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C WARNING! The codes were created by NBEL Tester program. Please do NOT modify
C Last modified on 7/17/2015
C This sunroutine is generated from NBEL Tester for selected biomass equations
SUBROUTINE CalcBiomass(BEQ, DBH, THT, CR, BMS)
CHARACTER*12 BEQ
REAL DBH, THT, CR, VOL(15),BMS
INTEGER STEMS, ERRFLG
REAL HT1PRD, HT2PRD,TOPD
BMS = 0
CALL BiomassLibrary(BEQ,DBH,THT,CR,HT1PRD,
+ HT2PRD,TOPD, STEMS, VOL, BMS, ERRFLG)
RETURN
END
C ------------------------------------------------------------------------------------------------------------
C This subroutine calculates biomass for equation stored in the National Biomass Estimator Library (NBEL).
C The file fiabioeq.inc lists all FIA Regional biomass equation.
C The file bioeqinfo.inc lists published biomass equations in NBEL and the file bioeqcoef.inc contains the
C coefficients for all biomass equations.
C Input variables are:
C BIOEQ -- biomass equatiom number
C DBHOB -- outside bark diameter at breast height
C HTTOT -- total height
C CR -- crown ratio (=crown length/total height)
C HT1PRD -- height for primary prod (saw timber)
C HT2PRD -- height for secondary prod (pulp)
C TOPD -- top diameter for merch part
C STEMS -- number of stems for woodland species
C VOL -- the volume calculated from volume library
C BIOMS -- the calculated dry biomass for the given BIOEQ.
C ERRFLG -- error code returnd from calculation:
C 15 - invalid BIOEQ
C 16 - primary prod height required
C 17 - secondary prod height is required
C 18 - stem cubic volume is required for FIA biomass equation
SUBROUTINE BiomassLibrary(BIOEQ,DBHOB,HTTOT,CR,HT1PRD,
+ HT2PRD,TOPD,STEMS,VOL,BIOMS,ERRFLG)
CHARACTER*12 BIOEQ,GEOSUB
REAL DBHOB,HTTOT,HT1PRD,HT2PRD,TOPD,CR,VOL(15),BIOMS
INTEGER STEMS,ERRFLG,SPN
SPN = 0
GEOSUB = '0'
CALL BiomassLibrary2(BIOEQ,DBHOB,HTTOT,CR,HT1PRD,
+ HT2PRD,TOPD,STEMS,VOL,BIOMS,ERRFLG,SPN,GEOSUB)
RETURN
END
! ---------------------------------------------------------------------
SUBROUTINE BiomassLibrary2(BIOEQ,DBHOB,HTTOT,CR,HT1PRD,
+ HT2PRD,TOPD,STEMS,VOL,BIOMS,ERRFLG,SPN,GEOSUB)
INCLUDE 'fiabioeq.inc'
C INCLUDE 'bioeqinfo.inc'
C INCLUDE 'bioeqcoef.inc'
CHARACTER*12 BIOEQ,BIOEQTMP,GEOSUB,NVELBEQ
REAL DBHOB, HTTOT, TOPD, CR, VOL(15),BIOMS,BIOMSTMP
REAL HT1PRD, HT2PRD, VOLM(15)
CHARACTER*3 MDL,COMP
REAL DIA, HT
INTEGER STEMS, IDX, I, SPEC, ERRFLG,SPN
