diff --git a/data-raw/input_params.csv b/data-raw/input_params.csv
index 798c5e02..77c9f410 100644
--- a/data-raw/input_params.csv
+++ b/data-raw/input_params.csv
@@ -1,244 +1,245 @@
-section,parameter,biome-specific,time-variant,required,default,units,description
-core,run_name,n,n,y,,(unitless),Name of model run
-core,startDate,n,n,y,1745,year,Start date of model run
-core,endDate,n,n,y,2300,year,End date of model run
-core,trackingDate,n,n,y,9999,year,Year to start tracking carbon
-core,do_spinup,n,n,y,1,(unitless),"If 1, spin up model before running (default=1)"
-core,max_spinup,n,n,y,2000,(unitless),Maximum steps allowed for spinup (default=2000)
-ocean,enabled,n,n,y,1,(unitless),Putting 'enabled=0' will disable any component
-ocean,spinup_chem,n,n,y,0,(unitless),Run ocean surface chemistry during spinup phase?
-ocean,tt,n,n,y,7.20E+07,m3 s-1,Ocean thermohaline circulation
-ocean,tu,n,n,y,4.90E+07,m3 s-1,Ocean high latitude overturning
-ocean,twi,n,n,y,1.25E+07,m3 s-1,Ocean warm-intermediate exchange
-ocean,tid,n,n,y,2.00E+08,m3 s-1,Ocean intermediate-deep exchange
-ocean,preind_surface_c,n,n,n,900,Pg C,Initial surface ocean carbon
-ocean,preind_interdeep_c,n,n,n,37100,Pg C,Initial intermediate + deep ocean carbon
-simpleNbox,atmos_co2,n,n,y,588.071,Pg C,Initial atmospheric CO2
-simpleNbox,C0,n,n,y,277.15,Pg C,Initial atmospheric C pool
-simpleNbox,pf.veg_c,y,n,n,55,Pg C,Initial vegetation C pool
-simpleNbox,nonpf.veg_c,y,n,n,495,Pg C,Initial vegetation C pool
-simpleNbox,veg_c,n,n,y,550,Pg C,Initial vegetation C pool
-simpleNbox,pf.detritus_c,y,n,n,5,Pg C,Initial detritus C pool
-simpleNbox,nonpf.detritus_c,y,n,n,50,Pg C,Initial detritus C pool
-simpleNbox,detritus_c,n,n,y,55,Pg C,Initial detritus C pool
-simpleNbox,pf.soil_c,y,n,n,308,Pg C,Initial soil C pool
-simpleNbox,nonpf.soil_c,y,n,n,609,Pg C,Initial soil C pool
-simpleNbox,soil_c,n,n,y,917,Pg C,Initial soil C pool
-simpleNbox,pf.permafrost_c,y,n,n,865,Pg C,Initial permafrost C pool
-simpleNbox,nonpf.permafrost_c,y,n,n,0,Pg C,Initial permafrost C pool
-simpleNbox,permafrost_c,n,n,y,865,Pg C,Initial permafrost C pool
-simpleNbox,pf.npp_flux0,y,n,n,5.6,Pg C yr-1,Preindustrial net primary production
-simpleNbox,nonpf.npp_flux0,y,n,n,50.6,Pg C yr-1,Preindustrial net primary production
-simpleNbox,npp_flux0,n,n,y,56.2,Pg C yr-1,Preindustrial net primary production
-simpleNbox,pf.f_nppv,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
-simpleNbox,nonpf.f_nppv,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
-simpleNbox,f_nppv,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
-simpleNbox,pf.f_nppd,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
-simpleNbox,nonpf.f_nppd,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
-simpleNbox,f_nppd,n,n,y,0.6,(unitless),Fraction of NPP to detritus (balance to soil)
-simpleNbox,pf.f_litterd,n,n,n,0.35,(unitless),Fraction of NPP to vegetation
-simpleNbox,nonpf.f_litterd,n,n,n,0.35,(unitless),Fraction of NPP to vegetation
-simpleNbox,f_litterd,n,n,y,0.98,(unitless),Fraction of litter flux to detritus (balance to soil)
-simpleNbox,ffi_emissions,n,y,y,"""(csv)""",Pg C yr-1,Anthropogenic contributions: emissions
-simpleNbox,daccs_uptake,n,y,y,"""(csv)""",Pg C yr-1,Anthropogenic contributions: direct air carbon capture and storage
-simpleNbox,luc_emissions,n,y,y,"""(csv)""",Pg C yr-1,Anthropogenic contributions: land use change
-simpleNbox,luc_uptake,n,y,y,"""(csv)""",Pg C yr-2,Anthropogenic contributions: land use change
-simpleNbox,CO2_constrain,n,y,n,"""(csv)""",ppmv,Atmospheric CO2 constraint
-simpleNbox,NBP_constrain,n,y,n,"""(csv)""",Pg C yr-1,Net biome production (land-atmosphere C flux) constaint
-simpleNbox,pf.beta,n,n,n,0.36,(unitless),CO2 fertilization factor
-simpleNbox,nonpf.beta,n,n,n,0.36,(unitless),CO2 fertilization factor
