Define derived type hierarchy. Includes declaration of the clm derived type and 1d mapping arrays.
---------------------------- gridcell types can have values of ---------------------------- 1 => default ---------------------------- landunits types can have values of (see clm_varcon.F90) ---------------------------- 1 => (istsoil) soil (vegetated or bare soil landunit) 2 => (istice) land ice 3 => (istdlak) deep lake 4 => (istslak) shallow lake (not currently implemented) 5 => (istwet) wetland 6 => (isturb) urban 7 => (istice_mec) land ice (multiple elevation classes) 8 => (istcrop) crop (only for crop configuration) ---------------------------- column types can have values of ---------------------------- 1 => (istsoil) soil (vegetated or bare soil) 2 => (istice) land ice 3 => (istdlak) deep lake 4 => (istslak) shallow lake 5 => (istwet) wetland 7 => (istice_mec) land ice (multiple elevation classes) 61 => (icol_roof) urban roof 62 => (icol_sunwall) urban sunwall 63 => (icol_shadewall) urban shadewall 64 => (icol_road_imperv) urban impervious road 65 => (icol_road_perv) urban pervious road ---------------------------- pft types can have values of ---------------------------- 0 => not vegetated 1 => needleleaf evergreen temperate tree 2 => needleleaf evergreen boreal tree 3 => needleleaf deciduous boreal tree 4 => broadleaf evergreen tropical tree 5 => broadleaf evergreen temperate tree 6 => broadleaf deciduous tropical tree 7 => broadleaf deciduous temperate tree 8 => broadleaf deciduous boreal tree 9 => broadleaf evergreen shrub 10 => broadleaf deciduous temperate shrub 11 => broadleaf deciduous boreal shrub 12 => c3 arctic grass 13 => c3 non-arctic grass 14 => c4 grass 15 => c3_crop 16 => c3_irrigated 17 => corn 18 => spring temperate cereal 19 => winter temperate cereal 20 => soybean ----------------------------
USES:
use shr_kind_mod, only: r8 => shr_kind_r8 use domainMod , only: domain_typePUBLIC TYPES:
implicit none privateREVISION HISTORY:
Created by Peter Thornton and Mariana Vertenstein
*******************************************************************************
----------------------------------------------------
Begin definition of conservation check structures
----------------------------------------------------
energy balance structure
----------------------------------------------------
type, public :: energy_balance_type
real(r8), pointer :: errsoi(:) !soil/lake energy conservation error (W/m**2)
real(r8), pointer :: errseb(:) !surface energy conservation error (W/m**2)
real(r8), pointer :: errsol(:) !solar radiation conservation error (W/m**2)
real(r8), pointer :: errlon(:) !longwave radiation conservation error (W/m**2)
end type energy_balance_type
----------------------------------------------------
water balance structure
----------------------------------------------------
type, public :: water_balance_type
real(r8), pointer :: begwb(:) !water mass begining of the time step
real(r8), pointer :: endwb(:) !water mass end of the time step
real(r8), pointer :: errh2o(:) !water conservation error (mm H2O)
end type water_balance_type
----------------------------------------------------
carbon balance structure
----------------------------------------------------
type, public :: carbon_balance_type
real(r8), pointer :: begcb(:) !carbon mass, beginning of time step (gC/m**2)
real(r8), pointer :: endcb(:) !carbon mass, end of time step (gC/m**2)
real(r8), pointer :: errcb(:) !carbon balance error for the timestep (gC/m**2)
end type carbon_balance_type
----------------------------------------------------
nitrogen balance structure
----------------------------------------------------
type, public :: nitrogen_balance_type
real(r8), pointer :: begnb(:) !nitrogen mass, beginning of time step (gN/m**2)
real(r8), pointer :: endnb(:) !nitrogen mass, end of time step (gN/m**2)
real(r8), pointer :: errnb(:) !nitrogen balance error for the timestep (gN/m**2)
end type nitrogen_balance_type
----------------------------------------------------
End definition of conservation check structures
----------------------------------------------------
*******************************************************************************
*******************************************************************************
----------------------------------------------------
Begin definition of structures defined at the pft_type level
----------------------------------------------------
pft physical state variables structure
----------------------------------------------------
type, public :: pft_pstate_type
integer , pointer :: frac_veg_nosno(:) !fraction of vegetation not covered by snow (0 OR 1) [-]
integer , pointer :: frac_veg_nosno_alb(:) !fraction of vegetation not covered by snow (0 OR 1) [-]
real(r8), pointer :: emv(:) !vegetation emissivity
real(r8), pointer :: z0mv(:) !roughness length over vegetation, momentum [m]
real(r8), pointer :: z0hv(:) !roughness length over vegetation, sensible heat [m]
real(r8), pointer :: z0qv(:) !roughness length over vegetation, latent heat [m]
real(r8), pointer :: rootfr(:,:) !fraction of roots in each soil layer (nlevgrnd)
real(r8), pointer :: rootr(:,:) !effective fraction of roots in each soil layer (nlevgrnd)
real(r8), pointer :: rresis(:,:) !root resistance by layer (0-1) (nlevgrnd)
real(r8), pointer :: dewmx(:) !Maximum allowed dew [mm]
real(r8), pointer :: rssun(:) !sunlit stomatal resistance (s/m)
real(r8), pointer :: rssha(:) !shaded stomatal resistance (s/m)
real(r8), pointer :: laisun(:) !sunlit projected leaf area index
real(r8), pointer :: laisha(:) !shaded projected leaf area index
real(r8), pointer :: btran(:) !transpiration wetness factor (0 to 1)
real(r8), pointer :: fsun(:) !sunlit fraction of canopy
real(r8), pointer :: tlai(:) !one-sided leaf area index, no burying by snow
real(r8), pointer :: tsai(:) !one-sided stem area index, no burying by snow
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 :: fwet(:) !fraction of canopy that is wet (0 to 1)
real(r8), pointer :: fdry(:) !fraction of foliage that is green and dry [-] (new)
real(r8), pointer :: dt_veg(:) !change in t_veg, last iteration (Kelvin)
real(r8), pointer :: htop(:) !canopy top (m)
real(r8), pointer :: hbot(:) !canopy bottom (m)
real(r8), pointer :: z0m(:) !momentum roughness length (m)
real(r8), pointer :: displa(:) !displacement height (m)
real(r8), pointer :: albd(:,:) !surface albedo (direct) (numrad)
real(r8), pointer :: albi(:,:) !surface albedo (indirect) (numrad)
real(r8), pointer :: fabd(:,:) !flux absorbed by veg per unit direct flux (numrad)
real(r8), pointer :: fabi(:,:) !flux absorbed by veg per unit diffuse flux (numrad)
real(r8), pointer :: ftdd(:,:) !down direct flux below veg per unit dir flx (numrad)
real(r8), pointer :: ftid(:,:) !down diffuse flux below veg per unit dir flx (numrad)
real(r8), pointer :: ftii(:,:) !down diffuse flux below veg per unit dif flx (numrad)
real(r8), pointer :: u10(:) !10-m wind (m/s) (for dust model)
real(r8), pointer :: u10_clm(:) !10-m wind (m/s)
real(r8), pointer :: va(:) !atmospheric wind speed plus convective velocity (m/s)
real(r8), pointer :: ram1(:) !aerodynamical resistance (s/m)
real(r8), pointer :: fv(:) !friction velocity (m/s) (for dust model)
real(r8), pointer :: forc_hgt_u_pft(:) !wind forcing height (10m+z0m+d) (m)
real(r8), pointer :: forc_hgt_t_pft(:) !temperature forcing height (10m+z0m+d) (m)
real(r8), pointer :: forc_hgt_q_pft(:) !specific humidity forcing height (10m+z0m+d) (m)
! Variables for prognostic crop model
real(r8), pointer :: hdidx(:) ! cold hardening index?
real(r8), pointer :: cumvd(:) ! cumulative vernalization d?ependence?
real(r8), pointer :: htmx(:) ! max hgt attained by a crop during yr (m)
real(r8), pointer :: vf(:) ! vernalization factor for cereal
real(r8), pointer :: gddmaturity(:) ! growing degree days (gdd) needed to harvest (ddays)
real(r8), pointer :: gdd0(:) ! growing degree-days base 0C from planting (ddays)
real(r8), pointer :: gdd8(:) ! growing degree-days base 8C from planting (ddays)
real(r8), pointer :: gdd10(:) ! growing degree-days base 10C from planting (ddays)
real(r8), pointer :: gdd020(:) ! 20-year average of gdd0 (ddays)
real(r8), pointer :: gdd820(:) ! 20-year average of gdd8 (ddays)
real(r8), pointer :: gdd1020(:) ! 20-year average of gdd10 (ddays)
real(r8), pointer :: gddplant(:) ! accum gdd past planting date for crop (ddays)
real(r8), pointer :: gddtsoi(:) ! growing degree-days from planting (top two soil layers) (ddays)
real(r8), pointer :: huileaf(:) ! heat unit index needed from planting to leaf emergence
real(r8), pointer :: huigrain(:) ! heat unit index needed to reach vegetative maturity
real(r8), pointer :: aleafi(:) ! saved leaf allocation coefficient from phase 2
real(r8), pointer :: astemi(:) ! saved stem allocation coefficient from phase 2
real(r8), pointer :: aleaf(:) ! leaf allocation coefficient
real(r8), pointer :: astem(:) ! stem allocation coefficient
logical , pointer :: croplive(:) ! Flag, true if planted, not harvested
logical , pointer :: cropplant(:) ! Flag, true if planted
integer , pointer :: harvdate(:) ! harvest date
! cropplant and harvdate could be 2D to facilitate rotation
integer , pointer :: idop(:) ! date of planting
integer , pointer :: peaklai(:) ! 1: max allowed lai; 0: not at max
real(r8), pointer :: vds(:) !deposition velocity term (m/s) (for dry dep SO4, NH4NO3)
! new variables for CN code
real(r8), pointer :: slasun(:) !specific leaf area for sunlit canopy, projected area basis (m^2/gC)
real(r8), pointer :: slasha(:) !specific leaf area for shaded canopy, projected area basis (m^2/gC)
real(r8), pointer :: lncsun(:) !leaf N concentration per unit projected LAI (gN leaf/m^2)
real(r8), pointer :: lncsha(:) !leaf N concentration per unit projected LAI (gN leaf/m^2)
real(r8), pointer :: vcmxsun(:) !sunlit leaf Vcmax (umolCO2/m^2/s)
real(r8), pointer :: vcmxsha(:) !shaded leaf Vcmax (umolCO2/m^2/s)
real(r8), pointer :: gdir(:) !leaf projection in solar direction (0 to 1)
real(r8), pointer :: omega(:,:) !fraction of intercepted radiation that is scattered (0 to 1)
real(r8), pointer :: eff_kid(:,:) !effective extinction coefficient for indirect from direct
real(r8), pointer :: eff_kii(:,:) !effective extinction coefficient for indirect from indirect
real(r8), pointer :: sun_faid(:,:) !fraction sun canopy absorbed indirect from direct
real(r8), pointer :: sun_faii(:,:) !fraction sun canopy absorbed indirect from indirect
real(r8), pointer :: sha_faid(:,:) !fraction shade canopy absorbed indirect from direct
real(r8), pointer :: sha_faii(:,:) !fraction shade canopy absorbed indirect from indirect
real(r8), pointer :: cisun(:) !sunlit intracellular CO2 (Pa)
real(r8), pointer :: cisha(:) !shaded intracellular CO2 (Pa)
#if (defined C13)
real(r8), pointer :: alphapsnsun(:) !sunlit 13c fractionation ([])
real(r8), pointer :: alphapsnsha(:) !shaded 13c fractionation ([])
#endif
real(r8), pointer :: sandfrac(:) ! sand fraction
real(r8), pointer :: clayfrac(:) ! clay fraction
! for dry deposition of chemical tracers
real(r8), pointer :: mlaidiff(:) ! difference between lai month one and month two
real(r8), pointer :: rb1(:) ! aerodynamical resistance (s/m)
real(r8), pointer :: annlai(:,:) ! 12 months of monthly lai from input data set
#if (defined CASA)
real(r8), pointer :: Closs(:,:) ! C lost to atm
real(r8), pointer :: Ctrans(:,:) ! C transfers out of pool types
real(r8), pointer :: Resp_C(:,:) ! C respired
real(r8), pointer :: Tpool_C(:,:)! Total C pool size
real(r8), pointer :: eff(:,:)
real(r8), pointer :: frac_donor(:,:)
real(r8), pointer :: livefr(:,:) !live fraction
real(r8), pointer :: pet(:) !potential evaporation (mm h2o/s)
real(r8), pointer :: co2flux(:) ! net CO2 flux (g C/m2/sec) [+= atm]
real(r8), pointer :: fnpp(:) ! NPP (g C/m2/sec)
real(r8), pointer :: soilt(:) !soil temp for top 30cm
real(r8), pointer :: smoist(:) !soil moisture for top 30cm
real(r8), pointer :: sz(:) !thickness of soil layers contributing to output
real(r8), pointer :: watopt(:) !optimal soil water content for et for top 30cm (mm3/mm3)
real(r8), pointer :: watdry(:) !soil water when et stops for top 30cm (mm3/mm3)
real(r8), pointer :: soiltc(:) !soil temp for entire column
real(r8), pointer :: smoistc(:) !soil moisture for entire column
real(r8), pointer :: szc(:) !thickness of soil layers contributing to output
real(r8), pointer :: watoptc(:) !optimal soil water content for et for entire column (mm3/mm3)
real(r8), pointer :: watdryc(:) !soil water when et stops for entire column (mm3/mm3)
real(r8), pointer :: Wlim(:) !Water limitation min value
real(r8), pointer :: litterscalar(:)
real(r8), pointer :: rootlitscalar(:)
real(r8), pointer :: stressCD(:) ! cold and drought stress function (sec-1)
! add to "annK(m,LEAF)" and "annK(m,FROOT)"
! in casa_litterfall.F
real(r8), pointer :: excessC(:) ! excess Carbon (gC/m2/timestep)
real(r8), pointer :: bgtemp(:) ! temperature dependence
real(r8), pointer :: bgmoist(:) ! moisture dependence
real(r8), pointer :: plai(:) ! prognostic LAI (m2 leaf/m2 ground)
real(r8), pointer :: Cflux(:) ! Carbon flux
real(r8), pointer :: XSCpool(:)
real(r8), pointer :: tday(:) ! daily accumulated temperature (deg C)
real(r8), pointer :: tdayavg(:) ! daily averaged temperature (deg C)
real(r8), pointer :: tcount(:) ! counter for daily avg temp
real(r8), pointer :: degday(:) ! accumulated degree days (deg C)
real(r8), pointer :: ndegday(:) ! counter for number of degree days
real(r8), pointer :: stressT(:) ! temperature stress function for leaf
! loss apply to Litterfall of deciduous veg
real(r8), pointer :: stressW(:) ! water stress function for leaf loss
real(r8), pointer :: iseabeg(:) ! index for start of growing season
real(r8), pointer :: nstepbeg(:) ! nstep at start of growing season
real(r8), pointer :: lgrow(:) ! growing season index (0 or 1) to be
! passed daily to CASA to get NPP
! Summary variables added for the C-LAMP Experiments
real(r8), pointer :: casa_agnpp(:) ! above-ground net primary production [gC/m2/s]
real(r8), pointer :: casa_ar(:) ! autotrophic respiration [gC/m2/s]
real(r8), pointer :: casa_bgnpp(:) ! below-ground net primary production [gC/m2/s]
real(r8), pointer :: casa_cwdc(:) ! coarse woody debris C [gC/m2]
real(r8), pointer :: casa_cwdc_hr(:) ! cwd heterotrophic respiration [gC/m2/s]
real(r8), pointer :: casa_cwdc_loss(:) ! cwd C loss [gC/m2/s]
real(r8), pointer :: casa_frootc(:) ! fine root C [gC/m2]
real(r8), pointer :: casa_frootc_alloc(:) ! fine root C allocation [gC/m2/s]
real(r8), pointer :: casa_frootc_loss(:) ! fine root C loss [gC/m2/s]
real(r8), pointer :: casa_gpp(:) ! gross primary production [gC/m2/s]
real(r8), pointer :: casa_hr(:) ! total heterotrophic respiration [gC/m2/s]
real(r8), pointer :: casa_leafc(:) ! leaf C [gC/m2]
real(r8), pointer :: casa_leafc_alloc(:) ! leaf C allocation [gC/m2/s]
real(r8), pointer :: casa_leafc_loss(:) ! leaf C loss [gC/m2/s]
real(r8), pointer :: casa_litterc(:) ! total litter C (excluding cwd C) [gC/m2]
real(r8), pointer :: casa_litterc_hr(:) ! litter heterotrophic respiration [gC/m2/s]
real(r8), pointer :: casa_litterc_loss(:) ! litter C loss [gC/m2/s]
real(r8), pointer :: casa_nee(:) ! net ecosystem exchange [gC/m2/s]
real(r8), pointer :: casa_nep(:) ! net ecosystem production [gC/m2/s]
real(r8), pointer :: casa_npp(:) ! net primary production [gC/m2/s]
real(r8), pointer :: casa_soilc(:) ! total soil organic matter C (excluding cwd and litter C) [gC/m2]
real(r8), pointer :: casa_soilc_hr(:) ! soil heterotrophic respiration [gC/m2/s]
real(r8), pointer :: casa_soilc_loss(:) ! total soil organic matter C loss [gC/m2/s]
real(r8), pointer :: casa_woodc(:) ! wood C [gC/m2]
real(r8), pointer :: casa_woodc_alloc(:) ! wood C allocation [gC/m2/s]
real(r8), pointer :: casa_woodc_loss(:) ! wood C loss [gC/m2/s]
#endif
end type pft_pstate_type
----------------------------------------------------
pft ecophysiological constants structure
----------------------------------------------------
type, public :: pft_epc_type
integer , pointer :: noveg(:) !value for not vegetated
integer , pointer :: tree(:) !tree or not?
real(r8), pointer :: smpso(:) !soil water potential at full stomatal opening (mm)
real(r8), pointer :: smpsc(:) !soil water potential at full stomatal closure (mm)
real(r8), pointer :: fnitr(:) !foliage nitrogen limitation factor (-)
real(r8), pointer :: foln(:) !foliage nitrogen (%)
real(r8), pointer :: dleaf(:) !characteristic leaf dimension (m)
real(r8), pointer :: c3psn(:) !photosynthetic pathway: 0. = c4, 1. = c3
real(r8), pointer :: mp(:) !slope of conductance-to-photosynthesis relationship
real(r8), pointer :: qe25(:) !quantum efficiency at 25C (umol CO2 / umol photon)
real(r8), pointer :: xl(:) !leaf/stem orientation index
real(r8), pointer :: rhol(:,:) !leaf reflectance: 1=vis, 2=nir (numrad)
real(r8), pointer :: rhos(:,:) !stem reflectance: 1=vis, 2=nir (numrad)
real(r8), pointer :: taul(:,:) !leaf transmittance: 1=vis, 2=nir (numrad)
real(r8), pointer :: taus(:,:) !stem transmittance: 1=vis, 2=nir (numrad)
real(r8), pointer :: z0mr(:) !ratio of momentum roughness length to canopy top height (-)
real(r8), pointer :: displar(:) !ratio of displacement height to canopy top height (-)
real(r8), pointer :: roota_par(:) !CLM rooting distribution parameter [1/m]
real(r8), pointer :: rootb_par(:) !CLM rooting distribution parameter [1/m]
real(r8), pointer :: sla(:) !specific leaf area [m2 leaf g-1 carbon]
! new variables for CN code
real(r8), pointer :: dwood(:) !wood density (gC/m3)
real(r8), pointer :: slatop(:) !specific leaf area at top of canopy, projected area basis [m^2/gC]
real(r8), pointer :: dsladlai(:) !dSLA/dLAI, projected area basis [m^2/gC]
real(r8), pointer :: leafcn(:) !leaf C:N (gC/gN)
real(r8), pointer :: flnr(:) !fraction of leaf N in the Rubisco enzyme (gN Rubisco / gN leaf)
real(r8), pointer :: woody(:) !binary flag for woody lifeform (1=woody, 0=not woody)
real(r8), pointer :: lflitcn(:) !leaf litter C:N (gC/gN)
real(r8), pointer :: frootcn(:) !fine root C:N (gC/gN)
real(r8), pointer :: livewdcn(:) !live wood (phloem and ray parenchyma) C:N (gC/gN)
real(r8), pointer :: deadwdcn(:) !dead wood (xylem and heartwood) C:N (gC/gN)
real(r8), pointer :: graincn(:) !grain C:N (gC/gN) for prognostic crop model
real(r8), pointer :: froot_leaf(:) !allocation parameter: new fine root C per new leaf C (gC/gC)
real(r8), pointer :: stem_leaf(:) !allocation parameter: new stem c per new leaf C (gC/gC)
real(r8), pointer :: croot_stem(:) !allocation parameter: new coarse root C per new stem C (gC/gC)
real(r8), pointer :: flivewd(:) !allocation parameter: fraction of new wood that is live (phloem and ray parenchyma) (no units)
real(r8), pointer :: fcur(:) !allocation parameter: fraction of allocation that goes to currently displayed growth, remainder to storage
real(r8), pointer :: lf_flab(:) !leaf litter labile fraction
real(r8), pointer :: lf_fcel(:) !leaf litter cellulose fraction
real(r8), pointer :: lf_flig(:) !leaf litter lignin fraction
real(r8), pointer :: fr_flab(:) !fine root litter labile fraction
real(r8), pointer :: fr_fcel(:) !fine root litter cellulose fraction
real(r8), pointer :: fr_flig(:) !fine root litter lignin fraction
real(r8), pointer :: leaf_long(:) !leaf longevity (yrs)
real(r8), pointer :: evergreen(:) !binary flag for evergreen leaf habit (0 or 1)
real(r8), pointer :: stress_decid(:) !binary flag for stress-deciduous leaf habit (0 or 1)
real(r8), pointer :: season_decid(:) !binary flag for seasonal-deciduous leaf habit (0 or 1)
! new variables for fire code
real(r8), pointer :: resist(:) !resistance to fire (no units)
end type pft_epc_type
#if (defined CNDV)
----------------------------------------------------
pft DGVM-specific ecophysiological constants structure
----------------------------------------------------
type, public :: pft_dgvepc_type
real(r8), pointer :: crownarea_max(:) !tree maximum crown area [m2]
real(r8), pointer :: tcmin(:) !minimum coldest monthly mean temperature [units?]