CHARACTER*2 DiaUnit, HtUnit, BioUnit
CHARACTER*3 DiaType, HtType
REAL IN2CM,IN2MM,IN2M,FT2M,FT2CM,KG2LB,G2LB,MG2LB
REAL SG(11), MC,JNKBMS(8),RATIO
REAL DTMP,HTMP,HT1,HT2,CV4,WDEN,BDEN,CV4MS
INTEGER EqForm,BEQNUM,stat,LEN,isint
ERRFLG = 0
! Check if BIOEQ is FIA equation number
CALL str2int(BIOEQ,BEQNUM,stat)
IF(stat.EQ.0)THEN
IF(BEQNUM.EQ.109)THEN
BIOMS = 0.0
RETURN
ELSE
CALL FIABEQ2NVELBEQ(BEQNUM,SPN,NVELBEQ,GEOSUB,ERRFLG)
ENDIF
ELSE
NVELBEQ = BIOEQ
ENDIF
DIA = DBHOB
HT = HTTOT
MDL = NVELBEQ(1:3)
COMP = NVELBEQ(7:9)
VOLM = VOL
BIOMS = 0.0
IF(MDL.EQ.'CRM')THEN
! Jenkins component ratio method
CV4 = VOL(4)+VOL(7)
! IF(CV4.LT.0.1)THEN
! ERRFLG = 18
! RETURN
! ENDIF
C CALL JENKINS FUNCTION TO GET BIOMASS FOR TREE COMPONENT
C NOTE: JENKINS FUNCTION RETURN DRY BIOMASS FOR THE FOLLOWING COMPONENT
C 1 ABOVE GROUND TOTAL
C 2 STEM WOOD
C 3 STEM BARK
C 4 FOLIAGE
C 5 ROOTS
C 6 BRANCHES
C 7 CROWN
C 8 STEM WOOD AND BARK
CALL JENKINS(SPN, DIA, JNKBMS)
!Convert CV4 to mass
CALL WOODDEN(SPN, WDEN, BDEN)
CV4MS = CV4*WDEN
IF(CV4MS.GT.0.0.AND.JNKBMS(2).GT.0.0)THEN
RATIO = CV4MS/JNKBMS(2)
ELSE
IF(DIA.LT.5.0)THEN
CALL SAPLINGADJ(SPN,RATIO)
ELSE
RATIO = 1.0
ENDIF
ENDIF
!return results for components
IF(COMP.EQ.'AGT')THEN
BIOMS = JNKBMS(1)*RATIO
ELSEIF(COMP.EQ.'MSW')THEN
BIOMS = JNKBMS(2)*RATIO
ELSEIF(COMP.EQ.'MSB')THEN
BIOMS = JNKBMS(3)*RATIO
ELSEIF(COMP.EQ.'FOT')THEN
BIOMS = JNKBMS(4)*RATIO
ELSEIF(COMP.EQ.'RTT')THEN
BIOMS = JNKBMS(5)*RATIO
ELSEIF(COMP.EQ.'BRT'.OR.COMP.EQ.'BRL')THEN
BIOMS = JNKBMS(6)*RATIO
ELSEIF(COMP.EQ.'CRW')THEN
BIOMS = JNKBMS(7)*RATIO
ELSEIF(COMP.EQ.'MST')THEN
BIOMS = JNKBMS(8)*RATIO
ENDIF
ELSEIF(MDL.EQ.'FNW'.OR.MDL.EQ.'FRM'.OR.MDL.EQ.'FNC'
+ .OR.MDL.EQ.'FNE'.OR.MDL.EQ.'FSE'.OR.MDL.EQ.'FPI'
& .OR.MDL.EQ.'CAB'.OR.MDL.EQ.'CHV'.OR.MDL.EQ.'ASN')THEN
C Check if the equation is a valid
IDX = 0
! No need to check equation number for FNW***STW01D and FNW***MSW01D
IF(MDL.EQ.'FNW'.AND.(COMP.EQ.'STW'.OR.COMP.EQ.'MSW'))THEN
CONTINUE
ELSE
DO I = 1, TOTEQ
IF(MDL.EQ.'FSE'.AND.FIABEQ(I)(1:11).EQ.NVELBEQ(1:11))THEN
IDX = I
EXIT
ELSEIF(FIABEQ(I).EQ.NVELBEQ)THEN
IDX = I
EXIT
ENDIF
END DO
IF(IDX.EQ.0)THEN
C Flag for invalid BIOEQ
ERRFLG = 15
RETURN
ENDIF
ENDIF
C Vol(4) should be the volume to 4" top
C If top wood volume is saved in VOL(7), add it back to VOL(4)
IF(VOLM(7).GT.0) VOLM(4) = VOLM(4)+VOLM(7)
C Stem cubic volume is required for FIA biomass equation
