#include "ctrparam.h" ! ========================================================== ! ! GROUND.F: THIS SUBROUTINE USES THE SURFACE FLUXES TO ! PREDICT IN TIME THE GROUND TEMPERATURE, GROUND ! WATER AND ICE, AND SNOW MELTING. ! ! ---------------------------------------------------------- ! ! Revision History: ! ! When Who What ! ---- ---------- ------- ! 073100 Chien Wang add cpp & dmax dmin -> max, min ! ! ========================================================== SUBROUTINE GROCEAN(mndriver) 7001. C**** 7001.5 C**** THIS SUBROUTINE USES THE SURFACE FLUXES TO PREDICT IN TIME THE 7002. C**** GROUND TEMPERATURE, GROUND WATER AND ICE, AND SNOW MELTING. 7002.5 C**** 7003. #include "BD2G04.COM" 7003.5 COMMON U,V,T,P,Q 7004. COMMON/WORK1/CONV(IM0,JM0,LM0),PK(IM0,JM0,LM0),PREC(IM0,JM0), & TPREC(IM0,JM0) 4005.5 COMMON/WORK3/E0(IO0,JM0,4),E1(IO0,JM0,4),EVAPOR(IO0,JM0,4) 7004.5 COMMON/OT/OTA(IO0,JM0),OTB(IO0,JM0),OTC(IO0,JM0) 7005. COMMON/SPEC2/KM,KINC,COEK,C3LAND(IO0,JM0),C3OICE(IO0,JM0) 7005.1 * ,C3LICE(IO0,JM0),WMGE(IO0,JM0),TSSFC(1,JM0,4) 7005.2 common/qfl/QFLUX(JM0,0:13),ZOAV(JM0),QFLUXT(JM0) COMMON/OLDZO/Z1OOLD(IO0,JM0) DIMENSION FWATER(JM0),TOBS(JM0),TF68(JM0),DELR(JM0) 7005.3 DATA SHV/0./,SHW/4185./,SHI/2060./,RHOW/1000./,RHOI/916.6/, 7005.9 * ALAMI/2.1762/,TFO/-1.56/,Z1I/.1/,Z2LI/2.9/,Z1E/.1/,Z2E/4./ 7006. INTEGER JDOFM(13) 7006.1 DATA JDOFM/0,31,59,90,120,151,181,212,243,273,304,334,365/ 7006.2 DATA Z2OIM/0.9/,Z2OIX/4.9/ 7006.5 DATA TTRUNC/0./ 7007. DATA IFIRST/1/ 7007.5 C**** 7008. C**** FDATA 2 LAND COVERAGE (1) 7008.5 C**** 3 RATIO OF LAND ICE COVERAGE TO LAND COVERAGE (1) 7009. C**** 7009.5 C**** ODATA 1 OCEAN TEMPERATURE (C) 7010. C**** 2 RATIO OF OCEAN ICE COVERAGE TO WATER COVERAGE (1) 7010.5 C**** 3 OCEAN ICE AMOUNT OF SECOND LAYER (KG/M**2) 7011. C**** 7011.5 C**** GDATA 1 OCEAN ICE SNOW AMOUNT (KG/M**2) 7012. C**** 2 EARTH SNOW AMOUNT (KG/M**2) 7012.5 C**** 3 OCEAN ICE TEMPERATURE OF FIRST LAYER (C) 7013. C**** 4 EARTH TEMPERATURE OF FIRST LAYER (C) 7013.5 C**** 5 EARTH WATER OF FIRST LAYER (KG/M**2) 7014. C**** 6 EARTH ICE OF FIRST LAYER (KG/M**2) 7014.5 C**** 7 OCEAN ICE TEMPERATURE OF SECOND LAYER (C) 7015. C**** 8 EARTH TEMPERATURE OF