module C13SummaryMod #if (defined CN) && (defined C13) !----------------------------------------------------------------------- !BOP ! ! !MODULE: C13SummaryMod ! ! !DESCRIPTION: ! Module for isotope carbon summary calculations ! ! !USES: use shr_kind_mod, only: r8 => shr_kind_r8 implicit none save private ! !PUBLIC MEMBER FUNCTIONS: public :: C13Summary ! ! !REVISION HISTORY: ! 7/13/2005: Created by Peter Thornton ! !EOP !----------------------------------------------------------------------- contains !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: C13Summary ! ! !INTERFACE: subroutine C13Summary(num_soilc, filter_soilc, num_soilp, filter_soilp) ! ! !DESCRIPTION: ! On the radiation time step, perform pft and column-level carbon ! summary calculations ! ! !USES: use clmtype use pft2colMod, only: p2c use clm_varctl, only: iulog use shr_sys_mod, only: shr_sys_flush ! ! !ARGUMENTS: implicit none integer, intent(in) :: num_soilc ! number of soil columns in filter integer, intent(in) :: filter_soilc(:) ! filter for soil columns integer, intent(in) :: num_soilp ! number of soil pfts in filter integer, intent(in) :: filter_soilp(:) ! filter for soil pfts ! ! !CALLED FROM: ! subroutine CNEcosystemDyn ! ! !REVISION HISTORY: ! 12/9/03: Created by Peter Thornton ! ! !LOCAL VARIABLES: ! local pointers to implicit in scalars real(r8), pointer :: col_fire_closs(:) ! (gC/m2/s) total column-level fire C loss real(r8), pointer :: er(:) ! (gC/m2/s) total ecosystem respiration, autotrophic + heterotrophic real(r8), pointer :: hr(:) ! (gC/m2/s) total heterotrophic respiration real(r8), pointer :: litfire(:) ! (gC/m2/s) litter fire losses real(r8), pointer :: lithr(:) ! (gC/m2/s) litter heterotrophic respiration real(r8), pointer :: litr1_hr(:) real(r8), pointer :: litr2_hr(:) real(r8), pointer :: litr3_hr(:) real(r8), pointer :: m_cwdc_to_fire(:) real(r8), pointer :: m_litr1c_to_fire(:) real(r8), pointer :: m_litr2c_to_fire(:) real(r8), pointer :: m_litr3c_to_fire(:) real(r8), pointer :: nee(:) ! (gC/m2/s) net ecosystem exchange of carbon, includes fire, land-use, and wood products flux, positive for source real(r8), pointer :: nbp(:) ! (gC/m2/s) net biome production, includes fire, land-use, and wood products flux, positive for sink real(r8), pointer :: nep(:) ! (gC/m2/s) net ecosystem production, excludes fire, land-use, and wood products flux, positive for sink real(r8), pointer :: col_ar(:) ! (gC/m2/s) autotrophic respiration (MR + GR) real(r8), pointer :: col_gpp(:) !GPP flux before downregulation (gC/m2/s) real(r8), pointer :: col_npp(:) ! (gC/m2/s) net primary production real(r8), pointer :: col_pft_fire_closs(:) ! (gC/m2/s) total pft-level fire C loss real(r8), pointer :: col_rr(:) ! (gC/m2/s) root respiration (fine root MR + total root GR) real(r8), pointer :: col_vegfire(:) ! (gC/m2/s) pft-level fire loss (obsolete, mark for removal) real(r8), pointer :: col_wood_harvestc(:) real(r8), pointer :: soil1_hr(:) real(r8), pointer :: soil2_hr(:) real(r8), pointer :: soil3_hr(:) real(r8), pointer :: soil4_hr(:) real(r8), pointer :: somfire(:) ! (gC/m2/s) soil organic matter fire losses real(r8), pointer :: somhr(:) ! (gC/m2/s) soil organic matter heterotrophic respiration real(r8), pointer :: sr(:) ! (gC/m2/s) total soil respiration (HR + root resp) real(r8), pointer :: totfire(:) ! (gC/m2/s) total ecosystem fire losses real(r8), pointer :: cwdc(:) ! (gC/m2) coarse woody debris C real(r8), pointer :: litr1c(:) ! (gC/m2) litter labile C real(r8), pointer :: litr2c(:) ! (gC/m2) litter cellulose C real(r8), pointer :: litr3c(:) ! (gC/m2) litter lignin C real(r8), pointer :: col_totpftc(:) ! (gC/m2) total pft-level carbon, including cpool real(r8), pointer :: col_totvegc(:) ! (gC/m2) total vegetation carbon, excluding cpool real(r8), pointer :: soil1c(:) ! (gC/m2) soil organic matter C (fast pool) real(r8), pointer :: soil2c(:) ! (gC/m2) soil organic matter C (medium pool) real(r8), pointer :: soil3c(:) ! (gC/m2) soil organic matter C (slow pool) real(r8), pointer :: soil4c(:) ! (gC/m2) soil organic matter C (slow pool) real(r8), pointer :: totcolc(:) ! (gC/m2) total column carbon, incl veg and cpool