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getLandTypes.F90
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!------------------------------------------------------------------------------
!BOP
!
! !ROUTINE: getLandTypes.F90
!
! !DESCRIPTION: Subroutine getLandTypes converts the land types and leaf
! area indices from the land model to the LandTypeFrac and XLAI_NATIVE
! arrays in GEOS-Chem.
!
! !INTERFACE:
!
SUBROUTINE getLandTypes( cam_in, nY, State_Met )
!
! !USES:
!
USE camsrfexch, ONLY : cam_in_t
USE State_Met_Mod, ONLY : MetState
USE seq_drydep_mod, ONLY : NPatch
USE shr_kind_mod, ONLY : r8 => shr_kind_r8
USE PRECISION_MOD, ONLY : fp, f4 ! Flexible precision
USE CMN_SIZE_Mod, ONLY : NSURFTYPE
USE cam_abortutils, ONLY : endrun
IMPLICIT NONE
!
! !INPUT PARAMETERS:
!
TYPE(cam_in_t), INTENT(IN ) :: cam_in ! CAM
INTEGER, INTENT(IN ) :: nY ! Number of grid cells on chunk
!
! !INPUT/OUTPUT PARAMETERS:
!
TYPE(MetState), INTENT(INOUT) :: State_Met
!
! !REVISION HISTORY:
! 8 May 2020 - Thibaud M. Fritz - Initial version
!EOP
!------------------------------------------------------------------------------
!BOC
!
! !LOCAL VARIABLES:
!
INTEGER :: J, T
REAL(r8) :: waterFrac, landFrac
#if defined( CLM40 )
! Mapping for CLM4.0
! -----------------------------------|--------------------------------------
! Olson land type | CLM land type
! -----------------------------------|--------------------------------------
! Inland/sea water (ID = 1) | Ocean fraction
! | Deeplake & Shallowlake (LUID =3/4)
! Urban (ID = 2) | Urban - Not Applied (LUID = 6)
! Low Sparse Grassland (ID = 3) |
! Coniferous Forest (ID = 4) |
! Deciduous Conifer Forest (ID = 5) | Needleleaf Deciduous Bor. (PAID = 3)
! Deciduous Broadleaf For. (ID = 6) |
! Evergreen Broadleaf For. (ID = 7) | Broadleaf Evergreen Temp. (PAID = 5)
! Tall Grasses and Shrubs (ID = 8) |
! Bare Desert (ID = 9) | Not veg. \ Ice (PAID = 0\LUID = 2)
! Upland Tundra (ID = 10) | Broadleaf Deciduous Bore. (PAID = 11)
! Irrigated Grassland (ID = 11) |
! Semi Desert (ID = 12) |
! Glacier ice (ID = 13) | Land ice (LUID = 2)
! Wooded Wet Swamp (ID = 14) |
! - (ID = 15) |
! - (ID = 16) |
! Shrub Evergreen (ID = 17) | Broadleaf Evergreen Shru. (PAID = 9)
! - (ID = 18) |
! Shrub Deciduous (ID = 19) |
! Evergreen Forest and Fi. (ID = 20) |
! Cool Rain Forest (ID = 21) |
! Conifer Boreal Forest (ID = 22) | Needleleaf Evergreen Bor. (PAID = 2)
! Cool Conifer Forest (ID = 23) |
! Cool Mixed Forest (ID = 24) | Broadleaf Deciduous Bore. (PAID = 8)
! Mixed Forest (ID = 25) |
! Cool Broadleaf Forest (ID = 26) | Broadleaf Deciduous Temp. (PAID = 7)