-simpleNbox,beta,n,n,y,0.36,(unitless),CO2 fertilization factor
-simpleNbox,pf.q10_rh,n,n,n,2,(unitless),Respiration temperature response (Q10)
-simpleNbox,nonpf.q10_rh,n,n,n,2,(unitless),Respiration temperature response (Q10)
-simpleNbox,q10_rh,n,n,y,2,(unitless),Respiration temperature response (Q10)
-simpleNbox,pf.warmingfactor,y,n,n,2,(unitless),biome-specific warming factors
-simpleNbox,RF_albedo,n,n,y,"""(csv)""",W m-2,Albedo radiative forcing effect
-simpleNbox,permafrost_c,y,n,y,0,Pg C,Preindustrial permafrost carbon pool
-simpleNbox,fpf_static,y,n,n,0.74,(unitless),Fraction of permafrost that is static (non-labile)
-simpleNbox,rh_ch4_frac,y,n,n,0.023,(unitless),Fraction of thawed permafrost decomposed as CH4
-simpleNbox,pf_mu,y,n,n,1.67,(unitless),Permafrost thaw parameter; see Woodard et al. 2021
-simpleNbox,pf_sigma,y,n,n,0.986,(unitless),Permafrost thaw parameter; see Woodard et al. 2021
-carbon-cycle-solver,eps_abs,n,n,y,1.00E-06,(unitless),Solver solution tolerance
-carbon-cycle-solver,eps_rel,n,n,y,1.00E-06,(unitless),Solver solution tolerance
-carbon-cycle-solver,dt,n,n,y,0.25,(unitless),Solver default time step
-carbon-cycle-solver,eps_spinup,n,n,y,0.001,Pg C,"Model spinup tolerance (drift), Pg C"
-so2,SO2_emissions,n,y,y,"""(csv)""",,emissions time series
-so2,SV,n,y,y,"""(csv)""",,volcanic radiative forcing time series
-CH4,M0,n,n,y,731.41,ppb,"preindustrial methane IPCC AR6 Table 7.SM.1, the CH4 forcing equations is calibrated to a M0 of 731.41 ppb"
-CH4,Tsoil,n,n,y,160,years,CH4 loss to soil
-CH4,Tstrat,n,n,y,120,years,CH4 loss to stratosphere
-CH4,UC_CH4,n,n,y,2.78,Tg CH4 ppb-1,unit conversion between emissions and concentrations
-CH4,CH4N,n,n,y,341,,best fit
-CH4,CH4_emissions,n,y,y,"""(csv)""",,emissions time series
-CH5,CH4_constrain,n,y,n,"""(csv)""",,CH4 concentration constraint
-OH,NOX_emissions,n,y,y,"""(csv)""",,emissions time series
-OH,CO_emissions,n,y,y,"""(csv)""",,emissions time series
-OH,NMVOC_emissions,n,y,y,"""(csv)""",,emissions time series
-OH,TOH0,n,n,y,6.6,years,initial OH lifetime
-OH,CNOX,n,n,y,0.0042,,coefficient for NOX
-OH,CCO,n,n,y,-1.05E-04,,coefficient for CO
-OH,CNMVOC,n,n,y,-3.15E-04,,coefficient for NMVOC (non methane VOC)
-OH,CCH4,n,n,y,-0.32,,coefficient for CH4
-ozone,PO3,n,n,y,30,,preindustrial O3 concentration
-ozone,NOX_emissions,n,y,y,"""(csv)""",,emissions time series
-ozone,CO_emissions,n,y,y,"""(csv)""",,emissions time series
-ozone,NMVOC_emissions,n,y,y,"""(csv)""",,emissions time series
-N2O,N0,n,n,y,273.87,ppb,preindustrial nitrous oxide from IPCC AR6 table 7.SM.1
-N2O,UC_N2O,n,n,y,4.8,TgN ppbv-1,unit conversion between emissions and concentrations
-N2O,TN2O0,n,n,y,132,years,initial lifetime of N2O
-N2O,N2O_natural_emissions,n,y,y,9.5,,default natural emissions based on a best fit to IPCC AR6 N2O RF
-N2O,N2O_emissions,n,y,y,"""(csv)""",,emissions time series
-N2O,N2O_constrain,n,y,n,"""(csv)""",,N2O concentration constraint
-forcing,baseyear,n,n,y,1750,,"when to start reporting; by definition, all F=0 in this year"
-forcing,RF_tot_constrain,n,y,n,"""(csv)""",,"If supplied, the model will use these data, ignoring what it calculates"
-forcing,delta_co2,n,n,y,0.05,(unitless),forcing tropospheric adjustments for CO2 (7.3.2.1 of IPCC AR6)
-forcing,delta_ch4,n,n,y,-0.14,(unitless),forcing tropospheric adjustments for CH4 (7.3.2.2 of IPCC AR6)
-forcing,delta_n2o,n,n,y,0.07,(unitless),forcing tropospheric adjustments for N2O (7.3.2.3 of IPCC AR6)
-forcing,rho_bc,n,n,y,0.0508,W yr m-2 C Tg-1,IPCC AR6 radiative efficiency BC (7.SM.1.3 of IPCC AR6)
-forcing,rho_oc,n,n,y,-0.00621,W yr m-2 C Tg-1,IPCC AR6 radiative efficiency OC (7.SM.1.3.1 of IPCC AR6)
-forcing,rho_so2,n,n,y,-7.24E-06,W yr m-2 S Gg-1,IPCC AR6 radiative efficiency SO2 (7.SM.1.3.1 of IPCC AR6)
-forcing,rho_nh3,n,n,y,-0.00208,W yr m-2 NH3 Tg-1,IPCC AR6 radiative efficiency NH3 (7.SM.1.3.1 of IPCC AR6)
