diff --git a/generic_tracers/cobalt_reg_diag.F90 b/generic_tracers/cobalt_reg_diag.F90 index 31ee88f..043edfd 100644 --- a/generic_tracers/cobalt_reg_diag.F90 +++ b/generic_tracers/cobalt_reg_diag.F90 @@ -612,10 +612,6 @@ subroutine cobalt_reg_diagnostics(diag_list,axes,init_time,phyto,zoo,bact,cobalt phyto(LARGE)%id_jprod_n = register_diag_field(package_name, vardesc_temp%name, axes(1:3),& init_time, vardesc_temp%longname,vardesc_temp%units, missing_value = missing_value1) - vardesc_temp = vardesc("net_phyto_resp","Net phytoplankton respiration layer integral",'h','L','s','mol m-2 s-1','f') - cobalt%id_net_phyto_resp = register_diag_field(package_name, vardesc_temp%name, axes(1:3),& - init_time, vardesc_temp%longname,vardesc_temp%units, missing_value = missing_value1) - ! ! Register zooplankton diagnostics, starting with losses of zooplankton to ingestion by zooplankton ! @@ -1916,7 +1912,7 @@ subroutine cobalt_reg_diagnostics(diag_list,axes,init_time,phyto,zoo,bact,cobalt cobalt%id_btm_omega_calc = register_diag_field(package_name, vardesc_temp%name, axes(1:2),& init_time, vardesc_temp%longname,vardesc_temp%units, missing_value = missing_value1) - vardesc_temp = vardesc("cased_2d","calcium carbonite in sediment",'h','1','s','mol m-3','f') + vardesc_temp = vardesc("cased_2d","calcium carbonate in sediment",'h','1','s','mol m-3','f') cobalt%id_cased_2d = register_diag_field(package_name, vardesc_temp%name, axes(1:2),& init_time, vardesc_temp%longname,vardesc_temp%units, missing_value = missing_value1) @@ -2401,10 +2397,6 @@ subroutine cobalt_reg_diagnostics(diag_list,axes,init_time,phyto,zoo,bact,cobalt cobalt%id_wc_vert_int_chemoautopp = register_diag_field(package_name, vardesc_temp%name, axes(1:2),& init_time, vardesc_temp%longname,vardesc_temp%units, missing_value = missing_value1) - vardesc_temp = vardesc("wc_vert_int_net_phyto_resp","Water column net phyto respiration vertical integral",'h','1','s','mol N m-2 s-1','f') - cobalt%id_wc_vert_int_net_phyto_resp = register_diag_field(package_name, vardesc_temp%name, axes(1:2),& - init_time, vardesc_temp%longname,vardesc_temp%units, missing_value = missing_value1) - vardesc_temp = vardesc("wc_vert_int_npp","Water column net primary production vertical integral",'h','1','s','mol N m-2 s-1','f') cobalt%id_wc_vert_int_npp = register_diag_field(package_name, vardesc_temp%name, axes(1:2),& init_time, vardesc_temp%longname,vardesc_temp%units, missing_value = missing_value1) diff --git a/generic_tracers/cobalt_send_diag.F90 b/generic_tracers/cobalt_send_diag.F90 index 2e6c168..08b11a6 100644 --- a/generic_tracers/cobalt_send_diag.F90 +++ b/generic_tracers/cobalt_send_diag.F90 @@ -328,9 +328,6 @@ subroutine cobalt_send_diagnostics(model_time,grid_tmask,Temp,rho_dzt,dzt,& used = g_send_data(cobalt%id_jprod_po4, cobalt%jprod_po4*rho_dzt, & model_time, rmask = grid_tmask,& is_in=isc, js_in=jsc, ks_in=1,ie_in=iec, je_in=jec, ke_in=nk) - used = g_send_data(cobalt%id_net_phyto_resp, cobalt%net_phyto_resp*rho_dzt, & - model_time, rmask = grid_tmask,& - is_in=isc, js_in=jsc, ks_in=1,ie_in=iec, je_in=jec, ke_in=nk) used = g_send_data(cobalt%id_jprod_fed, cobalt%jprod_fed*rho_dzt, & model_time, rmask = grid_tmask,& is_in=isc, js_in=jsc, ks_in=1,ie_in=iec, je_in=jec, ke_in=nk) @@ -1172,9 +1169,6 @@ subroutine cobalt_send_diagnostics(model_time,grid_tmask,Temp,rho_dzt,dzt,& used = g_send_data(cobalt%id_wc_vert_int_chemoautopp, cobalt%wc_vert_int_chemoautopp, & model_time, rmask = grid_tmask(:,:,1),& is_in=isc, js_in=jsc, ie_in=iec, je_in=jec) - used = g_send_data(cobalt%id_wc_vert_int_net_phyto_resp, cobalt%wc_vert_int_net_phyto_resp, & - model_time, rmask = grid_tmask(:,:,1),& - is_in=isc, js_in=jsc, ie_in=iec, je_in=jec) used = g_send_data(cobalt%id_wc_vert_int_npp, cobalt%wc_vert_int_npp, & model_time, rmask = grid_tmask(:,:,1),& is_in=isc, js_in=jsc, ie_in=iec, je_in=jec) diff --git a/generic_tracers/cobalt_types.F90 b/generic_tracers/cobalt_types.F90 index 2426102..fd4059a 100644 --- a/generic_tracers/cobalt_types.F90 +++ b/generic_tracers/cobalt_types.F90 @@ -688,7 +688,6 @@ module cobalt_types jprod_nh4,& jprod_nh4_plus_btm,& jprod_po4,& - net_phyto_resp,& det_jzloss_n,& det_jzloss_p,& det_jzloss_fe,& @@ -885,7 +884,6 @@ module cobalt_types wc_vert_int_o2,& wc_vert_int_alk,& wc_vert_int_chemoautopp,& - wc_vert_int_net_phyto_resp,& wc_vert_int_npp, & wc_vert_int_jdiss_sidet,& wc_vert_int_jdiss_cadet,& @@ -1017,7 +1015,6 @@ module cobalt_types id_jprod_po4 = -1, & id_jprod_nh4 = -1, & id_jprod_nh4_plus_btm = -1, & - id_net_phyto_resp = -1, & id_det_jzloss_n = -1, & id_det_jhploss_n = -1, & id_jdiss_sidet = -1, & @@ -1187,7 +1184,6 @@ module cobalt_types id_wc_vert_int_alk = -1, & id_wc_vert_int_chemoautopp = -1, & id_wc_vert_int_npp = -1, & - id_wc_vert_int_net_phyto_resp = -1, & id_wc_vert_int_jdiss_sidet = -1, & id_wc_vert_int_jdiss_cadet = -1, & id_wc_vert_int_jo2resp = -1, & diff --git a/generic_tracers/generic_COBALT.F90 b/generic_tracers/generic_COBALT.F90 index 867b3db..9ee342a 100644 --- a/generic_tracers/generic_COBALT.F90 +++ b/generic_tracers/generic_COBALT.F90 @@ -2465,7 +2465,6 @@ subroutine generic_COBALT_update_from_source(tracer_list,Temp,Salt,rho_dzt,dzt,h cobalt%jno3denit_wc(i,j,k) = 0.0 cobalt%jremin_ndet(i,j,k) = 0.0 cobalt%jo2resp_wc(i,j,k) = 0.0 - cobalt%net_phyto_resp(i,j,k) = 0.0 enddo; enddo ; enddo !} i,j,k ! !----------------------------------------------------------------------------------- @@ -2876,22 +2875,20 @@ subroutine generic_COBALT_update_from_source(tracer_list,Temp,Salt,rho_dzt,dzt,h phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)) phyto(n)%juptake_nh4(i,j,k) = max(0.0,phyto(n)%nh4lim(i,j,k)* phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)) phyto(n)%juptake_no3(i,j,k) = max(0.0,phyto(n)%no3lim(i,j,k)* phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)) - ! uncomment for "no mass change" test (next 2 lines) - ! phyto(n)%juptake_nh4(i,j,k) = phyto(n)%juptake_nh4(i,j,k) + phyto(n)%juptake_n2(i,j,k) - ! phyto(n)%juptake_n2(i,j,k) = 0.0 ! If growth is negative, results in net respiration and production of nh4, aerobic loss in all cases + ! jo2resp_wc is a cumulative variable that tracks the total oxygen consumption in the water column cobalt%jprod_nh4(i,j,k) = cobalt%jprod_nh4(i,j,k) - min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)) cobalt%jo2resp_wc(i,j,k) = cobalt%jo2resp_wc(i,j,k) - min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k))*cobalt%o2_2_nh4 - cobalt%net_phyto_resp(i,j,k) = cobalt%net_phyto_resp(i,j,k) - min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)) do n = 2, NUM_PHYTO !