real(r8), pointer :: tcmax(:) !maximum coldest monthly mean temperature [units?]
real(r8), pointer :: gddmin(:) !minimum growing degree days (at or above 5 C)
real(r8), pointer :: twmax(:) !upper limit of temperature of the warmest month [units?]
real(r8), pointer :: reinickerp(:) !parameter in allometric equation
real(r8), pointer :: allom1(:) !parameter in allometric
real(r8), pointer :: allom2(:) !parameter in allometric
real(r8), pointer :: allom3(:) !parameter in allometric
end type pft_dgvepc_type
#endif
----------------------------------------------------
pft ecophysiological variables structure
----------------------------------------------------
type, public :: pft_epv_type
real(r8), pointer :: dormant_flag(:) !dormancy flag
real(r8), pointer :: days_active(:) !number of days since last dormancy
real(r8), pointer :: onset_flag(:) !onset flag
real(r8), pointer :: onset_counter(:) !onset days counter
real(r8), pointer :: onset_gddflag(:) !onset flag for growing degree day sum
real(r8), pointer :: onset_fdd(:) !onset freezing degree days counter
real(r8), pointer :: onset_gdd(:) !onset growing degree days
real(r8), pointer :: onset_swi(:) !onset soil water index
real(r8), pointer :: offset_flag(:) !offset flag
real(r8), pointer :: offset_counter(:) !offset days counter
real(r8), pointer :: offset_fdd(:) !offset freezing degree days counter
real(r8), pointer :: offset_swi(:) !offset soil water index
real(r8), pointer :: lgsf(:) !long growing season factor [0-1]
real(r8), pointer :: bglfr(:) !background litterfall rate (1/s)
real(r8), pointer :: bgtr(:) !background transfer growth rate (1/s)
real(r8), pointer :: dayl(:) !daylength (seconds)
real(r8), pointer :: prev_dayl(:) !daylength from previous timestep (seconds)
real(r8), pointer :: annavg_t2m(:) !annual average 2m air temperature (K)
real(r8), pointer :: tempavg_t2m(:) !temporary average 2m air temperature (K)
real(r8), pointer :: gpp(:) !GPP flux before downregulation (gC/m2/s)
real(r8), pointer :: availc(:) !C flux available for allocation (gC/m2/s)
real(r8), pointer :: xsmrpool_recover(:) !C flux assigned to recovery of negative cpool (gC/m2/s)
#if (defined C13)
real(r8), pointer :: xsmrpool_c13ratio(:) !C13/C(12+13) ratio for xsmrpool (proportion)
#endif
real(r8), pointer :: alloc_pnow(:) !fraction of current allocation to display as new growth (DIM)
real(r8), pointer :: c_allometry(:) !C allocation index (DIM)
real(r8), pointer :: n_allometry(:) !N allocation index (DIM)
real(r8), pointer :: plant_ndemand(:) !N flux required to support initial GPP (gN/m2/s)
real(r8), pointer :: tempsum_potential_gpp(:)!temporary annual sum of potential GPP
real(r8), pointer :: annsum_potential_gpp(:) !annual sum of potential GPP
real(r8), pointer :: tempmax_retransn(:) !temporary annual max of retranslocated N pool (gN/m2)
real(r8), pointer :: annmax_retransn(:) !annual max of retranslocated N pool (gN/m2)
real(r8), pointer :: avail_retransn(:) !N flux available from retranslocation pool (gN/m2/s)
real(r8), pointer :: plant_nalloc(:) !total allocated N flux (gN/m2/s)
real(r8), pointer :: plant_calloc(:) !total allocated C flux (gC/m2/s)
real(r8), pointer :: excess_cflux(:) !C flux not allocated due to downregulation (gC/m2/s)
real(r8), pointer :: downreg(:) !fractional reduction in GPP due to N limitation (DIM)
real(r8), pointer :: prev_leafc_to_litter(:) !previous timestep leaf C litterfall flux (gC/m2/s)
real(r8), pointer :: prev_frootc_to_litter(:)!previous timestep froot C litterfall flux (gC/m2/s)
real(r8), pointer :: tempsum_npp(:) !temporary annual sum of NPP (gC/m2/yr)
real(r8), pointer :: annsum_npp(:) !annual sum of NPP (gC/m2/yr)
#if (defined CNDV)
real(r8), pointer :: tempsum_litfall(:) !temporary annual sum of litfall (gC/m2/yr)
real(r8), pointer :: annsum_litfall(:) !annual sum of litfall (gC/m2/yr)
#endif
#if (defined C13)
real(r8), pointer :: rc13_canair(:) !C13O2/C12O2 in canopy air
real(r8), pointer :: rc13_psnsun(:) !C13O2/C12O2 in sunlit canopy psn flux
real(r8), pointer :: rc13_psnsha(:) !C13O2/C12O2 in shaded canopy psn flux
#endif
end type pft_epv_type
----------------------------------------------------
pft energy state variables structure
----------------------------------------------------
type, public :: pft_estate_type
real(r8), pointer :: t_ref2m(:) !2 m height surface air temperature (Kelvin)
real(r8), pointer :: t_ref2m_min(:) !daily minimum of average 2 m height surface air temperature (K)
real(r8), pointer :: t_ref2m_max(:) !daily maximum of average 2 m height surface air temperature (K)
real(r8), pointer :: t_ref2m_min_inst(:) !instantaneous daily min of average 2 m height surface air temp (K)
real(r8), pointer :: t_ref2m_max_inst(:) !instantaneous daily max of average 2 m height surface air temp (K)
real(r8), pointer :: q_ref2m(:) !2 m height surface specific humidity (kg/kg)
real(r8), pointer :: t_ref2m_u(:) !Urban 2 m height surface air temperature (Kelvin)
real(r8), pointer :: t_ref2m_r(:) !Rural 2 m height surface air temperature (Kelvin)
real(r8), pointer :: t_ref2m_min_u(:) !Urban daily minimum of average 2 m height surface air temperature (K)
real(r8), pointer :: t_ref2m_min_r(:) !Rural daily minimum of average 2 m height surface air temperature (K)
real(r8), pointer :: t_ref2m_max_u(:) !Urban daily maximum of average 2 m height surface air temperature (K)
real(r8), pointer :: t_ref2m_max_r(:) !Rural daily maximum of average 2 m height surface air temperature (K)
real(r8), pointer :: t_ref2m_min_inst_u(:) !Urban instantaneous daily min of average 2 m height surface air temp (K)
real(r8), pointer :: t_ref2m_min_inst_r(:) !Rural instantaneous daily min of average 2 m height surface air temp (K)
real(r8), pointer :: t_ref2m_max_inst_u(:) !Urban instantaneous daily max of average 2 m height surface air temp (K)
real(r8), pointer :: t_ref2m_max_inst_r(:) !Rural instantaneous daily max of average 2 m height surface air temp (K)
real(r8), pointer :: a10tmin(:) ! 10-day running mean of min 2-m temperature
real(r8), pointer :: a5tmin(:) ! 5-day running mean of min 2-m temperature
real(r8), pointer :: t10(:) !10-day running mean of the 2 m temperature (K)
real(r8), pointer :: rh_ref2m(:) !2 m height surface relative humidity (%)
real(r8), pointer :: rh_ref2m_u(:) !Urban 2 m height surface relative humidity (%)
real(r8), pointer :: rh_ref2m_r(:) !Rural 2 m height surface relative humidity (%)
real(r8), pointer :: t_veg(:) !vegetation temperature (Kelvin)
real(r8), pointer :: thm(:) !intermediate variable (forc_t+0.0098*forc_hgt_t_pft)
end type pft_estate_type
----------------------------------------------------
pft water state variables structure
----------------------------------------------------
type, public :: pft_wstate_type
real(r8), pointer :: h2ocan(:) !canopy water (mm H2O)
end type pft_wstate_type
----------------------------------------------------
pft carbon state variables structure
----------------------------------------------------
type, public :: pft_cstate_type
real(r8), pointer :: leafcmax(:) ! (gC/m2) ann max leaf C
! variables for prognostic crop model
real(r8), pointer :: grainc(:) ! (gC/m2) grain C
real(r8), pointer :: grainc_storage(:) ! (gC/m2) grain C storage
real(r8), pointer :: grainc_xfer(:) ! (gC/m2) grain C 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 :: 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 :: 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 :: 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 :: 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 :: 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 :: gresp_storage(:) ! (gC/m2) growth respiration storage
real(r8), pointer :: gresp_xfer(:) ! (gC/m2) growth respiration transfer
real(r8), pointer :: cpool(:) ! (gC/m2) temporary photosynthate C pool
real(r8), pointer :: xsmrpool(:) ! (gC/m2) abstract C pool to meet excess MR demand
real(r8), pointer :: pft_ctrunc(:) ! (gC/m2) pft-level sink for C truncation
! summary (diagnostic) state variables, not involved in mass balance
real(r8), pointer :: dispvegc(:) ! (gC/m2) displayed veg carbon, excluding storage and cpool
real(r8), pointer :: storvegc(:) ! (gC/m2) stored vegetation carbon, excluding cpool
real(r8), pointer :: totvegc(:) ! (gC/m2) total vegetation carbon, excluding cpool
real(r8), pointer :: totpftc(:) ! (gC/m2) total pft-level carbon, including cpool
#if (defined CN)
real(r8), pointer :: woodc(:) ! (gC/m2) wood C
#endif
end type pft_cstate_type
----------------------------------------------------
pft nitrogen state variables structure
----------------------------------------------------
type, public :: pft_nstate_type
! variables for prognostic crop model
real(r8), pointer :: grainn(:) ! (gN/m2) grain N
real(r8), pointer :: grainn_storage(:) ! (gN/m2) grain N storage
real(r8), pointer :: grainn_xfer(:) ! (gN/m2) grain N transfer
real(r8), pointer :: leafn(:) ! (gN/m2) leaf N
real(r8), pointer :: leafn_storage(:) ! (gN/m2) leaf N storage
real(r8), pointer :: leafn_xfer(:) ! (gN/m2) leaf N transfer
real(r8), pointer :: frootn(:) ! (gN/m2) fine root N
real(r8), pointer :: frootn_storage(:) ! (gN/m2) fine root N storage
real(r8), pointer :: frootn_xfer(:) ! (gN/m2) fine root N transfer
real(r8), pointer :: livestemn(:) ! (gN/m2) live stem N
real(r8), pointer :: livestemn_storage(:) ! (gN/m2) live stem N storage
real(r8), pointer :: livestemn_xfer(:) ! (gN/m2) live stem N transfer
real(r8), pointer :: deadstemn(:) ! (gN/m2) dead stem N
real(r8), pointer :: deadstemn_storage(:) ! (gN/m2) dead stem N storage
real(r8), pointer :: deadstemn_xfer(:) ! (gN/m2) dead stem N transfer
real(r8), pointer :: livecrootn(:) ! (gN/m2) live coarse root N
real(r8), pointer :: livecrootn_storage(:) ! (gN/m2) live coarse root N storage
real(r8), pointer :: livecrootn_xfer(:) ! (gN/m2) live coarse root N transfer
real(r8), pointer :: deadcrootn(:) ! (gN/m2) dead coarse root N
real(r8), pointer :: deadcrootn_storage(:) ! (gN/m2) dead coarse root N storage
real(r8), pointer :: deadcrootn_xfer(:) ! (gN/m2) dead coarse root N transfer
real(r8), pointer :: retransn(:) ! (gN/m2) plant pool of retranslocated N
real(r8), pointer :: npool(:) ! (gN/m2) temporary plant N pool
real(r8), pointer :: pft_ntrunc(:) ! (gN/m2) pft-level sink for N truncation
! summary (diagnostic) state variables, not involved in mass balance
real(r8), pointer :: dispvegn(:) ! (gN/m2) displayed veg nitrogen, excluding storage
real(r8), pointer :: storvegn(:) ! (gN/m2) stored vegetation nitrogen
real(r8), pointer :: totvegn(:) ! (gN/m2) total vegetation nitrogen
real(r8), pointer :: totpftn(:) ! (gN/m2) total pft-level nitrogen
end type pft_nstate_type
----------------------------------------------------
pft VOC state variables structure
----------------------------------------------------
type, public :: pft_vstate_type
real(r8), pointer :: t_veg24(:) ! 24hr average vegetation temperature (K)
real(r8), pointer :: t_veg240(:) ! 240hr average vegetation temperature (Kelvin)
real(r8), pointer :: fsd24(:) ! 24hr average of direct beam radiation
real(r8), pointer :: fsd240(:) ! 240hr average of direct beam radiation
real(r8), pointer :: fsi24(:) ! 24hr average of diffuse beam radiation
real(r8), pointer :: fsi240(:) ! 240hr average of diffuse beam radiation
real(r8), pointer :: fsun24(:) ! 24hr average of sunlit fraction of canopy
real(r8), pointer :: fsun240(:) ! 240hr average of sunlit fraction of canopy
real(r8), pointer :: elai_p(:) ! leaf area index average over timestep
end type pft_vstate_type
#if (defined CNDV)
----------------------------------------------------
pft DGVM state variables structure
----------------------------------------------------
type, public :: pft_dgvstate_type
real(r8), pointer :: agddtw(:) !accumulated growing degree days above twmax
real(r8), pointer :: agdd(:) !accumulated growing degree days above 5
real(r8), pointer :: t_mo(:) !30-day average temperature (Kelvin)
real(r8), pointer :: t_mo_min(:) !annual min of t_mo (Kelvin)
real(r8), pointer :: prec365(:) !365-day running mean of tot. precipitation
logical , pointer :: present(:) !whether PFT present in patch
logical , pointer :: pftmayexist(:) !if .false. then exclude seasonal decid pfts from tropics
real(r8), pointer :: nind(:) !number of individuals (#/m**2)
real(r8), pointer :: lm_ind(:) !individual leaf mass
real(r8), pointer :: lai_ind(:) !LAI per individual
real(r8), pointer :: fpcinc(:) !foliar projective cover increment (fraction)
real(r8), pointer :: fpcgrid(:) !foliar projective cover on gridcell (fraction)
real(r8), pointer :: fpcgridold(:) !last yr's fpcgrid
real(r8), pointer :: crownarea(:) !area that each individual tree takes up (m^2)
real(r8), pointer :: greffic(:)
real(r8), pointer :: heatstress(:)
end type pft_dgvstate_type
#endif
----------------------------------------------------
pft energy flux variables structure
----------------------------------------------------
type, public :: pft_eflux_type
real(r8), pointer :: sabg(:) !solar radiation absorbed by ground (W/m**2)
real(r8), pointer :: sabv(:) !solar radiation absorbed by vegetation (W/m**2)
real(r8), pointer :: fsa(:) !solar radiation absorbed (total) (W/m**2)
real(r8), pointer :: fsa_u(:) !urban solar radiation absorbed (total) (W/m**2)
real(r8), pointer :: fsa_r(:) !rural solar radiation absorbed (total) (W/m**2)
real(r8), pointer :: fsr(:) !solar radiation reflected (W/m**2)
real(r8), pointer :: parsun(:) !average absorbed PAR for sunlit leaves (W/m**2)
real(r8), pointer :: parsha(:) !average absorbed PAR for shaded leaves (W/m**2)
real(r8), pointer :: dlrad(:) !downward longwave radiation below the canopy [W/m2]
real(r8), pointer :: ulrad(:) !upward longwave radiation above the canopy [W/m2]
real(r8), pointer :: eflx_lh_tot(:) !total latent heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_lh_tot_u(:) !urban total latent heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_lh_tot_r(:) !rural total latent heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_lh_grnd(:) !ground evaporation heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_soil_grnd(:) !soil heat flux (W/m**2) [+ = into soil]
real(r8), pointer :: eflx_soil_grnd_u(:) !urban soil heat flux (W/m**2) [+ = into soil]
real(r8), pointer :: eflx_soil_grnd_r(:) !rural soil heat flux (W/m**2) [+ = into soil]
real(r8), pointer :: eflx_sh_tot(:) !total sensible heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_sh_tot_u(:) !urban total sensible heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_sh_tot_r(:) !rural total sensible heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_sh_grnd(:) !sensible heat flux from ground (W/m**2) [+ to atm]
real(r8), pointer :: eflx_sh_veg(:) !sensible heat flux from leaves (W/m**2) [+ to atm]
real(r8), pointer :: eflx_lh_vege(:) !veg evaporation heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_lh_vegt(:) !veg transpiration heat flux (W/m**2) [+ to atm]
real(r8), pointer :: eflx_wasteheat_pft(:) !sensible heat flux from domestic heating/cooling sources of waste heat (W/m**2)
real(r8), pointer :: eflx_heat_from_ac_pft(:) !sensible heat flux put back into canyon due to removal by AC (W/m**2)
real(r8), pointer :: eflx_traffic_pft(:) !traffic sensible heat flux (W/m**2)
real(r8), pointer :: eflx_anthro(:) !total anthropogenic heat flux (W/m**2)
real(r8), pointer :: cgrnd(:) !deriv. of soil energy flux wrt to soil temp [w/m2/k]
real(r8), pointer :: cgrndl(:) !deriv. of soil latent heat flux wrt soil temp [w/m**2/k]
real(r8), pointer :: cgrnds(:) !deriv. of soil sensible heat flux wrt soil temp [w/m2/k]
real(r8), pointer :: eflx_gnet(:) !net heat flux into ground (W/m**2)
real(r8), pointer :: dgnetdT(:) !derivative of net ground heat flux wrt soil temp (W/m**2 K)
real(r8), pointer :: eflx_lwrad_out(:) !emitted infrared (longwave) radiation (W/m**2)
real(r8), pointer :: eflx_lwrad_net(:) !net infrared (longwave) rad (W/m**2) [+ = to atm]
real(r8), pointer :: eflx_lwrad_net_u(:) !urban net infrared (longwave) rad (W/m**2) [+ = to atm]
real(r8), pointer :: eflx_lwrad_net_r(:) !rural net infrared (longwave) rad (W/m**2) [+ = to atm]
real(r8), pointer :: netrad(:) !net radiation (W/m**2) [+ = to sfc]
real(r8), pointer :: fsds_vis_d(:) !incident direct beam vis solar radiation (W/m**2)
real(r8), pointer :: fsds_nir_d(:) !incident direct beam nir solar radiation (W/m**2)
real(r8), pointer :: fsds_vis_i(:) !incident diffuse vis solar radiation (W/m**2)
real(r8), pointer :: fsds_nir_i(:) !incident diffuse nir solar radiation (W/m**2)
real(r8), pointer :: fsr_vis_d(:) !reflected direct beam vis solar radiation (W/m**2)
real(r8), pointer :: fsr_nir_d(:) !reflected direct beam nir solar radiation (W/m**2)
real(r8), pointer :: fsr_vis_i(:) !reflected diffuse vis solar radiation (W/m**2)
real(r8), pointer :: fsr_nir_i(:) !reflected diffuse nir solar radiation (W/m**2)
real(r8), pointer :: fsds_vis_d_ln(:) !incident direct beam vis solar radiation at local noon (W/m**2)
real(r8), pointer :: fsds_nir_d_ln(:) !incident direct beam nir solar radiation at local noon (W/m**2)
real(r8), pointer :: fsr_vis_d_ln(:) !reflected direct beam vis solar radiation at local noon (W/m**2)
real(r8), pointer :: fsr_nir_d_ln(:) !reflected direct beam nir solar radiation at local noon (W/m**2)
real(r8), pointer :: sun_add(:,:) !sun canopy absorbed direct from direct (W/m**2)
real(r8), pointer :: tot_aid(:,:) !total canopy absorbed indirect from direct (W/m**2)
real(r8), pointer :: sun_aid(:,:) !sun canopy absorbed indirect from direct (W/m**2)
real(r8), pointer :: sun_aii(:,:) !sun canopy absorbed indirect from indirect (W/m**2)
