! source file: /Users/csomes/Research/Models/UVic_ESCM/2.9/source/mtlm/soilcarb.F subroutine SOILCARB (POINTS, LAND_PTS, LAND_INDEX, FORW, GAMMA &, DENOM_MIN, LIT_C_T, RESP_S, CS) !---------------------------------------------------------------------- ! Updates carbon contents of the soil. !********************************************************************** ! this file is based on code that may have had the following copyright: ! (c) CROWN COPYRIGHT 1997, U.K. METEOROLOGICAL OFFICE. ! Permission has been granted by the authors to the public to copy ! and use this software without charge, provided that this Notice and ! any statement of authorship are reproduced on all copies. Neither the ! Crown nor the U.K. Meteorological Office makes any warranty, express ! or implied, or assumes any liability or responsibility for the use of ! this software. !********************************************************************** !---------------------------------------------------------------------- implicit none ! POINTS = IN Total number of land points. ! LAND_PTS = IN Number of points on which TRIFFID may operate. ! LAND_INDEX = IN Indices of land points on which TRIFFID may operate. integer POINTS, LAND_PTS, LAND_INDEX(POINTS), L, T ! FORW = IN Forward timestep weighting. ! GAMMA = IN Inverse timestep (/360days). ! DENOM_MIN = IN Minimum value for the denominator of the update ! equation. Ensures that gradient descent does not lead ! to an unstable solution. ! LIT_C_T = IN Total carbon litter (kg C/m2/360days). ! RESP_S = INOUT Soil respiration (kg C/m2/360days). ! CS = INOUT Soil carbon (kg C/m2). ! DCS = WORK Increment to the soil carbon (kg C/m2). ! DPC_DCS = WORK Rate of change of PC with soil carbon (/360days). ! PC = WORK Net carbon accumulation in the soil ! (kg C/m2/360days). real FORW, GAMMA, LIT_C_T(POINTS), DENOM_MIN, RESP_S(POINTS) real CS(POINTS), DCS(POINTS), DPC_DCS(POINTS), PC(POINTS) do T=1,LAND_PTS L=LAND_INDEX(T) !---------------------------------------------------------------------- ! Diagnose the net local carbon flux into the soil !---------------------------------------------------------------------- PC(L) = LIT_C_T(L)-RESP_S(L) !---------------------------------------------------------------------- ! Variables required for the implicit and equilibrium calculations !---------------------------------------------------------------------- DPC_DCS(L) = RESP_S(L)/CS(L) !---------------------------------------------------------------------- ! Save current value of soil carbon !---------------------------------------------------------------------- DCS(L) = CS(L) enddo !---------------------------------------------------------------------- ! Update soil carbon !---------------------------------------------------------------------- call DECAY (POINTS, LAND_PTS, LAND_INDEX, DPC_DCS, FORW, GAMMA &, DENOM_MIN, PC, CS) !---------------------------------------------------------------------- ! Apply implicit correction to the soil respiration rate. !---------------------------------------------------------------------- do T=1,LAND_PTS L=LAND_INDEX(T) DCS(L) = CS(L) - DCS(L) RESP_S(L) = RESP_S(L) + FORW*DPC_DCS(L)*DCS(L) enddo return end subroutine DECAY (POINTS, LAND_PTS, LAND_INDEX, DPC_DCS, FORW &, GAMMA, DENOM_MIN, PC, CS) !----------------------------------------------------------------------- ! Updates carbon contents of the soil. ********************************************************************** ! this file is based on code that may have had the following copyright: ! (c) CROWN COPYRIGHT 1997, U.K. METEOROLOGICAL OFFICE. ! Permission has been granted by the authors to the public to copy ! and use this software without charge, provided that this Notice and ! any statement of authorship are reproduced on all copies. Neither the ! Crown nor the U.K. Meteorological Office makes any warranty, express ! or implied, or assumes any liability or responsibility for the use of ! this software. !********************************************************************** !----------------------------------------------------------------------- implicit none ! POINTS = IN Total number of land points. ! LAND_PTS = IN Number of points on which TRIFFID may operate. ! LAND_INDEX = IN Indices of land points on which TRIFFID may operate. integer POINTS, LAND_PTS, LAND_INDEX(POINTS), L, T ! DPC_DCS = IN Rate of change of PC with soil carbon (yr). ! FORW = IN Forward timestep weighting. ! GAMMA = IN Inverse timestep (/360days). ! DENOM_MIN = IN Minimum value for the denominator of the update ! equation. Ensures that gradient descent does not lead ! to an unstable solution. ! PC = IN Net carbon flux into the soil (kg C/m2/360days). ! CS = INOUT Soil carbon (kg C/m2). ! DENOM = WORK Denominator of update equation. ! NUMER = WORK Numerator of the update equation. ! CS_MIN = Minimum soil carbon (kg C/m2). real DPC_DCS(POINTS), FORW, GAMMA, DENOM_MIN, PC(POINTS) real CS(POINTS), DENOM, NUMER, CS_MIN parameter (CS_MIN=1.0E-6) do T=1,LAND_PTS L=LAND_INDEX(T) NUMER = PC(L) DENOM = GAMMA+FORW*DPC_DCS(L) DENOM = MAX(DENOM,DENOM_MIN) CS(L) = CS(L)+NUMER/DENOM CS(L) = MAX(CS_MIN,CS(L)) enddo return end