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Adjust GFS diagnostic Aerosol Optical Depth (AOD) output to the exact 550nm #16

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79 changes: 62 additions & 17 deletions physics/radiation_aerosols.f
Original file line number Diff line number Diff line change
Expand Up @@ -405,7 +405,7 @@ module module_radiation_aerosols !
! ssarhi_grt(KCM1,NSWLWBD) - single scattering albedo for sw+lw band
! asyrhi_grt(KCM1,NSWLWBD) - asymmetry parameter for sw+lw band
real (kind=kind_phys),allocatable,save,dimension(:,:) :: &
& extrhi_grt, scarhi_grt, ssarhi_grt, asyrhi_grt
& extrhi_grt, extrhi_grt_550, scarhi_grt, ssarhi_grt, asyrhi_grt
!
!> \name relative humidity dependent aerosol optical properties:
!! species : ss001, ss002, ss003, ss004, ss005, so4,
Expand All @@ -417,7 +417,7 @@ module module_radiation_aerosols !

!> extinction coefficient
real (kind=kind_phys),allocatable,save,dimension(:,:,:) :: &
& extrhd_grt, scarhd_grt, ssarhd_grt, asyrhd_grt
& extrhd_grt, extrhd_grt_550, scarhd_grt, ssarhd_grt, asyrhd_grt

!> gocart species
integer, parameter :: num_gc = 5
Expand Down Expand Up @@ -453,6 +453,7 @@ module module_radiation_aerosols !
real (kind=kind_phys), parameter :: wvn550 = 1.0e4/0.55
!> the sw spectral band covering wvn550 (comp in aer_init)
integer, save :: nv_aod = 1
integer :: i550,id550

! --- public interfaces

Expand Down Expand Up @@ -3488,10 +3489,12 @@ subroutine gocart_aerinit &

if ( .not. allocated( extrhi_grt ) ) then
allocate ( extrhi_grt ( kcm1,nswlwbd) )
allocate ( extrhi_grt_550 ( kcm1,1) )
allocate ( scarhi_grt ( kcm1,nswlwbd) )
allocate ( ssarhi_grt ( kcm1,nswlwbd) )
allocate ( asyrhi_grt ( kcm1,nswlwbd) )
allocate ( extrhd_grt (krhlev,kcm2,nswlwbd) )
allocate ( extrhd_grt_550 (krhlev,kcm2,1) )
allocate ( scarhd_grt (krhlev,kcm2,nswlwbd) )
allocate ( ssarhd_grt (krhlev,kcm2,nswlwbd) )
allocate ( asyrhd_grt (krhlev,kcm2,nswlwbd) )
Expand Down Expand Up @@ -3834,6 +3837,9 @@ subroutine rd_gocart_luts
do i = 1, kaerbndi ! convert from m to micron
j = kaerbndi -i + 1 ! flip i-index
wavelength_du(j) = 1.e6 * lambda_du(i)
if (int(wavelength_du(j)*100) == 55) then
id550=j
endif
enddo
do k = 1, iradius
do i = 1, kaerbndi
Expand Down Expand Up @@ -3898,6 +3904,9 @@ subroutine rd_gocart_luts
do i = 1, kaerbndd ! convert from m to micron
j = kaerbndd -i + 1 ! flip i-index
wavelength(j) = 1.e6 * lambda(i)
if (int(wavelength(j)*100) == 55) then
i550=j
endif
enddo
do k = 1, iradius
ik = ibeg + k - 1
Expand Down Expand Up @@ -4016,6 +4025,9 @@ subroutine optavg_gocart
refb = sumreft * rsolbd

extrhi_grt(nc,nb) = sumk * rsolbd
if (nb==nv_aod) then
extrhi_grt_550(nc,1) = rhidext0_grt(id550,nc)
endif
scarhi_grt(nc,nb) = sums * rsolbd
asyrhi_grt(nc,nb) = sumokg / (sumok + 1.0e-10)
ssarhi_grt(nc,nb) = 4.0*refb &
Expand Down Expand Up @@ -4048,6 +4060,9 @@ subroutine optavg_gocart
refb = sumreft * rsolbd

extrhd_grt(nh,nc,nb) = sumk * rsolbd
if (nb==nv_aod) then
extrhd_grt_550(nh,nc,1) = rhdpext0_grt(i550,nh,nc)
endif
scarhd_grt(nh,nc,nb) = sums * rsolbd
asyrhd_grt(nh,nc,nb) = sumokg / (sumok + 1.0e-10)
ssarhd_grt(nh,nc,nb) = 4.0*refb &
Expand Down Expand Up @@ -4253,7 +4268,8 @@ subroutine aer_property_gocart &

! --- locals:
real (kind=kind_phys), dimension(nlay,nswlwbd):: tauae,ssaae,asyae
real (kind=kind_phys), dimension(nspc) :: spcodp
real (kind=kind_phys), dimension(nlay,1):: tauae_550
real (kind=kind_phys), dimension(nlay,nspc) :: spcodp

real (kind=kind_phys),dimension(nlay,kcm) :: aerms
real (kind=kind_phys),dimension(nlay) :: dz1, rh1
Expand All @@ -4269,20 +4285,25 @@ subroutine aer_property_gocart &
do m = 1, NSWLWBD
do k = 1, NLAY
tauae(k,m) = f_zero
if (m==nv_aod) then
tauae_550(k,1) = f_zero
endif
ssaae(k,m) = f_one
asyae(k,m) = f_zero
enddo
enddo