! Deciduous Broadleaf For. (ID = 27) |
! Conifer Forest (ID = 28) | Needleleaf Evergreen Tem. (PAID = 1)
! Montane Tropical Forests (ID = 29) |
! Seasonal Tropical Fores. (ID = 30) |
! Cool Crops and Towns (ID = 31) | Winter Temp. Cereal (PAID = 19)
! Crops and Town (ID = 32) | C3 Crop (PAID = 15)
! | C3 Irrigated (PAID = 16)
! | Spring Temp. Cereal (PAID = 18)
! Dry Tropical Woods (ID = 33) |
! Tropical Rainforest (ID = 34) | Broadleaf Evergreen Trop. (PAID = 4)
! Tropical Degraded Forest (ID = 35) |
! Corn and Beans Cropland (ID = 36) | Corn (PAID = 17)
! | Soybean (PAID = 20)
! Rice Paddy and Field (ID = 37) |
! Hot Irrigated Cropland (ID = 38) |
! Cool Irrigated Cropland (ID = 39) |
! - (ID = 40) |
! Cool Grasses and Shrubs (ID = 41) |
! Hot and Mild Grasses and (ID = 42) | C3 Non-Arctic Grass (PAID = 13)
! Cold Grassland (ID = 43) | C3 Arctic Grass (PAID = 12)
! Savanna (Woods) (ID = 44) | Broadleaf Deciduous Trop. (PAID = 6)
! | C4 Grass (PAID = 14)
! Mire, Bog, Fen (ID = 45) | Wetland - Not Applied (LUID = 5)
! Marsh Wetland (ID = 46) |
! Mediterranean Scrub (ID = 47) |
! Dry Woody Scrub (ID = 48) | Broadleaf Deciduous Temp. (PAID = 10)
! - (ID = 49) |
! - (ID = 50) |
! - (ID = 51) |
! Semi Desert Shrubs (ID = 52) |
! Semi Desert Sage (ID = 53) |
! Barren Tundra (ID = 54) |
! Cool Southern Hemisphere (ID = 55) |
! Cool Fields and Woods (ID = 56) |
! Forest and Field (ID = 57) |
! Cool Forest and Field (ID = 58) |
! Fields and Woody Savanna (ID = 59) |
! Succulent and Thorn Scr. (ID = 60) |
! Small Leaf Mixed Woods (ID = 61) |
! Deciduous and Mixed Bor. (ID = 62) |
! Narrow Conifers (ID = 63) |
! Wooded Tundra (ID = 64) |
! Heath Scrub (ID = 65) |
! - (ID = 66) |
! - (ID = 67) |
! - (ID = 68) |
! - (ID = 69) |
! Polar and Alpine Desert (ID = 70) |
! - (ID = 71) |
! - (ID = 72) |
! Mangrove (ID = 73) |
!==================================================================
! The urban and wetland land unit types seem to be already
! accounted for in patches, as it introduces total land fractions
! (summed over all types) greater than 100%.
! Thibaud M. Fritz - 06 May 2020
!==================================================================
DO J = 1, nY
waterFrac = cam_in%ocnFrac(J) + cam_in%iceFrac(J) &
+ cam_in%lwtgcell(J,3) + cam_in%lwtgcell(J,4)
landFrac = 1.0e+0_fp - waterFrac
! Initialize fraction land for this grid cell
State_Met%LandTypeFrac(1,J, 1) = waterFrac
!State_Met%LandTypeFrac(1,J, 2) = cam_in%lwtgcell(J, 6)
State_Met%LandTypeFrac(1,J, 5) = cam_in%pwtgcell(J, 4)
State_Met%LandTypeFrac(1,J, 7) = cam_in%pwtgcell(J, 6)
State_Met%LandTypeFrac(1,J, 9) = cam_in%pwtgcell(J, 1) &
