subroutine PHENOL (LAND_PTS, LAND_INDEX, N, G_LEAF, HT &, DTIME_PHEN, G_LEAF_PHEN, LAI) #if defined O_mtlm !----------------------------------------------------------------------- ! Parametrizes leaf phenological changes and updates the leaf area ! index and the leaf turnover rate. !********************************************************************** ! 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 include "size.h" include "mtlm_data.h" ! LAND_PTS = IN Number of vegetated points. ! LAND_INDEX = IN Index of vegetated points. ! N = IN Plant functional type. integer LAND_PTS, LAND_INDEX(POINTS), N, J, L ! G_LEAF = IN Rate of leaf turnover (/360days). ! HT = IN Canopy height (m). ! DTIME_PHEN = IN Timestep (years). ! G_LEAF_PHEN = OUT Rate of leaf turnover including leaf phenology ! (/360days). ! LAI = INOUT Leaf area index. ! DPHEN = WORK Increment to phenological state. ! LAI_BAL = WORK Balanced growth LAI. ! PHEN = WORK Phenological state. real G_LEAF(POINTS), HT(POINTS), DTIME_PHEN, G_LEAF_PHEN(POINTS) real LAI(POINTS), DPHEN, LAI_BAL(POINTS), PHEN(POINTS) !----------------------------------------------------------------------- ! Diagnose the phenological state !----------------------------------------------------------------------- do J=1,LAND_PTS L = LAND_INDEX(J) LAI_BAL(L) = (A_WS(N)*ETA_SL(N)*HT(L) & /A_WL(N))**(1.0/(B_WL(N)-1)) PHEN(L) = LAI(L)/LAI_BAL(L) enddo !----------------------------------------------------------------------- ! Update the phenological state and output the leaf turnover rate in ! terms of the balanced growth LAI !----------------------------------------------------------------------- do J=1,LAND_PTS L = LAND_INDEX(J) if (G_LEAF(L).gt.2*G_LEAF_0(N)) then DPHEN = -DTIME_PHEN*G_GROW(N) DPHEN = MAX(DPHEN,(0.01-PHEN(L))) G_LEAF_PHEN(L) = -DPHEN/DTIME_PHEN else DPHEN = DTIME_PHEN*G_GROW(N)*(1.0-PHEN(L)) DPHEN = MIN(DPHEN,(1.0-PHEN(L))) G_LEAF_PHEN(L) = PHEN(L)*G_LEAF(L) endif !----------------------------------------------------------------------- ! Update the leaf area index !----------------------------------------------------------------------- PHEN(L) = PHEN(L) + DPHEN LAI(L) = PHEN(L)*LAI_BAL(L) enddo #endif return end