-forcing,RF_misc,n,n,n,"""(csv)""",,Miscellaneous radiative forcings default set to 0
-forcing,RF_misc,n,n,y,0,,"Miscellaneous radiative forcings default set to 0, or read in from a input table, may be used to read in additional forcings not modeled by Hector (i.e. solar, bc on snow , contrails from)"
-temperature,S,n,n,y,3,degC,equilibrium climate sensitivity for 2xCO2
-temperature,diff,n,n,y,2.3,cm2 s-1,ocean heat diffusivity
-temperature,alpha,n,n,y,1,(unitless),scaling factor for aerosol forcing
-temperature,volscl,n,n,y,1,(unitless),scaling factor for volcanic forcing
-temperature,qco2,n,n,y,3.75,,CO2 RF (7.3.2 of IPCC AR6)
-temperature,tas_constrain,n,y,n,"""(csv)""",,"Optional global temperature constraint; If supplied, the model will use these data, ignoring what it calculates"
-bc,BC_emissions,n,y,y,"""(csv)""",,
-oc,OC_emissions,n,y,y,"""(csv)""",,
-nh3,NH3_emissions,n,y,y,"""(csv)""",,
-CF4_halocarbon,tau,n,n,y,50000,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CF4_halocarbon,rho_CF4,n,n,y,9.90E-05,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CF4_halocarbon,delta_CF4,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CF4_halocarbon,H0,n,n,y,35,pptv,preindustrial concentration
-CF4_halocarbon,molarMass,n,n,y,88.0043,g,molar mass
-CF4_halocarbon,CF4_emissions,n,y,y,"""(csv)""",,
-C2F6_halocarbon,tau,n,n,y,10000,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-C2F6_halocarbon,rho_C2F6,n,n,y,2.61E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-C2F6_halocarbon,delta_C2F6,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-C2F6_halocarbon,molarMass,n,n,y,138.01,g,molar mass
-C2F6_halocarbon,C2F6_emissions,n,y,y,"""(csv)""",,
-HFC23_halocarbon,tau,n,n,y,228,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC23_halocarbon,rho_HFC23,n,n,y,1.91E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC23_halocarbon,delta_HFC23,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC23_halocarbon,molarMass,n,n,y,70,g,molar mass
-HFC23_halocarbon,HFC23_emissions,n,y,y,"""(csv)""",,
-HFC32_halocarbon,tau,n,n,y,5.4,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC32_halocarbon,rho_HFC32,n,n,y,1.11E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC32_halocarbon,delta_HFC32,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC32_halocarbon,molarMass,n,n,y,52,g,molar mass
-HFC32_halocarbon,HFC32_emissions,n,y,y,"""(csv)""",,
-HFC4310_halocarbon,tau,n,n,y,17,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC4310_halocarbon,rho_HFC4310,n,n,y,3.57E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC4310_halocarbon,delta_HFC4310,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC4310_halocarbon,molarMass,n,n,y,252,g,molar mass
-HFC4310_halocarbon,HFC4310_emissions,n,y,y,"""(csv)""",,
-HFC125_halocarbon,tau,n,n,y,30,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC125_halocarbon,rho_HFC125,n,n,y,2.34E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC125_halocarbon,delta_HFC125,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC125_halocarbon,molarMass,n,n,y,120.02,g,molar mass
-HFC125_halocarbon,HFC125_emissions,n,y,y,"""(csv)""",,
-HFC134a_halocarbon,tau,n,n,y,14,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC134a_halocarbon,rho_HFC134a,n,n,y,1.67E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC134a_halocarbon,delta_HFC134a,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC134a_halocarbon,molarMass,n,n,y,102.02,g,molar mass
-HFC134a_halocarbon,HFC134a_emissions,n,y,y,"""(csv)""",,
-HFC143a_halocarbon,tau,n,n,y,51,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC143a_halocarbon,rho_HFC143a,n,n,y,1.68E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC143a_halocarbon,delta_HFC143a,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC143a_halocarbon,molarMass,n,n,y,84.04,g,molar mass
