module FracWetMod !----------------------------------------------------------------------- !BOP ! ! !MODULE: FracWetMod ! ! !DESCRIPTION: ! Determine fraction of vegetated surfaces which are wet and ! fraction of elai which is dry. ! ! !PUBLIC TYPES: implicit none save ! ! !PUBLIC MEMBER FUNCTIONS: public :: FracWet ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! !EOP !----------------------------------------------------------------------- contains !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: FracWet ! ! !INTERFACE: subroutine FracWet(numf, filter) ! ! !DESCRIPTION: ! Determine fraction of vegetated surfaces which are wet and ! fraction of elai which is dry. The variable ``fwet'' is the ! fraction of all vegetation surfaces which are wet including ! stem area which contribute to evaporation. The variable ``fdry'' ! is the fraction of elai which is dry because only leaves ! can transpire. Adjusted for stem area which does not transpire. ! ! !USES: use shr_kind_mod, only: r8 => shr_kind_r8 use clmtype ! ! !ARGUMENTS: implicit none integer, intent(in) :: numf ! number of filter non-lake points integer, intent(in) :: filter(numf) ! pft filter for non-lake points ! ! !CALLED FROM: ! subroutine Hydrology1 in module Hydrology1Mod ! ! !REVISION HISTORY: ! Created by Keith Oleson and M. Vertenstein ! 03/08/29 Mariana Vertenstein : Migrated to vectorized code ! ! !LOCAL VARIABLES: ! ! local pointers to implicit in arguments ! integer , pointer :: frac_veg_nosno(:) ! fraction of veg not covered by snow (0/1 now) [-] real(r8), pointer :: dewmx(:) ! Maximum allowed dew [mm] real(r8), pointer :: elai(:) ! one-sided leaf area index with burying by snow real(r8), pointer :: esai(:) ! one-sided stem area index with burying by snow real(r8), pointer :: h2ocan(:) ! total canopy water (mm H2O) ! ! local pointers to implicit out arguments ! real(r8), pointer :: fwet(:) ! fraction of canopy that is wet (0 to 1) real(r8), pointer :: fdry(:) ! fraction of foliage that is green and dry [-] (new) ! ! ! !OTHER LOCAL VARIABLES: !EOP ! integer :: fp,p ! indices real(r8) :: vegt ! frac_veg_nosno*lsai real(r8) :: dewmxi ! inverse of maximum allowed dew [1/mm] !----------------------------------------------------------------------- ! Assign local pointers to derived subtypes components (pft-level) frac_veg_nosno => clm3%g%l%c%p%pps%frac_veg_nosno dewmx => clm3%g%l%c%p%pps%dewmx elai => clm3%g%l%c%p%pps%elai esai => clm3%g%l%c%p%pps%esai h2ocan => clm3%g%l%c%p%pws%h2ocan fwet => clm3%g%l%c%p%pps%fwet fdry => clm3%g%l%c%p%pps%fdry ! Compute fraction of canopy that is wet and dry do fp = 1,numf p = filter(fp) if (frac_veg_nosno(p) == 1) then if (h2ocan(p) > 0._r8) then vegt = frac_veg_nosno(p)*(elai(p) + esai(p)) dewmxi = 1.0_r8/dewmx(p) fwet(p) = ((dewmxi/vegt)*h2ocan(p))**0.666666666666_r8 fwet(p) = min (fwet(p),1.0_r8) ! Check for maximum limit of fwet else fwet(p) = 0._r8 end if fdry(p) = (1._r8-fwet(p))*elai(p)/(elai(p)+esai(p)) #if (defined PERGRO) fwet(p) = 0._r8 fdry(p) = elai(p)/(elai(p)+esai(p)) #endif else fwet(p) = 0._r8 fdry(p) = 0._r8 end if end do end subroutine FracWet end module FracWetMod