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The f i l e i s a c c e p t e d i n t h i s form by t h e e r o s i o n / s e d i e m n t submodel

Table 1. Input data (initialization and hydrology parameters file) for the hydrological submodel Card Symbol

*/

DEFAULT Option MAN - DEFINITION SOURCE DIMEN- VALUES LIMITS 1 2 PGM SION COMMENTS 1-3 1-3 TITLE Description of the RR area Manual p. 174 4 4 BDATE Beginning date for simulation RR FLGOUT Type of output RR FLGPAS Type of output RR FLGOPT Option of rain- fall input RR FLGPRE Option of rain- fall input RR

less than Recommended day 091 the date (e.g. 78091)= 1.4.1978 of first storm. 0.1 Manual p. 174 0.1 Manual p. 174 1.2 Manual p. 174 0.1 Manual. 0. 174 5 5 DAC RE Field area G acres RC Saturated hydraulic conductivity R in/hr FUL Field capacity/ R upper limit of storage BST Initial fraction R of soil water storage CONA Soil evaporation parameter M, R 1-640 Manual pp. 15, 174 0.01-10.0 Manual pp. 173, 174, 184, see text of this report. 0.1-1 .O As a fraction(not in percent) 0.1-1.0 As a fraction (not in percent) 3.3, 3.5, 4.5 Manual p. 32

Table 1. (contd. ) Input data (initialization and hydrology parameters file) for the hydrological submodel POROS Soil porosity R BR15 Immobile water B15 content

0.3-0.6 Defined by volume. 0.0-0.25 This value is not read in the program, it is signed as B15. 6

-

SIA Coefficient c in equation 2 (P-C.S) M = P+(1-c) .s CHS WLW

SCS curve no. for MIH average moisture content Main channel slope G Watershed length, width ratio G Maximum rooting depth c = 0.2, if not calibrated. 30-90 usually 0.8-5.0

P = daily rainfall, Q = daily runoff, S = retention para- meter. Manual Volume 111, chapters 2, 3, 4. This value is not read in program, the constant 36 in is used. 6 DS Depth of surface R in soil layer. DP Maximum rooting R,H,A in depth. GA Effective capil- M,SS,R lary tension in Green-Ampt Model

2.0-4.0 Subjective 15-50 It shall correspond to chemical file

'liable

1. (contci. ) Input data (initialization and hydrology parameters file) for the hydroloyical submodel la lb 2 3 4 5 € 7 8 RMN Mannings roughness co- Manual p. 241 efficient for field HIM It shall corre- surface spond to erosion SLOPE ~verage field slope G XLP Slope length

file It shall corre- spond to erosion file It shall corre- spond to erosion file 7

-

UL/I/ Plant available R in 0.1-2.4 I=l to 7 water storage Differences be- tween Manual and program due to' RD, calculation frbm POROS and B15 8'9 7,8 TEMP/I/ Average monthly C OF 0-80 temperature 10,ll 9,10 RADI/I/ Average monthly net C langley/day 50-990 Measured or calcu- radiation lated from sunshine by penman -s formula 12 11 GR Winter cover M 0.5,l.O Manual pp.133,176 factor 13 12 LDATE Date MIA day 1-366 Manual p.208 Julian date AREA Leaf area index MIA 0.0-3.0 E1an.p. l83,Table 11-8

Table 1. (contd.) Input data (initialization and hyc-iroloqy parameters file) for the hydroloc-ical subrnoael - 7 14 13 NEWT Flag for reading of M 0111-1 Manual p.176 temperature -1

=

stop of the program NEWR Flag for reading of M Ot1 Manual p.176 radiation NEWL Flag for reading of M Ot1 Man-1 p. 176 leaf area index i

*/

When the symbol used in the manual differs from that used in the computer program, the manul's symbol is given preference. Abbreviations used under Source (Column 4) : CREAMS Manual Laboratory analysis and references Geographic map Soil map Hydraulics handbooks Research reports or studies in the respective area Soil science handbooks Climatic and meteorological data (measured) Agricultural handbooks