-HFC143a_halocarbon,HFC143a_emissions,n,y,y,"""(csv)""",,
-HFC227ea_halocarbon,tau,n,n,y,36,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC227ea_halocarbon,rho_HFC227ea,n,n,y,2.73E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC227ea_halocarbon,delta_HFC227ea,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC227ea_halocarbon,molarMass,n,n,y,170.03,g,molar mass
-HFC227ea_halocarbon,HFC227ea_emissions,n,y,y,"""(csv)""",,
-HFC245fa_halocarbon,tau,n,n,y,7.9,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HFC245fa_halocarbon,rho_HFC245fa,n,n,y,2.45E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HFC245fa_halocarbon,delta_HFC245fa,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HFC245fa_halocarbon,molarMass,n,n,y,134,g,molar mass
-HFC245fa_halocarbon,HFC245fa_emissions,n,y,y,"""(csv)""",,
-SF6_halocarbon,tau,n,n,y,3200,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-SF6_halocarbon,rho_SF6,n,n,y,5.67E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-SF6_halocarbon,delta_SF6,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-SF6_halocarbon,molarMass,n,n,y,146.06,g,molar mass
-SF6_halocarbon,SF6_emissions,n,y,y,"""(csv)""",,
-CFC11_halocarbon,tau,n,n,y,52,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CFC11_halocarbon,rho_CFC11,n,n,y,2.59E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CFC11_halocarbon,delta_CFC11,n,n,y,0.13,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CFC11_halocarbon,molarMass,n,n,y,137.35,g,molar mass
-CFC11_halocarbon,CFC11_emissions,n,y,y,"""(csv)""",,
-CFC12_halocarbon,tau,n,n,y,102,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CFC12_halocarbon,rho_CFC12,n,n,y,3.20E-03,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CFC12_halocarbon,delta_CFC12,n,n,y,0.13,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CFC12_halocarbon,molarMass,n,n,y,120.9,g,molar mass
-CFC12_halocarbon,CFC12_emissions,n,y,y,"""(csv)""",,
-CFC113_halocarbon,tau,n,n,y,93,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CFC113_halocarbon,rho_CFC113,n,n,y,3.01E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CFC113_halocarbon,delta_CFC113,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CFC113_halocarbon,molarMass,n,n,y,187.35,g,molar mass
-CFC113_halocarbon,CFC113_emissions,n,y,y,"""(csv)""",,
-CFC114_halocarbon,tau,n,n,y,189,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CFC114_halocarbon,rho_CFC114,n,n,y,3.14E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CFC114_halocarbon,delta_CFC114,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CFC114_halocarbon,molarMass,n,n,y,170.9,g,molar mass
-CFC114_halocarbon,CFC114_emissions,n,y,y,"""(csv)""",,
-CFC115_halocarbon,tau,n,n,y,540,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CFC115_halocarbon,rho_CFC115,n,n,y,2.46E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CFC115_halocarbon,delta_CFC115,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CFC115_halocarbon,molarMass,n,n,y,154.45,g,molar mass
-CFC115_halocarbon,CCl4_emissions,n,y,y,"""(csv)""",,
-CCl4_halocarbon,tau,n,n,y,32,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CCl4_halocarbon,rho_CCl4,n,n,y,1.66E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CCl4_halocarbon,delta_CCl4,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CCl4_halocarbon,molarMass,n,n,y,153.8,g,molar mass
-CCl4_halocarbon,CFC115_emissions,n,y,y,"""(csv)""",,
-CH3CC13_halocarbon,tau,n,n,y,5,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CH3CC13_halocarbon,rho_CH3CCl3,n,n,y,6.50E-05,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CH3CC13_halocarbon,delta_CH3CCl3,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CH3CC13_halocarbon,molarMass,n,n,y,133.35,g,molar mass
-CH3CC13_halocarbon,CH3CCl3_emissions,n,y,y,"""(csv)""",,