SECOND LAYER (C) 7015.5 C**** 9 EARTH WATER OF SECOND LAYER (KG/M**2) 7016. C**** 10 EARTH ICE OF SECOND LAYER (KG/M**2) 7016.5 C**** 12 LAND ICE SNOW AMOUNT (KG/M**2) 7017. C**** 13 LAND ICE TEMPERATURE OF FIRST LAYER (C) 7017.5 C**** 14 LAND ICE TEMPERATURE OF SECOND LAYER (C) 7018. C**** 7018.5 C**** VDATA 9 WATER FIELD CAPACITY OF FIRST LAYER (KG/M**2) 7019. C**** 10 WATER FIELD CAPACITY OF SECOND LAYER (KG/M**2) 7019.5 C**** 7020. IF(IFIRST.NE.1) GO TO 50 7020.5 IFIRST=0 7021. FIO=IO 7021.1 JDAYPR=0 IF(KOCEAN.NE.1) GO TO 10 7021.5 DO 30 ii=1,12 DO 30 J=1,JM 7022.88 SUMJ=SUMJ+QFLUX(J,ii)*DXYP(J)/12. 30 continue SUMJ=SUMJ/AREAG 7022.9 WRITE(6,31) SUMJ 7022.91 31 FORMAT(1X,'GLOBAL ANNUAL MEAN QFLUX ',E15.4) 10 DTSRCE=NDYN*DT 7023. ACE1I=Z1I*RHOI 7023.5 AC2OIM=Z2OIM*RHOI 7024. ATRUNC=2.**(-13) 7024.5 BYZICX=1./(Z1I+Z2OIX) 7024.6 HC1I=ACE1I*SHI 7025. HC2LI=Z2LI*RHOI*SHI 7025.5 HC1DE=Z1E*1129950. 7026. HC2DE=Z2E*1129950.+3.5*.125*RHOW*3100. 7026.5 DIFFUS=DTSRCE/SDAY 7027. C OTCOR=-.927E18 7027.1 print *,'From GROCEAN PREC over ocean' print *,'E0(1,j,1)' print *,(E0(1,j,1),j=1,JM0) 50 ANGLE=TWOPI*JDAY/365. 7027.5 DO 55 MONTH=1,12 7027.6 IF(JDAY.LE.JDOFM(MONTH+1)) GO TO 56 7027.7 55 CONTINUE 7027.8 56 CONTINUE 7027.9 SINANG=SIN(ANGLE) 7028. COSANG=COS(ANGLE) 7028.5 C**** 7029. C**** OUTSIDE LOOP OVER J AND I, EXECUTED ONCE FOR EACH GRID POINT 7029.5 C**** 7030. JRPR=0 DO 980 J=1,JM 7030.5 if(J.eq.-3.and.TAU.ge. 17520.00)then print *,'ODATA(1,J,1)=',ODATA(1,J,1) print *,'ODATA(1,J,2)=',ODATA(1,J,2) print *,'ODATA(1,J,3)=',ODATA(1,J,3) endif IMAX=IM 7031. IF((J.EQ.1).OR.(J.EQ.JM)) IMAX=1 7031.5 BF1DT=0. 7032. CF1DT=0. 7032.5 AOTDT=0. 7033. COTDT=0. 7033.5 AEFO=0. 7034. CEFI=0. 7034.5 BEDIFS=0. 7035. CEDIFS=0. 7035.5 BERUN0=0. 7036. CF2DT=0. 7036.5 BERUN2=0. 7037. CERUN2=0. 7037.5 AERUN4=0. 7038. CERUN4=0. 7038.5 ATG1=0. 7039. BTG1=0. 7039.5 CTG1=0. 7040. ATG2=0. 7040.5 BTG2=0. 7041. CTG2=0. 7041.5 ATG3=0. 7042. AEVAP=0. 7042.5 BEVAP=0. 7043. CEVAP=0. 7043.5 BDIFS=0. 7044. CDIFS=0. 7044.5 AIFO=0. 7045. CIFI=0. 7045.5 BRUN0=0. 7046. CRUN0=0. 7046.5 BRUN2=0. 7047. CRUN2=0. 7047.5 ARUN4=0. 7048. CRUN4=0. 7048.5 BWTR1=0. 7049. BACE1=0. 7049.5 BWTR2=0. 