The above shows t h a t t h e h y d r o l o g y submodel i s i n some r a n g e s

The i n p u t s o f t h e submodel a r e f o r m e d by two f i l e s . The

Table 2. The input data/parameter file for the erosion/sediment yield submodel SYMBOL

*/

CARD - MI?N DEFINITION SOURCE DIMENSION DEFAULT LIMITS COMMENTS FGM VALUES -- .-. 1 2 3 4 5 G 7 8 1-3 TITLE Alphanumeric in- formation 4 BDATE Beginning date for DATE simulation M FLGOUT Flag for type of M output printing FLGPAS Flag for type of M output file FLGPRT . Fiag for sediment M particles specifi- cation FLGSEQ Flag for sequence M of erosion process

Julian date, Manual p. 208 0,1,2,3 Manual p.210 Of1 Manual p.210 Of1 Manual p.210 1f2f3f4, 5t6 Manual pp.210,222 elements - 5 KINVIS Kinematic viscosity M ft2/S 1.2 lxl~-~ 1.67~101:- Xi? 0.74~10 Hanual p.223 - NBARCH -- MBCH

Coeficient of rough- ness for overland flow Weight density of soil Soil erodibility for erosion by concen- trated flow Coefficient of rough- ness for concentrated flow Yalin constant fdr sediment. transport Value for smooth bare surface M,R lbs/ft3 96.0 75-103 Values for B-horizon Manual p.224 M //lbs/ft2s( ft2/lb/lg0 0.135 0.04-0.70 Manual p.232 M 0.030 Manual p.224 M 0.635 Manual p. 224

I I

rd I -4

h w + J I

a1

rdk Q) a, Q) Q) rn

rdk r l k k C k k tnO U U U U U Q ) 4 3 -4=IQ) rd3a.l k rd rd rd rd -4 d

~ m k m r n ~ h ~ h O C Q , w 'H 'H 'H C U

Q) a rd - 4 k h ~

wcr

h a k rd.4 ' H d h ' H d d W d d 'H rd 5 1 5 3 I+ 3r: 3 m 4 J

Ordrdord

ord

0 k'H k k d Cn -4 r n r d W k k CI+ Crl crl a , & @ 9 m rn rn rnm Ord

C-cl C - 4 - 4 c.4-4 C + J = I ~ U a,

u

Q) u a,u

a

0 '340 0 1 0 0 tJlO O4J rn rd.d'Hd - 4 W d -4'Hd-d'H -4-4.4-d.dW 4.d rn -4rd 4 ' H O U ' H O U W O U ' H O k 4 J k O 4 J k 4Jk -4 -4 -4 -4 -4 -4 4 S)

" o r n u o a u o a ,

gE3mrlurdcr u m c l o m c l u m c l

rd rd U rd U r d U C - 4 O Q ) k Q ) O k (3'3kQ)a,4J k C a, k c rq k G rd k - 4 - d 0 a k rd a,k rd

a &

rd & k q

~rc.r(~~rc-rl~-. ~q-clu ~q ~t~1111cr)rda m r d a mrd amrd E

Table 2. (contd. ) The input data/paranleter file for tile erosion/sediritent yield subnlodel 8 DIAM Diameter of partic-

DIA/K/

les of type K in R sediment SPG: Specific gravity - SPG/K/ of particles of type K in sediment R rRAC Fraction of partic-