real(r8), pointer :: sha_aid(:,:) !shade canopy absorbed indirect from direct (W/m**2)
real(r8), pointer :: sha_aii(:,:) !shade canopy absorbed indirect from indirect (W/m**2)
real(r8), pointer :: sun_atot(:,:) !sun canopy total absorbed (W/m**2)
real(r8), pointer :: sha_atot(:,:) !shade canopy total absorbed (W/m**2)
real(r8), pointer :: sun_alf(:,:) !sun canopy total absorbed by leaves (W/m**2)
real(r8), pointer :: sha_alf(:,:) !shade canopy total absored by leaves (W/m**2)
real(r8), pointer :: sun_aperlai(:,:) !sun canopy total absorbed per unit LAI (W/m**2)
real(r8), pointer :: sha_aperlai(:,:) !shade canopy total absorbed per unit LAI (W/m**2)
real(r8), pointer :: sabg_lyr(:,:) ! absorbed radiation in each snow layer and top soil layer (pft,lyr) [W/m2]
real(r8), pointer :: sfc_frc_aer(:) ! surface forcing of snow with all aerosols (pft) [W/m2]
real(r8), pointer :: sfc_frc_bc(:) ! surface forcing of snow with BC (pft) [W/m2]
real(r8), pointer :: sfc_frc_oc(:) ! surface forcing of snow with OC (pft) [W/m2]
real(r8), pointer :: sfc_frc_dst(:) ! surface forcing of snow with dust (pft) [W/m2]
real(r8), pointer :: sfc_frc_aer_sno(:)! surface forcing of snow with all aerosols, averaged only when snow is present (pft) [W/m2]
real(r8), pointer :: sfc_frc_bc_sno(:) ! surface forcing of snow with BC, averaged only when snow is present (pft) [W/m2]
real(r8), pointer :: sfc_frc_oc_sno(:) ! surface forcing of snow with OC, averaged only when snow is present (pft) [W/m2]
real(r8), pointer :: sfc_frc_dst_sno(:)! surface forcing of snow with dust, averaged only when snow is present (pft) [W/m2]
real(r8), pointer :: fsr_sno_vd(:) ! reflected direct beam vis solar radiation from snow (W/m**2)
real(r8), pointer :: fsr_sno_nd(:) ! reflected direct beam NIR solar radiation from snow (W/m**2)
real(r8), pointer :: fsr_sno_vi(:) ! reflected diffuse vis solar radiation from snow (W/m**2)
real(r8), pointer :: fsr_sno_ni(:) ! reflected diffuse NIR solar radiation from snow (W/m**2)
real(r8), pointer :: fsds_sno_vd(:) ! incident visible, direct radiation on snow (for history files) [W/m2]
real(r8), pointer :: fsds_sno_nd(:) ! incident near-IR, direct radiation on snow (for history files) [W/m2]
real(r8), pointer :: fsds_sno_vi(:) ! incident visible, diffuse radiation on snow (for history files) [W/m2]
real(r8), pointer :: fsds_sno_ni(:) ! incident near-IR, diffuse radiation on snow (for history files) [W/m2]
end type pft_eflux_type
----------------------------------------------------
pft momentum flux variables structure
----------------------------------------------------
type, public :: pft_mflux_type
real(r8),pointer :: taux(:) !wind (shear) stress: e-w (kg/m/s**2)
real(r8),pointer :: tauy(:) !wind (shear) stress: n-s (kg/m/s**2)
end type pft_mflux_type
----------------------------------------------------
pft water flux variables structure
----------------------------------------------------
type, public :: pft_wflux_type
real(r8), pointer :: qflx_prec_intr(:) !interception of precipitation [mm/s]
real(r8), pointer :: qflx_prec_grnd(:) !water onto ground including canopy runoff [kg/(m2 s)]
real(r8), pointer :: qflx_rain_grnd(:) !rain on ground after interception (mm H2O/s) [+]
real(r8), pointer :: qflx_snow_grnd(:) !snow on ground after interception (mm H2O/s) [+]
real(r8), pointer :: qflx_snwcp_ice(:) !excess snowfall due to snow capping (mm H2O /s) [+]
real(r8), pointer :: qflx_snwcp_liq(:) !excess rainfall due to snow capping (mm H2O /s) [+]
real(r8), pointer :: qflx_evap_veg(:) !vegetation evaporation (mm H2O/s) (+ = to atm)
real(r8), pointer :: qflx_tran_veg(:) !vegetation transpiration (mm H2O/s) (+ = to atm)
real(r8), pointer :: qflx_evap_can(:) !evaporation from leaves and stems
real(r8), pointer :: qflx_evap_soi(:) !soil evaporation (mm H2O/s) (+ = to atm)
real(r8), pointer :: qflx_evap_tot(:) !qflx_evap_soi + qflx_evap_can + qflx_tran_veg
real(r8), pointer :: qflx_evap_grnd(:) !ground surface evaporation rate (mm H2O/s) [+]
real(r8), pointer :: qflx_dew_grnd(:) !ground surface dew formation (mm H2O /s) [+]
real(r8), pointer :: qflx_sub_snow(:) !sublimation rate from snow pack (mm H2O /s) [+]
real(r8), pointer :: qflx_dew_snow(:) !surface dew added to snow pack (mm H2O /s) [+]
end type pft_wflux_type
----------------------------------------------------
pft carbon flux variables structure
----------------------------------------------------
type, public :: pft_cflux_type
real(r8), pointer :: psnsun(:) !sunlit leaf photosynthesis (umol CO2 /m**2/ s)
real(r8), pointer :: psnsha(:) !shaded leaf photosynthesis (umol CO2 /m**2/ s)
real(r8), pointer :: fpsn(:) !photosynthesis (umol CO2 /m**2 /s)
real(r8), pointer :: fco2(:) !net CO2 flux (umol CO2 /m**2 /s) [+ = to atm]
! new variables for CN code
! gap mortality fluxes
real(r8), pointer :: m_leafc_to_litter(:) ! leaf C mortality (gC/m2/s)
real(r8), pointer :: m_leafc_storage_to_litter(:) ! leaf C storage mortality (gC/m2/s)
real(r8), pointer :: m_leafc_xfer_to_litter(:) ! leaf C transfer mortality (gC/m2/s)
real(r8), pointer :: m_frootc_to_litter(:) ! fine root C mortality (gC/m2/s)
real(r8), pointer :: m_frootc_storage_to_litter(:) ! fine root C storage mortality (gC/m2/s)
real(r8), pointer :: m_frootc_xfer_to_litter(:) ! fine root C transfer mortality (gC/m2/s)
real(r8), pointer :: m_livestemc_to_litter(:) ! live stem C mortality (gC/m2/s)
real(r8), pointer :: m_livestemc_storage_to_litter(:) ! live stem C storage mortality (gC/m2/s)
real(r8), pointer :: m_livestemc_xfer_to_litter(:) ! live stem C transfer mortality (gC/m2/s)
real(r8), pointer :: m_deadstemc_to_litter(:) ! dead stem C mortality (gC/m2/s)
real(r8), pointer :: m_deadstemc_storage_to_litter(:) ! dead stem C storage mortality (gC/m2/s)
real(r8), pointer :: m_deadstemc_xfer_to_litter(:) ! dead stem C transfer mortality (gC/m2/s)
real(r8), pointer :: m_livecrootc_to_litter(:) ! live coarse root C mortality (gC/m2/s)
real(r8), pointer :: m_livecrootc_storage_to_litter(:) ! live coarse root C storage mortality (gC/m2/s)
real(r8), pointer :: m_livecrootc_xfer_to_litter(:) ! live coarse root C transfer mortality (gC/m2/s)
real(r8), pointer :: m_deadcrootc_to_litter(:) ! dead coarse root C mortality (gC/m2/s)
real(r8), pointer :: m_deadcrootc_storage_to_litter(:) ! dead coarse root C storage mortality (gC/m2/s)
real(r8), pointer :: m_deadcrootc_xfer_to_litter(:) ! dead coarse root C transfer mortality (gC/m2/s)
real(r8), pointer :: m_gresp_storage_to_litter(:) ! growth respiration storage mortality (gC/m2/s)
real(r8), pointer :: m_gresp_xfer_to_litter(:) ! growth respiration transfer mortality (gC/m2/s)
! harvest mortality fluxes
real(r8), pointer :: hrv_leafc_to_litter(:) ! leaf C harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_leafc_storage_to_litter(:) ! leaf C storage harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_leafc_xfer_to_litter(:) ! leaf C transfer harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_frootc_to_litter(:) ! fine root C harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_frootc_storage_to_litter(:) ! fine root C storage harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_frootc_xfer_to_litter(:) ! fine root C transfer harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_livestemc_to_litter(:) ! live stem C harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_livestemc_storage_to_litter(:) ! live stem C storage harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_livestemc_xfer_to_litter(:) ! live stem C transfer harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_to_prod10c(:) ! dead stem C harvest to 10-year product pool (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_to_prod100c(:) ! dead stem C harvest to 100-year product pool (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_storage_to_litter(:) ! dead stem C storage harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_xfer_to_litter(:) ! dead stem C transfer harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_livecrootc_to_litter(:) ! live coarse root C harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_livecrootc_storage_to_litter(:) ! live coarse root C storage harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_livecrootc_xfer_to_litter(:) ! live coarse root C transfer harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_deadcrootc_to_litter(:) ! dead coarse root C harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_deadcrootc_storage_to_litter(:) ! dead coarse root C storage harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_deadcrootc_xfer_to_litter(:) ! dead coarse root C transfer harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_gresp_storage_to_litter(:) ! growth respiration storage harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_gresp_xfer_to_litter(:) ! growth respiration transfer harvest mortality (gC/m2/s)
real(r8), pointer :: hrv_xsmrpool_to_atm(:) ! excess MR pool harvest mortality (gC/m2/s)
! PFT-level fire fluxes
real(r8), pointer :: m_leafc_to_fire(:) ! leaf C fire loss (gC/m2/s)
real(r8), pointer :: m_leafc_storage_to_fire(:) ! leaf C storage fire loss (gC/m2/s)
real(r8), pointer :: m_leafc_xfer_to_fire(:) ! leaf C transfer fire loss (gC/m2/s)
real(r8), pointer :: m_frootc_to_fire(:) ! fine root C fire loss (gC/m2/s)
real(r8), pointer :: m_frootc_storage_to_fire(:) ! fine root C storage fire loss (gC/m2/s)
real(r8), pointer :: m_frootc_xfer_to_fire(:) ! fine root C transfer fire loss (gC/m2/s)
real(r8), pointer :: m_livestemc_to_fire(:) ! live stem C fire loss (gC/m2/s)
real(r8), pointer :: m_livestemc_storage_to_fire(:) ! live stem C storage fire loss (gC/m2/s)
real(r8), pointer :: m_livestemc_xfer_to_fire(:) ! live stem C transfer fire loss (gC/m2/s)
real(r8), pointer :: m_deadstemc_to_fire(:) ! dead stem C fire loss (gC/m2/s)
real(r8), pointer :: m_deadstemc_to_litter_fire(:) ! dead stem C fire mortality to litter (gC/m2/s)
real(r8), pointer :: m_deadstemc_storage_to_fire(:) ! dead stem C storage fire loss (gC/m2/s)
real(r8), pointer :: m_deadstemc_xfer_to_fire(:) ! dead stem C transfer fire loss (gC/m2/s)
real(r8), pointer :: m_livecrootc_to_fire(:) ! live coarse root C fire loss (gC/m2/s)
real(r8), pointer :: m_livecrootc_storage_to_fire(:) ! live coarse root C storage fire loss (gC/m2/s)
real(r8), pointer :: m_livecrootc_xfer_to_fire(:) ! live coarse root C transfer fire loss (gC/m2/s)
real(r8), pointer :: m_deadcrootc_to_fire(:) ! dead coarse root C fire loss (gC/m2/s)
real(r8), pointer :: m_deadcrootc_to_litter_fire(:) ! dead coarse root C fire mortality to litter (gC/m2/s)
real(r8), pointer :: m_deadcrootc_storage_to_fire(:) ! dead coarse root C storage fire loss (gC/m2/s)
real(r8), pointer :: m_deadcrootc_xfer_to_fire(:) ! dead coarse root C transfer fire loss (gC/m2/s)
real(r8), pointer :: m_gresp_storage_to_fire(:) ! growth respiration storage fire loss (gC/m2/s)
real(r8), pointer :: m_gresp_xfer_to_fire(:) ! growth respiration transfer fire loss (gC/m2/s)
! phenology fluxes from transfer pools
real(r8), pointer :: grainc_xfer_to_grainc(:) ! grain C growth from storage for prognostic crop(gC/m2/s)
real(r8), pointer :: leafc_xfer_to_leafc(:) ! leaf C growth from storage (gC/m2/s)
real(r8), pointer :: frootc_xfer_to_frootc(:) ! fine root C growth from storage (gC/m2/s)
real(r8), pointer :: livestemc_xfer_to_livestemc(:) ! live stem C growth from storage (gC/m2/s)
real(r8), pointer :: deadstemc_xfer_to_deadstemc(:) ! dead stem C growth from storage (gC/m2/s)
real(r8), pointer :: livecrootc_xfer_to_livecrootc(:) ! live coarse root C growth from storage (gC/m2/s)
real(r8), pointer :: deadcrootc_xfer_to_deadcrootc(:) ! dead coarse root C growth from storage (gC/m2/s)
! leaf and fine root litterfall
real(r8), pointer :: leafc_to_litter(:) ! leaf C litterfall (gC/m2/s)
real(r8), pointer :: frootc_to_litter(:) ! fine root C litterfall (gC/m2/s)
real(r8), pointer :: livestemc_to_litter(:) ! live stem C litterfall (gC/m2/s)
real(r8), pointer :: grainc_to_food(:) ! grain C to food for prognostic crop(gC/m2/s)
! maintenance respiration fluxes
real(r8), pointer :: leaf_mr(:) ! leaf maintenance respiration (gC/m2/s)
real(r8), pointer :: froot_mr(:) ! fine root maintenance respiration (gC/m2/s)
real(r8), pointer :: livestem_mr(:) ! live stem maintenance respiration (gC/m2/s)
real(r8), pointer :: livecroot_mr(:) ! live coarse root maintenance respiration (gC/m2/s)
real(r8), pointer :: leaf_curmr(:) ! leaf maintenance respiration from current GPP (gC/m2/s)
real(r8), pointer :: froot_curmr(:) ! fine root maintenance respiration from current GPP (gC/m2/s)
real(r8), pointer :: livestem_curmr(:) ! live stem maintenance respiration from current GPP (gC/m2/s)
real(r8), pointer :: livecroot_curmr(:) ! live coarse root maintenance respiration from current GPP (gC/m2/s)
real(r8), pointer :: leaf_xsmr(:) ! leaf maintenance respiration from storage (gC/m2/s)
real(r8), pointer :: froot_xsmr(:) ! fine root maintenance respiration from storage (gC/m2/s)
real(r8), pointer :: livestem_xsmr(:) ! live stem maintenance respiration from storage (gC/m2/s)
real(r8), pointer :: livecroot_xsmr(:) ! live coarse root maintenance respiration from storage (gC/m2/s)
! photosynthesis fluxes
real(r8), pointer :: psnsun_to_cpool(:) ! C fixation from sunlit canopy (gC/m2/s)
real(r8), pointer :: psnshade_to_cpool(:) ! C fixation from shaded canopy (gC/m2/s)
! allocation fluxes, from current GPP
real(r8), pointer :: cpool_to_xsmrpool(:) ! allocation to maintenance respiration storage pool (gC/m2/s)
real(r8), pointer :: cpool_to_grainc(:) ! allocation to grain C for prognostic crop(gC/m2/s)
real(r8), pointer :: cpool_to_grainc_storage(:) ! allocation to grain C storage for prognostic crop(gC/m2/s)
real(r8), pointer :: cpool_to_leafc(:) ! allocation to leaf C (gC/m2/s)
real(r8), pointer :: cpool_to_leafc_storage(:) ! allocation to leaf C storage (gC/m2/s)
real(r8), pointer :: cpool_to_frootc(:) ! allocation to fine root C (gC/m2/s)
real(r8), pointer :: cpool_to_frootc_storage(:) ! allocation to fine root C storage (gC/m2/s)
real(r8), pointer :: cpool_to_livestemc(:) ! allocation to live stem C (gC/m2/s)
real(r8), pointer :: cpool_to_livestemc_storage(:) ! allocation to live stem C storage (gC/m2/s)
real(r8), pointer :: cpool_to_deadstemc(:) ! allocation to dead stem C (gC/m2/s)
real(r8), pointer :: cpool_to_deadstemc_storage(:) ! allocation to dead stem C storage (gC/m2/s)
real(r8), pointer :: cpool_to_livecrootc(:) ! allocation to live coarse root C (gC/m2/s)
real(r8), pointer :: cpool_to_livecrootc_storage(:) ! allocation to live coarse root C storage (gC/m2/s)
real(r8), pointer :: cpool_to_deadcrootc(:) ! allocation to dead coarse root C (gC/m2/s)
real(r8), pointer :: cpool_to_deadcrootc_storage(:) ! allocation to dead coarse root C storage (gC/m2/s)
real(r8), pointer :: cpool_to_gresp_storage(:) ! allocation to growth respiration storage (gC/m2/s)
! growth respiration fluxes
real(r8), pointer :: xsmrpool_to_atm(:) ! excess MR pool harvest mortality (gC/m2/s)
real(r8), pointer :: cpool_leaf_gr(:) ! leaf growth respiration (gC/m2/s)
real(r8), pointer :: cpool_leaf_storage_gr(:) ! leaf growth respiration to storage (gC/m2/s)
real(r8), pointer :: transfer_leaf_gr(:) ! leaf growth respiration from storage (gC/m2/s)
real(r8), pointer :: cpool_froot_gr(:) ! fine root growth respiration (gC/m2/s)
real(r8), pointer :: cpool_froot_storage_gr(:) ! fine root growth respiration to storage (gC/m2/s)
real(r8), pointer :: transfer_froot_gr(:) ! fine root growth respiration from storage (gC/m2/s)
real(r8), pointer :: cpool_livestem_gr(:) ! live stem growth respiration (gC/m2/s)
real(r8), pointer :: cpool_livestem_storage_gr(:) ! live stem growth respiration to storage (gC/m2/s)
real(r8), pointer :: transfer_livestem_gr(:) ! live stem growth respiration from storage (gC/m2/s)
real(r8), pointer :: cpool_deadstem_gr(:) ! dead stem growth respiration (gC/m2/s)
real(r8), pointer :: cpool_deadstem_storage_gr(:) ! dead stem growth respiration to storage (gC/m2/s)
real(r8), pointer :: transfer_deadstem_gr(:) ! dead stem growth respiration from storage (gC/m2/s)
real(r8), pointer :: cpool_livecroot_gr(:) ! live coarse root growth respiration (gC/m2/s)
real(r8), pointer :: cpool_livecroot_storage_gr(:) ! live coarse root growth respiration to storage (gC/m2/s)
real(r8), pointer :: transfer_livecroot_gr(:) ! live coarse root growth respiration from storage (gC/m2/s)
real(r8), pointer :: cpool_deadcroot_gr(:) ! dead coarse root growth respiration (gC/m2/s)
real(r8), pointer :: cpool_deadcroot_storage_gr(:) ! dead coarse root growth respiration to storage (gC/m2/s)
real(r8), pointer :: transfer_deadcroot_gr(:) ! dead coarse root growth respiration from storage (gC/m2/s)
! growth respiration for prognostic crop model
real(r8), pointer :: cpool_grain_gr(:) ! grain growth respiration (gC/m2/s)
real(r8), pointer :: cpool_grain_storage_gr(:) ! grain growth respiration to storage (gC/m2/s)
real(r8), pointer :: transfer_grain_gr(:) ! grain growth respiration from storage (gC/m2/s)
! annual turnover of storage to transfer pools
real(r8), pointer :: grainc_storage_to_xfer(:) ! grain C shift storage to transfer for prognostic crop model (gC/m2/s)
real(r8), pointer :: leafc_storage_to_xfer(:) ! leaf C shift storage to transfer (gC/m2/s)
real(r8), pointer :: frootc_storage_to_xfer(:) ! fine root C shift storage to transfer (gC/m2/s)
real(r8), pointer :: livestemc_storage_to_xfer(:) ! live stem C shift storage to transfer (gC/m2/s)
real(r8), pointer :: deadstemc_storage_to_xfer(:) ! dead stem C shift storage to transfer (gC/m2/s)
real(r8), pointer :: livecrootc_storage_to_xfer(:) ! live coarse root C shift storage to transfer (gC/m2/s)