7050. BACE2=0. 7050.5 CACE2=0. 7051. BSNOW=0. 7051.5 CSNOW=0. 7052. CICOV=0. 7052.5 DO 960 I=1,IMAX 7053. C**** 7053.5 C**** DETERMINE SURFACE CONDITIONS 7054. C**** 7054.5 PLAND=FDATA(I,J,2) 7055. PWATER=1.-PLAND 7055.5 PLICE=FDATA(I,J,3)*PLAND 7056. PEARTH=PLAND-PLICE 7056.5 ROICE=ODATA(I,J,2) 7057. POICE=ROICE*PWATER 7057.5 POCEAN=PWATER-POICE 7058. if(POCEAN.LE.1.E-5)then POCEAN=0. POICE=PWATER endif JR=J DXYPJ=DXYP(J) 7059. SNOWS=0. 7059.5 WTR1S=0. 7060. ACE1S=0. 7060.5 WTR2S=0. 7061. ACE2S=0. 7061.5 TG1S=0. 7062. TG2S=0. 7062.5 EVAPS=0. 7063. RUN0S=0. 7063.5 DIFSS=0. 7064. C**** CALCULATE PRECIPITATION HEAT FLUX (FALLS AT 0 DEGREES CENTIGRADE) 4044.5 PRCP=PREC(I,J) 4045. if (fland.lt.1.0)then PRCP=PRCP*(1.-fland*prlnd2total(j,mndriver)) & /(1.-fland) endif TPRCP=TPREC(I,J) 4045.5 IF(TPRCP.LT.0.) GO TO 530 4046. C EPRCP=PRCP*TPRCP*SHW 4046.5 EPRCP=0. 4047. ENRGP=EPRCP 4047.5 GO TO 550 4048. C EPRCP=PRCP*TPRCP*SHI 4048.5 530 EPRCP=0. 4049. ENRGP=EPRCP-PRCP*LHM 4049.5 AIJ(I,J,70)=AIJ(I,J,70)+PRCP 4050. 550 CONTINUE c if(TAU.ge.17520.0.and.TAU.lt.17524.0)then c print *,'GROCEAN TAU=',TAU c print *,'PRCP=',PRCP,' TPRCP=',TPRCP c print *,'ENRGP=',ENRGP c endif C**** C**** 7064.5 IF(PWATER.LE.0.0) GO TO 400 7065. C**** 7065.5 C**** OCEAN 7066. C**** 7066.5 EVAP=EVAPOR(I,J,1) 7067. ATG1=ATG1+ODATA(I,J,1)*POCEAN 7067.5 TG1S=TG1S+ODATA(I,J,1)*POCEAN 7068. AEVAP=AEVAP+EVAP*POCEAN 7068.5 EVAPS=EVAPS+EVAP*POCEAN 7069. AIJ(I,J,61)=AIJ(I,J,61)+EVAP*POCEAN 7069.5 IF(KOCEAN.EQ.1) GO TO 60 7070. ATG2=ATG2+ODATA(I,J,1)*POCEAN 7070.5 TG2S=TG2S+ODATA(I,J,1)*POCEAN 7071. IF(POICE.GT.0.) GO TO 110 7071.5 GO TO 400 7072. 60 TGW=ODATA(I,J,1) 7072.5 OTDT=DTSRCE*QFLUXT(J) AIJ(I,J,57)=AIJ(I,J,57)+TGW 7073. WTRO=Z1O(I,J)*RHOW 7073.5 ENRGO0=WTRO*TGW*SHW 7074. EOFRZ=WTRO*TFO*SHW 7074.5 ENRGFO=0. ENRGO=0. ACEFO=0. if(POCEAN.LE.0.0)go to 100 F0DT=E0(I,J,1) 7075. AIJ(I,J,65)=AIJ(I,J,65)+F0DT*POCEAN 7075.5 ATG2=ATG2+ODATA(I,J,4)*POCEAN 7076.5 TG2S=TG2S+ODATA(I,J,4)*POCEAN 7077. ATG3=ATG3+ODATA(I,J,5)*POCEAN 7077.5 AOTDT=AOTDT+OTDT*POCEAN 7078. CPRE RUN4=-EVAP 7078.5 RUN4=PRCP-EVAP 7078.5 if(J.eq.