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!== last modified 10-26-2005
C FILE CONTAINS THE FOLLOWING ROUTINES:
C SHP_C2
C COR_C2
C VAR_C2
C FDBT_C2
C BRK_UPA2
C BRK_UPB2
C BRK_UPC2
C BRK_UPD2
C BRK_UPH2
c***********************************************************************
c***********************************************************************
SUBROUTINE SHP_C2(JSP,DBH,HT,GeoSUB,RFLW,RHFW)
c Stem form SHAPE parameters for COOP #2 (INGY, east-side)
c***********************************************************************
c
c J. W. Flewelling, July, 1996
c
c NOTE: F(49) reference REMOVED
IMPLICIT DOUBLE PRECISION (A-H, O-Z)
CHARACTER*2 PPSUB(16),GFSUB(14),WLSUB(21),dfSUB(3),ESSUB(3)
CHARACTER*2 GEOSUB,GEOTEMP
INTEGER PPSUBF(16),GFSUBF(14),WLSUBF(21),dfSUBF(3),ESSUBF(3)
INTEGER JSP,JRSP, I, IP
REAL*8 GFSUBC(14),PPSUBC(16),wlSUBC(21),dfSUBC(3),ESSUBC(3)
REAL*8 F(47,23),DMEDIAN,DFORM
REAL*4 RFLW(6),RHFW(4)
REAL*4 RHI1, RHI2, RHC, RHLONGI,DBH, HT
REAL*8 U7,U1,U9T,U9,U8,U2,U3,U4,U5,U6
REAL*4 R1, R2, R3, R4, R5, A3
C DOUGLAS FIR x
DATA (F(I,11),I=10,47)/0.19750000D+00, 0.96630000D+00,
> 0.36700000D-03, -0.29164923D+01, 0.33255872D+00,
> -0.19692956D+00, 0.83070580D-01, 0.0,
> -0.12712219D+02, 0.25447851D+01, 0.10000000D+02,
> 0.64074304D+00, 0.73487234D-02, 0.0,
> 0.0, -0.50396657D+01, -0.10401496D+00,
> 0.64537237D-01, 0.00000000D+00, 0.13406196D+01,
> -0.59490857D+00, -0.15332078D+01, 0.20255950D+00,
> 0.00000000D+00, 0.81367568D+00, 0.41706924D+01,
> -0.37302026D+00, -0.68581021D+00, 0.11919105D+01,
> 0.57298855D+01, -0.15339884D+00, 0.00000000D+00,
> 0.15708690D+02, -0.42931675D+01, 0.0,
> 0.99873166D+00, 0.00000000D+00, 0.15871937D-02/
DATA (dfSUBF(I),I=1,3)/25,34,38/
DATA (dfSUBC(I),I=1,3)/-5.1791473, 0.86605974, 1.4757324/
DATA (dfSUB(I),I=1,3)/'15','15','15'/
C WESTERN LARCH x
DATA (F(I,12),I=10,47)/0.55800000D-01, 0.12635000D+01,
> -0.31600000D-03,-0.37412141D+01, 0.44575252D+00,
> 0.89801684D+00, 0.14462736D+00, 0.0,
> -0.85746216D+01, 0.13343304D+01,-0.10000000D+02,
> 0.82267167D+00, 0.14739988D-02, 0.00000000D+00,
> 0.00000000D+00,-0.22688523D+01,-0.36440716D+00,
> 0.53591173D+00,-0.12185507D+00, 0.62100649D+01,
> -0.57931125D+01,-0.20341109D+01, 0.10866030D+01,
> 0.00000000D+00, 0.24256394D+01, 0.33616835D+01,
> -0.77862842D+00,-0.51614876D+00,-0.12757916D+01,
> 0.52064652D+01, 0.70916365D-01, 0.00000000D+00,
> 0.70100000D+01, 0.00000000D+00, 0.0,
> 0.10570004D+01,-0.37228278D-01, 0.00000000D+00/
DATA (wlSUBF(I),I=1,21)/25,34,38,25,34,38,25,34,38,25,34,38,
> 25,34,38,25,34,38,25,34,38/
DATA (wlSUBC(I),I=1,21)/-2.1106, 2.4462, -0.6887, -2.1106, 2.4462,
> -0.6887, -2.1106, 2.4462, -0.6887, -2.2589, 2.4804,
> -0.9800, -2.3163, 2.5635, -1.8389, -2.2120, 2.3068,
> -3.1474, -2.6188, 2.2260, -2.9061/
DATA (wlSUB(I),I=1,21)/'11','11','11','12','12','12','13','13',
> '13', '14','14','14','21','21','21','22','22','22',
> '23', '23', '23'/
C GRAND FIR x
DATA (F(I,13),I=10,47)/0.61910000D+00, 0.62000000D+00,
> 0.11060000D-02,-0.42831232D+01, 0.45032799D+00,
> 0.73614139D+00, 0.00000000D+00, 0.0,
> 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.99000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.00000000D+00,-0.29863381D+00,-0.82225003D+00,
> -0.27240416D+01, 0.67657190D+00, 0.16919024D+02,
> -0.61079274D+01,-0.45921161D+01, 0.12145862D+01,
> 0.64609717D-01, 0.28820208D+01, 0.65046828D+01,
> -0.88466758D+00,-0.10711229D+01,-0.70000000D+01,
> 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.70100000D+01, 0.00000000D+00, 0.0,
> 0.11283420D+01, 0.00000000D+00, 0.00000000D+00/
DATA (GFSUBF(I),I=1,14)/25, 34, 25, 34, 25, 34, 25, 34, 0, 0, 0,
> 0, 0, 0/
DATA (GFSUBC(I),I=1,14)/0.1155, 3.4515, -0.3523, 2.7100, -0.5377,
> 2.3612, -0.4220, 3.0112, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0/
DATA (GFSUB(I),I=1,14)/'11', '11', '12', '12', '13', '13', '14',