real(r8), pointer :: totecosysc(:) ! (gC/m2) total ecosystem carbon, incl veg but excl cpool real(r8), pointer :: totlitc(:) ! (gC/m2) total litter carbon real(r8), pointer :: totsomc(:) ! (gC/m2) total soil organic matter carbon real(r8), pointer :: agnpp(:) ! (gC/m2/s) aboveground NPP real(r8), pointer :: ar(:) ! (gC/m2/s) autotrophic respiration (MR + GR) real(r8), pointer :: bgnpp(:) ! (gC/m2/s) belowground NPP real(r8), pointer :: cpool_deadcroot_gr(:) real(r8), pointer :: cpool_deadcroot_storage_gr(:) real(r8), pointer :: cpool_deadstem_gr(:) real(r8), pointer :: cpool_deadstem_storage_gr(:) real(r8), pointer :: cpool_froot_gr(:) real(r8), pointer :: cpool_froot_storage_gr(:) real(r8), pointer :: cpool_leaf_gr(:) real(r8), pointer :: cpool_leaf_storage_gr(:) real(r8), pointer :: cpool_livecroot_gr(:) real(r8), pointer :: cpool_livecroot_storage_gr(:) real(r8), pointer :: cpool_livestem_gr(:) real(r8), pointer :: cpool_livestem_storage_gr(:) real(r8), pointer :: cpool_to_deadcrootc(:) real(r8), pointer :: cpool_to_deadstemc(:) real(r8), pointer :: cpool_to_frootc(:) real(r8), pointer :: cpool_to_leafc(:) real(r8), pointer :: cpool_to_livecrootc(:) real(r8), pointer :: cpool_to_livestemc(:) real(r8), pointer :: current_gr(:) ! (gC/m2/s) growth resp for new growth displayed in this timestep real(r8), pointer :: deadcrootc_xfer_to_deadcrootc(:) real(r8), pointer :: deadstemc_xfer_to_deadstemc(:) real(r8), pointer :: frootc_to_litter(:) real(r8), pointer :: frootc_xfer_to_frootc(:) real(r8), pointer :: froot_mr(:) real(r8), pointer :: froot_curmr(:) real(r8), pointer :: froot_xsmr(:) real(r8), pointer :: gpp(:) !GPP flux before downregulation (gC/m2/s) real(r8), pointer :: gr(:) ! (gC/m2/s) total growth respiration real(r8), pointer :: leafc_to_litter(:) real(r8), pointer :: leafc_xfer_to_leafc(:) real(r8), pointer :: leaf_mr(:) real(r8), pointer :: leaf_curmr(:) real(r8), pointer :: leaf_xsmr(:) real(r8), pointer :: litfall(:) ! (gC/m2/s) litterfall (leaves and fine roots) real(r8), pointer :: livecrootc_xfer_to_livecrootc(:) real(r8), pointer :: livecroot_mr(:) real(r8), pointer :: livecroot_curmr(:) real(r8), pointer :: livecroot_xsmr(:) real(r8), pointer :: livestemc_xfer_to_livestemc(:) real(r8), pointer :: livestem_mr(:) real(r8), pointer :: livestem_curmr(:) real(r8), pointer :: livestem_xsmr(:) real(r8), pointer :: m_deadcrootc_storage_to_fire(:) real(r8), pointer :: m_deadcrootc_storage_to_litter(:) real(r8), pointer :: m_deadcrootc_to_fire(:) real(r8), pointer :: m_deadcrootc_to_litter(:) real(r8), pointer :: m_deadcrootc_to_litter_fire(:) real(r8), pointer :: m_deadcrootc_xfer_to_fire(:) real(r8), pointer :: m_deadcrootc_xfer_to_litter(:) real(r8), pointer :: m_deadstemc_storage_to_fire(:) real(r8), pointer :: m_deadstemc_storage_to_litter(:) real(r8), pointer :: m_deadstemc_to_fire(:) real(r8), pointer :: m_deadstemc_to_litter(:) real(r8), pointer :: m_deadstemc_to_litter_fire(:) real(r8), pointer :: m_deadstemc_xfer_to_fire(:) real(r8), pointer :: m_deadstemc_xfer_to_litter(:) real(r8), pointer :: m_frootc_storage_to_fire(:) real(r8), pointer :: m_frootc_storage_to_litter(:) real(r8), pointer :: m_frootc_to_fire(:) real(r8), pointer :: m_frootc_to_litter(:) real(r8), pointer :: m_frootc_xfer_to_fire(:) real(r8), pointer :: m_frootc_xfer_to_litter(:) real(r8), pointer :: m_gresp_storage_to_fire(:) real(r8), pointer :: m_gresp_storage_to_litter(:) real(r8), pointer :: m_gresp_xfer_to_fire(:) real(r8), pointer :: m_gresp_xfer_to_litter(:) real(r8), pointer :: m_leafc_storage_to_fire(:) real(r8), pointer :: m_leafc_storage_to_litter(:) real(r8), pointer :: m_leafc_to_fire(:) real(r8), pointer :: m_leafc_to_litter(:) real(r8), pointer :: m_leafc_xfer_to_fire(:) real(r8), pointer :: m_leafc_xfer_to_litter(:) real(r8), pointer :: m_livecrootc_storage_to_fire(:) real(r8), pointer :: m_livecrootc_storage_to_litter(:) real(r8), pointer :: m_livecrootc_to_fire(:) real(r8), pointer :: m_livecrootc_to_litter(:) real(r8), pointer :: m_livecrootc_xfer_to_fire(:) real(r8), pointer :: m_livecrootc_xfer_to_litter(:) real(r8), pointer :: m_livestemc_storage_to_fire(:) real(r8), pointer :: m_livestemc_storage_to_litter(:) real(r8), pointer :: m_livestemc_to_fire(:) real(r8), pointer :: m_livestemc_to_litter(:) real(r8), pointer :: m_livestemc_xfer_to_fire(:) real(r8), pointer :: m_livestemc_xfer_to_litter(:) real(r8), pointer :: hrv_leafc_to_litter(:) real(r8), pointer :: hrv_leafc_storage_to_litter(:) real(r8), pointer :: hrv_leafc_xfer_to_litter(:) real(r8), pointer :: hrv_frootc_to_litter(:) real(r8), pointer :: hrv_frootc_storage_to_litter(:) real(r8), pointer :: hrv_frootc_xfer_to_litter(:) real(r8), pointer :: hrv_livestemc_to_litter(:) real(r8), pointer :: hrv_livestemc_storage_to_litter(:) real(r8), pointer :: hrv_livestemc_xfer_to_litter(:) real(r8), pointer :: hrv_deadstemc_to_prod10c(:) real(r8), pointer :: hrv_deadstemc_to_prod100c(:) real(r8), pointer :: hrv_deadstemc_storage_to_litter(:) real(r8), pointer :: hrv_deadstemc_xfer_to_litter(:) real(r8), pointer :: hrv_livecrootc_to_litter(:) real(r8), pointer :: hrv_livecrootc_storage_to_litter(:) real(r8), pointer :: hrv_livecrootc_xfer_to_litter(:) real(r8), pointer :: hrv_deadcrootc_to_litter(:) real(r8), pointer :: hrv_deadcrootc_storage_to_litter(:) real(r8), pointer :: hrv_deadcrootc_xfer_to_litter(:) real(r8), pointer :: hrv_gresp_storage_to_litter(:) real(r8), pointer :: hrv_gresp_xfer_to_litter(:) real(r8), pointer :: hrv_xsmrpool_to_atm(:) real(r8), pointer :: mr(:) ! (gC/m2/s) maintenance respiration real(r8), pointer :: npp(:) ! (gC/m2/s) net primary production real(r8), pointer :: pft_fire_closs(:) ! (gC/m2/s) total pft-level fire C loss real(r8), pointer :: psnshade_to_cpool(:) real(r8), pointer :: psnsun_to_cpool(:) real(r8), pointer :: rr(:) ! (gC/m2/s) root respiration (fine root MR + total root GR) real(r8), pointer :: storage_gr(:) ! (gC/m2/s) growth resp for growth sent to storage for later display real(r8), pointer :: transfer_deadcroot_gr(:) real(r8), pointer :: transfer_deadstem_gr(:) real(r8), pointer :: transfer_froot_gr(:) real(r8), pointer :: transfer_gr(:) ! (gC/m2/s) growth resp for transfer growth displayed in this timestep real(r8), pointer :: transfer_leaf_gr(:) real(r8), pointer :: transfer_livecroot_gr(:) real(r8), pointer :: transfer_livestem_gr(:) real(r8), pointer :: wood_harvestc(:) ! (gC/m2/s) pft-level wood harvest (to product pools) real(r8), pointer :: vegfire(:) ! (gC/m2/s) pft-level fire loss (obsolete, mark for removal) real(r8), pointer :: cpool(:) ! (gC/m2) temporary photosynthate C pool real(r8), pointer :: xsmrpool(:) ! (gC/m2) temporary photosynthate C pool real(r8), pointer :: deadcrootc(:) ! (gC/m2) dead coarse root C real(r8), pointer :: deadcrootc_storage(:) ! (gC/m2) dead coarse root C storage real(r8), pointer :: deadcrootc_xfer(:) !(gC/m2) dead coarse root C transfer real(r8), pointer :: deadstemc(:) ! (gC/m2) dead stem C real(r8), pointer :: deadstemc_storage(:) ! (gC/m2) dead stem C storage real(r8), pointer :: deadstemc_xfer(:) ! (gC/m2) dead stem C transfer real(r8), pointer :: dispvegc(:) ! (gC/m2) displayed veg carbon, excluding storage and cpool real(r8), pointer :: frootc(:) ! (gC/m2) fine root C real(r8), pointer :: frootc_storage(:) ! (gC/m2) fine root C storage real(r8), pointer :: frootc_xfer(:) ! (gC/m2) fine root C transfer real(r8), pointer :: gresp_storage(:) ! (gC/m2) growth respiration storage real(r8), pointer :: gresp_xfer(:) ! (gC/m2) growth respiration transfer real(r8), pointer :: leafc(:) ! (gC/m2) leaf C real(r8), pointer :: leafc_storage(:) ! (gC/m2) leaf C storage real(r8), pointer :: leafc_xfer(:) ! (gC/m2) leaf C transfer real(r8), pointer :: livecrootc(:) ! (gC/m2) live coarse root C real(r8), pointer :: livecrootc_storage(:) ! (gC/m2) live coarse root C storage real(r8), pointer :: livecrootc_xfer(:) !