! IF(VOLM(1).EQ.0.AND.VOLM(4).EQ.0)THEN
! ERRFLG = 18
! RETURN
! ENDIF
C For the FIA biomass equation call FIA subroutine
IF(MDL.EQ.'FNW')THEN
CALL FIA_NW(NVELBEQ, DIA, HT, VOLM, BIOMS)
ELSEIF(MDL.EQ.'FRM')THEN
CALL FIA_RM(NVELBEQ, DIA, HT, STEMS, VOLM, BIOMS)
ELSEIF(MDL.EQ.'FNC')THEN
CALL FIA_NC(NVELBEQ, DIA, HT, VOLM, BIOMS)
ELSEIF(MDL.EQ.'FNE')THEN
CALL FIA_NE(NVELBEQ, DIA, HT, VOLM, BIOMS)
ELSEIF(MDL.EQ.'FSE')THEN
CALL FIA_SE(NVELBEQ, DIA, HT, VOL, BIOMS)
ELSE
! PACIFIC ISLANDS
CV4 = VOLM(4)
CALL PI_BIOMASS(SPN,NVELBEQ,DIA,HT,CV4,BIOMS,ERRFLG)
ENDIF
ELSEIF(MDL.EQ.'BRN'.AND.NVELBEQ(10:12).EQ.'00D')THEN
C Brown's fraction biomasss
C List of Brown fraction equations:
C BRN***FOT00D, BRN***B0Q00D,BRN***BQ100D,BRN***B1300D,
C BRN***B3P00D, BRN***LCR00D,BRN***DCR00D
C Valid species code:
C 011,015,017,019,020,021,022,041,042,073,081,093,
C 098,101,108,116,117,119,121,122,202,242,260,263
CALL BROWN(NVELBEQ, DIA, HT, CR, BIOMS,ERRFLG)
ELSE
!C For equations saved in the SQLite database, calculate biomass with its equation formula
! Affleck 2019 component sum equations
IF(MDL.EQ.'AFF'.AND.(COMP.EQ.'LCR'.OR.
& COMP.EQ.'MST'.OR.COMP.EQ.'AST'.OR.COMP.EQ.'B0Q'))THEN
BIOEQTMP = NVELBEQ
IF(COMP.EQ.'MST')THEN
! MAIN STEM TOTAL (BARK + WOOD)
BIOEQTMP(7:9)='MSB'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
BIOEQTMP(7:9)='MSW'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
ELSEIF(COMP.EQ.'LCR')THEN
! LIVE CROWN (LiveBranches + Foliage)
BIOEQTMP(7:9)='BRL'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
BIOEQTMP(7:9)='FOT'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
ELSEIF(COMP.EQ.'AST')THEN
! ABOVE STUMP TOTAL (DeadBranched + LiveBranches + Foliage + StemBARK + StemWOOD)
BIOEQTMP(7:9)='BRD'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
BIOEQTMP(7:9)='BRL'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
BIOEQTMP(7:9)='FOT'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
BIOEQTMP(7:9)='MSB'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
BIOEQTMP(7:9)='MSW'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS+BIOMSTMP
ELSEIF(COMP.EQ.'B0Q')THEN
! BRANCHES < 1/4 INCHES
BIOEQTMP(7:9)='BRL'
DTMP = DIA
HTMP = HT
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMS,ERRFLG)
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQ,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS*BIOMSTMP
ENDIF