=/

les of type K in R sediment FRCLY Fraction of clay R FRCLY/K/

articles

in type K FRSLT Fraction of silt FRSLT/K/ particles in type K R FRSND Fraction of sand FRSND'K/ particles in type K R Fraction of orga- FR'I"\~-/ nic matter in type R K 9 DATOV Area represented by GtF acres overland flow profile SLNGTH Slo2e length of representative over- G,F f t land floiq profile AVGSLP Average slope of representative Gt F ft/f t overland flow pro- file Manual p.229, 2 30 Manual p.229 230

w Y C 4 J

o a o C

.A -d -4

Table 2. (contd.) The input data/paraneter file for the erosion/sedinent yield submodel 11 XKIN/I/ Relative horizon- tal distance GtF from top of slope to bottom of seginent I KIN/I/ Factor K for seg- Ft R tons/acres/EI ment I 12 NS No. of channel segments diffe- rentiated by chan- GI F ges in slope FLAGC Flag for type of cross section GtF of channel FLAGS Flag fortype of characteristics of type of flow F CONTL Type of flow at the end of F channel Characterizes SECTN cross section of F

1,2,3,4 Only when

-

FLAGS -1 13 SIDSLP Side slope of channel at its F cotg end BOTWID Bottom width of channel at its end F ft OUTMAN Coefficient of rough- .ness at the end of H,M channel OUTSLP Slope of bottom of channel at its end G,F

0.030-0.300 Manual p.248

Table 2. (contd.) The input data/pararileter file for the erosion/sediment yield submodel 1 2 3 4 5 G 7 8

- RA Coefficient in rating curve equa- tion FfH RN Exponent in rating curve equation 'F, H YBASE Minimum depth for flow to begin F ft 14 LNGTH Channel length G,F ft DATCH Drainage area of channel at its lower end DAUCH Drainage area above upper end of G channel Z Side slope of channel cross section

acres

acres

cotg 15 TX/I/ Distance from lower end of channel to the end of segment G I TS/I/ Slope of channel in segment I G,F 16 CTL Characterizes type of outflow from F 1,2,3f ponding PAC Characterizes rela- tion of water depth F,G

-

If2 to ponding area CONTL Type of flow at the end of channel F in ponding

Table 2. (contd.) The input data/parameter file for the erosion/sediment yield submodel Characterizes SECTN cross section of channel at its end F 17 DATPO INTAKE FIiOIu'T DRAW SIDE FS DIAO Total drainage area above the pond Soil water intake rate within the pond Slope of dam embank- ment of ponding Slope along channel draining into pond Slope of land at pond toward draw Coefficient in equa- tion for relation "water depth

-

area" Exponent in equa- tion for relation "water depth

-

area" Diameter of outflow

pipe Equivalent coeffi- cient of outflow acres in/hr ft/ft ft/ft ft/ft 4500.0-9500.0 Manual pp.252. 253 1.10

-

1.77 Man,ual pp. 232 253 Manual p. 253

Table 2. (conta.) Yne input data/parameter file for the erosion/sediment yield submodel 18 PDATE First date the £01- lowing parameters M are valid CDATE Last date the £01- lowing parameters I4 are valid

Julian date Manual p.208 Julian date Manual p. 208 19 NC No. of slope seg- NCNEW ments differentia- ,-, ted by changes in r factor C NP NPNEW No. of slope segments differentiated by changes in factor P F NM

--

NYNEW No. of slope seg-. ments differen- tiated by changes in coefficient F of roughness 20 XCIN/I/ Relative horizontal distance from top of slope to the bot-. F,G to 1.0 I =1 to NC tom of segment I CIN/I/ Factor C for segment I M,F Manual pp.233

-

237

Table 2. (contd.) The input data/naramcter file for the erosion/sedinent yield submodel 21 XPIN/I/ Relative horizon- tal distance from top of slope to the F,G bottom of segment I PIN/I/ Factor P for seg- ment I M,F

to 1.0 I

=

1 to NP Manual p.239 XMIN/I/ Relative horizon- tal distance from top of slope to the F,G bottom of segment I MIN/I/ Roughness coeffi- cient for over- land flow in seg- F,M ment I

Manual p.241 I W 2 I 23 NN NNNElW No. of channel seg- - ments differenti- ated by changes in roughness coeffi- F cient MCR No. of channel seg- NCRNEW ments dif ferenti- ated by changes F in critical shear stress NCV No. of channel seg- ments differenti- ated by changes in shear stress for F cover