(gC/m2) live coarse root C transfer real(r8), pointer :: livestemc(:) ! (gC/m2) live stem C real(r8), pointer :: livestemc_storage(:) ! (gC/m2) live stem C storage real(r8), pointer :: livestemc_xfer(:) ! (gC/m2) live stem C transfer real(r8), pointer :: storvegc(:) ! (gC/m2) stored vegetation carbon, excluding cpool real(r8), pointer :: totpftc(:) ! (gC/m2) total pft-level carbon, including cpool real(r8), pointer :: totvegc(:) ! (gC/m2) total vegetation carbon, excluding cpool ! for landcover change real(r8), pointer :: dwt_closs(:) ! (gC/m2/s) total carbon loss from product pools and conversion real(r8), pointer :: dwt_conv_cflux(:) ! (gC/m2/s) conversion C flux (immediate loss to atm) real(r8), pointer :: prod10c_loss(:) ! (gC/m2/s) loss from 10-yr wood product pool real(r8), pointer :: prod100c_loss(:) ! (gC/m2/s) loss from 100-yr wood product pool real(r8), pointer :: product_closs(:) ! (gC/m2/s) total wood product carbon loss real(r8), pointer :: prod10c(:) ! (gC/m2) wood product C pool, 10-year lifespan real(r8), pointer :: prod100c(:) ! (gC/m2) wood product C pool, 100-year lifespan real(r8), pointer :: totprodc(:) ! (gC/m2) total wood product C ! ! ! local pointers to implicit in/out scalars ! ! ! local pointers to implicit out scalars ! ! ! !OTHER LOCAL VARIABLES: integer :: c,p ! indices integer :: fp,fc ! lake filter indices !EOP !----------------------------------------------------------------------- ! assign local pointers col_fire_closs => clm3%g%l%c%cc13f%col_fire_closs er => clm3%g%l%c%cc13f%er hr => clm3%g%l%c%cc13f%hr litfire => clm3%g%l%c%cc13f%litfire lithr => clm3%g%l%c%cc13f%lithr litr1_hr => clm3%g%l%c%cc13f%litr1_hr litr2_hr => clm3%g%l%c%cc13f%litr2_hr litr3_hr => clm3%g%l%c%cc13f%litr3_hr m_cwdc_to_fire => clm3%g%l%c%cc13f%m_cwdc_to_fire m_litr1c_to_fire => clm3%g%l%c%cc13f%m_litr1c_to_fire m_litr2c_to_fire => clm3%g%l%c%cc13f%m_litr2c_to_fire m_litr3c_to_fire => clm3%g%l%c%cc13f%m_litr3c_to_fire nee => clm3%g%l%c%cc13f%nee nep => clm3%g%l%c%cc13f%nep nbp => clm3%g%l%c%cc13f%nbp col_ar => clm3%g%l%c%cc13f%pcf_a%ar col_gpp => clm3%g%l%c%cc13f%pcf_a%gpp col_npp => clm3%g%l%c%cc13f%pcf_a%npp col_pft_fire_closs => clm3%g%l%c%cc13f%pcf_a%pft_fire_closs col_rr => clm3%g%l%c%cc13f%pcf_a%rr col_vegfire => clm3%g%l%c%cc13f%pcf_a%vegfire col_wood_harvestc => clm3%g%l%c%cc13f%pcf_a%wood_harvestc soil1_hr => clm3%g%l%c%cc13f%soil1_hr soil2_hr => clm3%g%l%c%cc13f%soil2_hr soil3_hr => clm3%g%l%c%cc13f%soil3_hr soil4_hr => clm3%g%l%c%cc13f%soil4_hr somfire => clm3%g%l%c%cc13f%somfire somhr => clm3%g%l%c%cc13f%somhr sr => clm3%g%l%c%cc13f%sr totfire => clm3%g%l%c%cc13f%totfire ! dynamic landcover pointers dwt_closs => clm3%g%l%c%cc13f%dwt_closs dwt_conv_cflux => clm3%g%l%c%cc13f%dwt_conv_cflux ! wood product pointers prod10c_loss => clm3%g%l%c%cc13f%prod10c_loss prod100c_loss => clm3%g%l%c%cc13f%prod100c_loss product_closs => clm3%g%l%c%cc13f%product_closs prod10c => clm3%g%l%c%cc13s%prod10c prod100c => clm3%g%l%c%cc13s%prod100c totprodc => clm3%g%l%c%cc13s%totprodc cwdc => clm3%g%l%c%cc13s%cwdc litr1c => clm3%g%l%c%cc13s%litr1c litr2c => clm3%g%l%c%cc13s%litr2c litr3c => clm3%g%l%c%cc13s%litr3c col_totpftc => clm3%g%l%c%cc13s%pcs_a%totpftc col_totvegc => clm3%g%l%c%cc13s%pcs_a%totvegc soil1c => clm3%g%l%c%cc13s%soil1c soil2c => clm3%g%l%c%cc13s%soil2c soil3c => clm3%g%l%c%cc13s%soil3c soil4c => clm3%g%l%c%cc13s%soil4c totcolc => clm3%g%l%c%cc13s%totcolc totecosysc => clm3%g%l%c%cc13s%totecosysc totlitc => clm3%g%l%c%cc13s%totlitc totsomc => clm3%g%l%c%cc13s%totsomc agnpp => clm3%g%l%c%p%pc13f%agnpp ar => clm3%g%l%c%p%pc13f%ar bgnpp => clm3%g%l%c%p%pc13f%bgnpp cpool_deadcroot_gr => clm3%g%l%c%p%pc13f%cpool_deadcroot_gr cpool_deadcroot_storage_gr => clm3%g%l%c%p%pc13f%cpool_deadcroot_storage_gr cpool_deadstem_gr => clm3%g%l%c%p%pc13f%cpool_deadstem_gr cpool_deadstem_storage_gr => clm3%g%l%c%p%pc13f%cpool_deadstem_storage_gr cpool_froot_gr => clm3%g%l%c%p%pc13f%cpool_froot_gr cpool_froot_storage_gr => clm3%g%l%c%p%pc13f%cpool_froot_storage_gr cpool_leaf_gr => clm3%g%l%c%p%pc13f%cpool_leaf_gr cpool_leaf_storage_gr => clm3%g%l%c%p%pc13f%cpool_leaf_storage_gr cpool_livecroot_gr => clm3%g%l%c%p%pc13f%cpool_livecroot_gr cpool_livecroot_storage_gr => clm3%g%l%c%p%pc13f%cpool_livecroot_storage_gr cpool_livestem_gr => clm3%g%l%c%p%pc13f%cpool_livestem_gr cpool_livestem_storage_gr => clm3%g%l%c%p%pc13f%cpool_livestem_storage_gr cpool_to_deadcrootc => clm3%g%l%c%p%pc13f%cpool_to_deadcrootc cpool_to_deadstemc => clm3%g%l%c%p%pc13f%cpool_to_deadstemc cpool_to_frootc => clm3%g%l%c%p%pc13f%cpool_to_frootc cpool_to_leafc => clm3%g%l%c%p%pc13f%cpool_to_leafc cpool_to_livecrootc => clm3%g%l%c%p%pc13f%cpool_to_livecrootc cpool_to_livestemc => clm3%g%l%c%p%pc13f%cpool_to_livestemc current_gr => clm3%g%l%c%p%pc13f%current_gr deadcrootc_xfer_to_deadcrootc => clm3%g%l%c%p%pc13f%deadcrootc_xfer_to_deadcrootc deadstemc_xfer_to_deadstemc => clm3%g%l%c%p%pc13f%deadstemc_xfer_to_deadstemc frootc_to_litter => clm3%g%l%c%p%pc13f%frootc_to_litter frootc_xfer_to_frootc => clm3%g%l%c%p%pc13f%frootc_xfer_to_frootc froot_mr => clm3%g%l%c%p%pc13f%froot_mr froot_curmr => clm3%g%l%c%p%pc13f%froot_curmr froot_xsmr => clm3%g%l%c%p%pc13f%froot_xsmr gpp => clm3%g%l%c%p%pc13f%gpp gr => clm3%g%l%c%p%pc13f%gr leafc_to_litter => clm3%g%l%c%p%pc13f%leafc_to_litter leafc_xfer_to_leafc => clm3%g%l%c%p%pc13f%leafc_xfer_to_leafc leaf_mr => clm3%g%l%c%p%pc13f%leaf_mr leaf_curmr => clm3%g%l%c%p%pc13f%leaf_curmr leaf_xsmr => clm3%g%l%c%p%pc13f%leaf_xsmr litfall => clm3%g%l%c%p%pc13f%litfall livecrootc_xfer_to_livecrootc => clm3%g%l%c%p%pc13f%livecrootc_xfer_to_livecrootc livecroot_mr => clm3%g%l%c%p%pc13f%livecroot_mr livecroot_curmr => clm3%g%l%c%p%pc13f%livecroot_curmr livecroot_xsmr => clm3%g%l%c%p%pc13f%livecroot_xsmr livestemc_xfer_to_livestemc => clm3%g%l%c%p%pc13f%livestemc_xfer_to_livestemc livestem_mr => clm3%g%l%c%p%pc13f%livestem_mr livestem_curmr => clm3%g%l%c%p%pc13f%livestem_curmr livestem_xsmr => clm3%g%l%c%p%pc13f%livestem_xsmr m_deadcrootc_storage_to_fire => clm3%g%l%c%p%pc13f%m_deadcrootc_storage_to_fire m_deadcrootc_storage_to_litter => clm3%g%l%c%p%pc13f%m_deadcrootc_storage_to_litter m_deadcrootc_to_fire => clm3%g%l%c%p%pc13f%m_deadcrootc_to_fire m_deadcrootc_to_litter => clm3%g%l%c%p%pc13f%m_deadcrootc_to_litter m_deadcrootc_to_litter_fire => clm3%g%l%c%p%pc13f%m_deadcrootc_to_litter_fire m_deadcrootc_xfer_to_fire => clm3%g%l%c%p%pc13f%m_deadcrootc_xfer_to_fire m_deadcrootc_xfer_to_litter => clm3%g%l%c%p%pc13f%m_deadcrootc_xfer_to_litter m_deadstemc_storage_to_fire => clm3%g%l%c%p%pc13f%m_deadstemc_storage_to_fire m_deadstemc_storage_to_litter => clm3%g%l%c%p%pc13f%m_deadstemc_storage_to_litter m_deadstemc_to_fire => clm3%g%l%c%p%pc13f%m_deadstemc_to_fire m_deadstemc_to_litter => clm3%g%l%c%p%pc13f%m_deadstemc_to_litter m_deadstemc_to_litter_fire => clm3%g%l%c%p%pc13f%m_deadstemc_to_litter_fire m_deadstemc_xfer_to_fire => clm3%g%l%c%p%pc13f%m_deadstemc_xfer_to_fire m_deadstemc_xfer_to_litter => clm3%g%l%c%p%pc13f%m_deadstemc_xfer_to_litter m_frootc_storage_to_fire => clm3%g%l%c%p%pc13f%m_frootc_storage_to_fire m_frootc_storage_to_litter => clm3%g%l%c%p%pc13f%m_frootc_storage_to_litter m_frootc_to_fire => clm3%g%l%c%p%pc13f%m_frootc_to_fire m_frootc_to_litter => clm3%g%l%c%p%pc13f%m_frootc_to_litter m_frootc_xfer_to_fire => clm3%g%l%c%p%pc13f%m_frootc_xfer_to_fire m_frootc_xfer_to_litter => clm3%g%l%c%p%pc13f%m_frootc_xfer_to_litter m_gresp_storage_to_fire => clm3%g%l%c%p%pc13f%m_gresp_storage_to_fire m_gresp_storage_to_litter => clm3%g%l%c%p%pc13f%m_gresp_storage_to_litter m_gresp_xfer_to_fire => clm3%g%l%c%p%pc13f%m_gresp_xfer_to_fire m_gresp_xfer_to_litter => clm3%g%l%c%p%pc13f%m_gresp_xfer_to_litter m_leafc_storage_to_fire => clm3%g%l%c%p%pc13f%m_leafc_storage_to_fire m_leafc_storage_to_litter => clm3%g%l%c%p%pc13f%m_leafc_storage_to_litter m_leafc_to_fire => clm3%g%l%c%p%pc13f%m_leafc_to_fire m_leafc_to_litter => clm3%g%l%c%p%pc13f%m_leafc_to_litter m_leafc_xfer_to_fire => clm3%g%l%c%p%pc13f%m_leafc_xfer_to_fire m_leafc_xfer_to_litter => clm3%g%l%c%p%pc13f%m_leafc_xfer_to_litter m_livecrootc_storage_to_fire => clm3%g%l%c%p%pc13f%m_livecrootc_storage_to_fire m_livecrootc_storage_to_litter => clm3%g%l%c%p%pc13f%m_livecrootc_storage_to_litter m_livecrootc_to_fire => clm3%g%l%c%p%pc13f%m_livecrootc_to_fire m_livecrootc_to_litter => clm3%g%l%c%p%pc13f%m_livecrootc_to_litter m_livecrootc_xfer_to_fire => clm3%g%l%c%p%pc13f%m_livecrootc_xfer_to_fire m_livecrootc_xfer_to_litter => clm3%g%l%c%p%pc13f%m_livecrootc_xfer_to_litter m_livestemc_storage_to_fire => clm3%g%l%c%p%pc13f%m_livestemc_storage_to_fire m_livestemc_storage_to_litter => clm3%g%l%c%p%pc13f%m_livestemc_storage_to_litter m_livestemc_to_fire => clm3%g%l%c%p%pc13f%m_livestemc_to_fire m_livestemc_to_litter => clm3%g%l%c%p%pc13f%m_livestemc_to_litter m_livestemc_xfer_to_fire => clm3%g%l%c%p%pc13f%m_livestemc_xfer_to_fire m_livestemc_xfer_to_litter => clm3%g%l%c%p%pc13f%m_livestemc_xfer_to_litter hrv_leafc_to_litter => clm3%g%l%c%p%pc13f%hrv_leafc_to_litter hrv_leafc_storage_to_litter => clm3%g%l%c%p%pc13f%hrv_leafc_storage_to_litter hrv_leafc_xfer_to_litter => clm3%g%l%c%p%pc13f%hrv_leafc_xfer_to_litter hrv_frootc_to_litter => clm3%g%l%c%p%pc13f%hrv_frootc_to_litter hrv_frootc_storage_to_litter => clm3%g%l%c%p%pc13f%hrv_frootc_storage_to_litter hrv_frootc_xfer_to_litter => clm3%g%l%c%p%pc13f%hrv_frootc_xfer_to_litter hrv_livestemc_to_litter => clm3%g%l%c%p%pc13f%hrv_livestemc_to_litter hrv_livestemc_storage_to_litter => clm3%g%l%c%p%pc13f%hrv_livestemc_storage_to_litter hrv_livestemc_xfer_to_litter => clm3%g%l%c%p%pc13f%hrv_livestemc_xfer_to_litter hrv_deadstemc_to_prod10c => clm3%g%l%c%p%pc13f%hrv_deadstemc_to_prod10c hrv_deadstemc_to_prod100c => clm3%g%l%c%p%pc13f%hrv_deadstemc_to_prod100c hrv_deadstemc_storage_to_litter => clm3%g%l%c%p%pc13f%hrv_deadstemc_storage_to_litter hrv_deadstemc_xfer_to_litter => clm3%g%l%c%p%pc13f%hrv_deadstemc_xfer_to_litter hrv_livecrootc_to_litter => clm3%g%l%c%p%pc13f%hrv_livecrootc_to_litter hrv_livecrootc_storage_to_litter => clm3%g%l%c%p%pc13f%hrv_livecrootc_storage_to_litter hrv_livecrootc_xfer_to_litter => clm3%g%l%c%p%pc13f%hrv_livecrootc_xfer_to_litter hrv_deadcrootc_to_litter => clm3%g%l%c%p%pc13f%hrv_deadcrootc_to_litter hrv_deadcrootc_storage_to_litter => clm3%g%l%c%p%pc13f%hrv_deadcrootc_storage_to_litter hrv_deadcrootc_xfer_to_litter => clm3%g%l%c%p%pc13f%hrv_deadcrootc_xfer_to_litter hrv_gresp_storage_to_litter => clm3%g%l%c%p%pc13f%hrv_gresp_storage_to_litter hrv_gresp_xfer_to_litter => clm3%g%l%c%p%pc13f%hrv_gresp_xfer_to_litter hrv_xsmrpool_to_atm => clm3%g%l%c%p%pc13f%hrv_xsmrpool_to_atm mr => clm3%g%l%c%p%pc13f%mr npp => clm3%g%l%c%p%pc13f%npp pft_fire_closs => clm3%g%l%c%p%pc13f%pft_fire_closs psnshade_to_cpool => clm3%g%l%c%p%pc13f%psnshade_to_cpool psnsun_to_cpool => clm3%g%l%c%p%pc13f%psnsun_to_cpool rr => clm3%g%l%c%p%pc13f%rr storage_gr => clm3%g%l%c%p%pc13f%storage_gr transfer_deadcroot_gr => clm3%g%l%c%p%pc13f%transfer_deadcroot_gr transfer_deadstem_gr => clm3%g%l%c%p%pc13f%transfer_deadstem_gr transfer_froot_gr => clm3%g%l%c%p%pc13f%transfer_froot_gr transfer_gr => clm3%g%l%c%p%pc13f%transfer_gr transfer_leaf_gr => clm3%g%l%c%p%pc13f%transfer_leaf_gr transfer_livecroot_gr => clm3%g%l%c%p%pc13f%transfer_livecroot_gr transfer_livestem_gr => clm3%g%l%c%p%pc13f%transfer_livestem_gr vegfire => clm3%g%l%c%p%pc13f%vegfire wood_harvestc => clm3%g%l%c%p%pc13f%wood_harvestc cpool => clm3%g%l%c%p%pc13s%cpool xsmrpool => clm3%g%l%c%p%pc13s%xsmrpool deadcrootc => clm3%g%l%c%p%pc13s%deadcrootc deadcrootc_storage => clm3%g%l%c%p%pc13s%deadcrootc_storage deadcrootc_xfer => clm3%g%l%c%p%pc13s%deadcrootc_xfer deadstemc => clm3%g%l%c%p%pc13s%deadstemc deadstemc_storage => clm3%g%l%c%p%pc13s%deadstemc_storage deadstemc_xfer => clm3%g%l%c%p%pc13s%deadstemc_xfer dispvegc => clm3%g%l%c%p%pc13s%dispvegc frootc => clm3%g%l%c%p%pc13s%frootc frootc_storage => clm3%g%l%c%p%pc13s%frootc_storage frootc_xfer => clm3%g%l%c%p%pc13s%frootc_xfer gresp_storage => clm3%g%l%c%p%pc13s%gresp_storage gresp_xfer => clm3%g%l%c%p%pc13s%gresp_xfer leafc => clm3%g%l%c%p%pc13s%leafc leafc_storage => clm3%g%l%c%p%pc13s%leafc_storage leafc_xfer => clm3%g%l%c%p%pc13s%leafc_xfer livecrootc => clm3%g%l%c%p%pc13s%livecrootc livecrootc_storage => clm3%g%l%c%p%pc13s%livecrootc_storage livecrootc_xfer => clm3%g%l%c%p%pc13s%livecrootc_xfer livestemc => clm3%g%l%c%p%pc13s%livestemc livestemc_storage => clm3%g%l%c%p%pc13s%livestemc_storage livestemc_xfer => clm3%g%l%c%p%pc13s%livestemc_xfer storvegc => clm3%g%l%c%p%pc13s%storvegc totpftc => clm3%g%l%c%p%pc13s%totpftc totvegc => clm3%g%l%c%p%pc13s%totvegc ! pft loop do fp = 1,num_soilp p = filter_soilp(fp) ! calculate pft-level summary carbon fluxes and states ! gross primary production (GPP) gpp(p) = & psnsun_to_cpool(p) + & psnshade_to_cpool(p) ! maintenance respiration (MR) leaf_mr(p) = leaf_curmr(p) + leaf_xsmr(p) froot_mr(p) = froot_curmr(p) + froot_xsmr(p) livestem_mr(p) = livestem_curmr(p) + livestem_xsmr(p) livecroot_mr(p) = livecroot_curmr(p) + livecroot_xsmr(p) mr(p) = & leaf_mr(p) + & froot_mr(p) + & livestem_mr(p) + & livecroot_mr(p) ! growth respiration (GR) ! current GR is respired this time step for new growth displayed in this timestep current_gr(p) = & cpool_leaf_gr(p) + & cpool_froot_gr(p) + & cpool_livestem_gr(p) + & cpool_deadstem_gr(p) + & cpool_livecroot_gr(p) + & cpool_deadcroot_gr(p) ! transfer GR is respired this time step for transfer growth displayed in this timestep transfer_gr(p) = & transfer_leaf_gr(p) + & transfer_froot_gr(p) + & transfer_livestem_gr(p) + & transfer_deadstem_gr(p) + & transfer_livecroot_gr(p) + & transfer_deadcroot_gr(p) ! storage GR is respired this time step for growth sent to storage for later display storage_gr(p) = & cpool_leaf_storage_gr(p) + & cpool_froot_storage_gr(p) + & cpool_livestem_storage_gr(p) + & cpool_deadstem_storage_gr(p) + & cpool_livecroot_storage_gr(p) + & cpool_deadcroot_storage_gr(p) ! GR is the sum of current + transfer + storage GR gr(p) = & current_gr(p) + & transfer_gr(p) + & storage_gr(p) ! autotrophic respiration (AR) ar(p) = mr(p) + gr(p) ! root respiration (RR) rr(p) = & froot_mr(p) + & cpool_froot_gr(p) + & cpool_livecroot_gr(p) + & cpool_deadcroot_gr(p) + & transfer_froot_gr(p) + & transfer_livecroot_gr(p) + & transfer_deadcroot_gr(p) + & cpool_froot_storage_gr(p) + & cpool_livecroot_storage_gr(p) + & cpool_deadcroot_storage_gr(p) ! net primary production (NPP) npp(p) = gpp(p) - ar(p) ! aboveground NPP: leaf, live stem, dead stem (AGNPP) ! This is supposed to correspond as closely as possible to ! field measurements of AGNPP, so it ignores the storage pools ! and only treats the fluxes into displayed pools. agnpp(p) = & cpool_to_leafc(p) + & leafc_xfer_to_leafc(p) + & cpool_to_livestemc(p) + & livestemc_xfer_to_livestemc(p) + & cpool_to_deadstemc(p) + & deadstemc_xfer_to_deadstemc(p) ! belowground NPP: fine root, live coarse root, dead coarse root (BGNPP) ! This is supposed to correspond as closely as possible to ! field measurements of BGNPP, so it ignores the storage pools ! and only treats the fluxes into displayed pools. bgnpp(p) = & cpool_to_frootc(p) + & frootc_xfer_to_frootc(p) + & cpool_to_livecrootc(p) + & livecrootc_xfer_to_livecrootc(p) + & cpool_to_deadcrootc(p) + & deadcrootc_xfer_to_deadcrootc(p) ! litterfall (LITFALL) litfall(p) = & leafc_to_litter(p) + & frootc_to_litter(p) + & m_leafc_to_litter(p) + & m_leafc_storage_to_litter(p) + & m_leafc_xfer_to_litter(p) + & m_frootc_to_litter(p) + & m_frootc_storage_to_litter(p) + & m_frootc_xfer_to_litter(p) + & m_livestemc_to_litter(p) + & m_livestemc_storage_to_litter(p) + & m_livestemc_xfer_to_litter(p) + & m_deadstemc_to_litter(p) + & m_deadstemc_storage_to_litter(p) + & m_deadstemc_xfer_to_litter(p) + & m_livecrootc_to_litter(p) + & m_livecrootc_storage_to_litter(p) + & m_livecrootc_xfer_to_litter(p) + & m_deadcrootc_to_litter(p) + & m_deadcrootc_storage_to_litter(p) + & m_deadcrootc_xfer_to_litter(p) + & m_gresp_storage_to_litter(p) + & m_gresp_xfer_to_litter(p) + & m_deadstemc_to_litter_fire(p) + & m_deadcrootc_to_litter_fire(p) + & hrv_leafc_to_litter(p) + & hrv_leafc_storage_to_litter(p) + & hrv_leafc_xfer_to_litter(p) + & hrv_frootc_to_litter(p) + & hrv_frootc_storage_to_litter(p) + & hrv_frootc_xfer_to_litter(p) + & hrv_livestemc_to_litter(p) + & hrv_livestemc_storage_to_litter(p) + & hrv_livestemc_xfer_to_litter(p) + & hrv_deadstemc_storage_to_litter(p) + & hrv_deadstemc_xfer_to_litter(p) + & hrv_livecrootc_to_litter(p) + & hrv_livecrootc_storage_to_litter(p)+ & hrv_livecrootc_xfer_to_litter(p) + & hrv_deadcrootc_to_litter(p) + & hrv_deadcrootc_storage_to_litter(p)+ & hrv_deadcrootc_xfer_to_litter(p) + & hrv_gresp_storage_to_litter(p) + & hrv_gresp_xfer_to_litter(p) ! pft-level fire losses (VEGFIRE) vegfire(p) = 0._r8 ! pft-level wood harvest wood_harvestc(p) = & hrv_deadstemc_to_prod10c(p) + & hrv_deadstemc_to_prod100c(p) ! pft-level carbon losses to fire