM7-2
23
cm rain
160
3680
Mn .85 Pe .15
32
RM7-3
112.3
cm(grain)
160
17968
Pe-.85,Mn-.15
24
s rIM tc,�
(�
RM7-4
41.9
cm(grain)
160
6704
Ma .4 Mn .3 Pe .3
17
nn ``
`NPr� PtiI�v+_efq ' lie wr +zw�b 7.
RM7-5
78.9
cotton
70
5523
Ch .85 ;Rv .14
27
l%Ioov �, Mn:�L w?T �' t-rl�r)
Ip
RM7-6
75.3
cotton
70
5271
Ch all
14
n-
RM7-7
31.4
Cotton
70
2198
Ch .85 Rv .15
32
MO8-1
66.6
soybeans
200
13320
Ca;Ae;Fa
>36
YR
Ralin
MO8-2
16.4
fallow
50
820
Ca;Ae;Fa
>36
rr
yU�r,)n 3 A I ai f
YR
Matthews
MO8-3
22.5
soybeans
150
3375
Ca;Ae;Fa
>36
YR
Moore Co
MO8-4
13
fallow
50
650 '
Ca;Ae;Fa
>36
t
WGAc YIJII I
YR
21.1
tobco,FC
50
1055
Ca;Do
>36
C*- T-
YR
rr
12.5
soybeans
150
1875
Ca;Do
>36
0 U,
YR
11
tobco,FC
50
550
Ca;Do
>36
9
YR
MO9-4
50
soybeans
150
7500
Ca;Do
>36
YR
MO10-1
75
soybeans
160
11250
Ca;Fa;Ae
>36
YR ✓
MO10-2
83
soybeans
150
12450
Ca;Fa;Ae
>36
YR
MO10-3
20.6
fallow
50
1030
Ca;Fa;Ae
>36
YR
1457.4
151,444.00
NA,
it 234 1Ce
IV
/ L
I
.234
217
It ! \
r e Iw i 1 1:
217
�t({mil. /7 \ ns • 1 ,
�1���;•+ - + 'oP/ _ ram`.
1� 225( FIELD
FIELD 3 = v3o FIELD -- 2
it
-
- . FIELD - 5 FIELD - 4
{7 TIELD
FIELD -
6
e .� 1 j
ii ram.
t r..l} K';'="' 'A.`ORi'anback
i;`.', '..: `\Ferry.. _
0.
SGIN
zi
S'Q.Lj1'7t''
SCALE, 2Q07 TOPO Al"'rilrrf >'T TT „: T1lCT A, .-��c'• `. -:, ' -
CHECKED8 : (� C•r COlot�'OUR IN7l'ERV,41, =10 1„_2MILES
DRAWN BY: BGBB Bobby Williamson MEM
Y� WILL FIGURE NO.
' DATE: ,� IANISGjv TRS,/Tyson Poultry
Aug-.2000 RR,M_ 7 '_7) 7✓ ` Land A 2
-----._._ pplication Program
1588-00-OiOA Topo ;
�._ Map 7'
zoo
vo
FIELD--1 z9 j-
wry FIELD -�2 FIELD 4
200
-- --_
�r
FIELD 3
if
ith
700
P'. 'i "T)
n.
100 O. ,ti ?2,
230
110
f CD
�USGS QUAD MN�*�M_ �1 '�- t ,N -
cA� NC.; CONTOUR 1NT'ERVAL
TOPO jvW
CHECKED By: 1. = 2000' y Wmson -
o�WN BY: �� Bobbillia
— 2��0' TRS / Tyson Poultry FlGURE NO.
MEM
DATE: BOBBY WILLIAMSON Land Application Program 2
Aug_ - 2000 �,
5,(1=4)-`Z� J 1588-00-010A Topp
l Map
Heb Chi
,Mangum ~ -
56.
FIELDr �� ;
FIELD
29
—'
_ \ •+\ y
lit
A
" IELD -
�CG
�' yam''• _ "� :: em
\'21010 11."V
00
GTower
0 k..
`cam ten_ ��-♦ /^- _ _., �+ ��/ ; � _. �^
USGS QUAD ANDERSON AND MANGUM, NC.; CONTOUR INTERVAL =• 10'
:ALE I" =2000' TOPO MAP Bobby Williamson.
iECKED BY: 1 e = 2000' TRS / Tyson Poultry
tAvvN BY: MEM
BOBBY WILLIAMSON ' Land Application Program
JE, Aug.
s• -2000
RM4 2 _3_sti.. v/ 15W 0-010A
FIGURE NO.