> '14', '0','0', '0', '0', '0', '0'/
C PONDEROSA PINE x
DATA (F(I,14),I=10,47)/0.60780000D+00, 0.68530000D+00,
> 0.89600000D-03, 0.23497863D+00,-0.49304350D+00,
> -0.40653847D+00, 0.20354301D+00, 0.0,
> -0.51250474D+02, 0.10000000D+02, 0.10000000D+02,
> 0.99000000D+00, 0.00000000D+00, 0.0,
> 0.0, 0.31515199D+01,-0.15821358D+01,
> -0.78226363D+00, 0.20572640D+00, 0.70000000D+01,
> 0.00000000D+00,-0.21733814D+01, 0.00000000D+00,
> 0.00000000D+00, 0.16232866D+01, 0.28274701D+01,
> -0.61473990D+00,-0.43899912D+00,-0.70000000D+01,
> 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.70100000D+01, 0.00000000D+00, 0.0,
> 0.16016982D+01, 0.30035441D-01,-0.11189887D+00/
DATA (PPSUBF(I),I=1,16)/25,34,25,34,25,34,25,34,
> 25,34,25,34,25,34,25,34/
DATA (PPSUBC(I),I=1,16)/3.1502, 1.7744, 3.1656, 1.5816, 3.2769,
> 1.7373, 3.2767, 1.6983, 3.2245252, 1.6981343, 2.9407,
> 1.3921, 2.9407, 1.3921, 2.9407, 1.3921/
DATA (PPSUB(I),I=1,16)/'11','11','12','12','13','13','14','14',
> '15','15','21','21','22','22','23','23'/
C LODGEPOLE PINE x
DATA (F(I,15),I=10,47)/0.27880000D+00, 0.80570000D+00,
> 0.60300000D-03,-0.32297770D+01, 0.29066903D+00,
> 0.00000000D+00, 0.30000000D+00, 0.0,
> -0.73135235D+01, 0.17997854D+01,-0.46687141D+01,
> 0.99000000D+00, 0.00000000D+00, 0.0,
> 0.0, -0.39880859D+01, 0.00000000D+00,
> 0.13488046D+00, 0.00000000D+00,-0.22454794D+01,
> -0.89091796D+01, 0.24904793D-03, 0.26158442D+01,
> -0.14388585D+00, 0.54543027D+00, 0.10461105D+01,
> -0.17766248D+01,-0.46411162D-01,-0.70000000D+01,
> 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.71000000D+01, 0.00000000D+00, 0.0,
> 0.10483171D+01, 0.00000000D+00, 0.00000000D+00/
C WESTERN RED CEDAR x
DATA (F(I,16),I=10,47)/0.12003000D+01, 0.38370000D+00,
> 0.23610000D-02, -0.13362316D+01, -0.76083922D-01,
> 0.53689416D+00, 0.51502913D-01, 0.0,
> 0.12752668D+05, -0.29461345D+04, 0.00000000D+00,
> 0.86133893D+00, 0.87843224D-03, 0.00000000D+00,
> -0.92557385D-01, -0.32607008D+01, -0.39778231D+00,
> 0.37451942D+00, 0.00000000D+00, -0.70000000D+01,
> -0.30300041D-01, 0.68038910D+00, 0.00000000D+00,
> 0.00000000D+00, -0.13274105D+00, 0.63544397D+00,
> -0.12987130D-01, 0.39612037D+00, -0.10756845D+01,
> -0.12267329D+00, 0.00000000D+00, 0.00000000D+00,
> -0.17156840D+04, 0.36000586D+03, 0.0,
> 0.10236417D+01, 0.00000000D+00, 0.00000000D+00/
C MOUNTAIN HEMLOCK x
DATA (F(I,17),I=10,47)/0.83820000D+00, 0.51300000D+00,
> 0.16430000D-02, -0.34559297D+01, 0.22795657D+00,
> 0.99130564D+00, 0.00000000D+00, 0.0,
> 0.78000000D+01, 0.00000000D+00, 0.00000000D+00,
> 0.60000001D+00, 0.31347634D-03, 0.72138116D-01,
> 0.10068839D+00, 0.17582080D+00, -0.74261909D+00,
> -0.53570996D+01, 0.12300888D+01, 0.13222316D+02,
> 0.39423648D+01, -0.40000000D+01, 0.00000000D+00,
> 0.00000000D+00, 0.21475964D+01, -0.50787650D+01,
> -0.68591807D+00, 0.94211201D+00, 0.69986956D+01,
> 0.49639291D+01, -0.16521763D+01, 0.15802387D+00,
> -0.10015951D+02, 0.0, 0.0,
> 0.47345027D+01, 0.00000000D+00, 0.00000000D+00/
C WHITE PINE x
DATA (F(I,18),I=10,47)/0.49340000D+00, 0.67040000D+00,
> 0.72300000D-03, -0.18546510D+01, -0.85523346D-02,
> -0.74387901D-02, 0.54563992D-01, 0.0,
> 0.11464565D+02, -0.30019058D+01, 0.10000000D+02,
> 0.99000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.00000000D+00, 0.28974423D+00, -0.95880328D+00,
> -0.52319899D+01, 0.11934487D+01, -0.44019249D+03,
> -0.25373650D+03, 0.11673600D+03, 0.77186108D+02,
> -0.69085106D+01, 0.40552875D+01, 0.51058436D+01,
> -0.10162153D+01, -0.83543326D+00, -0.56895575D+01,
> 0.10097670D+01, -0.26230901D+01, 0.00000000D+00,
> 0.70100000D+01, 0.00000000D+00, 0.0,
> 0.10608156D+01, 0.00000000D+00, 0.00000000D+00/
C ENGELMANN SPRUCE x
DATA (F(I,19),I=10,47)/0.21020000D+00, 0.91540000D+00,
> 0.37900000D-03,-0.11783855D+01,-0.14696420D+00,
> 0.00000000D+00, 0.00000000D+00, 0.0,
> 0.47833781D+01,