real(r8), pointer :: deadcrootc_storage_to_xfer(:) ! dead coarse root C shift storage to transfer (gC/m2/s)
real(r8), pointer :: gresp_storage_to_xfer(:) ! growth respiration shift storage to transfer (gC/m2/s)
! turnover of livewood to deadwood
real(r8), pointer :: livestemc_to_deadstemc(:) ! live stem C turnover (gC/m2/s)
real(r8), pointer :: livecrootc_to_deadcrootc(:) ! live coarse root C turnover (gC/m2/s)
! summary (diagnostic) flux variables, not involved in mass balance
real(r8), pointer :: gpp(:) ! (gC/m2/s) gross primary production
real(r8), pointer :: mr(:) ! (gC/m2/s) maintenance respiration
real(r8), pointer :: current_gr(:) ! (gC/m2/s) growth resp for new growth displayed in this timestep
real(r8), pointer :: transfer_gr(:) ! (gC/m2/s) growth resp for transfer growth displayed in this timestep
real(r8), pointer :: storage_gr(:) ! (gC/m2/s) growth resp for growth sent to storage for later display
real(r8), pointer :: gr(:) ! (gC/m2/s) total growth respiration
real(r8), pointer :: ar(:) ! (gC/m2/s) autotrophic respiration (MR + GR)
real(r8), pointer :: rr(:) ! (gC/m2/s) root respiration (fine root MR + total root GR)
real(r8), pointer :: npp(:) ! (gC/m2/s) net primary production
real(r8), pointer :: agnpp(:) ! (gC/m2/s) aboveground NPP
real(r8), pointer :: bgnpp(:) ! (gC/m2/s) belowground NPP
real(r8), pointer :: litfall(:) ! (gC/m2/s) litterfall (leaves and fine roots)
real(r8), pointer :: vegfire(:) ! (gC/m2/s) pft-level fire loss (obsolete, mark for removal)
real(r8), pointer :: wood_harvestc(:) ! (gC/m2/s) pft-level wood harvest (to product pools)
real(r8), pointer :: pft_cinputs(:) ! (gC/m2/s) pft-level carbon inputs (for balance checking)
real(r8), pointer :: pft_coutputs(:) ! (gC/m2/s) pft-level carbon outputs (for balance checking)
#if (defined CN)
! CLAMP summary (diagnostic) variables, not involved in mass balance
real(r8), pointer :: frootc_alloc(:) ! (gC/m2/s) pft-level fine root C alloc
real(r8), pointer :: frootc_loss(:) ! (gC/m2/s) pft-level fine root C loss
real(r8), pointer :: leafc_alloc(:) ! (gC/m2/s) pft-level leaf C alloc
real(r8), pointer :: leafc_loss(:) ! (gC/m2/s) pft-level leaf C loss
real(r8), pointer :: woodc_alloc(:) ! (gC/m2/s) pft-level wood C alloc
real(r8), pointer :: woodc_loss(:) ! (gC/m2/s) pft-level wood C loss
#endif
! new variables for fire code
real(r8), pointer :: pft_fire_closs(:) ! (gC/m2/s) total pft-level fire C loss
end type pft_cflux_type
----------------------------------------------------
pft nitrogen flux variables structure
----------------------------------------------------
type, public :: pft_nflux_type
! new variables for CN code
! gap mortality fluxes
real(r8), pointer :: m_leafn_to_litter(:) ! leaf N mortality (gN/m2/s)
real(r8), pointer :: m_frootn_to_litter(:) ! fine root N mortality (gN/m2/s)
real(r8), pointer :: m_leafn_storage_to_litter(:) ! leaf N storage mortality (gN/m2/s)
real(r8), pointer :: m_frootn_storage_to_litter(:) ! fine root N storage mortality (gN/m2/s)
real(r8), pointer :: m_livestemn_storage_to_litter(:) ! live stem N storage mortality (gN/m2/s)
real(r8), pointer :: m_deadstemn_storage_to_litter(:) ! dead stem N storage mortality (gN/m2/s)
real(r8), pointer :: m_livecrootn_storage_to_litter(:) ! live coarse root N storage mortality (gN/m2/s)
real(r8), pointer :: m_deadcrootn_storage_to_litter(:) ! dead coarse root N storage mortality (gN/m2/s)
real(r8), pointer :: m_leafn_xfer_to_litter(:) ! leaf N transfer mortality (gN/m2/s)
real(r8), pointer :: m_frootn_xfer_to_litter(:) ! fine root N transfer mortality (gN/m2/s)
real(r8), pointer :: m_livestemn_xfer_to_litter(:) ! live stem N transfer mortality (gN/m2/s)
real(r8), pointer :: m_deadstemn_xfer_to_litter(:) ! dead stem N transfer mortality (gN/m2/s)
real(r8), pointer :: m_livecrootn_xfer_to_litter(:) ! live coarse root N transfer mortality (gN/m2/s)
real(r8), pointer :: m_deadcrootn_xfer_to_litter(:) ! dead coarse root N transfer mortality (gN/m2/s)
real(r8), pointer :: m_livestemn_to_litter(:) ! live stem N mortality (gN/m2/s)
real(r8), pointer :: m_deadstemn_to_litter(:) ! dead stem N mortality (gN/m2/s)
real(r8), pointer :: m_livecrootn_to_litter(:) ! live coarse root N mortality (gN/m2/s)
real(r8), pointer :: m_deadcrootn_to_litter(:) ! dead coarse root N mortality (gN/m2/s)
real(r8), pointer :: m_retransn_to_litter(:) ! retranslocated N pool mortality (gN/m2/s)
! harvest mortality fluxes
real(r8), pointer :: hrv_leafn_to_litter(:) ! leaf N harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_frootn_to_litter(:) ! fine root N harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_leafn_storage_to_litter(:) ! leaf N storage harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_frootn_storage_to_litter(:) ! fine root N storage harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_livestemn_storage_to_litter(:) ! live stem N storage harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_storage_to_litter(:) ! dead stem N storage harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_livecrootn_storage_to_litter(:) ! live coarse root N storage harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_deadcrootn_storage_to_litter(:) ! dead coarse root N storage harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_leafn_xfer_to_litter(:) ! leaf N transfer harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_frootn_xfer_to_litter(:) ! fine root N transfer harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_livestemn_xfer_to_litter(:) ! live stem N transfer harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_xfer_to_litter(:) ! dead stem N transfer harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_livecrootn_xfer_to_litter(:) ! live coarse root N transfer harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_deadcrootn_xfer_to_litter(:) ! dead coarse root N transfer harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_livestemn_to_litter(:) ! live stem N harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_to_prod10n(:) ! dead stem N harvest to 10-year product pool (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_to_prod100n(:) ! dead stem N harvest to 100-year product pool (gN/m2/s)
real(r8), pointer :: hrv_livecrootn_to_litter(:) ! live coarse root N harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_deadcrootn_to_litter(:) ! dead coarse root N harvest mortality (gN/m2/s)
real(r8), pointer :: hrv_retransn_to_litter(:) ! retranslocated N pool harvest mortality (gN/m2/s)
! fire mortality fluxes
real(r8), pointer :: m_leafn_to_fire(:) ! leaf N fire loss (gN/m2/s)
real(r8), pointer :: m_leafn_storage_to_fire(:) ! leaf N storage fire loss (gN/m2/s)
real(r8), pointer :: m_leafn_xfer_to_fire(:) ! leaf N transfer fire loss (gN/m2/s)
real(r8), pointer :: m_frootn_to_fire(:) ! fine root N fire loss (gN/m2/s)
real(r8), pointer :: m_frootn_storage_to_fire(:) ! fine root N storage fire loss (gN/m2/s)
real(r8), pointer :: m_frootn_xfer_to_fire(:) ! fine root N transfer fire loss (gN/m2/s)
real(r8), pointer :: m_livestemn_to_fire(:) ! live stem N fire loss (gN/m2/s)
real(r8), pointer :: m_livestemn_storage_to_fire(:) ! live stem N storage fire loss (gN/m2/s)
real(r8), pointer :: m_livestemn_xfer_to_fire(:) ! live stem N transfer fire loss (gN/m2/s)
real(r8), pointer :: m_deadstemn_to_fire(:) ! dead stem N fire loss (gN/m2/s)
real(r8), pointer :: m_deadstemn_to_litter_fire(:) ! dead stem N fire mortality to litter (gN/m2/s)
real(r8), pointer :: m_deadstemn_storage_to_fire(:) ! dead stem N storage fire loss (gN/m2/s)
real(r8), pointer :: m_deadstemn_xfer_to_fire(:) ! dead stem N transfer fire loss (gN/m2/s)
real(r8), pointer :: m_livecrootn_to_fire(:) ! live coarse root N fire loss (gN/m2/s)
real(r8), pointer :: m_livecrootn_storage_to_fire(:) ! live coarse root N storage fire loss (gN/m2/s)
real(r8), pointer :: m_livecrootn_xfer_to_fire(:) ! live coarse root N transfer fire loss (gN/m2/s)
real(r8), pointer :: m_deadcrootn_to_fire(:) ! dead coarse root N fire loss (gN/m2/s)
real(r8), pointer :: m_deadcrootn_to_litter_fire(:) ! dead coarse root N fire mortality to litter (gN/m2/s)
real(r8), pointer :: m_deadcrootn_storage_to_fire(:) ! dead coarse root N storage fire loss (gN/m2/s)
real(r8), pointer :: m_deadcrootn_xfer_to_fire(:) ! dead coarse root N transfer fire loss (gN/m2/s)
real(r8), pointer :: m_retransn_to_fire(:) ! retranslocated N pool fire loss (gN/m2/s)
! phenology fluxes from transfer pool
real(r8), pointer :: grainn_xfer_to_grainn(:) ! grain N growth from storage for prognostic crop model (gN/m2/s)
real(r8), pointer :: leafn_xfer_to_leafn(:) ! leaf N growth from storage (gN/m2/s)
real(r8), pointer :: frootn_xfer_to_frootn(:) ! fine root N growth from storage (gN/m2/s)
real(r8), pointer :: livestemn_xfer_to_livestemn(:) ! live stem N growth from storage (gN/m2/s)
real(r8), pointer :: deadstemn_xfer_to_deadstemn(:) ! dead stem N growth from storage (gN/m2/s)
real(r8), pointer :: livecrootn_xfer_to_livecrootn(:) ! live coarse root N growth from storage (gN/m2/s)
real(r8), pointer :: deadcrootn_xfer_to_deadcrootn(:) ! dead coarse root N growth from storage (gN/m2/s)
! litterfall fluxes
real(r8), pointer :: livestemn_to_litter(:) ! livestem N to litter (gN/m2/s)
real(r8), pointer :: grainn_to_food(:) ! grain N to food for prognostic crop (gN/m2/s)
real(r8), pointer :: leafn_to_litter(:) ! leaf N litterfall (gN/m2/s)
real(r8), pointer :: leafn_to_retransn(:) ! leaf N to retranslocated N pool (gN/m2/s)
real(r8), pointer :: frootn_to_litter(:) ! fine root N litterfall (gN/m2/s)
! allocation fluxes
real(r8), pointer :: retransn_to_npool(:) ! deployment of retranslocated N (gN/m2/s)
real(r8), pointer :: sminn_to_npool(:) ! deployment of soil mineral N uptake (gN/m2/s)
real(r8), pointer :: npool_to_grainn(:) ! allocation to grain N for prognostic crop (gN/m2/s)
real(r8), pointer :: npool_to_grainn_storage(:) ! allocation to grain N storage for prognostic crop (gN/m2/s)
real(r8), pointer :: npool_to_leafn(:) ! allocation to leaf N (gN/m2/s)
real(r8), pointer :: npool_to_leafn_storage(:) ! allocation to leaf N storage (gN/m2/s)
real(r8), pointer :: npool_to_frootn(:) ! allocation to fine root N (gN/m2/s)
real(r8), pointer :: npool_to_frootn_storage(:) ! allocation to fine root N storage (gN/m2/s)
real(r8), pointer :: npool_to_livestemn(:) ! allocation to live stem N (gN/m2/s)
real(r8), pointer :: npool_to_livestemn_storage(:) ! allocation to live stem N storage (gN/m2/s)
real(r8), pointer :: npool_to_deadstemn(:) ! allocation to dead stem N (gN/m2/s)
real(r8), pointer :: npool_to_deadstemn_storage(:) ! allocation to dead stem N storage (gN/m2/s)
real(r8), pointer :: npool_to_livecrootn(:) ! allocation to live coarse root N (gN/m2/s)
real(r8), pointer :: npool_to_livecrootn_storage(:) ! allocation to live coarse root N storage (gN/m2/s)
real(r8), pointer :: npool_to_deadcrootn(:) ! allocation to dead coarse root N (gN/m2/s)
real(r8), pointer :: npool_to_deadcrootn_storage(:) ! allocation to dead coarse root N storage (gN/m2/s)
! annual turnover of storage to transfer pools
real(r8), pointer :: grainn_storage_to_xfer(:) ! grain N shift storage to transfer for prognostic crop (gN/m2/s)
real(r8), pointer :: leafn_storage_to_xfer(:) ! leaf N shift storage to transfer (gN/m2/s)
real(r8), pointer :: frootn_storage_to_xfer(:) ! fine root N shift storage to transfer (gN/m2/s)
real(r8), pointer :: livestemn_storage_to_xfer(:) ! live stem N shift storage to transfer (gN/m2/s)
real(r8), pointer :: deadstemn_storage_to_xfer(:) ! dead stem N shift storage to transfer (gN/m2/s)
real(r8), pointer :: livecrootn_storage_to_xfer(:) ! live coarse root N shift storage to transfer (gN/m2/s)
real(r8), pointer :: deadcrootn_storage_to_xfer(:) ! dead coarse root N shift storage to transfer (gN/m2/s)
! turnover of livewood to deadwood, with retranslocation
real(r8), pointer :: livestemn_to_deadstemn(:) ! live stem N turnover (gN/m2/s)
real(r8), pointer :: livestemn_to_retransn(:) ! live stem N to retranslocated N pool (gN/m2/s)
real(r8), pointer :: livecrootn_to_deadcrootn(:) ! live coarse root N turnover (gN/m2/s)
real(r8), pointer :: livecrootn_to_retransn(:) ! live coarse root N to retranslocated N pool (gN/m2/s)
! summary (diagnostic) flux variables, not involved in mass balance
real(r8), pointer :: ndeploy(:) ! total N deployed to growth and storage (gN/m2/s)
real(r8), pointer :: pft_ninputs(:) ! total N inputs to pft-level (gN/m2/s)
real(r8), pointer :: pft_noutputs(:) ! total N outputs from pft-level (gN/m2/s)
real(r8), pointer :: wood_harvestn(:) ! total N losses to wood product pools (gN/m2/s)
! new variables for fire code
real(r8), pointer :: pft_fire_nloss(:) ! total pft-level fire N loss (gN/m2/s)
end type pft_nflux_type
----------------------------------------------------
pft VOC flux variables structure
----------------------------------------------------
type, public :: pft_vflux_type
real(r8), pointer :: vocflx_tot(:) !total VOC flux into atmosphere [ug C m-2 h-1]
real(r8), pointer :: vocflx(:,:) !(nvoc) VOC flux [ug C m-2 h-1]
real(r8), pointer :: vocflx_1(:) !vocflx(1) (for history output) [ug C m-2 h-1]
real(r8), pointer :: vocflx_2(:) !vocflx(2) (for history output) [ug C m-2 h-1]
real(r8), pointer :: vocflx_3(:) !vocflx(3) (for history output) [ug C m-2 h-1]
real(r8), pointer :: vocflx_4(:) !vocflx(4) (for history output) [ug C m-2 h-1]
real(r8), pointer :: vocflx_5(:) !vocflx(5) (for history output) [ug C m-2 h-1]
real(r8), pointer :: Eopt_out(:) !Eopt coefficient
real(r8), pointer :: topt_out(:) !topt coefficient
real(r8), pointer :: alpha_out(:) !alpha coefficient
real(r8), pointer :: cp_out(:) !cp coefficient
real(r8), pointer :: paru_out(:)
real(r8), pointer :: par24u_out(:)
real(r8), pointer :: par240u_out(:)
real(r8), pointer :: para_out(:)
real(r8), pointer :: par24a_out(:)
real(r8), pointer :: par240a_out(:)
real(r8), pointer :: gamma_out(:)
real(r8), pointer :: gammaL_out(:)
real(r8), pointer :: gammaT_out(:)
real(r8), pointer :: gammaP_out(:)
real(r8), pointer :: gammaA_out(:)
real(r8), pointer :: gammaS_out(:)
end type pft_vflux_type
----------------------------------------------------
pft dry dep velocity variables structure
----------------------------------------------------
type, public :: pft_depvd_type
real(r8), pointer :: drydepvel(:,:)
end type pft_depvd_type
----------------------------------------------------
pft dust flux variables structure
----------------------------------------------------
type, public :: pft_dflux_type
real(r8), pointer :: flx_mss_vrt_dst(:,:) !(ndst) !surface dust emission (kg/m**2/s) [ + = to atm]
real(r8), pointer :: flx_mss_vrt_dst_tot(:) !total dust flux into atmosphere
real(r8), pointer :: vlc_trb(:,:) !(ndst) turbulent deposition velocity (m/s)
real(r8), pointer :: vlc_trb_1(:) !turbulent deposition velocity 1(m/s)
real(r8), pointer :: vlc_trb_2(:) !turbulent deposition velocity 2(m/s)
real(r8), pointer :: vlc_trb_3(:) !turbulent deposition velocity 3(m/s)
real(r8), pointer :: vlc_trb_4(:) !turbulent deposition velocity 4(m/s)
end type pft_dflux_type
----------------------------------------------------
End definition of structures defined at the pft_type level
----------------------------------------------------
*******************************************************************************
*******************************************************************************
----------------------------------------------------
Begin definition of structures defined at the column_type level
----------------------------------------------------
column physical state variables structure
----------------------------------------------------
type, public :: column_pstate_type
type(pft_pstate_type) :: pps_a !pft-level pstate variables averaged to the column
integer , pointer :: snl(:) !number of snow layers
integer , pointer :: isoicol(:) !soil color class
real(r8), pointer :: bsw(:,:) !Clapp and Hornberger "b" (nlevgrnd)
real(r8), pointer :: watsat(:,:) !volumetric soil water at saturation (porosity) (nlevgrnd)
real(r8), pointer :: watdry(:,:) !btran parameter for btran=0
real(r8), pointer :: watopt(:,:) !btran parameter for btran = 1
real(r8), pointer :: hksat(:,:) !hydraulic conductivity at saturation (mm H2O /s) (nlevgrnd)
real(r8), pointer :: sucsat(:,:) !minimum soil suction (mm) (nlevgrnd)
real(r8), pointer :: hkdepth(:) !decay factor (m)
real(r8), pointer :: wtfact(:) !maximum saturated fraction for a gridcell
real(r8), pointer :: fracice(:,:) !fractional impermeability (-)
real(r8), pointer :: csol(:,:) !heat capacity, soil solids (J/m**3/Kelvin) (nlevgrnd)
real(r8), pointer :: tkmg(:,:) !thermal conductivity, soil minerals [W/m-K] (new) (nlevgrnd)
real(r8), pointer :: tkdry(:,:) !thermal conductivity, dry soil (W/m/Kelvin) (nlevgrnd)
real(r8), pointer :: tksatu(:,:) !thermal conductivity, saturated soil [W/m-K] (new) (nlevgrnd)
real(r8), pointer :: smpmin(:) !restriction for min of soil potential (mm) (new)
real(r8), pointer :: gwc_thr(:) !threshold soil moisture based on clay content
real(r8), pointer :: mss_frc_cly_vld(:) ![frc] Mass fraction clay limited to 0.20
real(r8), pointer :: mbl_bsn_fct(:) !basin factor
logical , pointer :: do_capsnow(:) !true => do snow capping
real(r8), pointer :: snowdp(:) !snow height (m)
real(r8), pointer :: frac_sno(:) !fraction of ground covered by snow (0 to 1)
!real(r8), pointer :: res_sno(:) !residual snow when snl -> 0
!real(r8), pointer :: topo_ndx(:) !gridcell topographic index
!real(r8), pointer :: topo_slope(:) !gridcell topographic slope
!real(r8), pointer :: var_track(:) !generic variable to track...