.2
Topo
Map
rid
M1
Hebron
236
r angum
Im
ti� t
-400
it � — �- .1 �• '"�=���•�\ �• -= \ � /' `.
ild
FIELD
FIELD — 2
am
FIELD — 3 e,> ch ,
;- �---FIELD — 4
\ zooU11 00
_ 20 N • .. ��: i .. _
It
�� .:;rr . ' �- _ : • . � Lam. �: -. : `--�
1-
�..USGS QUAD ANDERSON AND MANGUM, NC.; CONTOUR INTERVAL = 10,
_
f " = 2000'
TOPO Ivitir -
Bobby Williamson
RGURE NO.
CHECKED BY:
I" = 2000'
TRS / Tyson Poultry
2
DRAWN BY: MEM
BOBBY WILLIAMSON
Land Application Program
Topo
DAB Aug. - 2000
`'RM3_0
1588-00-010A
Map
t ./ 1
a j
' FIELD -1 \ `
®.
FIELD - 2
Jack Currie Road l
All
t
Legend
, J -
Dwelling I Wooded Alen
i 7 Struck (Ham). —, Draimgeway
Q Pond Aeaess Road
• Weil . property Line
Buffer Arne x x x Fence
W WefArea
i • SITE ,MAP ® Auger eoririg
BY: 1" = 660' Bobby Williamson FIGURE NO.
MEM BOBBY WILIAMSON TRS-/ Tyson Poultry 5
Aug. - 2000 IIZM2 (1 & 2� ! Land Application Prograrii Buffer
1588-00-010A
Map
1 --1
1, � d„ N e i � Q' .i �
+ CeAr&
:6 ( � f _�
n -tl
USGS QUAD MANGUM AND MOUNT GILEAD FAST, NC.; CdKT-OUR INTERVAL = 10'
;CALE: 1 20W TOPO MAP Bobby Williamson FIGURE NC
;NECKED BY: " TRS / Tyson Poultry 2
= 2000' I
)RAWN BY: mFm , Land Application Program Topo
BOBBY WILLIAMSON
)AM
Aug. - 2000 1588-00-o10A Map
W�
�W 5V
�QY
v�l D
lr! D
-09
09
09
w4
AV
W19
v49
�pra7Z c p ^ "\\, I
ID
Symbol
COUNTY
LANDSCAPE
SERIES —ID
Taxonomy
Soil Description
Loamy, kaolinitic,
f•��, N
thermic Arenic
deep or very deep to a dense layer. These well drained, slowly permeable soils formed in sandy and
AeB
Moore
gentle slopes-ct CP
Ailey
Kanhapludults
loamy marine sediments on uplands, mostly in the upper Coastal Plain.
Coarse -loamy,
siliceous, active, acid,
very deep, poorly drained, moderately permeable soils that formed in stratified loamy and sandy
%
thermic Typic
alluvium. These soils are on flood plains of streams in the Coastal Plain. They are commonly flooded
Bb
Moore
7ood plains
Bibb
Fluvaquents
and water runs off the surface very slowly.
andy, siliceous, thermic
moderate to moderately slow permeability in lower horizons. They formed in sandy and loamy Coastal
CaB
Moore
gentle slopes-ct CP
Candor
Arenic Paleudults
Plain sediments on uplands in the middle and upper Coastal Plain.
Lit SS n
Snck
Fine -loamy, mixed,
thermic
deep, drained flood They formed in
Q �cY
active,
very moderately permeable, somewhat poorly soils on plains. recent
Fluvaquentic
alluvium washed largely from soils formed in residuum from schist, gneiss, granite, phyllite, and other
`L ChA %
Richmond
flood plains
Chewacla
Dystrudepts
metamorphic and igneous rocks
fine -loamy, kaolinitic,
very d eep, well drained, moderately slowly permeable soils that formed in thick beds of unconsolidated,
thermic Plinthic
medium to fine textured sediments of the Coastal Plain. These soils are on broad, nearly level to
DoA
Moore
dry flats-ft
Dothan
Kandiudults
strongly sloping uplands.
Loamy, kaolinitic,
thermic Arenic Plinthic
very deep, well drained soils that formed in sandy and loamy marine sediments of the upper Coastal
FaB
Moore
gentle slopes-ct CP
Fuquay
Kandiudults
Plain. Permeability is moderate in the upper part of the subsoil and slow in the lower part.