> 0.00000000D+00, 0.00000000D+00, 0.11012131D+01,
> 0.00000000D+00, 0.00000000D+00,-0.14080632D+00,
> -0.32084903D+01,-0.50803245D+00,-0.28716052D+01,
> 0.68962947D+00,-0.55872917D+01, 0.10768701D+01,
> 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.67467581D+00, 0.26196857D+01,-0.28700698D+00,
> -0.24239205D+00, 0.27377330D+02, 0.54066640D+01,
> -0.78134218D+01, 0.00000000D+00, 0.70100000D+01,
> 0.00000000D+00, 0.0, 0.10128065D+01,
> -0.76869726D-02, 0.00000000D+00/
DATA (ESSUBF(I),I=1,3)/25,34,38/
DATA (ESSUBC(I),I=1,3)/ -3.0604051, 0.71303009, 28.449170/
DATA (ESSUB(I),I=1,3)/'15','15','15'/
C SUBALPINE FIR x
DATA (F(I,20),I=10,47)/0.51943000D+00, 0.71090000D+00,
> 0.50300000D-03,-0.31923987D+01, 0.23511076D+00,
> 0.70357974D+00, 0.27921523D-01, 0.0,
> 0.50014801D+01, 0.00000000D+00, 0.00000000D+00,
> 0.99000000D+00, 0.00000000D+00, 0.0, 0.0,
> -0.69388143D+01, 0.65934447D+00,
> 0.58065085D+01,-0.94399410D+00,-0.70000000D+01,
> 0.61594354D+00, 0.92176422D+00, 0.00000000D+00,
> 0.00000000D+00, 0.28173605D+01, 0.82345395D+01,
> -0.72343654D+00,-0.13929103D+01,-0.70000000D+01,
> 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.70100000D+01, 0.00000000D+00, 0.0,
> 0.10499208D+01, 0.00000000D+00, 0.00000000D+00/
C BALSAM (GF,WF OR SUBALPINE FIR) B.C. x
DATA (F(I,21),I=10,47)/0.61910000D+00, 0.62000000D+00,
> 0.11060000D-02, -0.31216721D+01, 0.20476079D+00,
> 0.21889439D+00, 0.00000000D+00, 0.0,
> 0.50000000D+01, 0.00000000D+00, 0.00000000D+00,
> 0.99000000D+00, 0.00000000D+00, 0.0,
> 0.0, -0.41759884D+01, 0.0,
> 0.0, -0.48789854D+00, -0.72972498D+00,
> -0.26246239D-01, -0.92747210D+00, 0.00000000D+00,
> 0.00000000D+00, 0.53238816D+00, 0.85805304D+01,
> -0.15335061D+00, -0.16191350D+01, 0.37954976D+02,
> -0.69887695D+01, -0.10000000D+02, 0.00000000D+00,
> 0.70100000D+01, 0.00000000D+00, 0.0,
> 0.10050000D+01, 0.00000000D+00, 0.00000000D+00/
C PONDEROSA PINE Central Idaho Taper Project
C DATA (F(I,22),I=10,47)/ 0.59532444D+00, 0.71960574D+00,
C > 0.00000000D+00, -0.35325066D+00, -0.36096083D+00,
C > -0.29617657D+00, 0.00000000D+00, 0.0,
C > -0.51250474D+02, 0.10000000D+02, 0.10000000D+02,
C > 0.99000000D+00, -0.23852919D-03, 0.0,
C > 0.0, 0.32567984D+01, -0.16274389D+01,
C > -0.65209881D+01, 0.15847455D+01, 0.70000000D+01,
C > -0.31937474D+02, -0.17812912D+01, 0.80409553D+01,
C > -0.14459854D+00, 0.24745882D+01, 0.31064531D+01,
C > -0.84611975D+00, -0.42192772D+00, -0.70000000D+01,
C > 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
C > 0.70100000D+01, 0.00000000D+00, 0.0,
C > 0.12686459D+01, -0.52691593D-01, -0.32305446D-01/
C
C WHITE FIR/GRAND FIR Central Idaho Taper Project
DATA (F(I,23),I=10,47)/ 0.46115714D+00, 0.76559415D+00,
> 0.34060552D-03, -0.30187113D+01, 0.18558991D+00,
> 0.58513312D+00, 0.00000000D+00, 0.0,
> 0.00000000D+00, 0.00000000D+00, 0.00000000D+00,
> 0.60000000D+00, 0.75390116D-02, -0.54641559D-01,
> -0.71474657D+00, -0.21927762D+00, -0.79239041D+00,
> -0.36733966D+01, 0.10226880D+01, 0.11219032D+02,
> -0.22914712D+02, -0.28447877D+01, 0.56456140D+01,
> -0.42442105D-01, 0.35585986D+01, 0.43315667D+00,
> -0.10654660D+01, 0.34912661D+00, 0.70000000D+01,
> 0.39050075D+01, -0.17010062D+01, -0.29678271D-01,
> 0.70100000D+01, 0.00000000D+00, 0.0,
> 0.18993115D+01, -0.32633160D+00, -0.13456331D+00/
c Set counter for regional adjs
c Check for regional modifications requested
JRSP=JSP
IF (GEOSUB.ne.'00') then
c And check whether they exist
IF (JSP.EQ.11.and.(geosub.eq.'15' .or. geosub.eq.'03')) then
c Doug fir
geotemp = '15'
JRSP = 10
c Move all coed to JRSP=10
DO 20 I=10,47
F(I, JRSP) = F(I, JSP)
20 continue
c Overwrite with regional mods
DO 40 IP=1,3
IF(DFSUB(IP).eq.GEOTEMP) F(DFSUBF(IP), JRSP) = DFSUBC(IP)
40 CONTINUE
ELSEIF (JSP.EQ.19.and.geosub.eq.'15') THEN
c Engelmann spruce
JRSP = 10
C Move all coed to JRSP=10
DO 22 I=10,47
F(I, JRSP) = F(I, JSP)
22 continue