!real(r8), pointer :: var_track2(:) !generic variable to track...
real(r8), pointer :: zi(:,:) !interface level below a "z" level (m) (-nlevsno+0:nlevgrnd)
real(r8), pointer :: dz(:,:) !layer thickness (m) (-nlevsno+1:nlevgrnd)
real(r8), pointer :: z(:,:) !layer depth (m) (-nlevsno+1:nlevgrnd)
real(r8), pointer :: frac_iceold(:,:) !fraction of ice relative to the tot water (new) (-nlevsno+1:nlevgrnd)
integer , pointer :: imelt(:,:) !flag for melting (=1), freezing (=2), Not=0 (new) (-nlevsno+1:nlevgrnd)
real(r8), pointer :: eff_porosity(:,:) !effective porosity = porosity - vol_ice (nlevgrnd)
real(r8), pointer :: emg(:) !ground emissivity
real(r8), pointer :: z0mg(:) !roughness length over ground, momentum [m]
real(r8), pointer :: z0hg(:) !roughness length over ground, sensible heat [m]
real(r8), pointer :: z0qg(:) !roughness length over ground, latent heat [m]
real(r8), pointer :: htvp(:) !latent heat of vapor of water (or sublimation) [j/kg]
real(r8), pointer :: beta(:) !coefficient of convective velocity [-]
real(r8), pointer :: zii(:) !convective boundary height [m]
real(r8), pointer :: albgrd(:,:) !ground albedo (direct) (numrad)
real(r8), pointer :: albgri(:,:) !ground albedo (diffuse) (numrad)
real(r8), pointer :: rootr_column(:,:) !effective fraction of roots in each soil layer (nlevgrnd)
real(r8), pointer :: rootfr_road_perv(:,:) !fraction of roots in each soil layer for urban pervious road
real(r8), pointer :: rootr_road_perv(:,:) !effective fraction of roots in each soil layer of urban pervious road
real(r8), pointer :: wf(:) !soil water as frac. of whc for top 0.5 m
real(r8), pointer :: xirrig(:) !irrigation rate
real(r8), pointer :: max_dayl(:) !maximum daylength for this column (s)
! new variables for CN code
real(r8), pointer :: bsw2(:,:) !Clapp and Hornberger "b" for CN code
real(r8), pointer :: psisat(:,:) !soil water potential at saturation for CN code (MPa)
real(r8), pointer :: vwcsat(:,:) !volumetric water content at saturation for CN code (m3/m3)
real(r8), pointer :: decl(:) ! solar declination angle (radians)
real(r8), pointer :: coszen(:) !cosine of solar zenith angle
real(r8), pointer :: soilpsi(:,:) !soil water potential in each soil layer (MPa)
real(r8), pointer :: fpi(:) !fraction of potential immobilization (no units)
real(r8), pointer :: fpg(:) !fraction of potential gpp (no units)
real(r8), pointer :: annsum_counter(:) !seconds since last annual accumulator turnover
real(r8), pointer :: cannsum_npp(:) !annual sum of NPP, averaged from pft-level (gC/m2/yr)
real(r8), pointer :: cannavg_t2m(:) !annual average of 2m air temperature, averaged from pft-level (K)
real(r8), pointer :: watfc(:,:) !volumetric soil water at field capacity (nlevsoi)
! new variables for fire code
real(r8), pointer :: me(:) !moisture of extinction (proportion)
real(r8), pointer :: fire_prob(:) !daily fire probability (0-1)
real(r8), pointer :: mean_fire_prob(:) !e-folding mean of daily fire probability (0-1)
real(r8), pointer :: fireseasonl(:) !annual fire season length (days, <= days/year)
real(r8), pointer :: farea_burned(:) !timestep fractional area burned (proportion)
real(r8), pointer :: ann_farea_burned(:) !annual total fractional area burned (proportion)
real(r8), pointer :: albsnd_hst(:,:) ! snow albedo, direct, for history files (col,bnd) [frc]
real(r8), pointer :: albsni_hst(:,:) ! snow albedo, diffuse, for history files (col,bnd) [frc]
real(r8), pointer :: albsod(:,:) ! soil albedo: direct (col,bnd) [frc]
real(r8), pointer :: albsoi(:,:) ! soil albedo: diffuse (col,bnd) [frc]
real(r8), pointer :: flx_absdv(:,:) ! absorbed flux per unit incident direct flux: VIS (col,lyr) [frc]
real(r8), pointer :: flx_absdn(:,:) ! absorbed flux per unit incident direct flux: NIR (col,lyr) [frc]
real(r8), pointer :: flx_absiv(:,:) ! absorbed flux per unit incident diffuse flux: VIS (col,lyr) [frc]
real(r8), pointer :: flx_absin(:,:) ! absorbed flux per unit incident diffuse flux: NIR (col,lyr) [frc]
real(r8), pointer :: snw_rds(:,:) ! snow grain radius (col,lyr) [m^-6, microns]
real(r8), pointer :: snw_rds_top(:) ! snow grain radius, top layer (col) [m^-6, microns]
real(r8), pointer :: sno_liq_top(:) ! snow liquid water fraction (mass), top layer (col) [fraction]
real(r8), pointer :: mss_bcpho(:,:) ! mass of hydrophobic BC in snow (col,lyr) [kg]
real(r8), pointer :: mss_bcphi(:,:) ! mass of hydrophillic BC in snow (col,lyr) [kg]
real(r8), pointer :: mss_bctot(:,:) ! total mass of BC in snow (pho+phi) (col,lyr) [kg]
real(r8), pointer :: mss_bc_col(:) ! column-integrated mass of total BC (col) [kg]
real(r8), pointer :: mss_bc_top(:) ! top-layer mass of total BC (col) [kg]
real(r8), pointer :: mss_ocpho(:,:) ! mass of hydrophobic OC in snow (col,lyr) [kg]
real(r8), pointer :: mss_ocphi(:,:) ! mass of hydrophillic OC in snow (col,lyr) [kg]
real(r8), pointer :: mss_octot(:,:) ! total mass of OC in snow (pho+phi) (col,lyr) [kg]
real(r8), pointer :: mss_oc_col(:) ! column-integrated mass of total OC (col) [kg]
real(r8), pointer :: mss_oc_top(:) ! top-layer mass of total OC (col) [kg]
real(r8), pointer :: mss_dst1(:,:) ! mass of dust species 1 in snow (col,lyr) [kg]
real(r8), pointer :: mss_dst2(:,:) ! mass of dust species 2 in snow (col,lyr) [kg]
real(r8), pointer :: mss_dst3(:,:) ! mass of dust species 3 in snow (col,lyr) [kg]
real(r8), pointer :: mss_dst4(:,:) ! mass of dust species 4 in snow (col,lyr) [kg]
real(r8), pointer :: mss_dsttot(:,:) ! total mass of dust in snow (col,lyr) [kg]
real(r8), pointer :: mss_dst_col(:) ! column-integrated mass of dust in snow (col) [kg]
real(r8), pointer :: mss_dst_top(:) ! top-layer mass of dust in snow (col) [kg]
real(r8), pointer :: h2osno_top(:) ! top-layer mass of snow (col) [kg]
real(r8), pointer :: mss_cnc_bcphi(:,:) ! mass concentration of hydrophilic BC in snow (col,lyr) [kg/kg]
real(r8), pointer :: mss_cnc_bcpho(:,:) ! mass concentration of hydrophilic BC in snow (col,lyr) [kg/kg]
real(r8), pointer :: mss_cnc_ocphi(:,:) ! mass concentration of hydrophilic OC in snow (col,lyr) [kg/kg]
real(r8), pointer :: mss_cnc_ocpho(:,:) ! mass concentration of hydrophilic OC in snow (col,lyr) [kg/kg]
real(r8), pointer :: mss_cnc_dst1(:,:) ! mass concentration of dust species 1 in snow (col,lyr) [kg/kg]
real(r8), pointer :: mss_cnc_dst2(:,:) ! mass concentration of dust species 2 in snow (col,lyr) [kg/kg]
real(r8), pointer :: mss_cnc_dst3(:,:) ! mass concentration of dust species 3 in snow (col,lyr) [kg/kg]
real(r8), pointer :: mss_cnc_dst4(:,:) ! mass concentration of dust species 4 in snow (col,lyr) [kg/kg]
real(r8), pointer :: albgrd_pur(:,:) ! pure snow ground direct albedo (numrad)
real(r8), pointer :: albgri_pur(:,:) ! pure snow ground diffuse albedo (numrad)
real(r8), pointer :: albgrd_bc(:,:) ! ground direct albedo without BC (numrad)
real(r8), pointer :: albgri_bc(:,:) ! ground diffuse albedo without BC (numrad)
real(r8), pointer :: albgrd_oc(:,:) ! ground direct albedo without OC (numrad)
real(r8), pointer :: albgri_oc(:,:) ! ground diffuse albedo without OC (numrad)
real(r8), pointer :: albgrd_dst(:,:) ! ground direct albedo without dust (numrad)
real(r8), pointer :: albgri_dst(:,:) ! ground diffuse albedo without dust (numrad)
real(r8), pointer :: dTdz_top(:) ! temperature gradient in top layer [K m-1]
real(r8), pointer :: snot_top(:) ! temperature of top snow layer [K]
real(r8), pointer :: irrig_rate(:) ! current irrigation rate [mm/s]
integer, pointer :: n_irrig_steps_left(:) ! number of time steps for which we still need to irrigate today (if 0, ignore irrig_rate)
real(r8), pointer :: forc_pbot(:) ! surface atm pressure, downscaled to column (Pa)
real(r8), pointer :: forc_rho(:) ! surface air density, downscaled to column (kg/m^3)
real(r8), pointer :: glc_frac(:) ! ice fractional area
real(r8), pointer :: glc_topo(:) ! surface elevation (m)
end type column_pstate_type
----------------------------------------------------
column energy state variables structure
----------------------------------------------------
type, public :: column_estate_type
type(pft_estate_type):: pes_a !pft-level energy state variables averaged to the column
real(r8), pointer :: t_grnd(:) !ground temperature (Kelvin)
real(r8), pointer :: t_grnd_u(:) !Urban ground temperature (Kelvin)
real(r8), pointer :: t_grnd_r(:) !Rural ground temperature (Kelvin)
real(r8), pointer :: dt_grnd(:) !change in t_grnd, last iteration (Kelvin)
real(r8), pointer :: t_soisno(:,:) !soil temperature (Kelvin) (-nlevsno+1:nlevgrnd)
real(r8), pointer :: t_soi_10cm(:) !soil temperature in top 10cm of soil (Kelvin)
real(r8), pointer :: t_lake(:,:) !lake temperature (Kelvin) (1:nlevlak)
real(r8), pointer :: tssbef(:,:) !soil/snow temperature before update (-nlevsno+1:nlevgrnd)
real(r8), pointer :: thv(:) !virtual potential temperature (kelvin)
real(r8), pointer :: hc_soi(:) !soil heat content (MJ/m2)
real(r8), pointer :: hc_soisno(:) !soil plus snow heat content (MJ/m2)
real(r8), pointer :: forc_t(:) !atm temperature, downscaled to column (Kelvin)
real(r8), pointer :: forc_th(:) !atm potl temperature, downscaled to column (Kelvin)
end type column_estate_type
----------------------------------------------------
column water state variables structure
----------------------------------------------------
type, public :: column_wstate_type
type(pft_wstate_type):: pws_a !pft-level water state variables averaged to the column
real(r8), pointer :: h2osno(:) !snow water (mm H2O)
real(r8), pointer :: h2osoi_liq(:,:) !liquid water (kg/m2) (new) (-nlevsno+1:nlevgrnd)
real(r8), pointer :: h2osoi_ice(:,:) !ice lens (kg/m2) (new) (-nlevsno+1:nlevgrnd)
real(r8), pointer :: h2osoi_liqice_10cm(:) !liquid water + ice lens in top 10cm of soil (kg/m2)
real(r8), pointer :: h2osoi_vol(:,:) !volumetric soil water (0<=h2osoi_vol<=watsat) [m3/m3] (nlevgrnd)
real(r8), pointer :: h2osno_old(:) !snow mass for previous time step (kg/m2) (new)
real(r8), pointer :: qg(:) !ground specific humidity [kg/kg]
real(r8), pointer :: dqgdT(:) !d(qg)/dT
real(r8), pointer :: snowice(:) !average snow ice lens
real(r8), pointer :: snowliq(:) !average snow liquid water
real(r8) ,pointer :: soilalpha(:) !factor that reduces ground saturated specific humidity (-)
real(r8), pointer :: soilbeta(:) !factor that reduces ground evaporation L&P1992(-)
real(r8) ,pointer :: soilalpha_u(:) !urban factor that reduces ground saturated specific humidity (-)
real(r8), pointer :: zwt(:) !water table depth
!real(r8), pointer :: frost_table(:) !frost table depth
!real(r8), pointer :: zwt_perched(:) !perched water table depth
real(r8), pointer :: fcov(:) !fractional impermeable area
real(r8), pointer :: wa(:) !water in the unconfined aquifer (mm)
real(r8), pointer :: wt(:) !total water storage (unsaturated soil water + groundwater) (mm)
real(r8), pointer :: qcharge(:) !aquifer recharge rate (mm/s)
real(r8), pointer :: smp_l(:,:) !soil matric potential (mm)
real(r8), pointer :: hk_l(:,:) !hydraulic conductivity (mm/s)
real(r8), pointer :: fsat(:) !fractional area with water table at surface
real(r8), pointer :: forc_q(:) !atm specific humidity, downscaled to column (kg/kg)
end type column_wstate_type
----------------------------------------------------
column carbon state variables structure
----------------------------------------------------
type, public :: column_cstate_type
type(pft_cstate_type):: pcs_a !pft-level carbon state variables averaged to the column
! NOTE: the soilc variable is used by the original CLM C-cycle code,
! and is not used by the CN code
real(r8), pointer :: soilc(:) !soil carbon (kg C /m**2)
! BGC variables
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 :: 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 (slowest pool)
real(r8), pointer :: col_ctrunc(:) ! (gC/m2) column-level sink for C truncation
! pools for dynamic landcover
real(r8), pointer :: seedc(:) ! (gC/m2) column-level pool for seeding new PFTs
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
! summary (diagnostic) state variables, not involved in mass balance
real(r8), pointer :: totlitc(:) ! (gC/m2) total litter carbon
real(r8), pointer :: totsomc(:) ! (gC/m2) total soil organic matter carbon
real(r8), pointer :: totecosysc(:) ! (gC/m2) total ecosystem carbon, incl veg but excl cpool
real(r8), pointer :: totcolc(:) ! (gC/m2) total column carbon, incl veg and cpool
end type column_cstate_type
----------------------------------------------------
column nitrogen state variables structure
----------------------------------------------------
type, public :: column_nstate_type
type(pft_nstate_type):: pns_a !pft-level nitrogen state variables averaged to the column
! BGC variables
real(r8), pointer :: cwdn(:) ! (gN/m2) coarse woody debris N
real(r8), pointer :: litr1n(:) ! (gN/m2) litter labile N
real(r8), pointer :: litr2n(:) ! (gN/m2) litter cellulose N
real(r8), pointer :: litr3n(:) ! (gN/m2) litter lignin N
real(r8), pointer :: soil1n(:) ! (gN/m2) soil organic matter N (fast pool)
real(r8), pointer :: soil2n(:) ! (gN/m2) soil organic matter N (medium pool)
real(r8), pointer :: soil3n(:) ! (gN/m2) soil orgainc matter N (slow pool)
real(r8), pointer :: soil4n(:) ! (gN/m2) soil orgainc matter N (slowest pool)
real(r8), pointer :: sminn(:) ! (gN/m2) soil mineral N
real(r8), pointer :: col_ntrunc(:) ! (gN/m2) column-level sink for N truncation
! wood product pools, for dynamic landcover
real(r8), pointer :: seedn(:) ! (gN/m2) column-level pool for seeding new PFTs
real(r8), pointer :: prod10n(:) ! (gN/m2) wood product N pool, 10-year lifespan
real(r8), pointer :: prod100n(:) ! (gN/m2) wood product N pool, 100-year lifespan
real(r8), pointer :: totprodn(:) ! (gN/m2) total wood product N
! summary (diagnostic) state variables, not involved in mass balance
real(r8), pointer :: totlitn(:) ! (gN/m2) total litter nitrogen
real(r8), pointer :: totsomn(:) ! (gN/m2) total soil organic matter nitrogen
real(r8), pointer :: totecosysn(:) ! (gN/m2) total ecosystem nitrogen, incl veg
real(r8), pointer :: totcoln(:) ! (gN/m2) total column nitrogen, incl veg
end type column_nstate_type
----------------------------------------------------
column VOC state variables structure
----------------------------------------------------
type, public :: column_vstate_type
type(pft_vstate_type):: pvs_a !pft-level VOC state variables averaged to the column
end type column_vstate_type
#if (defined CNDV)
----------------------------------------------------
column DGVM state variables structure
----------------------------------------------------
type, public :: column_dgvstate_type
type(pft_dgvstate_type):: pdgvs_a
end type column_dgvstate_type
#endif
----------------------------------------------------
column dust state variables structure
----------------------------------------------------
type, public :: column_dstate_type
real(r8), pointer :: dummy_entry(:)
end type column_dstate_type
----------------------------------------------------
column energy flux variables structure
----------------------------------------------------
type, public :: column_eflux_type
type(pft_eflux_type):: pef_a ! pft-level energy flux variables averaged to the column
real(r8), pointer :: eflx_snomelt(:) ! snow melt heat flux (W/m**2)
real(r8), pointer :: eflx_snomelt_u(:) ! urban snow melt heat flux (W/m**2)
real(r8), pointer :: eflx_snomelt_r(:) ! rural snow melt heat flux (W/m**2)
real(r8), pointer :: eflx_impsoil(:) ! implicit evaporation for soil temperature equation
real(r8), pointer :: eflx_fgr12(:) ! ground heat flux between soil layers 1 and 2 (W/m2)
! Urban variable
real(r8), pointer :: eflx_building_heat(:) ! heat flux from urban building interior to urban walls, roof (W/m**2)
real(r8), pointer :: eflx_urban_ac(:) ! urban air conditioning flux (W/m**2)
real(r8), pointer :: eflx_urban_heat(:) ! urban heating flux (W/m**2)
real(r8), pointer :: eflx_bot(:) ! heat flux from beneath the soil or ice column (W/m**2)
! positive upward; usually eflx_bot >= 0
end type column_eflux_type
----------------------------------------------------
column momentum flux variables structure
----------------------------------------------------
type, public :: column_mflux_type
type(pft_mflux_type):: pmf_a ! pft-level momentum flux variables averaged to the column
end type column_mflux_type
----------------------------------------------------
column water flux variables structure
----------------------------------------------------
type, public :: column_wflux_type
type(pft_wflux_type):: pwf_a ! pft-level water flux variables averaged to the column
real(r8), pointer :: qflx_infl(:) ! infiltration (mm H2O /s)
real(r8), pointer :: qflx_surf(:) ! surface runoff (mm H2O /s)
real(r8), pointer :: qflx_drain(:) ! sub-surface runoff (mm H2O /s)
real(r8), pointer :: qflx_top_soil(:)! net water input into soil from top (mm/s)
!real(r8), pointer :: qflx_snow_out(:) !net water output from snow column
!real(r8), pointer :: qflx_drain_perched(:) ! sub-surface runoff from perched wt (mm H2O /s)
real(r8), pointer :: qflx_snomelt(:) ! snow melt (mm H2O /s)
real(r8), pointer :: qflx_qrgwl(:) ! qflx_surf at glaciers, wetlands, lakes
real(r8), pointer :: qflx_runoff(:) ! total runoff (qflx_drain+qflx_surf+qflx_qrgwl) (mm H2O /s)
real(r8), pointer :: qflx_runoff_u(:)! Urban total runoff (qflx_drain+qflx_surf) (mm H2O /s)
real(r8), pointer :: qflx_runoff_r(:)! Rural total runoff (qflx_drain+qflx_surf+qflx_qrgwl) (mm H2O /s)
real(r8), pointer :: qmelt(:) ! snow melt [mm/s]
real(r8), pointer :: h2ocan_loss(:) ! mass balance correction term for dynamic weights
real(r8), pointer :: qflx_rsub_sat(:) ! soil saturation excess [mm/s]
real(r8), pointer :: flx_bc_dep_dry(:) ! dry (BCPHO+BCPHI) BC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_bc_dep_wet(:) ! wet (BCPHI) BC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_bc_dep_pho(:) ! hydrophobic BC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_bc_dep_phi(:) ! hydrophillic BC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_bc_dep(:) ! total (dry+wet) BC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_oc_dep_dry(:) ! dry (OCPHO+OCPHI) OC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_oc_dep_wet(:) ! wet (OCPHI) OC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_oc_dep_pho(:) ! hydrophobic OC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_oc_dep_phi(:) ! hydrophillic OC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_oc_dep(:) ! total (dry+wet) OC deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_dry1(:) ! dust species 1 dry deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_wet1(:) ! dust species 1 wet deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_dry2(:) ! dust species 2 dry deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_wet2(:) ! dust species 2 wet deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_dry3(:) ! dust species 3 dry deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_wet3(:) ! dust species 3 wet deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_dry4(:) ! dust species 4 dry deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep_wet4(:) ! dust species 4 wet deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: flx_dst_dep(:) ! total (dry+wet) dust deposition on ground (positive definite) (col) [kg/s]
real(r8), pointer :: qflx_snofrz_lyr(:,:)! snow freezing rate (positive definite) (col,lyr) [kg m-2 s-1]