Fine, kaolinitic, thermic
very deep, moderately well drained, firm, clayey soils in the upper Coastal Plain. They have moderately
GhB
Moore
gentle slopes-ft CP
Gilead
Aquic Hapludults
slow or slow permeability. These soils are on uplands
9
�"Fine,
�
mixed, active,
1�. Soc ,^� c �—
`
thermic Typic
very deep, somewhat poorly drained, slowly permeable soils. These soils are on stream terraces within
:HsA;
Richmond
stream terraces-ft
Hornsboro
Natraqualfs
the Triassic Basin area of the southern Piedmont. They formed in alluvium
Fine, mixed, semiactive,
very deep and well drained. They formed in old alluvium on terraces in the Piedmont and Atlantic
!,tVlBC✓I
Richmond
moderate slopes TR
Masada
thermic Typic Hapludults
Coastal Plain.
V\0�
Fine, mixed, semiactive,
very deep, well drained, moderately permeable soils that formed in residuum weathered from Triassic
r---
bB2
Richmond
gentle slopes TR
Mayodan
thermic Typic Hapludults
materials of the Piedmont uplands.
_
• N-P— Ste. A"r P
Kv9
Fine, mixed, semiactive,
very deep, well drained, slowly permeable soils on stream terraces at low to intermediate elevations
MnB _i
Richmond
gentle slopes TR
McQueen Ithermic
Typic Hapludults
above the flood plain. They formed in stratified clayey and loamy alluvial sediments.
�
Fine, mixed, active,
very deep and moderately well drained with very slow permeability. They formed in clayey fluvial
`PeA_I
Richmond
stream terraces-R
Peawick
thermic Aquic Hapludults
sediments on stream terraces of the Coastal Plain and Peidmont.
Fine -loamy, mixed,
p
active, thermic Fluventic
RvA
Richmond
t.,floins'.
Riverview
Dystrudepts
very deep, well drained, moderately permeable soils that formed in loamy alluvium on flood plains
Fine -loamy, kaolinitic,
thermic Typic
very deep, well drained, slowly permeable soils that formed in loamy sediments. The lower part of the
VaB
Moore
gentle slopes-ft CP
Vaucluse
Kanhapludults
subsoil consists of a dense, partly brittle, slightly cemented layer.
4
1 It's 'What- vour aMi deserves:'
May 15, 2001
North.Carolind Environmental Commission
Department of Environmental and Natural Resources'
512 North Salisbury -'Street
Raleigh, North Carolina 27699
To Whom it May Concern:
Dan'Crow-is the. Plant manger for Tyson Foods, Inc. protein conversion plant- in
Harmony, N.C. Danis authorized by this letter to sign the Residual Land Application
permit annual report on behalf of Tyson Foods, Inc.
'Sincerely,
1L.� C:
(ij
—Jim Cate
President Specialty Products Division , - -
Tyson Foods, Inc.
T%-son Foods, Inc. Specialty Products Division 1225.West Hudson Road Rogers, AR72756 800-950-234I
L LZ ,S
ROCXY FACE-
b QL llsb
1 1 Rock-,
ELEV. 181,4
OL
1 ROUND TOP 'y
lz
Held — 013
.b
d Top
-
EFY. 1750
11�6r
1 a, v
Z 1 Asa
lsa
i
1
1.0
cp
Tl2l
— r
�!�
)
Fields 014-016'
1494'
Fields 010--012 'i:
°
�la18 is S
a
A9 .3
1ss7 } 1460
oft
1_5 1/19_
nco
1496
b
h
� o
1420
r
�, Fields �� 1
,s61 Fields 007-009
ALB- IA
1�2
134J 3 % 15� 15 2
SA I
AA.0/'(? �ufj ,,,
b 1A93 ` IA56
,
o ,
1 a22 IA" , s 1 a ,� 1 A91 5°`/
►�.
6 T.
F•1S
4
-
C River C
1 L 1 L'!6 1 �.�} 147
1660 T'656 2 �2,
1650 r•T
��
C��- ,
a
i?t
J 1� N
O
2''�
� 1353 \ •
.6 a I
P m 639 .2 .2 q Hldderxie ?
q• yj 1510
T � �
P ' 1 7 ' ,\ f„ 117 7 J
1323
61 7 rt 2 �?` 4 ?
► lbc7 .�16aS 6 151a 6
/ � kill 157.4 %
_ TbS] 16T 1456
161A ! b ..5 N / 1632 1[78
7610 1671 .t
i ti 1618 Lbe 7
� 1631 QL
Fields 001- 006
1 1630
1 paw 1669 i�L3 --ati �► o�
Store r Mt. Sob 9 l
d 1620 1619 16
1611
1627 1630 • 11003 T1628 1637
SITE LOCATION MAP
_
SCA r• ' -' m=-E P = 1 MILE
c$ECN= BY: VAUGHN ROGERS
DitAWt! BY: SDB
AT.3 (1 — 1 R)
v=ughD Ragan �c rnE vo.