C Overwrite with regional mods
DO 42 IP=1,3
IF(ESSUB(IP).eq.GEOSUB) F(ESSUBF(IP), JRSP) = ESSUBC(IP)
42 CONTINUE
elseIF (JSP.EQ.13) then
c Grandfir / White fir
JRSP = 10
c Move all coed to JRSP=10
if(geosub.eq.'15'.or.geosub.eq.'03') then
geotemp = '15'
DO 24, I=10,47
F(I, JRSP) = F(I, 23)
24 continue
else
geotemp = geosub
DO 25 I=10,47
F(I, JRSP) = F(I, JSP)
25 continue
c Overwrite with regional mods
DO 45 IP=1,14
IF(GFSUB(IP).eq.GEOTEMP) F(GFSUBF(IP), JRSP) = GFSUBC(IP)
45 CONTINUE
endif
ELSE IF(JSP.EQ.14)THEN
C Ponderosa pine
JRSP = 10
c Move all coed to JRSP=10
C central idaho
C if(geosub.eq.'15') then
C DO 55, I=10,47
C F(I, JRSP) = F(I, 22)
C 55 continue
C else
DO 50, I=10,47
F(I, JRSP) = F(I, JSP)
50 continue
c Overwrite with regional mods
DO 60 IP=1,14
IF(PPSUB(IP).eq.GEOSUB) F(PPSUBF(IP), JRSP) = PPSUBC(IP)
60 CONTINUE
C endif
ELSE IF(JSP.EQ.12)THEN
c Western Larch
JRSP = 10
c Move all coed to JRSP=10
DO 70, I=10,47
F(I, JRSP) = F(I, JSP)
70 continue
c Overwrite with regional mods
DO 80 IP=1,21
IF(wlSUB(IP).eq.GEOSUB) F(wlSUBF(IP), JRSP) = wlSUBC(IP)
80 CONTINUE
ENDIF
ENDIF
DMEDIAN = f(10,JRSP) *(HT-4.5)**(f(11,JRSP)+f(12,JRSP)*HT)
DFORM = DBH/DMEDIAN -1.0d0
c RHI1
U7 = F(13,JRSP) + f(14,JRSP)*log(ht) + f(15,JRSP)*DFORM
c RHLONGI
U9T = f(18,JRSP) + f(19,JRSP)*log(HT) +f(20,JRSP)*DFORM
if (U9T .lt. -7.0d0) U9T=-7.0d0
if (U9T .gt. 7.0d0) U9T= 7.0d0
U9 = f(16,JRSP)* exp(U9T)/(1.0d0 +exp(U9T) )
c RHC
U8 =f(21,JRSP)+f(22,JRSP)*HT +f(23,JRSP)*log(HT)+f(24,JRSP)*DFORM
c U1-U5
U1 = f(25,JRSP) + f(26,JRSP)*log(HT) +f(27,JRSP)*DFORM
> + f(28,JRSP)*DFORM*log(HT)
U2 = f(29,JRSP) + f(30,JRSP)*DFORM + f(31,JRSP)*log(ht)
> + f(32,JRSP)*dform*log(ht)
> + f(33,JRSP)*dbh
IF(JRSP .eq. 15) then
c Lodgepole Pine (INGY)
U3 = f(34,JRSP) + f(35,JRSP)*DFORM
> + f(36,JRSP) * (1.0D0 - exp(f(37,JRSP)*HT) )
else
U3 = f(34,JRSP) + f(35,JRSP)*DFORM + f(36,JRSP)*log(HT)
> + f(37,JRSP)*log(HT)*DFORM
end if
U4 = f(38,JRSP) +f(39,JRSP)*DFORM +f(40,JRSP)*log(ht)
> +f(41,JRSP)*DBH
U5 = f(42,JRSP) + f(43,JRSP)*log(HT)
c U6=A3
U6 = f(45,JRSP) + f(46,JRSP)*DFORM +f(47,JRSP)*log(HT)
c limits on U1 to U5
if (U1.lt. -7.0d0) U1=-7.0d0
if (U1.gt. 7.0d0) U1= 7.0d0
if (U2.lt. -7.0d0) U2=-7.0d0
if (U2.gt. 7.0d0) U2= 7.0d0
if (U3.lt. -7.0d0) U3=-7.0d0
if (U3.gt. 7.0d0) U3= 7.0d0
if (U4.lt. -7.0d0) U4=-7.0d0
if (U4.gt. 7.0d0) U4= 7.0d0
if (U5.lt. -7.0d0) U5=-7.0d0
if (U5.gt. 7.1d0) U5= 7.1d0
if(U6 .lt. 1.005) U6=1.005D0
if(U6 .gt. 10.0d0) U6=10.0d0
if (U7.lt. -7.0d0) U7=-7.0d0
if (U7.gt. 7.0d0) U7= 7.0d0
if (U8 .gt. 0.99) U8=0.99
if (u9.gt. 0.3d0) u9=0.3d0
if (u9.lt. 0.0d0) u9=0.0d0
c Define geometric parameters
c (These outcomes are SINGLE precision)
R1= dexp(U1)/ (1.0d0 + dexp(U1))
R2= dexp(U2)/ (1.0d0 + dexp(U2))
R3= dexp(U3)/ (1.0d0 + dexp(U3))
R4= dexp(U4)/ (1.0d0 + dexp(U4))
IF (U5 .le. 7.0d0) then
R5= 0.5d0 + 0.5d0*dexp(U5)/ (1.0d0 + dexp(U5))
else
R5=1.0
end if
A3=U6
RHI1 = dexp(U7) / ( 1.0d0 + dexp(U7) )
if (RHI1.gt. 0.5 ) RHI1=0.5
RHLONGI= U9
RHI2 = RHI1 + RHLONGI
c RHC = RHI2 + (1.0D0 - RHI2) * dexp(U8)/( 1.0d0 + dexp(U8))
c If (RHC .lt. RHI2 +0.01) then
c RHC = MIN( RHI2+0.01, (RHI2+1.0)/2.0 )
c end if
RHC=U8
if (RHC .lt. RHI2+.01) RHC= min( RHI2+.01, (RHI2+1.)/2.0 )
C PUT COEFFICIENTS INTO AN ARRAY FOR EASIER PASSING
RFLW(1) = R1
RFLW(2) = R2
RFLW(3) = R3
RFLW(4) = R4
RFLW(5) = R5
RFLW(6) = A3
RHFW(1) = RHI1
RHFW(2) = RHI2
RHFW(3) = RHC
RHFW(4) = RHLONGI
RETURN
END
c***********************************************************************
c***********************************************************************
FUNCTION COR_C2(JSP,geosub,TOTALH,HI,HJ)
c CORRC2
c***********************************************************************
c given 2 heights (hi and hj), estimate the correlation of the
c Z errors in the corresponding dib's
c NW Taper coop #2, (INGY, east-side 1995-1996)
c coefficients 81-85