- cam_in%lwtgcell(J, 2)
State_Met%LandTypeFrac(1,J,10) = cam_in%pwtgcell(J,12)
State_Met%LandTypeFrac(1,J,13) = cam_in%lwtgcell(J, 2)
State_Met%LandTypeFrac(1,J,17) = cam_in%pwtgcell(J,10)
State_Met%LandTypeFrac(1,J,22) = cam_in%pwtgcell(J, 3)
State_Met%LandTypeFrac(1,J,24) = cam_in%pwtgcell(J, 9)
State_Met%LandTypeFrac(1,J,26) = cam_in%pwtgcell(J, 8)
State_Met%LandTypeFrac(1,J,28) = cam_in%pwtgcell(J, 2)
State_Met%LandTypeFrac(1,J,31) = cam_in%pwtgcell(J,20)
State_Met%LandTypeFrac(1,J,32) = cam_in%pwtgcell(J,16) &
+ cam_in%pwtgcell(J,17) &
+ cam_in%pwtgcell(J,19)
State_Met%LandTypeFrac(1,J,34) = cam_in%pwtgcell(J, 5)
State_Met%LandTypeFrac(1,J,36) = cam_in%pwtgcell(J,18) &
+ cam_in%pwtgcell(J,21)
State_Met%LandTypeFrac(1,J,42) = cam_in%pwtgcell(J,14)
State_Met%LandTypeFrac(1,J,43) = cam_in%pwtgcell(J,13)
State_Met%LandTypeFrac(1,J,44) = cam_in%pwtgcell(J, 7) &
+ cam_in%pwtgcell(J,15)
!State_Met%LandTypeFrac(1,J,45) = cam_in%lwtgcell(J, 5)
State_Met%LandTypeFrac(1,J,48) = cam_in%pwtgcell(J,11)
State_Met%XLAI_NATIVE(1,J, 5) = cam_in%lai(J, 4)
State_Met%XLAI_NATIVE(1,J, 7) = cam_in%lai(J, 6)
State_Met%XLAI_NATIVE(1,J,10) = cam_in%lai(J,12)
State_Met%XLAI_NATIVE(1,J,17) = cam_in%lai(J,10)
State_Met%XLAI_NATIVE(1,J,22) = cam_in%lai(J, 3)
State_Met%XLAI_NATIVE(1,J,24) = cam_in%lai(J, 9)
State_Met%XLAI_NATIVE(1,J,26) = cam_in%lai(J, 8)
State_Met%XLAI_NATIVE(1,J,28) = cam_in%lai(J, 2)
State_Met%XLAI_NATIVE(1,J,31) = cam_in%lai(J,20)
State_Met%XLAI_NATIVE(1,J,32) = cam_in%lai(J,16) &
+ cam_in%lai(J,17) &
+ cam_in%lai(J,19)
State_Met%XLAI_NATIVE(1,J,34) = cam_in%lai(J, 5)
State_Met%XLAI_NATIVE(1,J,36) = cam_in%lai(J,18) &
+ cam_in%lai(J,21)
State_Met%XLAI_NATIVE(1,J,42) = cam_in%lai(J,14)
State_Met%XLAI_NATIVE(1,J,43) = cam_in%lai(J,13)
State_Met%XLAI_NATIVE(1,J,44) = cam_in%lai(J, 7) &
+ cam_in%lai(J,15)
State_Met%XLAI_NATIVE(1,J,48) = cam_in%lai(J,11)
DO T = 2, NSURFTYPE
State_Met%LandTypeFrac(1,J,T) = &
State_Met%LandTypeFrac(1,J,T) * landFrac
State_Met%XLAI_NATIVE(1,J,T) = &
State_Met%XLAI_NATIVE(1,J,T) * landFrac
! Make sure that the land type fractions do not exceed 1
IF ( State_Met%LandTypeFrac(1,J,T) > 1.0e+0_fp ) THEN
State_Met%LandTypeFrac(1,J,T) = 1.0e+0_fp
ELSEIF ( State_Met%LandTypeFrac(1,J,T) < 0.0e+0_fp ) THEN
State_Met%LandTypeFrac(1,J,T) = 0.0e+0_fp
ENDIF
ENDDO
ENDDO
#elif defined( CLM45 ) || defined( CLM50 )
! Mapping for CLM4.5/CLM5.0
! -----------------------------------|--------------------------------------
! Olson land type | CLM land type
! -----------------------------------|--------------------------------------