'MS i TY30a Poultry i
U-d Aopliuca o Pr rp . Ste
SITE SUMMARY -SHEET
COUNTY` Alexander SITE NUMBER: AL3
OWNER: .Vaughn Rogers
OPERATOR: same
ADDRESS: 1710 Rock Springs Rd.
Ta&rsville, NC 28681
PHONE: .(828) .632 2698
Fields
Total Acres '
'Est. App. Acres.
-Cro "s
' Latitude & Longitude
8
12.3
10.1 ,
Com/Beans
small grain
360 56' 15"
81 ° 05' 45" '
9
4.,8
4.6
Com/Beans
small grain
360 56' 20"
810 05' 55"
10
81
18
Fescue
360 55' 55"
810 07' 20"
11
18
12.9 .
Fescue
360' 55' 40"
810 07' 30" •
12
46
. 29.4
Fescue
360 56' 10"
810 08' 10" .
13
37.8
18.6
Fescue
360 5T.20"
810 07' 00"
.14
43.
29.9
Com/Beans
small rain
360 57' 12"
810 06' 10"
15
8.5
8
'Com/Beans .
small rain
360 56' 43"
810 0 - 40"
-B^ L
Field 3013
I
,Field V'R-014
/� O 1R'oc:: nor'^gs
Field rV-R_0 \C
-----,-Field V-016
_ _ ���'� 1�`.���J' Field VR-007 ,��.
�� -may �ui ` _ - -� � i� � • 1` `� �'�^` �\ , \`\ O, � � � :995 }
3-09
;•L' �..`:�� Field V-00 9
Field VR-010
- is ` `� .. ' . • `-'' ';\ � i' ._ __ . ;�•. �/'
\` ":tc?, Field V tt-008 -
Field VR-011
Field VR-018
U.S.G.S. Hiddenite Quad, N. C.
—� TOPO
SCat—T_ t-- zow 1" = 2000' Vaughn Rogers Fir RLxo_
`3Z`XED BY: VAUGHN ROGERS TRS /Tyson Poultry =A
D RAWT( 8Y: 508„ AD (7 - 18) L"d AppAmd— Prnm. T.P.
F�p
I ��
s. �• r
495
A,
A
_— — -A- =�
Field VR-018
AL 3
S. R. 1496
A J: - - - --. ..
SITE MAP
iCa r r- i- - 66R
�C= BY:
I" = 660'
3RA" BY: sme VAUGHN ROGERS
3ATr-E. AL-3(18)
Fiel _ 17
17
aded: 1
Permitted I
ror�
'
t � 4C t'
Wooded A=
?.d . - . -
•
Weil
Nl//1
Bu$c.Ava
w
Wa Ar- - ®
Auq, 3--q
Vaughn Rvgen
FiCURE YO.
TRS ; Tyson Poultry
1 E7
LAnd Aoplioduo Proem.
Bu?v
JOB NO:
1588-9 -017
kao
SITE SUMMARY SHEET
COUNTY: Davie SITE .NUMBER: GD
OWNER: Greg Dooley
OPERATOR: same
ADDRESS: 692 Godbey Rd.
Mocksville, NC 27028
PHONE:- 336 492-2430
Fields
Total Acres
Est. App. Acres
Crops
Latitude & Longitude
1
28.9
25.9
Fescue
350 54' 30"
800 38' 30"
r
TOTALS 28.9 26.9
COMMENTS:
Cti c - .�rr'$t +4":. n�.'. 'R�,n'iT.:c:�•i`�;v.a ar��b. �.._`i`: r'?.7..sf�}t.;% :; %,.•�` _...._ _. _.__
' � �� �: i "'�•Y' `� �tJtR �.7 aG � 8.4.y,%';�Y}"-T._"��_y3 µ f 5, 'fiii ?!L',�"^;P. '' ,.
.• y is �' - ` � s F RL.j���.:„�,."'Gw i1A# "'x T..,, .---�^�� �{ - _ V
+ 4`). � �ic L.! ��,,8,,'(�ptigAe"�y. '�•;.. ! ..1' J 'fi�'�rk4 �10
M!t '�, s Y � �y.Jfv3• !✓- .� .L � ., f f�,,/'}"''t,.n,.' rr �,; a y kp"1S
^_ yz T•rd�s t}i'3�� ys rfy'. - �. �•'� ~ wl� `v'fdi/�i�.,�.��.�G•... '!`(
! ��.K�r,��2 �i} ^y_.3 ,.' �� r�!•,yi��. "f� � r' � z+ � ��F ��a�,r+.yr`' C'f•�.
hid � tY._ . •, R wsri. J �e5. � �. u' a � .v
• x t• •t � y {� }yr, 4�agX�Y .. ��
1'
fW
:F
• S f"��o 1 v'13
6
fssi y//Y xTY ri
SAP
3a
p ME
SW
`\"``. " tis'' J r ��ri •..ks'y ,t '+� Je ' s
4 �'/ ' t� ..Zf(f'vi rfa. � r` 'H X•Y 1 k
15
�+ .,< ..� to � .. / " ..� �' � �'e'�.. a+��� •,�:, .Es- ..
i.Q�zr,
l
h., _ .' ✓iu,�+�' X ?^ '£fir r 3,,.,..r -"e "*
Ingtr �w q 1.0
No y o °fix. y.