-3.and.TAU.ge. 17520.00)then print *,'EVAP=',EVAP,' PRCP=',PRCP endif ERUN4=RUN4*TGW*SHW 7079. AERUN4=AERUN4+ERUN4*POCEAN 7079.5 ARUN4=ARUN4+RUN4*POCEAN 7080. CPRE ENRGO=F0DT+OTDT-ERUN4 7080.5 ENRGO=F0DT+OTDT+ENRGP-ERUN4 7080.5 IF(ENRGO0+ENRGO.LT.EOFRZ) GO TO 80 7081. C**** FLUXES RECOMPUTE TGO WHICH IS ABOVE FREEZING POINT FOR OCEAN 7081.5 ENRGFO=0. 7082. ACEFO=0. 7082.5 IF(ROICE.GT.0.) GO TO 100 7083. ODATA(I,J,1)=TGW+(ENRGO/(WTRO*SHW)+TTRUNC) 7083.5 if(J.eq.-3.and.TAU.ge. 17520.00)then print *,'1 ODATA(i,j,1)=',ODATA(i,j,1) print *,'TGW=',TGW,' WTRO=',WTRO print *,'RHOW=',RHOW,' Z1O(i,j)=',Z1O(i,j) print *,'SHW=',SHW endif GO TO 400 7084. C**** FLUXES COOL TGO TO FREEZING POINT FOR OCEAN AND FORM SOME ICE 7084.5 80 ACEFO=(ENRGO0+ENRGO-EOFRZ)/(TFO*(SHI-SHW)-LHM) 7085. ENRGFO=ACEFO*(TFO*SHI-LHM) 7085.5 AEFO=AEFO-ENRGFO*POCEAN 7086. AIFO=AIFO-ACEFO*POCEAN 7086.5 IF(ROICE.GT.0.) GO TO 100 7087. ROICE=ACEFO/(ACE1I+AC2OIM) 7087.5 ODATA(I,J,1)=TFO 7088. c if(J.eq.8.and.TAU.ge. 17520.00)then c print *,'2 ODATA(i,j,1)=',ODATA(i,j,1) c endif if(J.eq.-3.and.TAU.ge. 17520.00)then print *,'ROICE==',ROICE endif ODATA(I,J,2)=ROICE 7088.5 GDATA(I,J,1)=0. 7089. GDATA(I,J,3)=TFO 7089.5 GDATA(I,J,7)=TFO 7090. ODATA(I,J,3)=AC2OIM 7090.5 GO TO 400 7091. C**** 7091.5 100 ACE2F=0. 7092. ACE2M=0. 7092.5 C**** 7093. C**** OCEAN ICE 7093.5 C**** 7094. 110 SNOW=GDATA(I,J,1) 7094.5 TG1=GDATA(I,J,3) 7095. TG2=GDATA(I,J,7) 7095.5 ACE2=ODATA(I,J,3) 7096. C AIJ(I,J,1)=AIJ(I,J,1)+POICE 7096.5 AIJ(I,J,58)=AIJ(I,J,58)+ACE2*POICE 7097. F0DT=E0(I,J,2) 7097.5 AIJ(I,J,66)=AIJ(I,J,66)+F0DT*POICE 7098. F1DT=E1(I,J,2) 7098.5 EVAP=EVAPOR(I,J,2) 7099. AIJ(I,J,62)=AIJ(I,J,62)+EVAP*POICE 7099.5 Z2=ACE2/RHOI 7100. IF(KOCEAN.NE.1) GO TO 120 7100.5 WTRI0=WTRO-(SNOW+ACE1I+ACE2) 7101. EIW0=WTRI0*TGW*SHW 7101.5 WTRW0=WTRO-ROICE*(SNOW+ACE1I+ACE2) 7102. ENRGW0=WTRW0*TGW*SHW 7102.5 RUN0=0. 7103. DIFSI=0. 7103.5 EDIFSI=0. 7104. RUN4=-EVAP 7104.5 ERUN4=TGW*RUN4*SHW 7105. CERUN4=CERUN4+ERUN4*POICE 7105.5 CRUN4=CRUN4+RUN4*POICE 7106. C**** 7106.5 C**** OCEAN ICE, CALCULATE TG1 7107. C**** 7107.5 120 SNANDI=SNOW+ACE1I-EVAP 7108. if(TPRCP.lt.0.0)then SNANDI=SNANDI+PRCP endif HC1=SNANDI*SHI 7108.5 ENRG1=F0DT+EVAP*(TG1*SHI-LHM)-F1DT 7109. C PRE ENRG1=ENRG1+ENRGP if(J.eq.