real(r8), pointer :: qflx_irrig(:) !irrigation flux (mm H2O/s)
real(r8), pointer :: qflx_glcice(:) ! flux of new glacial ice (mm H2O/s), passed to GLC
real(r8), pointer :: glc_rofi(:) ! ice runoff passed from GLC to CLM (mm H2O /s)
real(r8), pointer :: glc_rofl(:) ! liquid runoff passed from GLC to CLM (mm H2O /s)
end type column_wflux_type
----------------------------------------------------
column carbon flux variables structure
----------------------------------------------------
type, public :: column_cflux_type
type(pft_cflux_type):: pcf_a !pft-level carbon flux variables averaged to the column
! new variables for CN code
! column-level gap mortality fluxes
real(r8), pointer :: m_leafc_to_litr1c(:) ! leaf C mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_leafc_to_litr2c(:) ! leaf C mortality to litter 2 C (gC/m2/s)
real(r8), pointer :: m_leafc_to_litr3c(:) ! leaf C mortality to litter 3 C (gC/m2/s)
real(r8), pointer :: m_frootc_to_litr1c(:) ! fine root C mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_frootc_to_litr2c(:) ! fine root C mortality to litter 2 C (gC/m2/s)
real(r8), pointer :: m_frootc_to_litr3c(:) ! fine root C mortality to litter 3 C (gC/m2/s)
real(r8), pointer :: m_livestemc_to_cwdc(:) ! live stem C mortality to coarse woody debris C (gC/m2/s)
real(r8), pointer :: m_deadstemc_to_cwdc(:) ! dead stem C mortality to coarse woody debris C (gC/m2/s)
real(r8), pointer :: m_livecrootc_to_cwdc(:) ! live coarse root C mortality to coarse woody debris C (gC/m2/s)
real(r8), pointer :: m_deadcrootc_to_cwdc(:) ! dead coarse root C mortality to coarse woody debris C (gC/m2/s)
real(r8), pointer :: m_leafc_storage_to_litr1c(:) ! leaf C storage mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_frootc_storage_to_litr1c(:) ! fine root C storage mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_livestemc_storage_to_litr1c(:) ! live stem C storage mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_deadstemc_storage_to_litr1c(:) ! dead stem C storage mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_livecrootc_storage_to_litr1c(:) ! live coarse root C storage mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_deadcrootc_storage_to_litr1c(:) ! dead coarse root C storage mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_gresp_storage_to_litr1c(:) ! growth respiration storage mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_leafc_xfer_to_litr1c(:) ! leaf C transfer mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_frootc_xfer_to_litr1c(:) ! fine root C transfer mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_livestemc_xfer_to_litr1c(:) ! live stem C transfer mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_deadstemc_xfer_to_litr1c(:) ! dead stem C transfer mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_livecrootc_xfer_to_litr1c(:) ! live coarse root C transfer mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_deadcrootc_xfer_to_litr1c(:) ! dead coarse root C transfer mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: m_gresp_xfer_to_litr1c(:) ! growth respiration transfer mortality to litter 1 C (gC/m2/s)
! column-level harvest mortality fluxes
real(r8), pointer :: hrv_leafc_to_litr1c(:) ! leaf C harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_leafc_to_litr2c(:) ! leaf C harvest mortality to litter 2 C (gC/m2/s)
real(r8), pointer :: hrv_leafc_to_litr3c(:) ! leaf C harvest mortality to litter 3 C (gC/m2/s)
real(r8), pointer :: hrv_frootc_to_litr1c(:) ! fine root C harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_frootc_to_litr2c(:) ! fine root C harvest mortality to litter 2 C (gC/m2/s)
real(r8), pointer :: hrv_frootc_to_litr3c(:) ! fine root C harvest mortality to litter 3 C (gC/m2/s)
real(r8), pointer :: hrv_livestemc_to_cwdc(:) ! live stem C harvest mortality to coarse woody debris C (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_to_prod10c(:) ! dead stem C harvest mortality to 10-year product pool (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_to_prod100c(:) ! dead stem C harvest mortality to 100-year product pool (gC/m2/s)
real(r8), pointer :: hrv_livecrootc_to_cwdc(:) ! live coarse root C harvest mortality to coarse woody debris C (gC/m2/s)
real(r8), pointer :: hrv_deadcrootc_to_cwdc(:) ! dead coarse root C harvest mortality to coarse woody debris C (gC/m2/s)
real(r8), pointer :: hrv_leafc_storage_to_litr1c(:) ! leaf C storage harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_frootc_storage_to_litr1c(:) ! fine root C storage harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_livestemc_storage_to_litr1c(:) ! live stem C storage harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_storage_to_litr1c(:) ! dead stem C storage harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_livecrootc_storage_to_litr1c(:) ! live coarse root C storage harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_deadcrootc_storage_to_litr1c(:) ! dead coarse root C storage harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_gresp_storage_to_litr1c(:) ! growth respiration storage harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_leafc_xfer_to_litr1c(:) ! leaf C transfer harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_frootc_xfer_to_litr1c(:) ! fine root C transfer harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_livestemc_xfer_to_litr1c(:) ! live stem C transfer harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_deadstemc_xfer_to_litr1c(:) ! dead stem C transfer harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_livecrootc_xfer_to_litr1c(:) ! live coarse root C transfer harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_deadcrootc_xfer_to_litr1c(:) ! dead coarse root C transfer harvest mortality to litter 1 C (gC/m2/s)
real(r8), pointer :: hrv_gresp_xfer_to_litr1c(:) ! growth respiration transfer harvest mortality to litter 1 C (gC/m2/s)
! column-level fire fluxes
real(r8), pointer :: m_deadstemc_to_cwdc_fire(:) ! dead stem C to coarse woody debris C by fire (gC/m2/s)
real(r8), pointer :: m_deadcrootc_to_cwdc_fire(:) ! dead coarse root C to to woody debris C by fire (gC/m2/s)
real(r8), pointer :: m_litr1c_to_fire(:) ! litter 1 C fire loss (gC/m2/s)
real(r8), pointer :: m_litr2c_to_fire(:) ! litter 2 C fire loss (gC/m2/s)
real(r8), pointer :: m_litr3c_to_fire(:) ! litter 3 C fire loss (gC/m2/s)
real(r8), pointer :: m_cwdc_to_fire(:) ! coarse woody debris C fire loss (gC/m2/s)
! litterfall fluxes
real(r8), pointer :: livestemc_to_litr1c(:) ! livestem C litterfall to litter 1 C (gC/m2/s)
real(r8), pointer :: livestemc_to_litr2c(:) ! livestem C litterfall to litter 2 C (gC/m2/s)
real(r8), pointer :: livestemc_to_litr3c(:) ! livestem C litterfall to litter 3 C (gC/m2/s)
real(r8), pointer :: leafc_to_litr1c(:) ! leaf C litterfall to litter 1 C (gC/m2/s)
real(r8), pointer :: leafc_to_litr2c(:) ! leaf C litterfall to litter 2 C (gC/m2/s)
real(r8), pointer :: leafc_to_litr3c(:) ! leaf C litterfall to litter 3 C (gC/m2/s)
real(r8), pointer :: frootc_to_litr1c(:) ! fine root C litterfall to litter 1 C (gC/m2/s)
real(r8), pointer :: frootc_to_litr2c(:) ! fine root C litterfall to litter 2 C (gC/m2/s)
real(r8), pointer :: frootc_to_litr3c(:) ! fine root C litterfall to litter 3 C (gC/m2/s)
! litterfall fluxes for prognostic crop model
real(r8), pointer :: grainc_to_litr1c(:) ! grain C litterfall to litter 1 C (gC/m2/s)
real(r8), pointer :: grainc_to_litr2c(:) ! grain C litterfall to litter 2 C (gC/m2/s)
real(r8), pointer :: grainc_to_litr3c(:) ! grain C litterfall to litter 3 C (gC/m2/s)
! decomposition fluxes
real(r8), pointer :: cwdc_to_litr2c(:) ! decomp. of coarse woody debris C to litter 2 C (gC/m2/s)
real(r8), pointer :: cwdc_to_litr3c(:) ! decomp. of coarse woody debris C to litter 3 C (gC/m2/s)
real(r8), pointer :: litr1_hr(:) ! het. resp. from litter 1 C (gC/m2/s)
real(r8), pointer :: litr1c_to_soil1c(:) ! decomp. of litter 1 C to SOM 1 C (gC/m2/s)
real(r8), pointer :: litr2_hr(:) ! het. resp. from litter 2 C (gC/m2/s)
real(r8), pointer :: litr2c_to_soil2c(:) ! decomp. of litter 2 C to SOM 2 C (gC/m2/s)
real(r8), pointer :: litr3_hr(:) ! het. resp. from litter 3 C (gC/m2/s)
real(r8), pointer :: litr3c_to_soil3c(:) ! decomp. of litter 3 C to SOM 3 C (gC/m2/s)
real(r8), pointer :: soil1_hr(:) ! het. resp. from SOM 1 C (gC/m2/s)
real(r8), pointer :: soil1c_to_soil2c(:) ! decomp. of SOM 1 C to SOM 2 C (gC/m2/s)
real(r8), pointer :: soil2_hr(:) ! het. resp. from SOM 2 C (gC/m2/s)
real(r8), pointer :: soil2c_to_soil3c(:) ! decomp. of SOM 2 C to SOM 3 C (gC/m2/s)
real(r8), pointer :: soil3_hr(:) ! het. resp. from SOM 3 C (gC/m2/s)
real(r8), pointer :: soil3c_to_soil4c(:) ! decomp. of SOM 3 C to SOM 4 C (gC/m2/s)
real(r8), pointer :: soil4_hr(:) ! het. resp. from SOM 4 C (gC/m2/s)
! dynamic landcover fluxes
#ifdef CN
real(r8), pointer :: dwt_seedc_to_leaf(:) ! (gC/m2/s) seed source to PFT-level
real(r8), pointer :: dwt_seedc_to_deadstem(:) ! (gC/m2/s) seed source to PFT-level
real(r8), pointer :: dwt_conv_cflux(:) ! (gC/m2/s) conversion C flux (immediate loss to atm)
real(r8), pointer :: dwt_prod10c_gain(:) ! (gC/m2/s) addition to 10-yr wood product pool
real(r8), pointer :: dwt_prod100c_gain(:) ! (gC/m2/s) addition to 100-yr wood product pool
real(r8), pointer :: dwt_frootc_to_litr1c(:) ! (gC/m2/s) fine root to litter due to landcover change
real(r8), pointer :: dwt_frootc_to_litr2c(:) ! (gC/m2/s) fine root to litter due to landcover change
real(r8), pointer :: dwt_frootc_to_litr3c(:) ! (gC/m2/s) fine root to litter due to landcover change
real(r8), pointer :: dwt_livecrootc_to_cwdc(:) ! (gC/m2/s) live coarse root to CWD due to landcover change
real(r8), pointer :: dwt_deadcrootc_to_cwdc(:) ! (gC/m2/s) dead coarse root to CWD due to landcover change
real(r8), pointer :: dwt_closs(:) ! (gC/m2/s) total carbon loss from product pools and conversion
real(r8), pointer :: landuseflux(:) ! (gC/m2/s) dwt_closs+product_closs
real(r8), pointer :: landuptake(:) ! (gC/m2/s) nee-landuseflux
! wood product pool loss fluxes
real(r8), pointer :: prod10c_loss(:) ! (gC/m2/s) decomposition loss from 10-yr wood product pool
real(r8), pointer :: prod100c_loss(:) ! (gC/m2/s) decomposition loss from 100-yr wood product pool
real(r8), pointer :: product_closs(:) ! (gC/m2/s) total wood product carbon loss
#endif
! summary (diagnostic) flux variables, not involved in mass balance
real(r8), pointer :: lithr(:) ! (gC/m2/s) litter heterotrophic respiration
real(r8), pointer :: somhr(:) ! (gC/m2/s) soil organic matter heterotrophic respiration
real(r8), pointer :: hr(:) ! (gC/m2/s) total heterotrophic respiration
real(r8), pointer :: sr(:) ! (gC/m2/s) total soil respiration (HR + root resp)
real(r8), pointer :: er(:) ! (gC/m2/s) total ecosystem respiration, autotrophic + heterotrophic
real(r8), pointer :: litfire(:) ! (gC/m2/s) litter fire losses
real(r8), pointer :: somfire(:) ! (gC/m2/s) soil organic matter fire losses
real(r8), pointer :: totfire(:) ! (gC/m2/s) total ecosystem fire losses
real(r8), pointer :: nep(:) ! (gC/m2/s) net ecosystem production, excludes fire, landuse, and harvest flux, positive for sink
real(r8), pointer :: nbp(:) ! (gC/m2/s) net biome production, includes fire, landuse, and harvest flux, positive for sink
real(r8), pointer :: nee(:) ! (gC/m2/s) net ecosystem exchange of carbon, includes fire, landuse, harvest, and hrv_xsmrpool flux, positive for source
real(r8), pointer :: col_cinputs(:) ! (gC/m2/s) total column-level carbon inputs (for balance check)
real(r8), pointer :: col_coutputs(:) ! (gC/m2/s) total column-level carbon outputs (for balance check)
#if (defined CN)
! CLAMP summary (diagnostic) flux variables, not involved in mass balance
real(r8), pointer :: cwdc_hr(:) ! (gC/m2/s) col-level coarse woody debris C heterotrophic respiration
real(r8), pointer :: cwdc_loss(:) ! (gC/m2/s) col-level coarse woody debris C loss
real(r8), pointer :: litterc_loss(:) ! (gC/m2/s) col-level litter C loss
#endif
! new variables for fire
real(r8), pointer :: col_fire_closs(:) ! (gC/m2/s) total column-level fire C loss
end type column_cflux_type
----------------------------------------------------
column nitrogen flux variables structure
----------------------------------------------------
type, public :: column_nflux_type
type(pft_nflux_type):: pnf_a !pft-level nitrogen flux variables averaged to the column
! new variables for CN code
! deposition fluxes
real(r8), pointer :: ndep_to_sminn(:) ! atmospheric N deposition to soil mineral N (gN/m2/s)
real(r8), pointer :: nfix_to_sminn(:) ! symbiotic/asymbiotic N fixation to soil mineral N (gN/m2/s)
! column-level gap mortality fluxes
real(r8), pointer :: m_leafn_to_litr1n(:) ! leaf N mortality to litter 1 N (gC/m2/s)
real(r8), pointer :: m_leafn_to_litr2n(:) ! leaf N mortality to litter 2 N (gC/m2/s)
real(r8), pointer :: m_leafn_to_litr3n(:) ! leaf N mortality to litter 3 N (gC/m2/s)
real(r8), pointer :: m_frootn_to_litr1n(:) ! fine root N mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_frootn_to_litr2n(:) ! fine root N mortality to litter 2 N (gN/m2/s)
real(r8), pointer :: m_frootn_to_litr3n(:) ! fine root N mortality to litter 3 N (gN/m2/s)
real(r8), pointer :: m_livestemn_to_cwdn(:) ! live stem N mortality to coarse woody debris N (gN/m2/s)
real(r8), pointer :: m_deadstemn_to_cwdn(:) ! dead stem N mortality to coarse woody debris N (gN/m2/s)
real(r8), pointer :: m_livecrootn_to_cwdn(:) ! live coarse root N mortality to coarse woody debris N (gN/m2/s)
real(r8), pointer :: m_deadcrootn_to_cwdn(:) ! dead coarse root N mortality to coarse woody debris N (gN/m2/s)
real(r8), pointer :: m_retransn_to_litr1n(:) ! retranslocated N pool mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_leafn_storage_to_litr1n(:) ! leaf N storage mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_frootn_storage_to_litr1n(:) ! fine root N storage mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_livestemn_storage_to_litr1n(:) ! live stem N storage mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_deadstemn_storage_to_litr1n(:) ! dead stem N storage mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_livecrootn_storage_to_litr1n(:) ! live coarse root N storage mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_deadcrootn_storage_to_litr1n(:) ! dead coarse root N storage mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_leafn_xfer_to_litr1n(:) ! leaf N transfer mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_frootn_xfer_to_litr1n(:) ! fine root N transfer mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_livestemn_xfer_to_litr1n(:) ! live stem N transfer mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_deadstemn_xfer_to_litr1n(:) ! dead stem N transfer mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_livecrootn_xfer_to_litr1n(:) ! live coarse root N transfer mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: m_deadcrootn_xfer_to_litr1n(:) ! dead coarse root N transfer mortality to litter 1 N (gN/m2/s)
! column-level harvest fluxes
real(r8), pointer :: hrv_leafn_to_litr1n(:) ! leaf N harvest mortality to litter 1 N (gC/m2/s)
real(r8), pointer :: hrv_leafn_to_litr2n(:) ! leaf N harvest mortality to litter 2 N (gC/m2/s)
real(r8), pointer :: hrv_leafn_to_litr3n(:) ! leaf N harvest mortality to litter 3 N (gC/m2/s)
real(r8), pointer :: hrv_frootn_to_litr1n(:) ! fine root N harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_frootn_to_litr2n(:) ! fine root N harvest mortality to litter 2 N (gN/m2/s)
real(r8), pointer :: hrv_frootn_to_litr3n(:) ! fine root N harvest mortality to litter 3 N (gN/m2/s)
real(r8), pointer :: hrv_livestemn_to_cwdn(:) ! live stem N harvest mortality to coarse woody debris N (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_to_prod10n(:) ! dead stem N harvest mortality to 10-year product pool (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_to_prod100n(:) ! dead stem N harvest mortality to 100-year product pool (gN/m2/s)
real(r8), pointer :: hrv_livecrootn_to_cwdn(:) ! live coarse root N harvest mortality to coarse woody debris N (gN/m2/s)
real(r8), pointer :: hrv_deadcrootn_to_cwdn(:) ! dead coarse root N harvest mortality to coarse woody debris N (gN/m2/s)
real(r8), pointer :: hrv_retransn_to_litr1n(:) ! retranslocated N pool harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_leafn_storage_to_litr1n(:) ! leaf N storage harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_frootn_storage_to_litr1n(:) ! fine root N storage harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_livestemn_storage_to_litr1n(:) ! live stem N storage harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_storage_to_litr1n(:) ! dead stem N storage harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_livecrootn_storage_to_litr1n(:) ! live coarse root N storage harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_deadcrootn_storage_to_litr1n(:) ! dead coarse root N storage harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_leafn_xfer_to_litr1n(:) ! leaf N transfer harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_frootn_xfer_to_litr1n(:) ! fine root N transfer harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_livestemn_xfer_to_litr1n(:) ! live stem N transfer harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_deadstemn_xfer_to_litr1n(:) ! dead stem N transfer harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_livecrootn_xfer_to_litr1n(:) ! live coarse root N transfer harvest mortality to litter 1 N (gN/m2/s)
real(r8), pointer :: hrv_deadcrootn_xfer_to_litr1n(:) ! dead coarse root N transfer harvest mortality to litter 1 N (gN/m2/s)
! column-level fire fluxes
real(r8), pointer :: m_deadstemn_to_cwdn_fire(:) ! dead stem N to coarse woody debris N by fire (gN/m2/s)
real(r8), pointer :: m_deadcrootn_to_cwdn_fire(:) ! dead coarse root N to to woody debris N by fire (gN/m2/s)
real(r8), pointer :: m_litr1n_to_fire(:) ! litter 1 N fire loss (gN/m2/s)
real(r8), pointer :: m_litr2n_to_fire(:) ! litter 2 N fire loss (gN/m2/s)
real(r8), pointer :: m_litr3n_to_fire(:) ! litter 3 N fire loss (gN/m2/s)
real(r8), pointer :: m_cwdn_to_fire(:) ! coarse woody debris N fire loss (gN/m2/s)
! litterfall fluxes
real(r8), pointer :: livestemn_to_litr1n(:) ! livestem N litterfall to litter 1 N (gN/m2/s)
real(r8), pointer :: livestemn_to_litr2n(:) ! livestem N litterfall to litter 2 N (gN/m2/s)
real(r8), pointer :: livestemn_to_litr3n(:) ! livestem N litterfall to litter 3 N (gN/m2/s)
real(r8), pointer :: leafn_to_litr1n(:) ! leaf N litterfall to litter 1 N (gN/m2/s)
real(r8), pointer :: leafn_to_litr2n(:) ! leaf N litterfall to litter 2 N (gN/m2/s)
real(r8), pointer :: leafn_to_litr3n(:) ! leaf N litterfall to litter 3 N (gN/m2/s)
real(r8), pointer :: frootn_to_litr1n(:) ! fine root N litterfall to litter 1 N (gN/m2/s)
real(r8), pointer :: frootn_to_litr2n(:) ! fine root N litterfall to litter 2 N (gN/m2/s)
real(r8), pointer :: frootn_to_litr3n(:) ! fine root N litterfall to litter 3 N (gN/m2/s)
! litterfall fluxes for prognostic crop model
real(r8), pointer :: grainn_to_litr1n(:) ! grain N litterfall to litter 1 N (gN/m2/s)
real(r8), pointer :: grainn_to_litr2n(:) ! grain N litterfall to litter 2 N (gN/m2/s)