Y'- y .. 3 � _ .•tr .. .r � � f"� a .�;�.,,�
x y-
1
IgN
.-•_P x _..G s,v>.,... 'CY' x '+ri:^Y,�� tztr f m.a•�~ }Y.t�f`
.- t r �Nilmer. 1,
F>� SITE MAP�� y�\� \ �y\,�1�
Y
DIANA PARDUE MATHIS ` 1
--------------
�.
'A °.1000
`i;
------------
FIELD - 1
i
/ FIELD - 4
FIELD - 3
{
BY,
X=
Dwelring
§S
Wooded Area
Structure (Sam) --►
Drainageway
Pond
=
Access Road
Well
Property line
Butter Area
x x-x
Fence
Wet Area
sa
H=d Aucer 9arina
SITE MAP
1"=660'
1 " = 660'
MEW RALIN MATTHEWS
Aug. - 2000 M08 (1 - 4)
FIELD - 2 r
�l
i
Ralin Matthews FIGURE NO.
TRS / Tyson Poultry 5
Land Application Program Buffer
1588-00-010A Map
SITE SUMMARY SHEET
COUNTY:
Moore SITE.NUMBER: M09
OWNER:
Ralin Matthews
OPERATOR:
Ralin Mathews
ADDRESS:
5913 Hoffman Rd.
Hoffman, NC 28347
PHONE:
(910) 281-4587
Fields
Total Acres
Est. App. Acres
Crops
Latitude & Longitude
4
50.1
50.1
Soybean
35004' 35"
790 30' 10"
TOTALS 50.1 50.1
COMMENTS: Fields 1-3 were eliminated due to watershed classification.
J
�oCoo�J\j((
�.�^����� \ -- I %• a`.\ �r• ''%"_' ^ice
_ ^1_ - _ �} \ � .\ 750 .!\�_•' i �� � `'�') �� i \ ����" _` � .ice
1102
1102 _
-07 � _-�.: _ � � / ! �• I �.F. � � Jam.-y��` � /_'�, .:�..._
� ,�.
=�-a ��`. //( I � i \ Imo •%'��' i41.^—l.: _"_ =
��. �1 I � �';; ✓• �� � � ,� II Cry ilk •.�
�� %i 1 {!' / �// /� �/ I � --�4 � •`��c•==--tea/� � '
"RI_ELD - 4 FI
FI
Sx
IP
_362
i V
I -\
.
`ModRE
_- _. -- - - .. - _— _- -- - � -�_� �- .. ��• _-_ _. - - - ICI _ �• -� _ —
At
-p0 lam.
.USGS QUAD 14OFFMAN AND PTNF"RTJIFF. W.; CONTOUR INTERVAL = 10'
TOPO MAP Ralin Matthews FIGURE NO.
XEO BY: I" = 2000' TRS / Tyson Poultry 2
VN BY: MEM RALIN MATTHEWS Land Application Program Topo
AIIC. - 2000 MO9 ly% v,. 1588-00-010A Map
Buffer Explanation
Owner: Ralin Matthews
Operator: Bobby Williamson
Site ID: MO9
Field 4
The house west of this field is buffered 200'.
N_
Si
k
To Thunder Road
S.
ss
Legend
Dwelling
Wooded Area
v
Strucbme (Sam) =+ ..
Drainageway
Q
Pond =
Access Road
W40
Property line
Bufier Area x x-x
Fence
`••
Wet Area ®
Hand Auger Boring
1" = 660' SITE MAP
Rahn Matthews
FIGURE NO.
1" ='660'
TRS / Tyson Poultry
5
MEM' : RALIN MATTHEWS
Land Application Program
Buffer
Aug. - 2000. M09 (y)
1588-00-010A
Map
5 \ " , 1, 7 po, 80'50' 6 Continue in DeLorme's Virginia Atlas & Gazetteer a
?"', 80.83* 1 1 1 1 1 1 1 80.61, BO'37 30'
"0
A
L
L
36,35'
36.58*
q L
11EGHANY CO Fes,•.'