REAL COR_C2
character*2 geosub
REAL*8 V(5,13), Q1,Q2,QS,Q4,Q5,Q3,CORR
REAL TOTALH, HI, HJ,BH,H1,H2,T3,T4,T1,T2
INTEGER JSP,JSPR
C DOUGLAS FIR x
DATA (V(I,1),I=1,5)/-0.48680838D+01, 0.14663798D+02,
> -0.48216320D+01,-0.17800924D+01,-0.20276812D+00/
C WESTERN LARCH x
DATA (V(I,2),I=1,5)/-0.40872513D+01, 0.98400990D+01,
> -0.38399599D+01,-0.24301984D+01, 0.35024803D+00/
C GRAND FIR x
DATA (V(I,3),I=1,5)/-0.53258004D+01, 0.18207797D+02,
> -0.46314647D+01,-0.12177523D+01,-0.11309926D+00/
C PONDEROSA PINE x
DATA (V(I,4),I=1,5)/-0.64087039D+01, 0.18426727D+02,
> -0.50623505D+01,-0.21710945D+01, 0.29814748D+00/
C LODGEPOLE PINE x
DATA (V(I,5),I=1,5)/-0.63095389D+01, 0.16848451D+02,
> -0.41147697D+01,-0.18701241D+01, 0.65264446D+00/
C WESTERN RED CEDAR
DATA (V(I,6),I=1,5)/-0.37292867D+01, 0.95204603D+01,
> -0.31268123D+01,-0.12917494D+01,-0.26280112D+00/
C MOUNTAIN HEMLOCK
DATA (V(I,7),I=1,5)/-0.55386062D+01, 0.13890065D+02,
> -0.36169043D+01,-0.10135346D+01, 0.40538989D-01/
C WHITE PINE
DATA (V(I,8),I=1,5)/-0.48456403D+01, 0.16415000D+02,
> -0.50265184D+01,-0.10653677D+01,-0.42501392D-02/
C ENGELMANN SPRUCE
DATA (V(I,9),I=1,5)/-0.41694935D+01, 0.13158633D+02,
> -0.46716770D+01,-0.10569956D+01,-0.77545519D+00/
C SUBALPINE FIR
DATA (V(I,10),I=1,5)/-0.55353327D+01, 0.20954955D+02,
> -0.66258696D+01,-0.98999018D+00, 0.21262294D+00/
C BALSAM FIR (B.C.)
DATA (V(I,11),I=1,5)/-0.46723264D+01, 0.15282969D+02,
> -0.52893666D+01,-0.14847301D+01,-0.37828956D+00/
C GRAND FIR x Central Idaho Variant
DATA (V(I,12),I=1,5)/-0.52706199D+01, 0.18147772D+02,
> -0.50616937D+01,-0.13304567D+01, 0.67322419D+00/
C PONDEROSA PINE x Central Idaho Variant
DATA (V(I,13),I=1,5)/-0.63303605D+01, 0.18704116D+02,
> -0.58215704D+01,-0.17448762D+01, 0.34012396D+00/
BH = 4.5
JSPR = JSP - 10
if(jsp.eq.3 .and. (geosub.eq.'15'.or.geosub.eq.'03'))jspr = 12
if(jsp.eq.4 .and. geosub.eq.'15')jspr = 13
Q1=V(1, JSPR)
Q2=V(2, JSPR)
QS=V(3, JSPR)
Q4=V(4, JSPR)
Q5=V(5, JSPR)
Q3 = QS - (Q1+Q2)
c any error is completely correlated with itself
if(hi.eq.hj ) then
cor_c2=1.0
return
end if
c There are no errors at breast height (Ha!)
c Correlations are irrelevant.
if(hi.eq.bh .or. hj.eq.bh) then
cor_c2=0.5
return
end if
c define heights h1 and h2 with h2 > h1
h1=min(hi, hj)
h2=max(hi,hj)
if(h1.gt. bh) then
c both heights are above BH
t3=(h1-bh)/(totalh-bh)
t4=(h2-bh)/(totalh-bh)
CORR = exp( q1*(t4-t3) + q2*(t4*t4-t3*t3)/2.0D0
> +q3*(t4*t4*t4 - t3*t3*t3)/3.0D0)
GO TO 100
end if
if(h2.gt. bh) then
c h1 < Bh and h2 > BH
t3=(h2-bh)/(totalh-bh)
T2 = (BH-H1)/BH
CORR = q5*exp( q4*t2 + q1*t3 +q2*t3*t3/2.0d0
> +q3*t3**3 / 3.0d0 )
go to 100
end if
c h1 < Bh and H2 < Bh
c note: t2 < t1
T2 = (BH-H2)/BH
T1 = (BH-H1)/BH
CORR=exp( q4* (t1-t2))
C100 IF ( abs(CORR) .gt. 1.0 .and. ier_UNIT.ne.0)
C 1 write(IER_UNIT,102) JSP, H1,H2, CORR
C102 FORMAT(' CORRC2 ERROR on JSP=',i3,' H1,H2, corr =',3f8.2)
100 COR_C2 = CORR
return
END
c***********************************************************************
c***********************************************************************
SUBROUTINE VAR_C2(JSP,geosub,DBH,HT,H,SE_LNX)
c SF_VARLN
c***********************************************************************
c Variance of dib for species assuming lognormal errors.
c NW Coop #2, INGY
c
c J. W. Flewelling, July, 1996
c
c H input R*4 Section height , for h NE breast height.
c SE_LNX output R*4 SQRT{ VAR[ln(dib)]}
C PARAMETER (MAXC=100)
character*2 geosub
REAL*8 F(12,13), V(16,13),VA00,VA01,VA02,VB00,VB01,VC0
REAL*8 VX1,VX2,VX3,VA03,VE00,VE01,VE02,VF00,VF01,VG0
REAL*8 DMEDIAN,DRATIO,VA0,VB0,VE0,VF0,VC,XU,X,STD_FRAC
REAL*4 LOGHT, LVARHAT, VARHAT
REAL DBH, HT, BH, H, SE_LNX
logical vmod1, vmod2
INTEGER JSP,JSPR
c Note: the following assignments are
c for clarity. Faster execution would
c be obtained by using the F() coefients
c directly, and omitting the V%%% variables.