! Inland/sea water (ID = 1) | Ocean fraction
! | Deeplake (LUID = 5)
! Urban (ID = 2) | Urban - Not Applied (LUID =7-9)
! Low Sparse Grassland (ID = 3) |
! Coniferous Forest (ID = 4) |
! Deciduous Conifer Forest (ID = 5) | Needleleaf Deciduous Bor. (PAID = 3)
! Deciduous Broadleaf For. (ID = 6) |
! Evergreen Broadleaf For. (ID = 7) | Broadleaf Evergreen Temp. (PAID = 5)
! Tall Grasses and Shrubs (ID = 8) |
! Bare Desert (ID = 9) | Not veg. \ Ice (PAID = 0\LUID = 4)
! Upland Tundra (ID = 10) | Broadleaf Deciduous Bore. (PAID = 11)
! Irrigated Grassland (ID = 11) |
! Semi Desert (ID = 12) |
! Glacier ice (ID = 13) | Land ice (LUID = 4)
! Wooded Wet Swamp (ID = 14) |
! - (ID = 15) |
! - (ID = 16) |
! Shrub Evergreen (ID = 17) | Broadleaf Evergreen Shru. (PAID = 9)
! - (ID = 18) |
! Shrub Deciduous (ID = 19) |
! Evergreen Forest and Fi. (ID = 20) |
! Cool Rain Forest (ID = 21) |
! Conifer Boreal Forest (ID = 22) | Needleleaf Evergreen Bor. (PAID = 2)
! Cool Conifer Forest (ID = 23) |
! Cool Mixed Forest (ID = 24) | Broadleaf Deciduous Bore. (PAID = 8)
! Mixed Forest (ID = 25) |
! Cool Broadleaf Forest (ID = 26) | Broadleaf Deciduous Temp. (PAID = 7)
! Deciduous Broadleaf For. (ID = 27) |
! Conifer Forest (ID = 28) | Needleleaf Evergreen Tem. (PAID = 1)
! Montane Tropical Forests (ID = 29) |
! Seasonal Tropical Fores. (ID = 30) |
! Cool Crops and Towns (ID = 31) |
! Crops and Town (ID = 32) | C3 Crop (PAID = 15)
! | C3 Irrigated (PAID = 16)
! Dry Tropical Woods (ID = 33) |
! Tropical Rainforest (ID = 34) | Broadleaf Evergreen Trop. (PAID = 4)
! Tropical Degraded Forest (ID = 35) |
! Corn and Beans Cropland (ID = 36) | Corn (PAID = 17)
! | Irrigated Temperate Corn (PAID = 18)
! | Spring Wheat (PAID = 19)
! | Irrigated Spring Wheat (PAID = 20)
! | Winter Wheat (PAID = 21)
! | Irrigated Winter Wheat (PAID = 22)
! | Temperated Soybean (PAID = 23)
! | Irrigated Temperate Soyb. (PAID = 24)
! | Barley (PAID = 25)
! | Irrigated Barley (PAID = 26)
! | Winter Barley (PAID = 27)
! | Irrigated Winter Barley (PAID = 28)
! | Rye (PAID = 29)
! | Irrigated Rye (PAID = 30)
! | Winter Rye (PAID = 31)
! | Irrigated Winter Rye (PAID = 32)
! | Cassava (PAID = 33)
! | Irrigated Cassava (PAID = 34)
! | Citrus (PAID = 35)
! | Irrigated Citrus (PAID = 36)
! | Cocoa (PAID = 37)
! | Irrigated Cocoa (PAID = 38)
! | Coffee (PAID = 39)
! | Irrigated Coffee (PAID = 40)
! | Cotton (PAID = 41)
! | Irrigated Cotton (PAID = 42)
! | Datepalm (PAID = 43)
! | Irrigated Datepalm (PAID = 44)
! | Foddergrass (PAID = 45)
! | Irrigated Foddergrass (PAID = 46)
! | Grapes (PAID = 47)
! | Irrigated Grapes (PAID = 48)