L4 — 7
2
52 -7-
U/c
j
MTMM 22U,\
j,
Is—
(P-
36.501
RQ
m
A,
12
601
0
B
1
36'25'
35.42'
W.
TF
d
0
Tu-n
r
0
M
t
LAI
N
o
4.
268 L-0 C-
36'20'
77
3623*
1V 'No-
X
c"It
0. 26B
IF-4
SITE LOCATION MAP
Id 2.4 MILES C—
I r Yadkin `rG
601
WALTER JOHNSON
R—
C . Plant Avaitatile..Nitrogee (PAN) calculations and land application area requirements:
1. Mineralization Rate (MR) yo %
(These values can be established for the specific residual or default values can be used for domestic wastewater treatme_ nt
residuals. If actual values are established, attach the documentation. The default values are as follows):
Unstabillzed Primary and Secondary Residuals 4()%
Aerobically Digested Residuals 30%
Anaerobically Digested Residuals 20%
Composted Residuals 10%
(If the default values are used: attach an explanation as to why the specific chosen default value is appropriate.)
2. Complete the following calculations for the application method proposed (Please note, the Mineralization
Rate [MR] should be utilized in the following calculations as a.decimal):
PAN .for Surface Application
PAN = [(MR) it (TKN - NH3)l + .5 x (NH3) + (NO3-NO2-N)
PAN a[ .4 x( 716no '41)Rnn )}+.Sx( -Argn- )+�
PAN = 3a,20?0 PPM Dry Weight
PAN for Subsurface Application
PAN = [(MR)x(TKN - NH91 + (NH3) + (NO3-NO2-N) "
PAN=[ .4 x( 71600 35800 )]+( 35800 )+ n
PAID - 000 PPM Dry Weight
3. 'Total PAN to be land -applied per year
Total dry tons of residual to be land applied per year: 5 5 4 3
Total PAN in pounds . _ (PAN in mg/kg lb Weight) z 2000 Pounds / Ton
per dry ton 1,000,000
_ (PAN in PPM Dry Weight) x 0.002
I00.1E PoundsJDry Ton/Year INJECTION
Total PAN in pounds = (PAN in Pounds / Dry Ton) x Total tons of residual to be land applied
_ Jofl.aq- x 5543
55.5 0. R PoundsNear
Due to the fact. that organic nitrogen is mineralized slowly over time, the amount of nitrogen that comes available in years
following the initial application must be taken into consideration when calculating application rates for the subsequent
years: This being the case, please attach an evaluation of this factor and its impact on loading rates. Show the adjusted pan
for at least five years.
The maximum adjusted annual PART is poupds/year. SEE MAXIMUM ADJ . PAN
4: Crop information on nitrogen uptake per year SE C T z ON
(Division Recommendations) (Provide for the Crops Specified)-
Crop(s) PAN (lbsJacre/year) PAN (lbs./acre/year)
A[falfa 200 200
Bermuda Grass (Hay, Pasture) 220 220
FORM: LAORS 02/95 Page 12 of 18
Blue Grass
120 _ 120
Corn (Grain)
160 i tin
Corn (Silage),
_
200 200
Cotton
70 70
Fescue
250 250
Forest (Hardwood & Softwood)
75 75
Milo
100 100
Small Grain (Wheat, barley, oats)
100 inn.
Sorghum, -Sudex (Pasture).
180 180
Sorghum, Sudex (Silage)
220 220
Soybeans
200 200
Timothy, Orchard, & Rye Grass-
200 200
Please provide the basis for the uptake rates used if
different than Division Reoon=endations:
5. Total acres needed to land apply the pounds of available nitrogen calculated above
Total acres needed: Maximum total ponds of mane available nitroge (n PAN)
Pounds of nitrogen needed for crop*
sss�, 3
Minimum acres needed based on most restrictive PAN = 45$56.3 acres
This value must be the value for she tYop to. be grown that has the lowest nitrogen uptake rate per acre.
If tbere are various crops -that will only be utilized for certain sites, please'attach the calculations for each site and determine
the total needed acres using the format outlined above.
D . Calculate the Sodium Adsorption ; Ratio (SAR)
("This section must be completed in mgn, to convert: mglkg x %solids [as a decimal] = mg/1**)
SAR = Na Milli Equivalent + [0.5 (Ca Milli Equivalent + Mg Milli Equivalent)] 0.5
CONCEIv"I'RATION (mg/1) + Equivalent Weight s Milli Equivalents of Ion
SODIUM (Na) 1115.2 (mg/j) + 23 = 48 _
CALCIUM (Ca). 6 3 9 0 (mg/1) + 20 = - 31.9 5
MAGNESIUM (Mg) :-17 5 .4 (mg1l) + -12 = 14.6
SAR
If calculation sheets are being, completed for more than one .residual or site, please attach a .
summary sheet that bring the results of all the calculation sheets to. one point.