ELSEIF(MDL.EQ.'SNE'.AND.COMP.EQ.'BRL')THEN
! Snell live branches = live crown - foliage total
BIOEQTMP = NVELBEQ
BIOEQTMP(7:9)='CRW'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMSTMP
BIOEQTMP(7:9)='FOT'
DTMP = DIA
HTMP = HT
BIOMSTMP = 0.0
CALL BIOEQDB(BIOEQTMP,DTMP,HTMP,HT1,HT2,CR,TOPD,
& BIOMSTMP,ERRFLG)
BIOMS = BIOMS - BIOMSTMP
ELSE
CALL BIOEQDB(NVELBEQ,DIA,HT,HT1PRD,HT2PRD,CR,TOPD,
& BIOMS,ERRFLG)
ENDIF
ENDIF
RETURN
END
C *********************************************************************************************************
C This subroutine the specific gravity data for a given species
C The wood and bark specific gravity data for a species are given as:
C Column# Name
C 1 Species FIA code
C 2 soft or hard wood (0=soft and 1=hard)
C 3 Jenkins species group code
C 4 Wood dry weight (lb/cf)
C 5 bark dry weight (lb/cf)
C 6 Wood moist content(%)
C 7 Bark moist cotent (%)
C 8 bark to wood vol percent (%)
C 9 Green weight factor (lb/cf)
C 10 Dry weight factor (lb/cf)
C 11 Sapling adjustment factor
SUBROUTINE MILESDATA(SPCD, SG)
INCLUDE 'wdbkwtdata.inc' !'WDBKWTDATA.INC'
INTEGER SPCD, FIRST, LAST, HALF, DONE
REAL SG(11)
DONE = 0
FIRST = 1
LAST = TOTSPC
DO 50, WHILE (DONE.EQ.0)
HALF = (LAST - FIRST +1)/2 + FIRST
IF(WDBKWT(HALF,1).EQ.SPCD) THEN
DONE = HALF
ELSEIF(FIRST .EQ. LAST) THEN
DONE = -1
ELSEIF(WDBKWT(HALF,1).LT.SPCD) THEN
FIRST = HALF
ELSE
LAST = HALF - 1
ENDIF
50 CONTINUE
IF(DONE.LT.0) DONE = TOTSPC
SG(1) = WDBKWT(DONE,1)
SG(2) = WDBKWT(DONE,2)
SG(3) = WDBKWT(DONE,3)
SG(4) = WDBKWT(DONE,4)
SG(5) = WDBKWT(DONE,5)
SG(6) = WDBKWT(DONE,6)
SG(7) = WDBKWT(DONE,7)
SG(8) = WDBKWT(DONE,8)
SG(9) = WDBKWT(DONE,9)
SG(10) = WDBKWT(DONE,10)
SG(11) = WDBKWT(DONE,11)
RETURN
END
C **********************************************************************
SUBROUTINE BIOEQDB(BIOEQ,DIA,HT,HT1PRD,HT2PRD,CR,TOPD,
& BIOMS,ERRFLG)
INCLUDE 'bioeqinfo.inc'
INCLUDE 'bioeqcoef.inc'
CHARACTER*12 BIOEQ
REAL DIA,HT,HT1PRD,HT2PRD,CR,CL,TOPD,BIOMS
REAL a,b,c,d,e
INTEGER STEMS, IDX, I, SPEC, ERRFLG, EqForm
CHARACTER*2 DiaUnit, HtUnit, BioUnit
CHARACTER*3 DiaType, HtType
REAL IN2CM,IN2MM,IN2M,FT2M,FT2CM,KG2LB,G2LB,MG2LB
REAL SG(11), MC
C For equations saved in the SQLite database, calculate biomass with its equation formula
C 1. check if the BIOEQ is valid. EQNTOT is total number of biomass equations in the database
IDX = 0
a = 0.0
b = 0.0
c = 0.0
d = 0.0
e = 0.0
C List of unit conversion factor