C DOUGLAS FIR x
DATA (F(I,1),I=10,12)/0.19750000D+00, 0.96630000D+00,
> 0.36700000D-03/
DATA (V(I,1),I= 1,16)/-0.87861916D+01,
> 0.38942378D+00, 0.24151069D+01, 0.86871264D+01,
> -0.12932895D+01, 0.10448179D+01, 0.00000000D+00,
> 0.96526647D-01, 0.13685097D+00,-0.44306740D+00,
> -0.63677273D+01,-0.28346734D+00, 0.30403741D+00,
> 0.23458454D+01, 0.15233441D+00, 0.15821190D+01/
C WESTERN LARCH x
DATA (F(I,2),I=10,12)/0.55800000D-01, 0.12635000D+01,
> -0.31600000D-03/
DATA (V(I,2),I= 1,16)/-0.52217635D+01,-0.23364372D+00,
> 0.10581464D+00, 0.76117971D+01,-0.10588704D+01,
> 0.11469169D+01, 0.16914337D+00, 0.35117997D-01,
> 0.10000000D+01, 0.39438121D-01,-0.68717202D+01,
> -0.40369684D-01, 0.57719712D+00,-0.48188520D+00,
> 0.77458363D+00, 0.29097150D+01/
C GRAND FIR x
DATA (F(I,3),I=10,12)/0.61910000D+00, 0.62000000D+00,
> 0.11060000D-02/
DATA (V(I,3),I= 1,16)/-0.77600152D+01,-0.68002365D-01,
> 0.30281870D+01, 0.85370762D+01,-0.10788092D+01,
> 0.94569668D+00, 0.00000000D+00, 0.23088981D-01,
> 0.87032708D+00,-0.41523979D+00,-0.53889325D+01,
> -0.77824215D+00, 0.93680884D+00, 0.12692083D+01,
> 0.52691142D+00, 0.14583838D+01/
C PONDEROSA PINE x
DATA (F(I,4),I=10,12)/0.60780000D+00, 0.68530000D+00,
> 0.89600000D-03/
DATA (V(I,4),I= 1,16)/-0.57324396D+01,
> -0.25574556D+00, 0.20750963D+01, 0.37746335D+01,
> -0.11127807D+00, 0.13005455D+01, 0.00000000D+00,
> 0.56372266D-01,-0.15253253D+00,-0.40439166D+00,
> -0.46449612D+01,-0.62894842D+00,-0.85690977D-01,
> -0.57316015D-01, 0.56201552D+00, 0.10348040D+01/
C LODGEPOLE PINE x
DATA (F(I,5),I=10,12)/0.27880000D+00, 0.80570000D+00,
> 0.60300000D-03/
DATA (V(I,5),I= 1,16)/-0.83307969D+01,
> 0.14499630D+00, 0.22757330D+01, 0.96926943D+01,
> -0.13015806D+01, 0.11174823D+01, 0.00000000D+00,
> 0.28164929D-01, 0.10000000D+01,-0.39492882D+00,
> -0.19496333D+01,-0.14500534D+01,-0.26604864D+00,
> -0.18586386D+01, 0.12454997D+01, 0.12241344D+01/
C WESTERN RED CEDAR x
DATA (F(I,6),I=10,12)/0.12003000D+01, 0.38370000D+00,
> 0.23610000D-02/
DATA (V(I,6),I= 1,16)/-0.75750015D+01,-0.74534057D-01,
> 0.28421868D+01, 0.57478382D+01,-0.36066482D+00,
> 0.13819886D+01, 0.00000000D+00, 0.28223671D-01,
> -0.10000000D+01,-0.36858293D+00,-0.63488088D+01,
> -0.22907055D+00, 0.62337257D+00, 0.32002232D+01,
> 0.14868195D+00, 0.28488670D+01/
C MOUNTAIN HEMLOCK x
DATA (F(I,7),I=10,12)/0.83820000D+00, 0.51300000D+00,
> 0.16430000D-02/
DATA (V(I,7),I= 1,16)/-0.53661720D+01,-0.63960656D+00,
> 0.23393943D+01, 0.46136800D+01, 0.45601491D-01,
> 0.10292839D+01, 0.00000000D+00, 0.56691981D-01,
> -0.27453440D+00,-0.39145604D+00,-0.50792677D+01,
> -0.44971305D+00,-0.12039165D+00,-0.21584487D+01,
> 0.13472605D+01, 0.35584299D+01/
C WHITE PINE x
DATA (F(I,8),I=10,12)/0.49340000D+00, 0.67040000D+00,
> 0.72300000D-03/
DATA (V(I,8),I= 1,16)/-0.74781469D+01,-0.56696621D-01,
> 0.25621584D+01, 0.30300072D+01, 0.24739882D+00,
> 0.10209356D+01, 0.00000000D+00, 0.51477606D-01,
> -0.41482008D+00,-0.38330247D+00,-0.92572316D+01,
> 0.25930838D+00, 0.39072598D+00, 0.26542139D+01,
> 0.11447332D+00, 0.10846468D+01/
C ENGELMANN SPRUCE
DATA (F(I,9),I=10,12)/0.21020000D+00, 0.91540000D+00,
> 0.37900000D-03/
DATA (V(I,9),I= 1,16)/-0.97862646D+01, 0.55558106D+00,
> 0.24780360D+01, 0.10225780D+02,-0.16303736D+01,
> 0.10660142D+01, 0.00000000D+00, 0.46270096D-01,