-halon1211_halocarbon,tau,n,n,y,16,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-halon1211_halocarbon,rho_halon1211,n,n,y,3.00E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-halon1211_halocarbon,delta_halon1211,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-halon1211_halocarbon,molarMass,n,n,y,165.35,g,molar mass
-halon1211_halocarbon,halon1211_emissions,n,y,y,"""(csv)""",,
-halon1301_halocarbon,tau,n,n,y,72,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-halon1301_halocarbon,rho_halon1301,n,n,y,2.99E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-halon1301_halocarbon,delta_halon1301,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-halon1301_halocarbon,molarMass,n,n,y,148.9,g,molar mass
-halon1301_halocarbon,halon1301_emissions,n,y,y,"""(csv)""",,
-halon2402_halocarbon,tau,n,n,y,28,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-halon2402_halocarbon,rho_halon2402,n,n,y,3.12E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-halon2402_halocarbon,delta_halon2402,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-halon2402_halocarbon,molarMass,n,n,y,259.8,g,molar mass
-halon2402_halocarbon,halon2402_emissions,n,y,y,"""(csv)""",,
-HCF22_halocarbon,tau,n,n,y,11.9,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HCF22_halocarbon,rho_HCFC22,n,n,y,2.14E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HCF22_halocarbon,delta_HCFC22,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HCF22_halocarbon,molarMass,n,n,y,86.45,g,molar mass
-HCF22_halocarbon,HCFC22_emissions,n,y,y,"""(csv)""",,
-HCFC141b_halocarbon,tau,n,n,y,9.4,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HCFC141b_halocarbon,rho_HCFC141b,n,n,y,1.61E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HCFC141b_halocarbon,delta_HCFC141b,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HCFC141b_halocarbon,molarMass,n,n,y,116.9,g,molar mass
-HCFC141b_halocarbon,HCFC141b_emissions,n,y,y,"""(csv)""",,
-HCFC142b_halocarbon,tau,n,n,y,18,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-HCFC142b_halocarbon,rho_HCFC142b,n,n,y,1.93E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-HCFC142b_halocarbon,delta_HCFC142b,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-HCFC142b_halocarbon,molarMass,n,n,y,100.45,g,molar mass
-HCFC142b_halocarbon,HCFC142b_emissions,n,y,y,"""(csv)""",,
-CH3Cl_halocarbon,tau,n,n,y,0.9,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CH3Cl_halocarbon,rho_CH3Cl,n,n,y,5.00E-06,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CH3Cl_halocarbon,delta_CH3Cl,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CH3Cl_halocarbon,H0,n,n,y,504,pptv,"preindustrial concentration, from Saito et al 2007 GRL"
-CH3Cl_halocarbon,molarMass,n,n,y,50.45,g,molar mass
-CH3Cl_halocarbon,CH3Cl_emissions,n,y,y,"""(csv)""",,
-CH3Br_halocarbon,tau,n,n,y,0.8,years,lifetime in years (Table 7.SM.7 IPPC AR6)
-CH3Br_halocarbon,rho_CH3Br,n,n,y,4.00E-06,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
-CH3Br_halocarbon,delta_CH3Br,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
-CH3Br_halocarbon,H0,n,n,y,5.8,pptv,"preindustrial concentration, from Saltzman et al 2004 JGR"
-CH3Br_halocarbon,molarMass,n,n,y,50.45,g,molar mass
-CH3Br_halocarbon,CH3Br_emissions,n,y,y,"""(csv)""",,
+section,parameter,biome-specific,time-variant,required,default,units,description
+core,run_name,n,n,y,,(unitless),Name of model run
+core,startDate,n,n,y,1745,year,Start date of model run
+core,endDate,n,n,y,2300,year,End date of model run
+core,trackingDate,n,n,y,9999,year,Year to start tracking carbon
+core,do_spinup,n,n,y,1,(unitless),"If 1, spin up model before running (default=1)"
+core,max_spinup,n,n,y,2000,(unitless),Maximum steps allowed for spinup (default=2000)
+ocean,enabled,n,n,y,1,(unitless),Putting 'enabled=0' will disable any component
+ocean,spinup_chem,n,n,y,0,(unitless),Run ocean surface chemistry during spinup phase?