! | Groundnuts (PAID = 49)
! | Irrigated Groundnuts (PAID = 50)
! | Millet (PAID = 51)
! | Irrigated Millet (PAID = 52)
! | Oilpalm (PAID = 53)
! | Irrigated Oilpalm (PAID = 54)
! | Potatoes (PAID = 55)
! | Irrigated Potatoes (PAID = 56)
! | Pulses (PAID = 57)
! | Irrigated Pulses (PAID = 58)
! | Rapeseed (PAID = 59)
! | Irrigated Rapeseed (PAID = 60)
! | Rice (PAID = 61)
! | Irrigated Rice (PAID = 62)
! | Sorghum (PAID = 63)
! | Irrigated Sorghum (PAID = 64)
! | Sugarbeet (PAID = 65)
! | Irrigated Sugarbeet (PAID = 66)
! | Sugarcane (PAID = 67)
! | Irrigated Sugarcane (PAID = 68)
! | Sunflower (PAID = 69)
! | Irrigated Sunflower (PAID = 70)
! | Miscanthus (PAID = 71)
! | Irrigated Miscanthus (PAID = 72)
! | Switchgrass (PAID = 73)
! | Irrigated Switchgrass (PAID = 74)
! | Tropical Corn (PAID = 75)
! | Irrigated Tropical Corn (PAID = 76)
! | Tropical Soybean (PAID = 77)
! | Irrigated Tropical Soybe. (PAID = 78)
! Rice Paddy and Field (ID = 37) |
! Hot Irrigated Cropland (ID = 38) |
! Cool Irrigated Cropland (ID = 39) |
! - (ID = 40) |
! Cool Grasses and Shrubs (ID = 41) |
! Hot and Mild Grasses and (ID = 42) | C3 Non-Arctic Grass (PAID = 13)
! Cold Grassland (ID = 43) | C3 Arctic Grass (PAID = 12)
! Savanna (Woods) (ID = 44) | Broadleaf Deciduous Trop. (PAID = 6)
! | C4 Grass (PAID = 14)
! Mire, Bog, Fen (ID = 45) | Wetland - Not Applied (LUID = 6)
! Marsh Wetland (ID = 46) |
! Mediterranean Scrub (ID = 47) |
! Dry Woody Scrub (ID = 48) | Broadleaf Deciduous Temp. (PAID = 10)
! - (ID = 49) |
! - (ID = 50) |
! - (ID = 51) |
! Semi Desert Shrubs (ID = 52) |
! Semi Desert Sage (ID = 53) |
! Barren Tundra (ID = 54) |
! Cool Southern Hemisphere (ID = 55) |
! Cool Fields and Woods (ID = 56) |
! Forest and Field (ID = 57) |
! Cool Forest and Field (ID = 58) |
! Fields and Woody Savanna (ID = 59) |
! Succulent and Thorn Scr. (ID = 60) |
! Small Leaf Mixed Woods (ID = 61) |
! Deciduous and Mixed Bor. (ID = 62) |
! Narrow Conifers (ID = 63) |
! Wooded Tundra (ID = 64) |
! Heath Scrub (ID = 65) |
! - (ID = 66) |
! - (ID = 67) |
! - (ID = 68) |
! - (ID = 69) |
! Polar and Alpine Desert (ID = 70) |
! - (ID = 71) |
! - (ID = 72) |
! Mangrove (ID = 73) |
State_Met%LandTypeFrac(:,:,:) = 0.0e+0_fp
State_Met%XLAI_NATIVE(:,:,:) = 0.0e+0_fp
DO J = 1, nY
waterFrac = cam_in%ocnFrac(J) + cam_in%iceFrac(J) &
+ cam_in%lwtgcell(J,5)
landFrac = 1.0e+0_fp - waterFrac
! Initialize fraction land for this grid cell
State_Met%LandTypeFrac(1,J, 1) = waterFrac
!State_Met%LandTypeFrac(1,J, 2) = cam_in%lwtgcell(J, 7) &
! + cam_in%lwtgcell(J, 8) &
! + cam_in%lwtgcell(J, 9)
State_Met%LandTypeFrac(1,J, 5) = cam_in%pwtgcell(J, 4)