-3.and.TAU.ge. 17520.00)then print *,'ENRG1=',ENRG1,' ENRGP=',ENRGP print *,'ENRGEV=',EVAP*(TG1*SHI-LHM) print *,'F0DT=',F0DT,' F1DT=',F1DT endif C PRE IF(ENRG1.LE.-TG1*HC1) GO TO 130 7109.5 C**** FLUXES HEAT UP TG1 TO FREEZING POINT AND MELT SOME SNOW AND ICE 7110. RUN0=(ENRG1+TG1*HC1)/LHM 7110.5 TG1=0. 7111. SNANDI=SNANDI-RUN0 7111.5 CRUN0=CRUN0+RUN0*POICE 7112. RUN0S=RUN0S+RUN0*POICE 7112.5 GO TO 140 7113. C**** FLUXES RECOMPUTE TG1 WHICH IS BELOW FREEZING POINT 7113.5 130 TG1=TG1+ENRG1/HC1 7114. 140 IF(SNANDI.GE.ACE1I) GO TO 160 7114.5 C**** SOME ICE HAS MELTED OR EVAPORATED, TAKE IT FROM G2 7115. SNOW=0. 7115.5 DIFS=SNANDI-ACE1I 7116. TG1=(TG1*SNANDI-TG2*DIFS)/ACE1I 7116.5 EDIFS=DIFS*(TG2*SHI-LHM) 7117. IF(KOCEAN.EQ.1) GO TO 150 7117.5 CEDIFS=CEDIFS+EDIFS*POICE 7118. CDIFS=CDIFS+DIFS*POICE 7118.5 CERUN2=CERUN2+EDIFS*POICE 7119. CRUN2=CRUN2+DIFS*POICE 7119.5 DIFSS=DIFSS+DIFS*POICE 7120. GO TO 200 7120.5 150 ACE2=ACE2+(DIFS+ATRUNC) 7121. DIFSI=ROICE*DIFS 7121.5 EDIFSI=ROICE*EDIFS 7122. GO TO 210 7122.5 160 SNOW=SNANDI-ACE1I 7123. C FROM PREC if(SNOW.GT.ACE1I)then C**** SNOW IS COMPACTED INTO ICE, ICE FROM LAYER 1 GOES DOWN TO LAYER 2 DIFS=SNOW-.9*ACE1I 4095.5 SNOW=.9*ACE1I 4096. EDIFS=DIFS*(TG1*SHI-LHM) 4096.5 IF(KOCEAN.EQ.0) THEN ERUN2=DIFS*(TG2*SHI-LHM) 4097.5 CEDIFS=CEDIFS+EDIFS*POICE 4098.5 CDIFS=CDIFS+DIFS*POICE 4099. DIFSS=DIFSS+DIFS*POICE 4099.5 CERUN2=CERUN2+ERUN2*POICE 4100. CRUN2=CRUN2+DIFS*POICE 4100.5 ENDIF C**** DIFFUSION CHANGES ICE AMOUNT AND TEMPERATURE OF SECOND LAYER 4101.5 TG2=TG2+(TG1-TG2)*DIFS/(ACE2+DIFS) endif C FROM PREC IF(KOCEAN.EQ.1) GO TO 210 7123.5 C**** 7124. C**** OCEAN ICE, CALCULATE TG2 7124.5 C**** 7125. 200 F2DT=DTSRCE*(TG2-TFO)*ALAMI*2./Z2 TG2=TG2+(F1DT-F2DT)/(ACE2*SHI) 7126. GO TO 370 7126.5 210 F2DT=DTSRCE*(TG2-TGW)*ALAMI*2./Z2 ENRG2=F1DT-F2DT 7127.5 ENRGIW=F2DT+OTDT-ERUN4 7128. ENRGFI=0. 7128.5 HC2=ACE2*SHI 7129. IF(ENRG2.LE.-TG2*HC2) GO TO 220 7129.5 C**** FLUXES HEAT UP TG2 TO FREEZING POINT AND MELT SOME ICE 7130. ACE2M=(ENRG2+TG2*HC2)/LHM 7130.5 TG2=0. 