pft_fire_closs(p) = & m_leafc_to_fire(p) + & m_leafc_storage_to_fire(p) + & m_leafc_xfer_to_fire(p) + & m_frootc_to_fire(p) + & m_frootc_storage_to_fire(p) + & m_frootc_xfer_to_fire(p) + & m_livestemc_to_fire(p) + & m_livestemc_storage_to_fire(p) + & m_livestemc_xfer_to_fire(p) + & m_deadstemc_to_fire(p) + & m_deadstemc_storage_to_fire(p) + & m_deadstemc_xfer_to_fire(p) + & m_livecrootc_to_fire(p) + & m_livecrootc_storage_to_fire(p) + & m_livecrootc_xfer_to_fire(p) + & m_deadcrootc_to_fire(p) + & m_deadcrootc_storage_to_fire(p) + & m_deadcrootc_xfer_to_fire(p) + & m_gresp_storage_to_fire(p) + & m_gresp_xfer_to_fire(p) ! displayed vegetation carbon, excluding storage and cpool (DISPVEGC) dispvegc(p) = & leafc(p) + & frootc(p) + & livestemc(p) + & deadstemc(p) + & livecrootc(p) + & deadcrootc(p) ! stored vegetation carbon, excluding cpool (STORVEGC) storvegc(p) = & cpool(p) + & leafc_storage(p) + & frootc_storage(p) + & livestemc_storage(p) + & deadstemc_storage(p) + & livecrootc_storage(p) + & deadcrootc_storage(p) + & leafc_xfer(p) + & frootc_xfer(p) + & livestemc_xfer(p) + & deadstemc_xfer(p) + & livecrootc_xfer(p) + & deadcrootc_xfer(p) + & gresp_storage(p) + & gresp_xfer(p) ! total vegetation carbon, excluding cpool (TOTVEGC) totvegc(p) = dispvegc(p) + storvegc(p) ! total pft-level carbon, including cpool (TOTPFTC) totpftc(p) = totvegc(p) + xsmrpool(p) end do ! end of pfts loop ! use p2c routine to get selected column-average pft-level fluxes and states call p2c(num_soilc, filter_soilc, gpp, col_gpp) call p2c(num_soilc, filter_soilc, ar, col_ar) call p2c(num_soilc, filter_soilc, rr, col_rr) call p2c(num_soilc, filter_soilc, npp, col_npp) call p2c(num_soilc, filter_soilc, vegfire, col_vegfire) call p2c(num_soilc, filter_soilc, wood_harvestc, col_wood_harvestc) call p2c(num_soilc, filter_soilc, totvegc, col_totvegc) call p2c(num_soilc, filter_soilc, totpftc, col_totpftc) call p2c(num_soilc, filter_soilc, pft_fire_closs, col_pft_fire_closs) ! column loop do fc = 1,num_soilc c = filter_soilc(fc) ! litter heterotrophic respiration (LITHR) lithr(c) = & litr1_hr(c) + & litr2_hr(c) + & litr3_hr(c) ! soil organic matter heterotrophic respiration (SOMHR) somhr(c) = & soil1_hr(c) + & soil2_hr(c) + & soil3_hr(c) + & soil4_hr(c) ! total heterotrophic respiration (HR) hr(c) = lithr(c) + somhr(c) ! total soil respiration, heterotrophic + root respiration (SR) sr(c) = col_rr(c) + hr(c) ! total ecosystem respiration, autotrophic + heterotrophic (ER) er(c) = col_ar(c) + hr(c) ! litter fire losses (LITFIRE) litfire(c) = 0._r8 ! total wood product loss product_closs(c) = & prod10c_loss(c) + & prod100c_loss(c) ! soil organic matter fire losses (SOMFIRE) somfire(c) = 0._r8 ! total ecosystem fire losses (TOTFIRE) totfire(c) = & litfire(c) + & somfire(c) + & col_vegfire(c) ! column-level carbon losses to fire, including pft losses col_fire_closs(c) = & m_litr1c_to_fire(c) + & m_litr2c_to_fire(c) + & m_litr3c_to_fire(c) + & m_cwdc_to_fire(c) + & col_pft_fire_closs(c) ! column-level carbon losses due to landcover change dwt_closs(c) = & dwt_conv_cflux(c) ! net ecosystem production, excludes fire flux, positive for sink (NEP) nep(c) = col_gpp(c) - er(c) ! net ecosystem exchange of carbon, includes fire flux, positive for source (NBP) nbp(c) = nep(c) - col_fire_closs(c) - dwt_closs(c) - product_closs(c) ! net ecosystem exchange of carbon, includes fire flux, positive for source (NEE) nee(c) = -nep(c) + col_fire_closs(c) + dwt_closs(c) + product_closs(c) ! total litter carbon (TOTLITC) totlitc(c) = & litr1c(c) + & litr2c(c) + & litr3c(c) ! total soil organic matter carbon (TOTSOMC) totsomc(c) = & soil1c(c) + & soil2c(c) + & soil3c(c) + & soil4c(c) ! total wood product carbon totprodc(c) = & prod10c(c) + & prod100c(c) ! total ecosystem carbon, including veg but excluding cpool (TOTECOSYSC) totecosysc(c) = & cwdc(c) + & totlitc(c) + & totsomc(c) + & totprodc(c) + & col_totvegc(c) ! total column carbon, including veg and cpool (TOTCOLC) totcolc(c) = & cwdc(c) + & totlitc(c) + & totsomc(c) + & totprodc(c) + & col_totpftc(c) end do ! end of columns loop end subroutine C13Summary !----------------------------------------------------------------------- #endif end module C13SummaryMod