State_Met%LandTypeFrac(1,J, 7) = cam_in%pwtgcell(J, 6)
State_Met%LandTypeFrac(1,J, 9) = cam_in%pwtgcell(J, 1) &
* ( 1.0e+0_fp - cam_in%lwtgcell(J, 4) )
State_Met%LandTypeFrac(1,J,10) = cam_in%pwtgcell(J,12)
State_Met%LandTypeFrac(1,J,13) = cam_in%lwtgcell(J, 4)
State_Met%LandTypeFrac(1,J,17) = cam_in%pwtgcell(J,10)
State_Met%LandTypeFrac(1,J,22) = cam_in%pwtgcell(J, 3)
State_Met%LandTypeFrac(1,J,24) = cam_in%pwtgcell(J, 9)
State_Met%LandTypeFrac(1,J,26) = cam_in%pwtgcell(J, 8)
State_Met%LandTypeFrac(1,J,28) = cam_in%pwtgcell(J, 2)
State_Met%LandTypeFrac(1,J,32) = cam_in%pwtgcell(J,16) &
+ cam_in%pwtgcell(J,17)
State_Met%LandTypeFrac(1,J,34) = cam_in%pwtgcell(J, 5)
State_Met%LandTypeFrac(1,J,36) = cam_in%pwtgcell(J,18) &
+ cam_in%pwtgcell(J,19) &
+ cam_in%pwtgcell(J,20) &
+ cam_in%pwtgcell(J,21) &
+ cam_in%pwtgcell(J,22) &
+ cam_in%pwtgcell(J,23) &
+ cam_in%pwtgcell(J,24) &
+ cam_in%pwtgcell(J,25) &
+ cam_in%pwtgcell(J,26) &
+ cam_in%pwtgcell(J,27) &
+ cam_in%pwtgcell(J,28) &
+ cam_in%pwtgcell(J,29) &
+ cam_in%pwtgcell(J,30) &
+ cam_in%pwtgcell(J,31) &
+ cam_in%pwtgcell(J,32) &
+ cam_in%pwtgcell(J,33) &
+ cam_in%pwtgcell(J,34) &
+ cam_in%pwtgcell(J,35) &
+ cam_in%pwtgcell(J,36) &
+ cam_in%pwtgcell(J,37) &
+ cam_in%pwtgcell(J,38) &
+ cam_in%pwtgcell(J,39) &
+ cam_in%pwtgcell(J,40) &
+ cam_in%pwtgcell(J,41) &
+ cam_in%pwtgcell(J,42) &
+ cam_in%pwtgcell(J,43) &
+ cam_in%pwtgcell(J,44) &
+ cam_in%pwtgcell(J,45) &
+ cam_in%pwtgcell(J,46) &
+ cam_in%pwtgcell(J,47) &
+ cam_in%pwtgcell(J,48) &
+ cam_in%pwtgcell(J,49) &
+ cam_in%pwtgcell(J,50) &
+ cam_in%pwtgcell(J,51) &
+ cam_in%pwtgcell(J,52) &
+ cam_in%pwtgcell(J,53) &
+ cam_in%pwtgcell(J,54) &
+ cam_in%pwtgcell(J,55) &
+ cam_in%pwtgcell(J,56) &
+ cam_in%pwtgcell(J,57) &
+ cam_in%pwtgcell(J,58) &
+ cam_in%pwtgcell(J,59) &
+ cam_in%pwtgcell(J,60) &
+ cam_in%pwtgcell(J,61) &
+ cam_in%pwtgcell(J,62) &
+ cam_in%pwtgcell(J,63) &
+ cam_in%pwtgcell(J,64) &
+ cam_in%pwtgcell(J,65) &
+ cam_in%pwtgcell(J,66) &
+ cam_in%pwtgcell(J,67) &
+ cam_in%pwtgcell(J,68) &
+ cam_in%pwtgcell(J,69) &
+ cam_in%pwtgcell(J,70) &
+ cam_in%pwtgcell(J,71) &
+ cam_in%pwtgcell(J,72) &
+ cam_in%pwtgcell(J,73) &
+ cam_in%pwtgcell(J,74) &
+ cam_in%pwtgcell(J,75) &
+ cam_in%pwtgcell(J,76) &
+ cam_in%pwtgcell(J,77) &
+ cam_in%pwtgcell(J,78) &
+ cam_in%pwtgcell(J,79)
State_Met%LandTypeFrac(1,J,42) = cam_in%pwtgcell(J,14)
State_Met%LandTypeFrac(1,J,43) = cam_in%pwtgcell(J,13)
State_Met%LandTypeFrac(1,J,44) = cam_in%pwtgcell(J, 7) &
+ cam_in%pwtgcell(J,15)
!State_Met%LandTypeFrac(1,J,45) = cam_in%lwtgcell(J, 6)
State_Met%LandTypeFrac(1,J,48) = cam_in%pwtgcell(J,11)