7131. ACE2=ACE2+(-ACE2M+ATRUNC) 7131.5 AIFI=AIFI+ACE2M*POICE 7132. GO TO 300 7132.5 C**** CALCULATE THE ENERGY OF THE WATER BELOW THE ICE AT THE FREEZING 7133. C**** POINT AND TEST WHETHER NEW ICE MUST BE FORMED 7133.5 220 WTRI1=WTRO-(SNOW+ACE1I+ACE2) 7134. EFIW=WTRI1*TFO*SHW 7134.5 IF(EIW0+ENRGIW.LT.EFIW) GO TO 240 7135. C**** FLUXES RECOMPUTE TG2, THE WATER BELOW THE ICE IS ABOVE FREEZING 7135.5 TG2=TG2+ENRG2/HC2 7136. GO TO 300 7136.5 C**** FLUXES WOULD COOL TGIW TO BELOW FREEZING, FREEZE SOME MORE ICE 7137. 240 ACE2F=(EIW0+ENRGIW-EFIW)/(TFO*(SHI-SHW)-LHM) 7137.5 ENRGFI=ACE2F*(TFO*SHI-LHM) 7138. CEFI=CEFI-ENRGFI*POICE 7138.5 CIFI=CIFI-ACE2F*POICE 7139. ACE2=ACE2+(ACE2F+ATRUNC) 7139.5 TG2=TG2+(ENRG2+ACE2F*(TFO-TG2)*SHI)/(ACE2*SHI) 7140. C**** 7140.5 C**** CALCULATE COMPOSITE TEMPERATURES AND REDISTRIBUTION OF ICE 7141. C**** 7141.5 300 WTRW=WTRW0-(1.-ROICE)*ACEFO+ROICE*(RUN0-RUN4+ACE2M-ACE2F) 7142. ENRGW=ENRGW0+(1.-ROICE)*(ENRGO-ENRGFO)+ROICE*(ENRGIW-ENRGFI) 7142.5 TGW=ENRGW/(WTRW*SHW)+TTRUNC 7143. if(J.eq.-3.and.TAU.ge. 17520.00)then print *,' ENRGW=',ENRGW print *,' ENRGW0=',ENRGW0 print *,' ENRGO=',ENRGO print *,' ENRGFO=',ENRGFO print *,' ENRGIW=',ENRGIW print *,' ENRGFI=',ENRGFI print *,' ROICE=',ROICE endif IF(ACEFO.LE.0.) GO TO 310 7143.5 C**** NEW ICE FORMED ON THE OCEAN SURFACE 7144. DRO=(1.-ROICE)*ACEFO/(ACE1I+AC2OIM) 7144.5 TG1=TG1+(TFO-TG1)*DRO*ACE1I/(ROICE*(SNOW+ACE1I)+DRO*ACE1I) 7145. TG2=TG2+(TFO-TG2)*DRO*AC2OIM/(ROICE*ACE2+DRO*AC2OIM) 7145.5 SNOW=SNOW*ROICE/(ROICE+DRO) 7146. ROICE=ROICE+DRO 7146.5 ACE2=ACE2+(DRO*(AC2OIM-ACE2)/ROICE+ATRUNC) 7147. 310 IF(ACE2.GE.AC2OIM) GO TO 320 7147.5 C**** ICE IS TO THIN, COMPRESS IT HORIZONTALLY 7148. ROICEN=ROICE*(ACE1I+ACE2)/(ACE1I+AC2OIM) 7148.5 GO TO 340 7149. 320 OPNOCN=.06*(RHOI/(ACE1I+ACE2)-BYZICX) 7149.5 IF(1.-ROICE.GT.OPNOCN) GO TO 360 7149.6 C**** TOO LITTLE OPEN OCEAN, COMPRESS THE ICE HORIZONTALLY 7150. ROICEN=1.-OPNOCN 7150.5 340 DRI=ROICE-ROICEN 7151. DIFS=DRI*ACE1I/ROICE 7151.5 SNOW=SNOW*(ROICE/ROICEN) 7152. TG2=TG2+(TG1-TG2)*DIFS/(ACE2+DIFS) 7152.5 ACE2=ACE2+(DRI*(ACE1I+ACE2)/ROICEN+ATRUNC) 7153. EDIFSI=EDIFSI+ROICE*DIFS*(TG1*SHI-LHM) 7153.5 DIFSI=DIFSI+ROICE*DIFS 7154. ROICE=ROICEN 7154.5 C**** RESAVE PROGNOSTIC QUANTITIES 7155. 360 ODATA(I,J,1)=TGW 7155.5 if(J.eq.