{ + ! Nitrate versus ammonia uptake proportional to their relative limitations phyto(n)%juptake_no3(i,j,k) = max( 0.0, phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)* & phyto(n)%no3lim(i,j,k)/(phyto(n)%no3lim(i,j,k)+phyto(n)%nh4lim(i,j,k)+epsln) ) phyto(n)%juptake_nh4(i,j,k) = max( 0.0, phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)* & phyto(n)%nh4lim(i,j,k)/(phyto(n)%no3lim(i,j,k)+phyto(n)%nh4lim(i,j,k)+epsln) ) + ! If growth is negative, results in net respiration and production of nh4, aerobic loss in all cases cobalt%jprod_nh4(i,j,k) = cobalt%jprod_nh4(i,j,k) - min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)) cobalt%jo2resp_wc(i,j,k) = cobalt%jo2resp_wc(i,j,k) - min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k))*cobalt%o2_2_nh4 - cobalt%net_phyto_resp(i,j,k) = cobalt%net_phyto_resp(i,j,k) - min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_n(i,j,k)) enddo !} n enddo; enddo ; enddo !} i,j,k ! @@ -2901,11 +2898,13 @@ subroutine generic_COBALT_update_from_source(tracer_list,Temp,Salt,rho_dzt,dzt,h n=DIAZO phyto(n)%juptake_po4(i,j,k) = (phyto(n)%juptake_n2(i,j,k)+phyto(n)%juptake_nh4(i,j,k) + & phyto(n)%juptake_no3(i,j,k))*phyto(n)%uptake_p_2_n(i,j,k) + ! If growth is negative, results in net release of po4 cobalt%jprod_po4(i,j,k) = cobalt%jprod_po4(i,j,k) - & min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_p(i,j,k)) do n = 2, NUM_PHYTO phyto(n)%juptake_po4(i,j,k) = (phyto(n)%juptake_nh4(i,j,k)+phyto(n)%juptake_no3(i,j,k))* & phyto(n)%uptake_p_2_n(i,j,k) + ! If growth is negative, results in net release of po4 cobalt%jprod_po4(i,j,k) = cobalt%jprod_po4(i,j,k) - & min(0.0,phyto(n)%mu(i,j,k)*phyto(n)%f_p(i,j,k)) enddo !} n @@ -2916,12 +2915,14 @@ subroutine generic_COBALT_update_from_source(tracer_list,Temp,Salt,rho_dzt,dzt,h do k = 1, nk ; do j = jsc, jec ; do i = isc, iec !{ do n = 1, NUM_PHYTO !{ if (phyto(n)%q_fe_2_n(i,j,k).lt.phyto(n)%fe_2_n_max) then + ! Scaling fe uptake with the maximum iron-limited photosynthesis allows for luxury iron uptake + ! when other nutrients are limiting but iron is not phyto(n)%juptake_fe(i,j,k) = phyto(n)%P_C_max(i,j,k)*cobalt%expkT(i,j,k)*phyto(n)%f_n(i,j,k)* & phyto(n)%felim(i,j,k)*cobalt%fe_2_n_upt_fac phyto(n)%jexuloss_fe(i,j,k) = 0.0 else + ! if you've exceeded the maximum quota, stop uptake and exude extra phyto(n)%juptake_fe(i,j,k) = 0.0 - !phyto(n)%jexuloss_fe(i,j,k) = (phyto(n)%q_fe_2_n(i,j,k)-phyto(n)%fe_2_n_max)*phyto(n)%f_n(i,j,k)/dt phyto(n)%jexuloss_fe(i,j,k) = cobalt%expkT(i,j,k)*phyto(n)%bresp(i,j,k)*phyto(n)%f_fe(i,j,k) endif enddo !} n @@ -2946,9 +2947,8 @@ subroutine generic_COBALT_update_from_source(tracer_list,Temp,Salt,rho_dzt,dzt,h ! Note that this is si_2_n in large phytoplankton pool, not in diatoms themselves (q_si_2_n_lg_diatoms) phyto(LARGE)%q_si_2_n(i,j,k) = cobalt%f_silg(i,j,k)/(phyto(LARGE)%f_n(i,j,k)+epsln) phyto(MEDIUM)%q_si_2_n(i,j,k) = cobalt%f_simd(i,j,k)/(phyto(MEDIUM)%f_n(i,j,k)+epsln) - enddo; enddo ; enddo !