real(r8), pointer :: grainn_to_litr3n(:) ! grain N litterfall to litter 3 N (gN/m2/s)
! decomposition fluxes
real(r8), pointer :: cwdn_to_litr2n(:) ! decomp. of coarse woody debris N to litter 2 N (gN/m2/s)
real(r8), pointer :: cwdn_to_litr3n(:) ! decomp. of coarse woody debris N to litter 3 N (gN/m2/s)
real(r8), pointer :: litr1n_to_soil1n(:) ! decomp. of litter 1 N to SOM 1 N (gN/m2/s)
real(r8), pointer :: sminn_to_soil1n_l1(:) ! mineral N flux for decomp. of litter 1 to SOM 1 (gN/m2/s)
real(r8), pointer :: litr2n_to_soil2n(:) ! decomp. of litter 2 N to SOM 2 N (gN/m2/s)
real(r8), pointer :: sminn_to_soil2n_l2(:) ! mineral N flux for decomp. of litter 2 to SOM 2 (gN/m2/s)
real(r8), pointer :: litr3n_to_soil3n(:) ! decomp. of litter 3 N to SOM 3 N (gN/m2/s)
real(r8), pointer :: sminn_to_soil3n_l3(:) ! mineral N flux for decomp. of litter 3 to SOM 3 (gN/m2/s)
real(r8), pointer :: soil1n_to_soil2n(:) ! decomp. of SOM 1 N to SOM 2 N (gN/m2/s)
real(r8), pointer :: sminn_to_soil2n_s1(:) ! mineral N flux for decomp. of SOM 1 to SOM 2 (gN/m2/s)
real(r8), pointer :: soil2n_to_soil3n(:) ! decomp. of SOM 2 N to SOM 3 N (gN/m2/s)
real(r8), pointer :: sminn_to_soil3n_s2(:) ! mineral N flux for decomp. of SOM 2 to SOM 3 (gN/m2/s)
real(r8), pointer :: soil3n_to_soil4n(:) ! decomp. of SOM 3 N to SOM 4 N (gN/m2/s)
real(r8), pointer :: sminn_to_soil4n_s3(:) ! mineral N flux for decomp. of SOM 3 to SOM 4 (gN/m2/s)
real(r8), pointer :: soil4n_to_sminn(:) ! N mineralization for decomp. of SOM 4 (gN/m2/s)
! denitrification fluxes
real(r8), pointer :: sminn_to_denit_l1s1(:) ! denitrification for decomp. of litter 1 to SOM 1 (gN/m2/s)
real(r8), pointer :: sminn_to_denit_l2s2(:) ! denitrification for decomp. of litter 2 to SOM 2 (gN/m2/s)
real(r8), pointer :: sminn_to_denit_l3s3(:) ! denitrification for decomp. of litter 3 to SOM 3 (gN/m2/s)
real(r8), pointer :: sminn_to_denit_s1s2(:) ! denitrification for decomp. of SOM 1 to SOM 2 (gN/m2/s)
real(r8), pointer :: sminn_to_denit_s2s3(:) ! denitrification for decomp. of SOM 2 to SOM 3 (gN/m2/s)
real(r8), pointer :: sminn_to_denit_s3s4(:) ! denitrification for decomp. of SOM 3 to SOM 4 (gN/m2/s)
real(r8), pointer :: sminn_to_denit_s4(:) ! denitrification for decomp. of SOM 4 (gN/m2/s)
real(r8), pointer :: sminn_to_denit_excess(:) ! denitrification from excess mineral N pool (gN/m2/s)
! leaching fluxes
real(r8), pointer :: sminn_leached(:) ! soil mineral N pool loss to leaching (gN/m2/s)
! dynamic landcover fluxes
real(r8), pointer :: dwt_seedn_to_leaf(:) ! (gN/m2/s) seed source to PFT-level
real(r8), pointer :: dwt_seedn_to_deadstem(:) ! (gN/m2/s) seed source to PFT-level
real(r8), pointer :: dwt_conv_nflux(:) ! (gN/m2/s) conversion N flux (immediate loss to atm)
real(r8), pointer :: dwt_prod10n_gain(:) ! (gN/m2/s) addition to 10-yr wood product pool
real(r8), pointer :: dwt_prod100n_gain(:) ! (gN/m2/s) addition to 100-yr wood product pool
real(r8), pointer :: dwt_frootn_to_litr1n(:) ! (gN/m2/s) fine root to litter due to landcover change
real(r8), pointer :: dwt_frootn_to_litr2n(:) ! (gN/m2/s) fine root to litter due to landcover change
real(r8), pointer :: dwt_frootn_to_litr3n(:) ! (gN/m2/s) fine root to litter due to landcover change
real(r8), pointer :: dwt_livecrootn_to_cwdn(:) ! (gN/m2/s) live coarse root to CWD due to landcover change
real(r8), pointer :: dwt_deadcrootn_to_cwdn(:) ! (gN/m2/s) dead coarse root to CWD due to landcover change
real(r8), pointer :: dwt_nloss(:) ! (gN/m2/s) total nitrogen loss from product pools and conversion
! wood product pool loss fluxes
real(r8), pointer :: prod10n_loss(:) ! (gN/m2/s) decomposition loss from 10-yr wood product pool
real(r8), pointer :: prod100n_loss(:) ! (gN/m2/s) decomposition loss from 100-yr wood product pool
real(r8), pointer :: product_nloss(:) ! (gN/m2/s) total wood product nitrogen loss
! summary (diagnostic) flux variables, not involved in mass balance
real(r8), pointer :: potential_immob(:) ! potential N immobilization (gN/m2/s)
real(r8), pointer :: actual_immob(:) ! actual N immobilization (gN/m2/s)
real(r8), pointer :: sminn_to_plant(:) ! plant uptake of soil mineral N (gN/m2/s)
real(r8), pointer :: supplement_to_sminn(:) ! supplemental N supply (gN/m2/s)
real(r8), pointer :: gross_nmin(:) ! gross rate of N mineralization (gN/m2/s)
real(r8), pointer :: net_nmin(:) ! net rate of N mineralization (gN/m2/s)
real(r8), pointer :: denit(:) ! total rate of denitrification (gN/m2/s)
real(r8), pointer :: col_ninputs(:) ! column-level N inputs (gN/m2/s)
real(r8), pointer :: col_noutputs(:) ! column-level N outputs (gN/m2/s)
! new variables for fire
real(r8), pointer :: col_fire_nloss(:) ! total column-level fire N loss (gN/m2/s)
end type column_nflux_type
----------------------------------------------------
column VOC flux variables structure
----------------------------------------------------
type, public :: column_vflux_type
type(pft_vflux_type):: pvf_a !pft-level VOC flux variables averaged to the column
end type column_vflux_type
----------------------------------------------------
column dust flux variables structure
----------------------------------------------------
type, public :: column_dflux_type
type(pft_dflux_type):: pdf_a !pft-level dust flux variables averaged to the column
end type column_dflux_type
----------------------------------------------------
End definition of structures defined at the column_type level
----------------------------------------------------
*******************************************************************************
*******************************************************************************
----------------------------------------------------
Begin definition of structures defined at the landunit_type level
----------------------------------------------------
landunit physical state variables structure
note - landunit type can be vegetated (includes bare soil), deep lake,
shallow lake, wetland, glacier or urban
----------------------------------------------------
type, public :: landunit_pstate_type
type(column_pstate_type):: cps_a !column-level physical state variables averaged to landunit
! Urban variables
real(r8), pointer :: t_building(:) ! internal building temperature (K)
real(r8), pointer :: t_building_max(:) ! maximum internal building temperature (K)
real(r8), pointer :: t_building_min(:) ! minimum internal building temperature (K)
real(r8), pointer :: tk_wall(:,:) ! thermal conductivity of urban wall (W/m/K)
real(r8), pointer :: tk_roof(:,:) ! thermal conductivity of urban roof (W/m/K)
real(r8), pointer :: tk_improad(:,:) ! thermal conductivity of urban impervious road (W/m/K)
real(r8), pointer :: cv_wall(:,:) ! heat capacity of urban wall (J/m^3/K)
real(r8), pointer :: cv_roof(:,:) ! heat capacity of urban roof (J/m^3/K)
real(r8), pointer :: cv_improad(:,:) ! heat capacity of urban impervious road (J/m^3/K)
real(r8), pointer :: thick_wall(:) ! total thickness of urban wall (m)
real(r8), pointer :: thick_roof(:) ! total thickness of urban roof (m)
integer, pointer :: nlev_improad(:) ! number of impervious road layers (-)
real(r8), pointer :: vf_sr(:) ! view factor of sky for road
real(r8), pointer :: vf_wr(:) ! view factor of one wall for road
real(r8), pointer :: vf_sw(:) ! view factor of sky for one wall
real(r8), pointer :: vf_rw(:) ! view factor of road for one wall
real(r8), pointer :: vf_ww(:) ! view factor of opposing wall for one wall
real(r8), pointer :: taf(:) ! urban canopy air temperature (K)
real(r8), pointer :: qaf(:) ! urban canopy air specific humidity (kg/kg)
real(r8), pointer :: sabs_roof_dir(:,:) ! direct solar absorbed by roof per unit ground area per unit incident flux
real(r8), pointer :: sabs_roof_dif(:,:) ! diffuse solar absorbed by roof per unit ground area per unit incident flux
real(r8), pointer :: sabs_sunwall_dir(:,:) ! direct solar absorbed by sunwall per unit wall area per unit incident flux
real(r8), pointer :: sabs_sunwall_dif(:,:) ! diffuse solar absorbed by sunwall per unit wall area per unit incident flux
real(r8), pointer :: sabs_shadewall_dir(:,:) ! direct solar absorbed by shadewall per unit wall area per unit incident flux
real(r8), pointer :: sabs_shadewall_dif(:,:) ! diffuse solar absorbed by shadewall per unit wall area per unit incident flux
real(r8), pointer :: sabs_improad_dir(:,:) ! direct solar absorbed by impervious road per unit ground area per unit incident flux
real(r8), pointer :: sabs_improad_dif(:,:) ! diffuse solar absorbed by impervious road per unit ground area per unit incident flux
real(r8), pointer :: sabs_perroad_dir(:,:) ! direct solar absorbed by pervious road per unit ground area per unit incident flux
real(r8), pointer :: sabs_perroad_dif(:,:) ! diffuse solar absorbed by pervious road per unit ground area per unit incident flux
end type landunit_pstate_type
----------------------------------------------------
landunit energy state variables structure
----------------------------------------------------
type, public :: landunit_estate_type
type(column_estate_type):: ces_a !column-level energy state variables averaged to landunit
end type landunit_estate_type
----------------------------------------------------
landunit water state variables structure
----------------------------------------------------
type, public :: landunit_wstate_type
type(column_wstate_type):: cws_a !column-level water state variables averaged to landunit
end type landunit_wstate_type
----------------------------------------------------
landunit carbon state variables structure
----------------------------------------------------
type, public :: landunit_cstate_type
type(column_cstate_type):: ccs_a !column-level carbon state variables averaged to landunit
end type landunit_cstate_type
----------------------------------------------------
landunit nitrogen state variables structure
----------------------------------------------------
type, public :: landunit_nstate_type
type(column_nstate_type):: cns_a !column-level nitrogen state variables averaged to landunit
end type landunit_nstate_type
----------------------------------------------------
landunit VOC state variables structure
----------------------------------------------------
type, public :: landunit_vstate_type
real(r8):: dummy_entry
end type landunit_vstate_type
----------------------------------------------------
landunit DGVM state variables structure
----------------------------------------------------
type, public :: landunit_dgvstate_type
real(r8):: dummy_entry
end type landunit_dgvstate_type
----------------------------------------------------
landunit dust state variables structure
----------------------------------------------------
type, public :: landunit_dstate_type
type(column_dstate_type):: cds_a !column-level dust state variables averaged to landunit
end type landunit_dstate_type
----------------------------------------------------
landunit energy flux variables structure
----------------------------------------------------
type, public :: landunit_eflux_type
type(column_eflux_type):: cef_a ! column-level energy flux variables averaged to landunit
! Urban variables
real(r8), pointer :: eflx_traffic_factor(:) ! multiplicative traffic factor for sensible heat flux from urban traffic (-)
real(r8), pointer :: eflx_traffic(:) ! traffic sensible heat flux (W/m**2)
real(r8), pointer :: eflx_wasteheat(:) ! sensible heat flux from domestic heating/cooling sources of waste heat (W/m**2)
real(r8), pointer :: eflx_heat_from_ac(:) ! sensible heat flux to be put back into canyon due to removal by AC (W/m**2)
end type landunit_eflux_type
----------------------------------------------------
landunit momentum flux variables structure
----------------------------------------------------
type, public :: landunit_mflux_type
type(pft_mflux_type):: pmf_a !pft-level momentum flux variables averaged to landunit
end type landunit_mflux_type
----------------------------------------------------
landunit water flux variables structure
----------------------------------------------------
type, public :: landunit_wflux_type
type(column_wflux_type):: cwf_a !column-level water flux variables averaged to landunit
end type landunit_wflux_type
----------------------------------------------------
landunit carbon flux variables structure
----------------------------------------------------
type, public :: landunit_cflux_type
type(column_cflux_type):: ccf_a !column-level carbon flux variables averaged to landunit
end type landunit_cflux_type
----------------------------------------------------
landunit nitrogen flux variables structure
----------------------------------------------------
type, public :: landunit_nflux_type
type(column_nflux_type):: cnf_a !column-level nitrogen flux variables averaged to landunit
end type landunit_nflux_type
----------------------------------------------------
landunit VOC flux variables structure
----------------------------------------------------
type, public :: landunit_vflux_type
type(pft_vflux_type):: pvf_a !pft-level VOC flux variables averaged to landunit
end type landunit_vflux_type
----------------------------------------------------
landunit dust flux variables structure
----------------------------------------------------
type, public :: landunit_dflux_type
type(pft_dflux_type):: pdf_a !pft-level dust flux variables averaged to landunit
end type landunit_dflux_type
----------------------------------------------------
End definition of structures defined at the landunit_type level
----------------------------------------------------
*******************************************************************************
*******************************************************************************
----------------------------------------------------
Begin definition of structures defined at the gridcell_type level
----------------------------------------------------
gridcell physical state variables structure
----------------------------------------------------
type, public :: gridcell_pstate_type
type(column_pstate_type):: cps_a !column-level physical state variables averaged to gridcell
end type gridcell_pstate_type
----------------------------------------------------
gridcell energy state variables structure
----------------------------------------------------
type, public :: gridcell_estate_type
type(column_estate_type):: ces_a !column-level energy state variables averaged to gridcell
real(r8), pointer :: gc_heat1(:) ! initial gridcell total heat content
real(r8), pointer :: gc_heat2(:) ! post land cover change total heat content
end type gridcell_estate_type
----------------------------------------------------
gridcell water state variables structure
----------------------------------------------------
type, public :: gridcell_wstate_type
type(column_wstate_type):: cws_a !column-level water state variables averaged to gridcell
real(r8), pointer :: gc_liq1(:) ! initial gridcell total h2o liq content
real(r8), pointer :: gc_liq2(:) ! post land cover change total liq content
real(r8), pointer :: gc_ice1(:) ! initial gridcell total h2o liq content
real(r8), pointer :: gc_ice2(:) ! post land cover change total ice content
end type gridcell_wstate_type
----------------------------------------------------
gridcell carbon state variables structure
----------------------------------------------------
type, public :: gridcell_cstate_type
type(column_cstate_type):: ccs_a !column-level carbon state variables averaged to gridcell
end type gridcell_cstate_type
----------------------------------------------------
gridcell nitrogen state variables structure
----------------------------------------------------
type, public :: gridcell_nstate_type
type(column_nstate_type):: cns_a !column-level nitrogen state variables averaged to gridcell
end type gridcell_nstate_type
----------------------------------------------------
gridcell VOC state variables structure
----------------------------------------------------
type, public :: gridcell_vstate_type
type(column_vstate_type):: cvs_a !column-level VOC state variables averaged to gridcell
end type gridcell_vstate_type
----------------------------------------------------
gridcell VOC emission factor variables structure (heald)
----------------------------------------------------
type, public :: gridcell_efstate_type
real(r8), pointer :: efisop(:,:) ! isoprene emission factors
end type gridcell_efstate_type
----------------------------------------------------
gridcell dust state variables structure
----------------------------------------------------
type, public :: gridcell_dstate_type
type(column_dstate_type):: cds_a !column-level dust state variables averaged to gridcell
end type gridcell_dstate_type
#if (defined CNDV)
----------------------------------------------------
gridcell DGVM state variables structure
----------------------------------------------------
type, public :: gridcell_dgvstate_type
real(r8), pointer :: agdd20(:) !20-yr running mean of agdd
real(r8), pointer :: tmomin20(:) !20-yr running mean of tmomin
real(r8), pointer :: t10min(:) !ann minimum of 10-day running mean (K)
end type gridcell_dgvstate_type
#endif
----------------------------------------------------
gridcell energy flux variables structure
----------------------------------------------------
type, public :: gridcell_eflux_type
type(column_eflux_type):: cef_a !column-level energy flux variables averaged to gridcell
real(r8), pointer :: eflx_sh_totg(:) ! total grid-level sensible heat flux
real(r8), pointer :: eflx_dynbal(:) ! dynamic land cover change conversion energy flux
end type gridcell_eflux_type
----------------------------------------------------
gridcell momentum flux variables structure
-- -------------------------------------------------
type, public :: gridcell_mflux_type
type(pft_mflux_type):: pmf_a !pft-level momentum flux variables averaged to gridcell
end type gridcell_mflux_type
----------------------------------------------------
gridcell water flux variables structure
----------------------------------------------------
type, public :: gridcell_wflux_type
type(column_wflux_type):: cwf_a !column-level water flux variables averaged to gridcell
real(r8), pointer :: qflx_runoffg(:) ! total grid-level liq runoff
real(r8), pointer :: qflx_snwcp_iceg(:) ! total grid-level ice runoff
real(r8), pointer :: qflx_liq_dynbal(:) ! liq dynamic land cover change conversion runoff flux
real(r8), pointer :: qflx_ice_dynbal(:) ! ice dynamic land cover change conversion runoff flux
end type gridcell_wflux_type
----------------------------------------------------
gridcell carbon flux variables structure
----------------------------------------------------
type, public :: gridcell_cflux_type
type(column_cflux_type):: ccf_a !column-level carbon flux variables averaged to gridcell
end type gridcell_cflux_type
----------------------------------------------------
gridcell nitrogen flux variables structure
----------------------------------------------------
type, public :: gridcell_nflux_type
type(column_nflux_type):: cnf_a !column-level nitrogen flux variables averaged to gridcell
end type gridcell_nflux_type
----------------------------------------------------
gridcell VOC flux variables structure
----------------------------------------------------
type, public :: gridcell_vflux_type