Table 2. (contd.) The input data/parameter file for the erosion/sediment yield submodel NDN No. of channel seg- NDNNEW ments differentia- ted by changes in depth from channel middle to the non- F NDS erodible layer NO. of channel segments NDSNEW differentiated by changes in depth from the F channel side to the NW non-erodible layer N1rnEW No. of channel seg- ments differentia- ted by changes in F I-n width 24 XN/I/ Distance from lower end of channel to bottom of segment I TN/I/ Roughness coeffi- cient for concentra- PI, H,F Manual p. 248 ted flow in segment I 25 XCR/I/ Distance from lower end of channel to G,F ft bottom of segment I Critical shear stress of channel in seg- M,H,F ment I I

=

1 to NCR Manual pp.249, 250

Table 2. (contd.) The inrut data/parameter file for the erosion/sediment yield submodel 1 2 3.

4

5 6 7 8 26 XCV/I/ Distance from lo- wer end of chan- nel to bottom of Gf F segment I TCV/1/ Shear stress for cover stability . for channel in segment I

I=l to NCV 1bs/ft2 to 100.0 Manual p.250 XDN/I/ Distance from lo- wer end of chan- nel to bottom of GfF segment I TilN/I/ Depth to non- erodible layer in middle of channel in seg- F ment I

I=l to NDN to 1000.0 28 XDS/I/ Distance from lo- wer end of chan- nel to bottom of GfF ft 1=1 to NDS segment I TDS/I/ Depth to non- erodible layer along side of channel in seg- F ft to 1000.0 ment I

Table 2. (contd.) The input oata/parameter file for the erosion/sediment yield submodel --- - 1 2 3 4 5 7 8 29 XW/I/ Distance from lower end of channel to GtF ft I

=

1 to NW bottom of segment I TW/I/ Channel bottom width in segment I *'when the symbol used in the manual differs from that used in the computer program, the manual's symbol is given preference. Abbreviations used under Source (Column 4) : M

-

CREAMS Manaual R

-

Laboratory analysis and references F

-

Site visit and field measurements G

-

Geographic map GS

-

Soil map H

-

Hydraulic handbooks

From h y d r o l o g i c a n d e r o s i o n d a t a , t h e model p r o v i d e s e s t i m a t e s

Table 3. CRLU4S chemical submodel--differences ;between CREAMS

T a b l e 3 . ( c o n t d . ) CREAMS c h e m i c a l s u b m o d e l - - d i f f e r e n c e s b e t w e e n CREAMS manual a n d c o m p u t e r p r o g r a m on i n p u t c a r d s

-CARD N o . CREAMS MANUAL COMPUTER PROGRAM

1 8 DF FN,FP,FA

1 9 FN, FP, FA

-

N o t e : DMY, AWU i s m i s s i n g i n t h e c o m p u t e r p r o g r a m OM m u s t b e lower t h a n i n t h e e r o s i o n submodel

Table 4. Input aata (parameter file) for cnemical nutrient anu pesticide submodel CARD S'LI?.:TIOL DEFINITION SOURCE DIMENSION VALUES LIMITS COMMENTS DEFAULT 1 2 3 4 5 6 7 8 1-3 TITLE Alphanumeric in- formation 4 BDATE Beginning date for simulation FLGOUT Flag for type of printing FLGIIV Flaz for units M FLGPST Flag for pestici- M des FLrJNUT Flag for nutrie- M nts

Manual p. 208, Julian date 0,1, 2 Manual pp-288,313 Manual ~p.288~313 Manual pp. 288,313 I Manual ~p.288~313 W 03 I 5 SOLPOR Soil porosity R,GS cc/cc 0.26-0580 FC Field capacity R,GS cc/cc 0 11 Organic matter R,GS % 0.0-0.8 6 iKrJZST No. of pesticides 1

-

10 PDDATE Date the model begins to consider pesticides DEDATE Date the model stops considering pesti- cides Julian date Manual p.208 Julian date Manual p. 208