+ocean,tt,n,n,y,7.20E+07,m3 s-1,Ocean thermohaline circulation
+ocean,tu,n,n,y,4.90E+07,m3 s-1,Ocean high latitude overturning
+ocean,twi,n,n,y,1.25E+07,m3 s-1,Ocean warm-intermediate exchange
+ocean,tid,n,n,y,2.00E+08,m3 s-1,Ocean intermediate-deep exchange
+ocean,preind_surface_c,n,n,n,900,Pg C,Initial surface ocean carbon
+ocean,preind_interdeep_c,n,n,n,37100,Pg C,Initial intermediate + deep ocean carbon
+simpleNbox,atmos_co2,n,n,y,588.071,Pg C,Initial atmospheric CO2
+simpleNbox,C0,n,n,y,277.15,Pg C,Initial atmospheric C pool
+simpleNbox,pf.veg_c,y,n,n,55,Pg C,Initial vegetation C pool
+simpleNbox,nonpf.veg_c,y,n,n,495,Pg C,Initial vegetation C pool
+simpleNbox,veg_c,n,n,y,550,Pg C,Initial vegetation C pool
+simpleNbox,pf.detritus_c,y,n,n,5,Pg C,Initial detritus C pool
+simpleNbox,nonpf.detritus_c,y,n,n,50,Pg C,Initial detritus C pool
+simpleNbox,detritus_c,n,n,y,55,Pg C,Initial detritus C pool
+simpleNbox,pf.soil_c,y,n,n,308,Pg C,Initial soil C pool
+simpleNbox,nonpf.soil_c,y,n,n,609,Pg C,Initial soil C pool
+simpleNbox,soil_c,n,n,y,917,Pg C,Initial soil C pool
+simpleNbox,pf.permafrost_c,y,n,n,865,Pg C,Initial permafrost C pool
+simpleNbox,nonpf.permafrost_c,y,n,n,0,Pg C,Initial permafrost C pool
+simpleNbox,permafrost_c,n,n,y,865,Pg C,Initial permafrost C pool
+simpleNbox,pf.npp_flux0,y,n,n,5.6,Pg C yr-1,Preindustrial net primary production
+simpleNbox,nonpf.npp_flux0,y,n,n,50.6,Pg C yr-1,Preindustrial net primary production
+simpleNbox,npp_flux0,n,n,y,56.2,Pg C yr-1,Preindustrial net primary production
+simpleNbox,pf.f_nppv,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
+simpleNbox,nonpf.f_nppv,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
+simpleNbox,f_nppv,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
+simpleNbox,pf.f_nppd,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
+simpleNbox,nonpf.f_nppd,n,n,y,0.35,(unitless),Fraction of NPP to vegetation
+simpleNbox,f_nppd,n,n,y,0.6,(unitless),Fraction of NPP to detritus (balance to soil)
+simpleNbox,pf.f_litterd,n,n,n,0.35,(unitless),Fraction of NPP to vegetation
+simpleNbox,nonpf.f_litterd,n,n,n,0.35,(unitless),Fraction of NPP to vegetation
+simpleNbox,f_litterd,n,n,y,0.98,(unitless),Fraction of litter flux to detritus (balance to soil)
+simpleNbox,ffi_emissions,n,y,y,"""(csv)""",Pg C yr-1,Anthropogenic contributions: emissions
+simpleNbox,daccs_uptake,n,y,y,"""(csv)""",Pg C yr-1,Anthropogenic contributions: direct air carbon capture and storage
+simpleNbox,luc_emissions,n,y,y,"""(csv)""",Pg C yr-1,Anthropogenic contributions: land use change
+simpleNbox,luc_uptake,n,y,y,"""(csv)""",Pg C yr-2,Anthropogenic contributions: land use change
+simpleNbox,CO2_constrain,n,y,n,"""(csv)""",ppmv,Atmospheric CO2 constraint
+simpleNbox,NBP_constrain,n,y,n,"""(csv)""",Pg C yr-1,Net biome production (land-atmosphere C flux) constaint
+simpleNbox,pf.beta,n,n,n,0.36,(unitless),CO2 fertilization factor
+simpleNbox,nonpf.beta,n,n,n,0.36,(unitless),CO2 fertilization factor
+simpleNbox,beta,n,n,y,0.36,(unitless),CO2 fertilization factor
+simpleNbox,pf.q10_rh,n,n,n,2,(unitless),Respiration temperature response (Q10)
+simpleNbox,nonpf.q10_rh,n,n,n,2,(unitless),Respiration temperature response (Q10)