> 0.93496678D+00,-0.42025655D+00,-0.42221193D+01,
> -0.72661816D+00,-0.52578751D+00,-0.45541436D+01,
> 0.20352324D+01, 0.13481250D+01/
C SUBALPINE FIR
DATA (F(I,10),I=10,12)/0.51943000D+00, 0.71090000D+00,
> 0.50300000D-03/
DATA (V(I,10),I= 1,16)/-0.16236989D+02,
> 0.15325659D+01, 0.28717816D+01, 0.14230027D+02,
> -0.22483676D+01, 0.28714841D+00, 0.00000000D+00,
> 0.82144971D-01, 0.54360298D+00,-0.45567161D+00,
> -0.42759971D+01,-0.70136279D+00,-0.20865044D+00,
> 0.80246718D+00, 0.46365564D+00, 0.20164054D+01/
C BALSAM (b.c)
DATA (F(I,11),I=10,12)/0.61910000D+00, 0.62000000D+00,
> 0.11060000D-02/
DATA (V(I,11),I=1,16)/-0.10424358D+02,
> 0.51847185D+00, 0.23862124D+01,
> 0.95984104D+01,-0.11852491D+01, 0.77096585D+00,
> 0.00000000D+00, 0.13623505D-01, 0.10000000D+01,
> -0.37634939D+00,-0.35299059D+01,-0.21046362D+01,
> 0.12369575D+01,-0.49610000D+01, 0.28054351D+01,
> 0.68522936D+00/
C GRAND FIR x Central Idaho Taper
DATA (F(I,12),I=10,12)/0.46115714D+00, 0.76559415D+00,
> 0.34060552D-03/
DATA (V(I,12),I= 1,16)/-0.87229255D+01,-0.49823584D-01,
> 0.35238539D+01, 0.93969507D+01,-0.11480943D+01,
> 0.11385876D+01,-0.10000000D+00, 0.46648531D-01,
> 0.63740406D+00,-0.50851998D+00,-0.35671833D+01,
> -0.85252043D+00,-0.34854118D+00,-0.87825360D+00,
> 0.83369209D+00, 0.14868045D+01/
C PONDEROSA PINE x Central Idaho Taper
C DATA (F(I,13),I=10,12)/ 0.59532444D+00, 0.71960574D+00,
C > 0.00000000D+00/
C DATA (V(I,13),I= 1,16)/-0.29870739D+01,-0.11207714D+01,
C > -0.12793257D+01, 0.51821007D+01,-0.35197794D+00,
C > 0.75094517D+00, 0.44774052D-02, 0.74892256D-01,
C > 0.39386984D+00, 0.42129525D+00,-0.63181585D+01,
C > -0.19238006D+00,-0.59970586D+00, 0.16594531D+01,
C > 0.25120253D+00, 0.85204162D+00/
JSPR = JSP - 10
if(jsp.eq.3 .and. (geosub.eq.'15'.or.geosub.eq.'03'))jspr = 12
C if(jsp.eq.4 .and. geosub.eq.'15')jspr = 13
c coef 1-16 are coef 61 to 76 in coef file
VA00 = V(1, JSPR)
VA01 = V(2, JSPR)
VA02 = V(3, JSPR)
VB00 = V(4, JSPR)
VB01 = V(5, JSPR)
VC0 = V(6, JSPR)
VX1 = V(7,JSPR)
VX2 = V(8,JSPR)
VX3 = V(9,JSPR)
VA03 = V(10, JSPR)
VE00 = V(11, JSPR)
VE01 = V(12, JSPR)
VE02 = V(13, JSPR)
VF00 = V(14, JSPR)
VF01 = V(15, JSPR)
VG0 = V(16, JSPR)
BH = 4.5
DMEDIAN = F(10,JSPR) *(HT - BH)**(F(11,JSPR)+F(12,JSPR)*HT)
DRATIO = DBH/DMEDIAN
LOGHT = log(HT)
VA0 = VA00 + VA01*LOGHT + VA02*DRATIO + VA03*LOGHT*DRATIO
VB0 = VB00 + VB01*LOGHT
VE0 = VE00 + VE01*LOGHT + VE02*DRATIO
VF0 = VF00 + VF01*LOGHT
VC = VC0 + VX1*LOGHT
if (h .lt. bh) then
c below BH
XU = (BH-H) / BH
IF (XU.LT. 0.111) THEN
C Special adjustment from 4 ft to BH
VMOD1 = .TRUE.
X = XU
XU = 0.111
ELSE
VMOD1 = .FALSE.
ENDIF
LVARHAT = VE0 + VF0*XU**VG0
if (LVARHAT .gt. 15.0) LVARHAT= 15.0
if (LVARHAT .lt. -15.0) LVARHAT= -15.0
VARHAT = exp(LVARHAT)
SE_LNX = SQRT(VARHAT)
IF (VMOD1) SE_LNX = SE_LNX * X/XU
else if (h.eq. BH) then
c at BH
SE_LNX=0.0
else if (h .lt. HT) then
c above BH
XU = (H - BH)/(HT - BH)
IF(XU .LT. 0.02) THEN
VMOD2 = .TRUE.
X = XU
XU = 0.02
STD_FRAC = (X/XU)
ELSEIF (XU.GT. 0.96) THEN
VMOD2 = .TRUE.
X = XU
XU = 0.96
STD_FRAC = 1.0
ELSE
VMOD2 = .FALSE.
ENDIF
LVARHAT = VA0 + VB0*XU**VC + VX2*(HT/50.)**VX3 /(1.0-XU)
if (LVARHAT .gt. 15.0) LVARHAT= 15.0
if (LVARHAT .lt. -15.0) LVARHAT= -15.0
VARHAT = exp(LVARHAT)
SE_LNX = SQRT(VARHAT)
IF (VMOD2) SE_LNX = STD_FRAC * SE_LNX
else
c This is above total ht - meaningless.