Table 4. (contd.) Input data (parameter file) for cl-~ernical nutrient and pesticide sub:?:olel 7 PDATE First date that the following chemical parameters are valid CDATE Last date that the foliowing chemical parameters are valid

Manual p. 208 Julian date Manual p,208 Julian date ' 8 APCATE Date the pesticides are applied Manual p.208 Julian date 9 PSTNAI4 The pesticide name up to 24 characters 10 UPRATE

U ate

of application MiE kg/ha CEPINC Depth of incorpora- tion EFFINC Efficiency of in- corp9ration FOLFRC Fraction of pes- ticides applied to the foliage SOLFRC Fraction of pesti- cidcs applied to the soil

herbicides Manual p. 311 1-5,insecti- cides 10-20 Surface appli- cation ltnor- mally 8-15 Manual p.321 Aerial .?p>l.

- -

0.4-0.6, ground appl. Manual pp.596-598 Bzre soil 1 Manual pp.596-598

Table 4. (contd.) Input data (parameter file) for chemical nutrient and pesticide submodel FOLRES Amount of pesticides residue cn the foli- MfH,P mg/g age prior to new application SOLRES Amount of pesticides residue on the soil MtRtp mg/g prior to new applica- tion WSHFRC Fraction of pestici- des on the foliage available for rain- fall wash-off ij7SBTHR Rainfall threshold for foliage wash- Mt R cm off organochlorides 0.05-0.10,other pesticides 0.6- 0.7

Manual pp.91-92, 560-585,599-601 Manual pp.91-92, 560-585 Manual p. 602 I Manual p.602, for F 0 dense crop canopy I 11 SOLHXO Water solubility of ptM pesticides PPm BAPLIF Foliar residue half-life P,M,R days

Manual ,pp. 311-312 Manual pp.599-601 EXTRCT Extraction ratio of pesticides RtM DECAY Decay constant ks of pesticides PtM,R Manual pp.563-567 in soil KD Distribution coef- ficient cf pesti- Mt R Manual pp.611-618, cides between soil 607-610 ar.d water 12 OPT Option for N uptake by plant NF No. of fertilizer applications DEMERG Date of plant emer- gence Manual ~p.73-80, 498-503 Julian date,no year Manual p.208

Table 4. (coiltd. ) Input data (parameter file) for chemical nutrient and pesticide submodel DHRWST Date of plant har- vesting Julian date, no year Manual p.208 13 SOLN SOLF NO 3 SOILN SOILP EXKN EXKP AN AP BN Soluble nitrogen Soluble phosphorous Nitrate in root- zone Soil nitrogen Soil phosphorous Extraction coef- ficient for ni- trogen Extrzction coef- f icient for pho- sphor~~~ Enrichment coef- ficient for ni- trogen Enrichment coef- ficient for phosphorous Enrichment expo- nent for nitro-

- - 0.01-0.40 In 1 cm soil surface layer 0.01-0.40 In 1 cm soil surface layer 0.0005-0.003 In 1 cm soil surface layer 0.0001-0.0013 In 1 cm soil surface layer 0.01-0.40 Manual pp.269,509-529 I & 0.01-0.40 Manual pp-269,509-529 Manual p.69 Manual pp.69,486-491 Manual p.69 14 BP Enrichment exponent R,M for phosphorous P OTN Potential minera- R,M,GS. kg/ha lizable nitrogen

- Manual pp-69,486

-

491 Manual pp.493-494

r 4

Table 4. (contd.) Input data (parameter file) for chemical nutrient and pesticide submodel 18 FN Nitrogen applied R. kg/ha FP Phosphorous applied K kg/ha FA Surface fraction of application R 1.0-0.3 Abbreviations used under Source (Column 4): M

-

CREAMS Manual R

-

Laboratory analysis and references F

-

Site visit and field measurements GS Soil map I'

-

Pesticide handbooks

The i n v e s t i g a t i o n s o f t h e c h e m i c a l and t h e e r o s i o n / s e d i m e n t