+simpleNbox,q10_rh,n,n,y,2,(unitless),Respiration temperature response (Q10)
+simpleNbox,pf.warmingfactor,y,n,n,2,(unitless),biome-specific warming factors
+simpleNbox,RF_albedo,n,n,y,"""(csv)""",W m-2,Albedo radiative forcing effect
+simpleNbox,permafrost_c,y,n,y,0,Pg C,Preindustrial permafrost carbon pool
+simpleNbox,fpf_static,y,n,n,0.74,(unitless),Fraction of permafrost that is static (non-labile)
+simpleNbox,rh_ch4_frac,y,n,n,0.023,(unitless),Fraction of thawed permafrost decomposed as CH4
+simpleNbox,pf_mu,y,n,n,1.67,(unitless),Permafrost thaw parameter; see Woodard et al. 2021
+simpleNbox,pf_sigma,y,n,n,0.986,(unitless),Permafrost thaw parameter; see Woodard et al. 2021
+carbon-cycle-solver,eps_abs,n,n,y,1.00E-06,(unitless),Solver solution tolerance
+carbon-cycle-solver,eps_rel,n,n,y,1.00E-06,(unitless),Solver solution tolerance
+carbon-cycle-solver,dt,n,n,y,0.25,(unitless),Solver default time step
+carbon-cycle-solver,eps_spinup,n,n,y,0.001,Pg C,"Model spinup tolerance (drift), Pg C"
+so2,SO2_emissions,n,y,y,"""(csv)""",,emissions time series
+so2,SV,n,y,y,"""(csv)""",,volcanic radiative forcing time series
+CH4,M0,n,n,y,731.41,ppb,"preindustrial methane IPCC AR6 Table 7.SM.1, the CH4 forcing equations is calibrated to a M0 of 731.41 ppb"
+CH4,Tsoil,n,n,y,160,years,CH4 loss to soil
+CH4,Tstrat,n,n,y,120,years,CH4 loss to stratosphere
+CH4,UC_CH4,n,n,y,2.78,Tg CH4 ppb-1,unit conversion between emissions and concentrations
+CH4,CH4N,n,n,y,341,,best fit
+CH4,CH4_emissions,n,y,y,"""(csv)""",,emissions time series
+CH5,CH4_constrain,n,y,n,"""(csv)""",,CH4 concentration constraint
+OH,NOX_emissions,n,y,y,"""(csv)""",,emissions time series
+OH,CO_emissions,n,y,y,"""(csv)""",,emissions time series
+OH,NMVOC_emissions,n,y,y,"""(csv)""",,emissions time series
+OH,TOH0,n,n,y,6.6,years,initial OH lifetime
+OH,CNOX,n,n,y,0.0042,,coefficient for NOX
+OH,CCO,n,n,y,-1.05E-04,,coefficient for CO
+OH,CNMVOC,n,n,y,-3.15E-04,,coefficient for NMVOC (non methane VOC)
+OH,CCH4,n,n,y,-0.32,,coefficient for CH4
+OH,H2_emissions,n,y,y,"""(csv)""",Tg H2,emissions time series
+ozone,PO3,n,n,y,30,,preindustrial O3 concentration
+ozone,NOX_emissions,n,y,y,"""(csv)""",,emissions time series
+ozone,CO_emissions,n,y,y,"""(csv)""",,emissions time series
+ozone,NMVOC_emissions,n,y,y,"""(csv)""",,emissions time series
+N2O,N0,n,n,y,273.87,ppb,preindustrial nitrous oxide from IPCC AR6 table 7.SM.1
+N2O,UC_N2O,n,n,y,4.8,TgN ppbv-1,unit conversion between emissions and concentrations
+N2O,TN2O0,n,n,y,132,years,initial lifetime of N2O
+N2O,N2O_natural_emissions,n,y,y,9.5,,default natural emissions based on a best fit to IPCC AR6 N2O RF
+N2O,N2O_emissions,n,y,y,"""(csv)""",,emissions time series
+N2O,N2O_constrain,n,y,n,"""(csv)""",,N2O concentration constraint
+forcing,baseyear,n,n,y,1750,,"when to start reporting; by definition, all F=0 in this year"
+forcing,RF_tot_constrain,n,y,n,"""(csv)""",,"If supplied, the model will use these data, ignoring what it calculates"
+forcing,delta_co2,n,n,y,0.05,(unitless),forcing tropospheric adjustments for CO2 (7.3.2.1 of IPCC AR6)