VARHAT = 1.0
SE_LNX = SQRT(VARHAT)
end if
RETURN
END
c***********************************************************************
c***********************************************************************
FUNCTION FDBT_C2(JSP,GEOSUB,SETOPT,DBH,TOTHT)
c***********************************************************************
c given Diameter at breat height, outside bark
c calculate double bark thickness at breast height.
c NW Taper coop 2, INGY (east-side)
C COEFFICIENT FILE - BARKBHC2.COE
c DBH INPUT R*4 Diameter (o.b.) at Breast height (inches)
c TOTHT INPUT R*4 Total tree height (ft)
c FDBT_BC2 RETURNED R*4 Double bark thickness
c Note: coefficients are from SF_SET2 (possibly file BARKBHC2.COE)
CHARACTER*2 GEOSUB
INTEGER JSP,JSPR,IREGION
INTEGER setopt(6)
REAL DBH,TOTHT,DBHMAX,DBHUSE,DBHMIN,Y2,RATIO
REAL A(6,11), AR(23,11),A00
REAL FDBT_C2
C DOUGLAS FIR
DATA (A(I,1),I=1,6)/-2.002013,0.049128,-0.000358,-0.003961,
> -0.0001318, 0.0/
DATA (AR(I,1),I=11,23)/-2.136,-2.136,-2.136,-2.136,-2.136,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> -1.813,-1.977,-1.969/
C WESTERN LARCH
DATA (A(I,2),I=1,6)/ -1.757421,-0.001908,-0.000108,
> -0.000348, 0.0000732, 0.0/
DATA (AR(I,2),I=11,23)/0.000, 0.000, 0.000, 0.000, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.000, 0.000, 0.000/
C GRAND FIR
DATA (A(I,3),I=1,6)/-2.619824,0.030658, 0.000000,-0.001651,
> -0.0000951, 0.0/
DATA (AR(I,3),I=11,23)/-2.825,-2.741,-2.384,-2.654, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.000,0.000, 0.000/
C PONDEROSA PINE
DATA (A(I,4),I=1,6)/-1.587349,0.010579,-0.000289,-0.001853,
> -0.0000888, 1.0/
DATA (AR(I,4),I=11,23)/0.000, 0.000, 0.000, 0.000, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.000,0.000, 0.000/
C LODGEPOLE PINE
DATA (A(I,5),I=1,6)/-1.826117,-0.033403,-0.005038,
> -0.020658,0.0017612,-1.0/
DATA (AR(I,5),I=11,23)/ 0.000, 0.000, 0.000, 0.000, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.000, 0.000, 0.000/
C WESTERN RED CEDAR
DATA (A(I,6),I=1,6)/-2.200198,-0.070784,0.000000, 0.000136,
> 0.0003750, 1.0/
DATA (AR(I,6),I=11,23)/0.000, 0.000, 0.000, 0.000, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.00, 0.000, 0.000/
C MOUNTAIN HEMLOCK
DATA (A(I,7),I=1,6)/-2.127891,0.127621,-0.002670,-0.021932,
> 0.0002920, 1.0/
DATA (AR(I,7),I=11,23)/-2.189,-2.220, 0.000,-2.073, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.00,-1.952,-2.290/
C WHITE PINE
DATA (A(I,8),I=1,6)/-3.018987,0.062254,-0.001539,-0.007301,
> 0.0001524, 0.0/
DATA (AR(I,8),I=11,23)/ 0.000, 0.000, 0.000, 0.000, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.000, 0.000, 0.000/
C ENGELMANN SPRUCE
DATA (A(I,9),I=1,6)/-2.240592,-0.030430,-0.000011,
> -0.006039, 0.0002215, 1.0/
DATA (AR(I,9),I=11,23)/-2.400,-2.210,-2.199,-2.328, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> -2.278,-2.214,-2.198/
C SUBALPINE FIR
DATA (A(I,10),I=1,6)/-2.340455,-0.035228,0.000000,-0.007820,
> 0.0004648, 1.0/
DATA (AR(I,10),I=11,23)/-2.275,-2.664,-2.368,-2.232, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.000, 0.000, 0.000/
C BALSAM FIR (b.c.)
DATA (A(I,11),I=1,6)/-2.520019,-0.024743,0.000000,-0.005114,
> 0.0003716, 0.0/
DATA (AR(I,11),I=11,23)/ 0.000, 0.000, 0.000, 0.000, 0.000,
> 0.0, 0.0, 0.0, 0.0, 0.0,
> 0.000, 0.000, 0.000/
c Underlying Eqn:
c RATIO=DBT/DBHob
c Y2 = logit(RATIO) = ln[ ratio/(1-ratio) ]
c Use Global or regional Lead coef ?
JSPR = JSP - 10
c doug fir
if (jspr .eq. 1 .and. geosub .eq. '15') then
FDBT_C2 = dbh-(-0.06933188 + 0.8981755 * dbh)
return
c region 3 dougfir
else if(jsp.eq.1 .and. geosub.eq.'03')then
FDBT_C2 = dbh-(-0.008020069+0.853465707 * DBH)
return
c white fir
else if (jspr .eq. 3 .and. geosub .eq. '15') then
FDBT_C2 = dbh-(0.35929539+ 0.9213101* dbh - 0.2543261*log(dbh))
return
else if(jsp.eq.3 .and. geosub.eq.'03')then
c region 3 white fir
FDBT_C2 = dbh-(-0.2137925258 + 0.880382786*DBH)
return
else if (jspr .eq. 9 .and. geosub .eq. '15') then
FDBT_C2 = dbh-(-0.2110537+ 0.9682267*dbh - 0.0053090*log(dbh))
return
endif
c ponderosa pine
C if (jspr .eq. 4 .and. geosub .eq. '15') then
C FDBT_C2 = dbh-(0.6817382 + 0.9548815*dbh - 0.8475764*LOG(dbh))
C return
C endif
c engelmann spruce
IF(GEOSUB .eq. '00' .or. setopt(3) .eq.0) then
A00 = A(1, JSPR)
ELSE
READ(GEOSUB,'(I2)') IREGION
A00 = AR(IREGION, JSPR)
IF (A00 .eq. 0.0) A00 = A(1,JSPR)
ENDIF
* Extrapolation control on DBH
IF ( A(3,JSPR) .lt. 0.0 .and. A(6,JSPR) .eq. 0.0) then
DBHmax = -( A(2,JSPR) + A(5,JSPR)*TOTHT)/ (2.0*A(3,JSPR))
DBHuse = MIN( DBH, DBHmax)
else IF ( A(3,JSPR) .lt. 0.0 .and. A(6,JSPR) .eq. -1.0) then