type(pft_vflux_type):: pvf_a !pft-level VOC flux variables averaged to gridcell
end type gridcell_vflux_type
----------------------------------------------------
gridcell dust flux variables structure
----------------------------------------------------
type, public :: gridcell_dflux_type
type(pft_dflux_type):: pdf_a !pft-level dust flux variables averaged to gridcell
end type gridcell_dflux_type
----------------------------------------------------
End definition of structures defined at the gridcell_type level
----------------------------------------------------
*******************************************************************************
*******************************************************************************
----------------------------------------------------
Begin definition of structures defined at the CLM level
----------------------------------------------------
CLM physical state variables structure
----------------------------------------------------
type, public :: model_pstate_type
type(column_pstate_type) :: cps_a !column-level physical state variables globally averaged
end type model_pstate_type
----------------------------------------------------
CLM energy state variables structure
----------------------------------------------------
type, public :: model_estate_type
type(column_estate_type):: ces_a !column-level energy state variables globally averaged
end type model_estate_type
----------------------------------------------------
CLM water state variables structure
----------------------------------------------------
type, public :: model_wstate_type
type(column_wstate_type):: cws_a !column-level water state variables globally averaged
end type model_wstate_type
----------------------------------------------------
CLM carbon state variables structure
----------------------------------------------------
type, public :: model_cstate_type
type(column_cstate_type):: ccs_a !column-level carbon state variables globally averaged
end type model_cstate_type
----------------------------------------------------
CLM nitrogen state variables structure
----------------------------------------------------
type, public :: model_nstate_type
type(column_nstate_type):: cns_a !column-level nitrogen state variables globally averaged
end type model_nstate_type
----------------------------------------------------
CLM VOC state variables structure
----------------------------------------------------
type, public :: model_vstate_type
type(column_vstate_type):: cvs_a !column-level VOC state variables globally averaged
end type model_vstate_type
----------------------------------------------------
CLM dust state variables structure
----------------------------------------------------
type, public :: model_dstate_type
type(column_dstate_type):: cds_a !column-level dust state variables globally averaged
end type model_dstate_type
----------------------------------------------------
CLM energy flux variables structure
----------------------------------------------------
type, public :: model_eflux_type
type(column_eflux_type):: cef_a !column-level energy flux variables globally averaged
end type model_eflux_type
----------------------------------------------------
CLM momentum flux variables structure
----------------------------------------------------
type, public :: model_mflux_type
type(pft_mflux_type):: pmf_a !pft-level momentum flux variables globally averaged
end type model_mflux_type
----------------------------------------------------
CLM water flux variables structure
----------------------------------------------------
type, public :: model_wflux_type
type(column_wflux_type):: cwf_a !column-level water flux variables globally averaged
end type model_wflux_type
----------------------------------------------------
CLM carbon flux variables structure
----------------------------------------------------
type, public :: model_cflux_type
type(column_cflux_type):: ccf_a !column-level carbon flux variables globally averaged
end type model_cflux_type
----------------------------------------------------
CLM nitrogen flux variables structure
----------------------------------------------------
type, public :: model_nflux_type
type(column_nflux_type):: cnf_a !column-level nitrogen flux variables globally averaged
end type model_nflux_type
----------------------------------------------------
CLM VOC flux variables structure
----------------------------------------------------
type, public :: model_vflux_type
type(pft_vflux_type):: pvf_a !pft-level VOC flux variables globally averaged
end type model_vflux_type
----------------------------------------------------
CLM dust flux variables structure
----------------------------------------------------
type, public :: model_dflux_type
type(pft_dflux_type):: pdf_a !pft-level dust flux variables globally averaged
end type model_dflux_type
----------------------------------------------------
End definition of structures defined at the model_type level
----------------------------------------------------
*******************************************************************************
----------------------------------------------------
Begin definition of spatial scaling hierarchy
----------------------------------------------------
----------------------------------------------------
define the pft structure
----------------------------------------------------
type, public :: pft_type
! g/l/c/p hierarchy, local g/l/c/p cells only
integer, pointer :: column(:) !index into column level quantities
real(r8), pointer :: wtcol(:) !weight (relative to column)
integer, pointer :: landunit(:) !index into landunit level quantities
real(r8), pointer :: wtlunit(:) !weight (relative to landunit)
integer, pointer :: gridcell(:) !index into gridcell level quantities
real(r8), pointer :: wtgcell(:) !weight (relative to gridcell)
! topological mapping functionality
integer , pointer :: itype(:) !pft vegetation
integer , pointer :: mxy(:) !m index for laixy(i,j,m),etc.
! conservation check structures for the pft level
type(energy_balance_type) :: pebal !energy balance structure
type(water_balance_type) :: pwbal !water balance structure
type(carbon_balance_type) :: pcbal !carbon balance structure
type(nitrogen_balance_type) :: pnbal !nitrogen balance structure
#if (defined CNDV)
! DGVM state variables
type(pft_dgvstate_type) :: pdgvs !pft DGVM state variables
#endif
! CN ecophysiological variables
type(pft_epv_type) :: pepv !pft ecophysiological variables
! state variables defined at the pft level
type(pft_pstate_type) :: pps !physical state variables
type(pft_estate_type) :: pes !pft energy state
type(pft_wstate_type) :: pws !pft water state
type(pft_cstate_type) :: pcs !pft carbon state
type(pft_nstate_type) :: pns !pft nitrogen state
type(pft_vstate_type) :: pvs !pft VOC state
! flux variables defined at the pft level
type(pft_eflux_type) :: pef !pft energy flux
type(pft_mflux_type) :: pmf !pft momentum flux
type(pft_wflux_type) :: pwf !pft water flux
type(pft_cflux_type) :: pcf !pft carbon flux
type(pft_nflux_type) :: pnf !pft nitrogen flux
type(pft_vflux_type) :: pvf !pft VOC flux
type(pft_dflux_type) :: pdf !pft dust flux
type(pft_depvd_type) :: pdd !dry dep velocity
#if (defined C13)
type(pft_cstate_type) :: pc13s !pft carbon-13 state
type(pft_cflux_type) :: pc13f !pft carbon-13 flux
#endif
end type pft_type
----------------------------------------------------
define the column structure
----------------------------------------------------
type, public :: column_type
type(pft_type) :: p !plant functional type (pft) data structure
! g/l/c/p hierarchy, local g/l/c/p cells only
integer , pointer :: landunit(:) !index into landunit level quantities
real(r8), pointer :: wtlunit(:) !weight (relative to landunit)
integer , pointer :: gridcell(:) !index into gridcell level quantities
real(r8), pointer :: wtgcell(:) !weight (relative to gridcell)
integer , pointer :: pfti(:) !beginning pft index for each column
integer , pointer :: pftf(:) !ending pft index for each column
integer , pointer :: npfts(:) !number of pfts for each column
! topological mapping functionality
integer , pointer :: itype(:) !column type
! conservation check structures for the column level
type(energy_balance_type) :: cebal !energy balance structure
type(water_balance_type) :: cwbal !water balance structure
type(carbon_balance_type) :: ccbal !carbon balance structure
type(nitrogen_balance_type) :: cnbal !nitrogen balance structure
! state variables defined at the column level
type(column_pstate_type) :: cps !column physical state variables
type(column_estate_type) :: ces !column energy state
type(column_wstate_type) :: cws !column water state
type(column_cstate_type) :: ccs !column carbon state
type(column_nstate_type) :: cns !column nitrogen state
type(column_dstate_type) :: cds !column dust state
! flux variables defined at the column level
type(column_eflux_type) :: cef !column energy flux
type(column_mflux_type) :: cmf !column momentum flux
type(column_wflux_type) :: cwf !column water flux
type(column_cflux_type) :: ccf !column carbon flux
type(column_nflux_type) :: cnf !column nitrogen flux
type(column_vflux_type) :: cvf !column VOC flux
type(column_dflux_type) :: cdf !column dust flux
#if (defined CNDV)
! dgvm variables defined at the column level
type (column_dgvstate_type) :: cdgvs !column DGVM structure
#endif
#if (defined C13)
type(column_cstate_type) :: cc13s !column carbon-13 state
type(column_cflux_type) :: cc13f !column carbon-13 flux
#endif
end type column_type
----------------------------------------------------
define the geomorphological land unit structure
----------------------------------------------------
type, public :: landunit_type
type(column_type) :: c !column data structure (soil/snow/canopy columns)
! g/l/c/p hierarchy, local g/l/c/p cells only
integer , pointer :: gridcell(:) !index into gridcell level quantities
real(r8), pointer :: wtgcell(:) !weight (relative to gridcell)
integer , pointer :: coli(:) !beginning column index per landunit
integer , pointer :: colf(:) !ending column index for each landunit
integer , pointer :: ncolumns(:) !number of columns for each landunit
integer , pointer :: pfti(:) !beginning pft index for each landunit
integer , pointer :: pftf(:) !ending pft index for each landunit
integer , pointer :: npfts(:) !number of pfts for each landunit
! Urban canyon related properties
real(r8), pointer :: canyon_hwr(:) ! urban landunit canyon height to width ratio (-)
real(r8), pointer :: wtroad_perv(:) ! urban landunit weight of pervious road column to total road (-)
real(r8), pointer :: wtlunit_roof(:) ! weight of roof with respect to urban landunit (-)
! Urban related info MV - this should be moved to land physical state - MV
real(r8), pointer :: ht_roof(:) ! height of urban roof (m)
real(r8), pointer :: wind_hgt_canyon(:)! height above road at which wind in canyon is to be computed (m)
real(r8), pointer :: z_0_town(:) ! urban landunit momentum roughness length (m)
real(r8), pointer :: z_d_town(:) ! urban landunit displacement height (m)
! topological mapping functionality
integer , pointer :: itype(:) !landunit type
logical , pointer :: ifspecial(:) !BOOL: true=>landunit is not vegetated
logical , pointer :: lakpoi(:) !BOOL: true=>lake point
logical , pointer :: urbpoi(:) !BOOL: true=>urban point
logical , pointer :: glcmecpoi(:) !BOOL: true=>glacier_mec point
! conservation check structures for the landunit level
type(energy_balance_type) :: lebal !energy balance structure
type(water_balance_type) :: lwbal !water balance structure
type(carbon_balance_type) :: lcbal !carbon balance structure
type(nitrogen_balance_type) :: lnbal !nitrogen balance structure
! state variables defined at the land unit level
type(landunit_pstate_type) :: lps !land unit physical state variables
type(landunit_estate_type) :: les !average of energy states all columns
type(landunit_wstate_type) :: lws !average of water states all columns
type(landunit_cstate_type) :: lcs !average of carbon states all columns
type(landunit_nstate_type) :: lns !average of nitrogen states all columns
type(landunit_vstate_type) :: lvs !average of VOC states all columns
type(landunit_dstate_type) :: lds !average of dust states all columns
! flux variables defined at the landunit level
type(landunit_eflux_type) :: lef !average of energy fluxes all columns
type(landunit_mflux_type) :: lmf !average of momentum fluxes all columns
type(landunit_wflux_type) :: lwf !average of water fluxes all columns
type(landunit_cflux_type) :: lcf !average of carbon fluxes all columns
type(landunit_nflux_type) :: lnf !average of nitrogen fluxes all columns
type(landunit_vflux_type) :: lvf !average of VOC fluxes all columns
type(landunit_dflux_type) :: ldf !average of dust fluxes all columns
end type landunit_type
----------------------------------------------------
define the gridcell structure
----------------------------------------------------
type, public :: gridcell_type
type(landunit_type) :: l !geomorphological landunits
! g/l/c/p hierarchy, local g/l/c/p cells only
integer, pointer :: luni(:) !beginning landunit index
integer, pointer :: lunf(:) !ending landunit index
integer, pointer :: nlandunits(:) !number of landunit for each gridcell
integer, pointer :: coli(:) !beginning column index
integer, pointer :: colf(:) !ending column index
integer, pointer :: ncolumns(:) !number of columns for each gridcell
integer, pointer :: pfti(:) !beginning pft index
integer, pointer :: pftf(:) !ending pft index
integer, pointer :: npfts(:) !number of pfts for each gridcell
! topological mapping functionality, local 1d gdc arrays
integer , pointer :: gindex(:) !global index
real(r8), pointer :: area(:) !total land area, gridcell (km^2)
real(r8), pointer :: lat(:) !latitude (radians)
real(r8), pointer :: lon(:) !longitude (radians)
real(r8), pointer :: latdeg(:) !latitude (degrees)
real(r8), pointer :: londeg(:) !longitude (degrees)
integer , pointer :: gindex_a(:) !"atm" global index
real(r8), pointer :: lat_a(:) !"atm" latitude (radians) for albedo
real(r8), pointer :: lon_a(:) !"atm" longitude (radians) for albedo
real(r8), pointer :: latdeg_a(:) !"atm" latitude (degrees) for albedo
real(r8), pointer :: londeg_a(:) !"atm" longitude (degrees) for albedo
real(r8), pointer :: gris_mask(:) !Greenland ice sheet mask
real(r8), pointer :: gris_area(:) !Greenland ice-covered area per gridcell (km^2)
real(r8), pointer :: aais_mask(:) !Antarctic ice sheet mask
real(r8), pointer :: aais_area(:) !Antarctic ice-covered area per gridcell (km^2)
! conservation check structures for the gridcell level
type(energy_balance_type) :: gebal !energy balance structure
type(water_balance_type) :: gwbal !water balance structure
type(carbon_balance_type) :: gcbal !carbon balance structure
type(nitrogen_balance_type) :: gnbal !nitrogen balance structure
#if (defined CNDV)
! dgvm variables defined at the gridcell level
type(gridcell_dgvstate_type):: gdgvs !gridcell DGVM structure
#endif
! state variables defined at the gridcell level
type(gridcell_pstate_type) :: gps !gridcell physical state variables
type(gridcell_estate_type) :: ges !average of energy states all landunits
type(gridcell_wstate_type) :: gws !average of water states all landunits
type(gridcell_cstate_type) :: gcs !average of carbon states all landunits
type(gridcell_nstate_type) :: gns !average of nitrogen states all landus
type(gridcell_vstate_type) :: gvs !average of VOC states all landunits
type(gridcell_efstate_type):: gve !gridcell VOC emission factors
type(gridcell_dstate_type) :: gds !average of dust states all landunits
! flux variables defined at the gridcell level
type(gridcell_eflux_type) :: gef !average of energy fluxes all landunits
type(gridcell_wflux_type) :: gwf !average of water fluxes all landunits
type(gridcell_cflux_type) :: gcf !average of carbon fluxes all landunits
type(gridcell_nflux_type) :: gnf !average of nitrogen fluxes all landus
type(gridcell_vflux_type) :: gvf !average of VOC fluxes all landunits
type(gridcell_dflux_type) :: gdf !average of dust fluxes all landunits
end type gridcell_type
----------------------------------------------------
define the top-level (model) structure
----------------------------------------------------
type, public :: model_type
! lower level in hierarch
type(gridcell_type) :: g !gridicell data structure
integer :: ngridcells !number of gridcells for this process
real(r8) :: area !total land area for all gridcells (km^2)
! conservation check structures for the clm (global) level
type(energy_balance_type) :: mebal !energy balance structure
type(water_balance_type) :: mwbal !water balance structure
type(carbon_balance_type) :: mcbal !carbon balnace structure
type(nitrogen_balance_type) :: mnbal !nitrogen balance structure
! globally average state variables
type(model_pstate_type) :: mps !clm physical state variables
type(model_estate_type) :: mes !average of energy states all gridcells
type(model_wstate_type) :: mws !average of water states all gridcells
type(model_cstate_type) :: mcs !average of carbon states all gridcells
type(model_nstate_type) :: mns !average of nitrogen states all gcells
type(model_vstate_type) :: mvs !average of VOC states all gridcells
type(model_dstate_type) :: mds !average of dust states all gridcells
! globally averaged flux variables
type(model_eflux_type) :: mef !average of energy fluxes all gridcells
type(model_wflux_type) :: mwf !average of water fluxes all gridcells
type(model_cflux_type) :: mcf !average of carbon fluxes all gridcells
type(model_nflux_type) :: mnf !average of nitrogen fluxes all gcells
type(model_vflux_type) :: mvf !average of VOC fluxes all gridcells
type(model_dflux_type) :: mdf !average of dust fluxes all gridcells
end type model_type
----------------------------------------------------
End definition of spatial scaling hierarchy
----------------------------------------------------
*******************************************************************************
*******************************************************************************
----------------------------------------------------
Declare single instance of clmtype
----------------------------------------------------
type(model_type) , public, target , save :: clm3
----------------------------------------------------
Declare single instance of array of ecophysiological constant types
----------------------------------------------------
type(pft_epc_type), public, target, save :: pftcon
#if (defined CNDV)
----------------------------------------------------
Declare single instance of array of dgvm ecophysiological constant types
----------------------------------------------------
type(pft_dgvepc_type), public, target, save :: dgv_pftcon
#endif
character(len=8), parameter, public :: gratm = 'atmgrid' ! name of atmgrid
character(len=8), parameter, public :: grlnd = 'lndgrid' ! name of lndgrid
character(len=8), parameter, public :: nameg = 'gridcell' ! name of gridcells
character(len=8), parameter, public :: namel = 'landunit' ! name of landunits
character(len=8), parameter, public :: namec = 'column' ! name of columns
character(len=8), parameter, public :: namep = 'pft' ! name of pfts
character(len=8), parameter, public :: allrof = 'allrof' ! name of rtm, runoff