-3.and.TAU.ge. 17520.00)then print *,'3 ODATA(i,j,1)=',ODATA(i,j,1) endif if(ROICE.lt.0.0.or.ACE2.lt.AC2OIM)then print *,'From ground' print *,'J=',' ROICE=',ROICE,' ACE2=',ACE2 stop endif if(J.eq.-3.and.TAU.ge. 17520.00)then print *,'after 360 ROICE==',ROICE print *,' TG1=',TG1,' TG2=',TG2 endif ODATA(I,J,2)=ROICE 7156. ODATA(I,J,3)=ACE2 7156.5 COTDT=COTDT+OTDT*POICE 7157. CEDIFS=CEDIFS+EDIFSI*PWATER 7157.5 CDIFS=CDIFS+DIFSI*PWATER 7158. DIFSS=DIFSS+DIFSI*PWATER 7158.5 370 GDATA(I,J,1)=SNOW 7159. GDATA(I,J,3)=TG1 7159.5 GDATA(I,J,7)=TG2 7160. CSNOW=CSNOW+SNOW*POICE 7160.5 CTG1=CTG1+TG1*POICE 7161. CTG2=CTG2+TG2*POICE 7161.5 CACE2=CACE2+ACE2*POICE 7162. CF1DT=CF1DT+F1DT*POICE 7162.5 CF2DT=CF2DT+F2DT*POICE 7163. CEVAP=CEVAP+EVAP*POICE 7163.5 CICOV=CICOV+POICE 7164. SNOWS=SNOWS+SNOW*POICE 7164.5 TG1S=TG1S+TG1*POICE 7165. ACE1S=ACE1S+ACE1I*POICE 7165.5 ACE2S=ACE2S+ACE2*POICE 7166. TG2S=TG2S+TG2*POICE 7166.5 EVAPS=EVAPS+EVAP*POICE 7167. C**** 7167.5 400 continue AIJ(I,J,7)=AIJ(I,J,7)+(WTR1+ACE1)/WFC1 7305.5 AIJ(I,J,50)=AIJ(I,J,50)+(WTR1+ACE1+WTR2+ACE2) 7306. C**** 7306.5 C**** ACCUMULATE DIAGNOSTICS 7307. C**** 7307.5 C**** QUANTITIES ACCUMULATED FOR LATITUDE-LONGITUDE MAPS IN DIAGIJ 7314. 950 AIJ(I,J,6)=AIJ(I,J,6)+EVAPS 7314.5 AIJ(I,J,28)=AIJ(I,J,28)+TG1S 7315. 960 CONTINUE 7315.5 C**** LONGITUDINALLY INTEGRATED QUANTITIES FOR DIAGJ 7316. CJ(J,15)=CJ(J,15)+CF2DT 7316.5 AJ(J,17)=AJ(J,17)+ATG2 7317. CJ(J,17)=CJ(J,17)+CTG2 7318. AJ(J,18)=AJ(J,18)+ATG1 7318.5 CJ(J,18)=CJ(J,18)+CTG1 7319.5 AJ(J,19)=AJ(J,19)+AEVAP 7320. CJ(J,19)=CJ(J,19)+CEVAP 7321. CJ(J,30)=CJ(J,30)+CICOV 7321.5 CCC AJ(J,33)=AJ(J,33)+AOTDT 7322. CCC CJ(J,33)=CJ(J,33)+COTDT 7322.5 AJ(J,34)=AJ(J,34)+ATG3 7323. CJ(J,41)=CJ(J,41)+CEDIFS 7324.5 CJ(J,42)=CJ(J,42)+CF1DT 7325.5 AJ(J,43)=AJ(J,43)+AEFO 7326. CJ(J,43)=CJ(J,43)+(CERUN2+CEFI) 7327. CJ(J,45)=CJ(J,45)+CDIFS 7328. AJ(J,46)=AJ(J,46)+AIFO 7328.5 CJ(J,46)=CJ(J,46)+(CRUN2+CIFI) 7329.5 AJ(J,47)=AJ(J,47)+ARUN4 7330. CJ(J,47)=CJ(J,47)+CRUN4 7330.5 AJ(J,48)=AJ(J,48)+AERUN4 7331. CJ(J,48)=CJ(J,48)+CERUN4 7331.5 CJ(J,52)=CJ(J,52)+CACE2 7334. CJ(J,53)=CJ(J,53)+CSNOW 7335. CJ(J,54)=CJ(J,54)+CRUN0 7336. c if(J.eq.8.and.TAU.ge. 17520.00)then c print *,'4 ODATA(1,j,1)=',ODATA(1,j,1) c endif 980 CONTINUE 7336.5 RETURN 7337. END 7337.5