FORM: LAORS 02/95 Paop i I nr I st
E. Determine the Site Life 'for this land application site:
The lifetime pollutant loadings shaU not be exceeded.. The site,life.is determined by calculating the number of yeah that the site
can receive the residual without exceeding the lifetime pollutant loadings. The site life calculations will be based on the most
restrictive crop plant available nitrogen (PA.') requirement specified and the maximum dry cons of residuals to be land applied
annually. Therefore, in the table below the Tons of Residuals to be Applied/Acre/Year will be calculated as:
1. Most restrictive crop based on the plant available nitrogen (PAN) requhment: G mall n r a
in
Associated plant available nitrogen (PAN) requiremenc, 100 (1bsJacrelycar)
2. Minimum acres needed based on most restrictive PAN (as found in C.5 above):, 5554. 3 acres
3. Dry Tons of Residuals to be land applied per year 5 5 4 3 dry tons per year
4. Tons of Residuals to be Applied/Acre/Year = Dry Tonc_/Yek of Reside;ale to be and ied
Minimum number of acres required for land application
Tons of Residuals to be Applied/Acre/Year = 1: 00
If any of the application sites are to be loaded at greater than the rate specified above, please specify the loading rate and explain:
Tots of Residuals to be Applied/Acre/Year (different from above) _ 2 = 0
Explanation: Due to the fact that the 1..07 is based on the most' restrictive
crap subsequent- rrn= G Gtirh aS ror.n or Soybeans will require
higher application rates to meet the PAN 'limit.
For the purpose of site life determination, the lifetime pollutant loadings shall not exceed the following for the corresponding
Capon Exchange -Capacities (CE.C).. Site life for the site covered by this application shall be determined by using the lowest
CEC. The appropriate column should be chosen ,and applied ,in the "Allowable Lifetime Pollutant Loadings based on CEC" in
the table below.
-CEC < 5 CEC 5=15 CEC > 15
,Pollutant -floc_./acre). Qs/acre) (lbs /acre)
Lead ' 500 1.000 2,000
Zinc 250 500 1,000
Copper 125 250 500 -
Nickel 125 250 500
Cadmium, 4.5 9 18 ;
In the table below, the highest annual loading (Tons of Residuals to be Applied/Aae/Year) specified above, will be multiplied
by the tbs./dry ton of each pollutant as found in B above: The Site Life can then be determined by:
Site Life (Years) =Allowable
Projected Pounds to be Applied/Acre/Year
Pollutant .
Tons of
I lbs./dry ton of each
Projected.
Allowable Lifetime
Residuals to be
- pollutant
Pounds- to be
Pollutant Loadings
Site Llfe
Applied per
(as found in Part B
Applied/Acre
based on. CSC.
(Years]
Acre per Year
above)
/Year
From Chart above
Lead'
L
o *
.
lbs./acre
. o
—
/A
Zinc
*
=
500
— N. A
Copper
*
3 a
250
Nickel
1 o
*
_
_
�
'
= 3y
Cadmium`
*
—
.old
125
= ID b
_
mn
T1p
A C
lY L
:. Compare the five (S) pollutants above and determine which pollutant that will result in the shortest Iife for this site:
The Limiting. Pollutant is, Copper
The Site Life is _ 3y/ years.
FORM: LAORS 02/95 Page 14 of 18
ADJUSTED ANNUAL PAN
In order to maximize the nutrient value of the residual material it is necessary to adjust
application rates to -take -into effect the slow mineralization of the organic nitrogen. The
following calculations show the adjusted rate for a three year period.
STEP ONE Determine the amount of (PAN) in the residuals to be applied,
STEP TWO Determine the "nitrogen needs". of the crop to be grown
STEP THREE Determine nitrogen carry-over for a three year period
STEP FOUR Determine application rateof residuals based! on "net allowable
nitrogen" application ;
STEP ONE Determine the amount of PAN in the residuals to be applied
PAN, (subsurface) = 0:4(TKN-NH3) + (NH3) + NO3-NO2N -
PAN 0.4(71600•— 35800) +'(35800) + 0
PAN 50120 mg/kg dry residuals
Next convert mg/kg to lbs/dry ton
Mg/kg * .002 = lbs/dry ton
50120 * .002 = 100.24 lbs/dry ton -
STEP TWO Determine the."nitrogen needs" ofthe crop to be grown
Corn for silage requires 200 lbs PAN/acre
STEP THREE Determine nitrogen carry-over for a three year period
Mineralization rates to determine carry-over nitrogen are listed below: .
