Registry.EM_COMMON
Wrf391
# Variables from WPS
#
state real u_gc igj dyn_em 1 XZ i1 "UU" "x-wind component" "m s-1"
state real v_gc igj dyn_em 1 YZ i1 "VV" "y-wind component" "m s-1"
# lsm State Variables
state real VEGFRA ij misc 1 - i024rhd=(interp_mask_field:lu_index,iswater)u=(copy_fcnm) "VEGFRA" "VEGETATION FRACTION" ""
# Velocities
#
# U Vel
state real u ikjb dyn_em 2 X \
i0rhusdf=(bdy_interp:dt) "U" "x-wind component" "m s-1"
state real ru ikj dyn_em 1 X - "MU_U" "mu-coupled u" "Pa m s-1"
registry.chem
# Additional variables for CO2 and GHG options
# The following variables are to run the VPRM model; The vegfra_vprm is for VPRM only and it's different than VEGFRA in wrfinput
state real - i{ghgv}jf vprm_in - - - - "VPRM input fields" ""
state real vegfra_vprm i{ghgv}jf vprm_in 1 - i{15}rh "VEGFRA_VPRM" " " " "
state real evi i{ghgv}jf vprm_in 1 - i{15}rh "EVI" " " " "
state real evi_min i{ghgv}jf vprm_in 1 - i{15}rh "EVI_MIN" " " " "
state real evi_max i{ghgv}jf vprm_in 1 - i{15}rh "EVI_MAX" " " " "
state real lswi i{ghgv}jf vprm_in 1 - i{15}rh "LSWI" " " " "
state real lswi_max i{ghgv}jf vprm_in 1 - i{15}rh "LSWI_MAX" " " " "
state real lswi_min i{ghgv}jf vprm_in 1 - i{15}rh "LSWI_MIN" " " " "