State_Met%XLAI_NATIVE(1,J, 5) = cam_in%lai(J, 4)
State_Met%XLAI_NATIVE(1,J, 7) = cam_in%lai(J, 6)
State_Met%XLAI_NATIVE(1,J,10) = cam_in%lai(J,12)
State_Met%XLAI_NATIVE(1,J,17) = cam_in%lai(J,10)
State_Met%XLAI_NATIVE(1,J,22) = cam_in%lai(J, 3)
State_Met%XLAI_NATIVE(1,J,24) = cam_in%lai(J, 9)
State_Met%XLAI_NATIVE(1,J,26) = cam_in%lai(J, 8)
State_Met%XLAI_NATIVE(1,J,28) = cam_in%lai(J, 2)
State_Met%XLAI_NATIVE(1,J,32) = cam_in%lai(J,16) &
+ cam_in%lai(J,17)
State_Met%XLAI_NATIVE(1,J,34) = cam_in%lai(J, 5)
State_Met%XLAI_NATIVE(1,J,36) = cam_in%lai(J,18) &
+ cam_in%lai(J,19) &
+ cam_in%lai(J,20) &
+ cam_in%lai(J,21) &
+ cam_in%lai(J,22) &
+ cam_in%lai(J,23) &
+ cam_in%lai(J,24) &
+ cam_in%lai(J,25) &
+ cam_in%lai(J,26) &
+ cam_in%lai(J,27) &
+ cam_in%lai(J,28) &
+ cam_in%lai(J,29) &
+ cam_in%lai(J,30) &
+ cam_in%lai(J,31) &
+ cam_in%lai(J,32) &
+ cam_in%lai(J,33) &
+ cam_in%lai(J,34) &
+ cam_in%lai(J,35) &
+ cam_in%lai(J,36) &
+ cam_in%lai(J,37) &
+ cam_in%lai(J,38) &
+ cam_in%lai(J,39) &
+ cam_in%lai(J,40) &
+ cam_in%lai(J,41) &
+ cam_in%lai(J,42) &
+ cam_in%lai(J,43) &
+ cam_in%lai(J,44) &
+ cam_in%lai(J,45) &
+ cam_in%lai(J,46) &
+ cam_in%lai(J,47) &
+ cam_in%lai(J,48) &
+ cam_in%lai(J,49) &
+ cam_in%lai(J,50) &
+ cam_in%lai(J,51) &
+ cam_in%lai(J,52) &
+ cam_in%lai(J,53) &
+ cam_in%lai(J,54) &
+ cam_in%lai(J,55) &
+ cam_in%lai(J,56) &
+ cam_in%lai(J,57) &
+ cam_in%lai(J,58) &
+ cam_in%lai(J,59) &
+ cam_in%lai(J,60) &
+ cam_in%lai(J,61) &
+ cam_in%lai(J,62) &
+ cam_in%lai(J,63) &
+ cam_in%lai(J,64) &
+ cam_in%lai(J,65) &
+ cam_in%lai(J,66) &
+ cam_in%lai(J,67) &
+ cam_in%lai(J,68) &
+ cam_in%lai(J,69) &
+ cam_in%lai(J,70) &
+ cam_in%lai(J,71) &
+ cam_in%lai(J,72) &
+ cam_in%lai(J,73) &
+ cam_in%lai(J,74) &
+ cam_in%lai(J,75) &
+ cam_in%lai(J,76) &
+ cam_in%lai(J,77) &
+ cam_in%lai(J,78) &
+ cam_in%lai(J,79)
State_Met%XLAI_NATIVE(1,J,42) = cam_in%lai(J,14)
State_Met%XLAI_NATIVE(1,J,43) = cam_in%lai(J,13)
State_Met%XLAI_NATIVE(1,J,44) = cam_in%lai(J, 7) &
+ cam_in%lai(J,15)
State_Met%XLAI_NATIVE(1,J,48) = cam_in%lai(J,11)
DO T = 2, NSURFTYPE
State_Met%LandTypeFrac(1,J,T) = &
State_Met%LandTypeFrac(1,J,T) * landFrac
State_Met%XLAI_NATIVE(1,J,T) = &
State_Met%XLAI_NATIVE(1,J,T) * landFrac
! Make sure that the land type fractions do not exceed 1
IF ( State_Met%LandTypeFrac(1,J,T) > 1.0e+0_fp ) THEN
State_Met%LandTypeFrac(1,J,T) = 1.0e+0_fp
ELSEIF ( State_Met%LandTypeFrac(1,J,T) < 0.0e+0_fp ) THEN
State_Met%LandTypeFrac(1,J,T) = 0.0e+0_fp
ENDIF
ENDDO
ENDDO
#else
CALL endrun('Cannot figure out which version of CLM')
#endif
END SUBROUTINE getLandTypes
!EOC