} i,j,k -! + call mpp_clock_end(id_clock_phyto_growth) ! !----------------------------------------------------------------------- @@ -5092,7 +5092,6 @@ subroutine generic_COBALT_update_from_source(tracer_list,Temp,Salt,rho_dzt,dzt,h cobalt%wc_vert_int_o2(i,j) = 0.0 cobalt%wc_vert_int_alk(i,j) = 0.0 cobalt%wc_vert_int_chemoautopp(i,j) = 0.0 - cobalt%wc_vert_int_net_phyto_resp(i,j) = 0.0 cobalt%wc_vert_int_npp(i,j) = 0.0 cobalt%wc_vert_int_jdiss_sidet(i,j) = 0.0 cobalt%wc_vert_int_jdiss_cadet(i,j) = 0.0 @@ -5122,8 +5121,6 @@ subroutine generic_COBALT_update_from_source(tracer_list,Temp,Salt,rho_dzt,dzt,h cobalt%wc_vert_int_alk(i,j) = cobalt%wc_vert_int_alk(i,j) + cobalt%tot_layer_int_alk(i,j,k)*grid_tmask(i,j,k) cobalt%wc_vert_int_chemoautopp(i,j) = cobalt%wc_vert_int_chemoautopp(i,j) + & (bact(1)%jprod_n_nitrif(i,j,k) + bact(1)%jprod_n_amx(i,j,k)) * rho_dzt(i,j,k) * grid_tmask(i,j,k) - cobalt%wc_vert_int_net_phyto_resp(i,j) = cobalt%wc_vert_int_net_phyto_resp(i,j) + & - cobalt%net_phyto_resp(i,j,k) * rho_dzt(i,j,k) * grid_tmask(i,j,k) cobalt%wc_vert_int_npp(i,j) = cobalt%wc_vert_int_npp(i,j) + (phyto(SMALL)%jprod_n(i,j,k) + & phyto(MEDIUM)%jprod_n(i,j,k) + phyto(LARGE)%jprod_n(i,j,k) + phyto(DIAZO)%jprod_n(i,j,k))* & rho_dzt(i,j,k)*grid_tmask(i,j,k) @@ -6511,7 +6508,6 @@ subroutine user_allocate_arrays allocate(cobalt%jprod_nh4(isd:ied, jsd:jed, 1:nk)) ; cobalt%jprod_nh4=0.0 allocate(cobalt%jprod_nh4_plus_btm(isd:ied, jsd:jed, 1:nk)) ; cobalt%jprod_nh4_plus_btm=0.0 allocate(cobalt%jprod_po4(isd:ied, jsd:jed, 1:nk)) ; cobalt%jprod_po4=0.0 - allocate(cobalt%net_phyto_resp(isd:ied, jsd:jed, 1:nk)) ; cobalt%net_phyto_resp=0.0 allocate(cobalt%det_jzloss_n(isd:ied, jsd:jed, 1:nk)) ; cobalt%det_jzloss_n=0.0 allocate(cobalt%det_jzloss_p(isd:ied, jsd:jed, 1:nk)) ; cobalt%det_jzloss_p=0.0 allocate(cobalt%det_jzloss_fe(isd:ied, jsd:jed, 1:nk)); cobalt%det_jzloss_fe=0.0 @@ -6640,7 +6636,6 @@ subroutine user_allocate_arrays allocate(cobalt%wc_vert_int_o2(isd:ied, jsd:jed)) ; cobalt%wc_vert_int_o2=0.0 allocate(cobalt%wc_vert_int_alk(isd:ied, jsd:jed)) ; cobalt%wc_vert_int_alk=0.0 allocate(cobalt%wc_vert_int_chemoautopp(isd:ied, jsd:jed)) ; cobalt%wc_vert_int_chemoautopp=0.0 - allocate(cobalt%wc_vert_int_net_phyto_resp(isd:ied, jsd:jed)) ; cobalt%wc_vert_int_net_phyto_resp=0.0 allocate(cobalt%wc_vert_int_npp(isd:ied, jsd:jed)) ; cobalt%wc_vert_int_npp=0.0 allocate(cobalt%wc_vert_int_jdiss_sidet(isd:ied, jsd:jed)) ; cobalt%wc_vert_int_jdiss_sidet=0.0 allocate(cobalt%wc_vert_int_jdiss_cadet(isd:ied, jsd:jed)) ; cobalt%wc_vert_int_jdiss_cadet=0.0 @@ -7079,7 +7074,6 @@ subroutine user_deallocate_arrays deallocate(cobalt%jprod_nh4) deallocate(cobalt%jprod_nh4_plus_btm) deallocate(cobalt%jprod_po4) - deallocate(cobalt%net_phyto_resp) deallocate(cobalt%det_jzloss_n) deallocate(cobalt%det_jzloss_p) deallocate(cobalt%det_jzloss_fe) @@ -7275,7 +7269,6 @@ subroutine user_deallocate_arrays deallocate(cobalt%wc_vert_int_o2) deallocate(cobalt%wc_vert_int_alk) deallocate(cobalt%wc_vert_int_chemoautopp) - deallocate(cobalt%wc_vert_int_net_phyto_resp) deallocate(cobalt%wc_vert_int_npp) deallocate(cobalt%wc_vert_int_jdiss_sidet) deallocate(cobalt%wc_vert_int_jdiss_cadet)