Year one 20% . of organic N applied. during year one becomes available to
plants
Year Two' 10% of organic N left at the end .of year one becomes available to
plants
Year Three . 5% .of organic N left: at the end of year one becomes available to
plants
Calculate the percent organic N in the residuals to be applied
% Organic N = % TKN - % NH3
% Organic N = 7.16 % - 3.58 %
% Organic N = 3.58 %
Next convert % organic N in residuals to lbs organic N/dry ton of residual
Organic N (lbs/DT) _ % organic N (as a decimal) * 2000
Organic N (lbs/DT) = .0358 * 2000
Organic N (lbs/DT) = 71.6
Next determine the amount of organic N that will be applied during year one
Lbs Organic (N/ac) = lbs organic N/dry ton resid. * tons resid. Applied/ac
Lbs Organic (N/ac) = 71.6 lbs organic N/dt resid. * 1.9 tons resid. Applied/ac
(Based on N req. for corn silage)
Lbs Organic (N/ac) = 136.04
Next determine to amount of organic nitrogen available during year one
Lbs/ac organic N available first year = 136.04 * 20% as a decimal.= 27.2
This 27.2 lbs/ac organic N is accounted for in the first year's application rate when
determining the PAN for that year. This number is needed when residuals are applied to
the same field during years two and three. Carry-over N for the second year is calculated
using a percentage of the difference between the organic N applied during year one and
the amount of organic N that becomes available in year one (carry-over). Carry-over N
for the third year is calculated using a percentage of the difference between.the organic N
left at the end of year one and the percent organic N that becomes available in year two
(carry-over).
Next determine the amount of organic N left .at the end of year one
Organic N applied —.organic N that becomes available = organic N left
= 136.04 — 27.2
= 108.8
Next determine the amount of organic N applied during year one that becomes available
during year two
Organic N left at end year one — organic N avail. Year two = organic N left at end year 2
Organic N left at end year two = 108.8 —10.88 (108.8 * .1) year 2 MR rate
Organic N left at end year two = 97.92
Finally determine the amount of organic N applied during year one that will become
available during year three
Organic N year three = organic N left at end year two * .05 (year three MR rate)
= 97.92 * .05
= 4.9 PAN carry-over year three
Year
Crop N req.
(1bs./ac)
N carry-over
lbs./ac
Additional N
Reg.
Residuals
PAN/DT
Adj. App.
(DT/ac
1
200
0
200
100.24
1.9
2
200
10.8a
189.2
100.24
1 1.8
3
200
4.9' + 10.20
184.9
100.24
1.8
4
200
4.6 + 10.2°
185.2
100.24
1.8
a. Carry-over associated with initial biosolids application
b. Carry-over associated with biosolids application in year 2
c. Carry-over associated with biosolids application in year 3
The application of this residual will be based on the nutrient uptake of the crop to be grown. For
Tyson's biosolids the annual limit is based on nitrogen uptake. The following table indicates crop
requirements and the suggested loading rates.
Tyson Foods Harmony North Carolina
CROP
PAN Req.
(lbs/Ac)
Surface App. Rates
Lbs PAN/DT DT/ac
Subsurface App. Rates
Lbs PAN/DT DT/ac
Small Grain
100
64.44
1.5
100.24
0.9
Corn (grain)
160
64.44
2.4
100.24
1.5
Soybeans
200
64.44
3.1
100.24
1.9
C. bermuda
220
1 64.44
3.4
100.24
2.1
Fescue
250
1 64.44
3.8
100.24
2.4
The lifetime limiting factor is the heavy metal content of the residuals. The residual heavy metal
concentrations will be determined by lab analysis and reported in the analyses section of the
permit application.
Residuals analysis change therefore making it necessary to take several analyses during the year.
This will enable the land applier to make the necessary changes in order to track all the
monitoring requirements and adjust application rates accordingly.
Program Management
Based on our conversation with Tyson the method of application used will be injection. .This will
include mostly cropland, which is only accessible during certain times of the year. Based on this
fact some farmers will need to be compensated for access to their fields outside of the cropping
pattern. Pasture land would enable year round access but farmers may be more reluctant to have
that land injected. With an adequate land base this program could run with few hitches. This
would entail getting on a rotation and sticking to it in order to maximize both the land base and
production seen by the participating farmers.
Conclusion
If all the above, mentioned parameters are met this residual material should provide an excellent
nutrient source for all the participating farmers as well as an environmentally acceptable means of
beneficially reusing the residual material.
Sincerely
Alan Brown
Agronomist