IN2CM = 2.54
IN2MM = 25.4
IN2M = 0.0254
FT2M = 0.3048
FT2CM = 30.48
KG2LB = 2.20462
G2LB = 0.00220462
MG2LB = 2204.62
DO I = 1, EQNTOT
IF(BIOMSEQ(I)%BIOEQ.EQ.BIOEQ)THEN
IDX = I
EXIT
ENDIF
END DO
IF(IDX.EQ.0)THEN
ERRFLG = 15
RETURN
ENDIF
IF(BIOEQ(1:2).EQ.'AS')THEN
READ(BIOEQ(3:6),'(I4)') SPEC
ELSE
READ(BIOEQ(4:6),'(I3)') SPEC
ENDIF
C 2. get the EQN info and coef
DiaUnit = BIOMSEQ(IDX)%DiaUnit
DiaType = BIOMSEQ(IDX)%DiaType
HtType = BIOMSEQ(IDX)%HtType
HtUnit = BIOMSEQ(IDX)%HtUnit
IF(HtType.EQ.'HT1')THEN
IF(HT1PRD.LE.0)THEN
C Primary prod height is required for the BIOEQ
ERRFLG = 16
RETURN
ELSE
HT = HT1PRD
ENDIF
ELSEIF(HtType.EQ.'HT2')THEN
IF(HT2PRD.LE.0)THEN
C Secondary prod height is required for the BIOEQ
ERRFLG = 17
RETURN
ELSE
HT = HT2PRD
ENDIF
ENDIF
IF(DiaUnit.EQ.'CM'.OR.DiaUnit.EQ.'cm')THEN
DIA = DIA*IN2CM
ELSEIF(DiaUnit.EQ.'MM'.OR.DiaUnit.EQ.'mm')THEN
DIA = DIA*IN2MM
ELSEIF(DiaUnit.EQ.'M'.OR.DiaUnit.EQ.'m')THEN
DIA = DIA*IN2M
ENDIF
IF(HtUnit.EQ.'M'.OR.HtUnit.EQ.'m')THEN
HT = HT*FT2M
ELSEIF(HtUnit.EQ.'CM'.OR.HtUnit.EQ.'cm')THEN
HT = HT*FT2CM
ENDIF
CL = CR*HT
IF(DiaType.EQ.'CBH'.OR.DiaType.EQ.'CRC'.OR.DiaType.EQ.'CBA')THEN
DIA = DIA*3.14
ELSEIF(DiaType.EQ.'BA')THEN
DIA = (DIA/2)**2*3.14
ELSEIF(DiaType.EQ.'D2')THEN
DIA = DIA*DIA
ELSEIF(DiaType.EQ.'BAH')THEN
DIA = DIA**2*0.005454*HT
ELSEIF(DiaType.EQ.'D2H')THEN
DIA = DIA*DIA*HT
ELSEIF(DiaType.EQ.'D2R')THEN
DIA = DIA*DIA*CR
ENDIF
EqForm = BEQCOEF(IDX,1)
a = BEQCOEF(IDX,2)
b = BEQCOEF(IDX,3)
c = BEQCOEF(IDX,4)
d = BEQCOEF(IDX,5)
e = BEQCOEF(IDX,6)
C 3. call the EQN formula to calculate the biomass
CALL BioeqFormula(EqForm,DIA,HT,CR,TOPD,a,b,c,d,e,BIOMS)
IF(BIOEQ(12:12).EQ.'R'.OR.EqForm.EQ.41.OR.EqForm.EQ.19) RETURN
C 4. return dry biomass in lb
BioUnit = BIOMSEQ(IDX)%BioUnit
IF(BioUnit.EQ.'KG')THEN
BIOMS = BIOMS*KG2LB
ELSEIF(BioUnit.EQ.'G')THEN
BIOMS = BIOMS*G2LB
ELSEIF(BioUnit.EQ.'MG')THEN
BIOMS = BIOMS*MG2LB
ENDIF
READ(BIOEQ(4:6),'(I3)') SPEC
C Convert to dry biomass if the original equation is for green biomass
IF(BIOEQ(12:12).EQ.'G')THEN
CALL MILESDATA(SPEC, SG)
MC = (SG(9)-SG(10))/SG(10)
BIOMS = BIOMS/(1.0+MC)
ENDIF
RETURN
END
C ********************************************************************
subroutine biomasslib_r(BIOEQ,DBH_d,THT_d,CL_d,HT1_d,HT2_d,CV4_d,
+ TOPD_d,STEMS,DRYBIOMAS_d,GRNBIOMAS_d,ERRFLAG,SPN,GEOSUB)
C This subroutine is for R user to calculate biomass !