! --- set floor value for aerms (kg/m3)
do k = 1, NLAY
do m = 1, kcm
aerms(k,m) = 1.e-15
enddo
do m = 1, kcm
aerms(k,m) = 1.e-15
enddo
enddo

do m = 1, nspc
spcodp(m) = f_zero
do k = 1, NLAY
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do m = 1, nspc
spcodp(k,m) = f_zero
enddo
enddo

do k = 1, NLAY
Expand Down Expand Up @@ -4320,11 +4341,10 @@ subroutine aer_property_gocart &

! --- update diagnostic aod arrays
do k = 1, NLAY
aerodp(i,1) = aerodp(i,1) + tauae(k,nv_aod)
enddo

do m = 1, NSPC
aerodp(i,m+1) = spcodp(m)
aerodp(i,1) = aerodp(i,1) + tauae_550(k,1)
do m = 1, NSPC
aerodp(i,m+1) = aerodp(i,m+1)+spcodp(k,m)
enddo
enddo

endif ! end if_larsw_block
Expand Down Expand Up @@ -4390,9 +4410,10 @@ subroutine aeropt

! --- locals:
real (kind=kind_phys) :: drh0, drh1, rdrh
real (kind=kind_phys) :: cm, ext01, sca01, asy01, ssa01
real (kind=kind_phys) :: ext1, asy1, ssa1, sca1
real (kind=kind_phys) :: cm, ext01, ext01_550, sca01,asy01,ssa01
real (kind=kind_phys) :: ext1, ext1_550, asy1, ssa1,sca1,tau_550
real (kind=kind_phys) :: sum_tau,sum_asy,sum_ssa,tau,asy,ssa
real (kind=kind_phys) :: sum_tau_550
integer :: ih1, ih2, nbin, ib, ntrc, ktrc

! --- linear interp coeffs for rh-dep species
Expand All @@ -4416,6 +4437,10 @@ subroutine aeropt
do ib = 1, nswlwbd

sum_tau = f_zero
if (ib == nv_aod ) then
sum_tau_550 = f_zero
ext1_550 = f_zero
endif
sum_ssa = f_zero
sum_asy = f_zero

Expand All @@ -4429,6 +4454,9 @@ subroutine aeropt
do m = 1, kcm1
cm = max(aerms(k,m),0.0) * dz1(k)
ext1 = ext1 + cm*extrhi_grt(m,ib)
if (ib == nv_aod) then
ext1_550 = ext1_550 + cm*extrhi_grt_550(m,1)
endif
sca1 = sca1 + cm*scarhi_grt(m,ib)
ssa1 = ssa1 + cm*extrhi_grt(m,ib) * ssarhi_grt(m,ib)
asy1 = asy1 + cm*scarhi_grt(m,ib) * asyrhi_grt(m,ib)
Expand All @@ -4439,7 +4467,9 @@ subroutine aeropt

! --- update aod from individual species
if ( ib==nv_aod ) then
spcodp(1) = spcodp(1) + tau
tau_550 = ext1_550
spcodp(k,1) = tau_550
sum_tau_550 = sum_tau_550 + tau_550
endif
! --- update sum_tau, sum_ssa, sum_asy
sum_tau = sum_tau + tau
Expand All @@ -4449,6 +4479,9 @@ subroutine aeropt
! --- determine tau, ssa, asy for non-dust aerosols
do ntrc = 2, nspc
ext1 = f_zero
if ( ib==nv_aod ) then
ext1_550 = f_zero
endif
asy1 = f_zero
sca1 = f_zero
ssa1 = f_zero
Expand All @@ -4459,13 +4492,20 @@ subroutine aeropt
cm = max(aerms(k,m1),0.0) * dz1(k)
ext01 = extrhd_grt(ih1,m,ib) + &
& rdrh * (extrhd_grt(ih2,m,ib)-extrhd_grt(ih1,m,ib))
if ( ib==nv_aod ) then
ext01_550 = extrhd_grt_550(ih1,m,1) + &
& rdrh * (extrhd_grt_550(ih2,m,1)-extrhd_grt_550(ih1,m,1))
endif
sca01 = scarhd_grt(ih1,m,ib) + &
& rdrh * (scarhd_grt(ih2,m,ib)-scarhd_grt(ih1,m,ib))
ssa01 = ssarhd_grt(ih1,m,ib) + &
& rdrh * (ssarhd_grt(ih2,m,ib)-ssarhd_grt(ih1,m,ib))
asy01 = asyrhd_grt(ih1,m,ib) + &
& rdrh * (asyrhd_grt(ih2,m,ib)-asyrhd_grt(ih1,m,ib))
ext1 = ext1 + cm*ext01
if ( ib==nv_aod ) then
ext1_550 = ext1_550 + cm*ext01_550
endif
sca1 = sca1 + cm*sca01
ssa1 = ssa1 + cm*ext01 * ssa01
asy1 = asy1 + cm*sca01 * asy01
Expand All @@ -4475,7 +4515,9 @@ subroutine aeropt
if (sca1 > f_zero) asy=min(f_one, asy1/sca1)
! --- update aod from individual species
if ( ib==nv_aod ) then
spcodp(ktrc) = spcodp(ktrc) + tau
tau_550 = ext1_550
spcodp(k,ktrc) = tau_550
sum_tau_550 = sum_tau_550 + tau_550
endif
! --- update sum_tau, sum_ssa, sum_asy
sum_tau = sum_tau + tau
Expand All @@ -4485,6 +4527,9 @@ subroutine aeropt

! --- determine total tau, ssa, asy for aerosol mixture
tauae(k,ib) = sum_tau
if ( ib==nv_aod ) then
tauae_550(k,1) = sum_tau_550
endif
if (sum_tau > f_zero) ssaae(k,ib) = sum_ssa / sum_tau
if (sum_ssa > f_zero) asyae(k,ib) = sum_asy / sum_ssa

Expand Down