C YW 05/09/2019
! YW 2019/08/05 Added input variables SPN and GEOSUB and also make BIOEQ
! be able to use FIA biomass equation number.
!DEC$ ATTRIBUTES C,REFERENCE, DLLEXPORT::biomasslib_r
!DEC$ ATTRIBUTES DECORATE, ALIAS:'biomasslib_r_'::biomasslib_r
IMPLICIT NONE
DOUBLE PRECISION DBH_d,THT_d,CL_d,HT1_d,HT2_d,CV4_d,TOPD_d
DOUBLE PRECISION DRYBIOMAS_d,GRNBIOMAS_d
CHARACTER*12 BIOEQ,GEOSUB,NVELBEQ
INTEGER SPEC,STEMS,ERRFLAG,SPN
REAL DBHOB,HTTOT,HT1PRD,HT2PRD,CV4,VOL(15),TOPD,CL,CR
REAL DRYBIOMAS,GRNBIOMAS
REAL SG(11), MC
DBHOB = REAL(DBH_d)
HTTOT = REAL(THT_d)
HT1PRD = REAL(HT1_d)
HT2PRD = REAL(HT2_d)
CV4 = REAL(CV4_d)
TOPD = REAL(TOPD_d)
VOL(4) = CV4
CL = REAL(CL_d)
ERRFLAG = 0
DRYBIOMAS = 0.0
GRNBIOMAS = 0.0
IF(HTTOT.GT.1.0.AND.CL.GT.1.0) CR = CL/HTTOT
CALL BiomassLibrary2(BIOEQ,DBHOB,HTTOT,CR,HT1PRD,
+ HT2PRD,TOPD,STEMS,VOL,DRYBIOMAS, ERRFLAG,SPN,GEOSUB)
IF(SPN.EQ.0)THEN
READ(BIOEQ(4:6),'(I3)') SPEC
ELSE
SPEC = SPN
ENDIF
CALL MILESDATA(SPEC, SG)
MC = (SG(9)-SG(10))/SG(10)
GRNBIOMAS = DRYBIOMAS*(1.0+MC)
DRYBIOMAS_d = DBLE(DRYBIOMAS)
GRNBIOMAS_d = DBLE(GRNBIOMAS)
RETURN
END
C ********************************************************************
C This subroutine return the species default weight factor for R
subroutine getwtfactor_r(REGN,FORST,SPEC,GRNWF_d,DRYWF_d)
!DEC$ ATTRIBUTES C,REFERENCE, DLLEXPORT::getwtfactor_r
!DEC$ ATTRIBUTES DECORATE, ALIAS:'getwtfactor_r_'::getwtfactor_r
IMPLICIT NONE
DOUBLE PRECISION GRNWF_d,DRYWF_d
REAL WF(3),DRYWF
INTEGER REGN,SPEC
CHARACTER*2 FORST
CHARACTER*12 BMSEQ(8), BIOEQ
CHARACTER*40 REF(8)
WF = 0.0
CALL CRZSPDFT(REGN,FORST,SPEC,WF,BMSEQ,REF)
DRYWF = WF(1)/(1.0+WF(3)/100.0)
GRNWF_d = DBLE(WF(1))
DRYWF_d = DBLE(DRYWF)
RETURN
END