+forcing,delta_ch4,n,n,y,-0.14,(unitless),forcing tropospheric adjustments for CH4 (7.3.2.2 of IPCC AR6)
+forcing,delta_n2o,n,n,y,0.07,(unitless),forcing tropospheric adjustments for N2O (7.3.2.3 of IPCC AR6)
+forcing,rho_bc,n,n,y,0.0508,W yr m-2 C Tg-1,IPCC AR6 radiative efficiency BC (7.SM.1.3 of IPCC AR6)
+forcing,rho_oc,n,n,y,-0.00621,W yr m-2 C Tg-1,IPCC AR6 radiative efficiency OC (7.SM.1.3.1 of IPCC AR6)
+forcing,rho_so2,n,n,y,-7.24E-06,W yr m-2 S Gg-1,IPCC AR6 radiative efficiency SO2 (7.SM.1.3.1 of IPCC AR6)
+forcing,rho_nh3,n,n,y,-0.00208,W yr m-2 NH3 Tg-1,IPCC AR6 radiative efficiency NH3 (7.SM.1.3.1 of IPCC AR6)
+forcing,RF_misc,n,n,n,"""(csv)""",,Miscellaneous radiative forcings default set to 0
+forcing,RF_misc,n,n,y,0,,"Miscellaneous radiative forcings default set to 0, or read in from a input table, may be used to read in additional forcings not modeled by Hector (i.e. solar, bc on snow , contrails from)"
+temperature,S,n,n,y,3,degC,equilibrium climate sensitivity for 2xCO2
+temperature,diff,n,n,y,2.3,cm2 s-1,ocean heat diffusivity
+temperature,alpha,n,n,y,1,(unitless),scaling factor for aerosol forcing
+temperature,volscl,n,n,y,1,(unitless),scaling factor for volcanic forcing
+temperature,qco2,n,n,y,3.75,,CO2 RF (7.3.2 of IPCC AR6)
+temperature,tas_constrain,n,y,n,"""(csv)""",,"Optional global temperature constraint; If supplied, the model will use these data, ignoring what it calculates"
+bc,BC_emissions,n,y,y,"""(csv)""",,
+oc,OC_emissions,n,y,y,"""(csv)""",,
+nh3,NH3_emissions,n,y,y,"""(csv)""",,
+CF4_halocarbon,tau,n,n,y,50000,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CF4_halocarbon,rho_CF4,n,n,y,9.90E-05,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CF4_halocarbon,delta_CF4,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CF4_halocarbon,H0,n,n,y,35,pptv,preindustrial concentration
+CF4_halocarbon,molarMass,n,n,y,88.0043,g,molar mass
+CF4_halocarbon,CF4_emissions,n,y,y,"""(csv)""",,
+C2F6_halocarbon,tau,n,n,y,10000,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+C2F6_halocarbon,rho_C2F6,n,n,y,2.61E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+C2F6_halocarbon,delta_C2F6,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+C2F6_halocarbon,molarMass,n,n,y,138.01,g,molar mass
+C2F6_halocarbon,C2F6_emissions,n,y,y,"""(csv)""",,
+HFC23_halocarbon,tau,n,n,y,228,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC23_halocarbon,rho_HFC23,n,n,y,1.91E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC23_halocarbon,delta_HFC23,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC23_halocarbon,molarMass,n,n,y,70,g,molar mass
+HFC23_halocarbon,HFC23_emissions,n,y,y,"""(csv)""",,
+HFC32_halocarbon,tau,n,n,y,5.4,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC32_halocarbon,rho_HFC32,n,n,y,1.11E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC32_halocarbon,delta_HFC32,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC32_halocarbon,molarMass,n,n,y,52,g,molar mass
+HFC32_halocarbon,HFC32_emissions,n,y,y,"""(csv)""",,
+HFC4310_halocarbon,tau,n,n,y,17,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC4310_halocarbon,rho_HFC4310,n,n,y,3.57E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC4310_halocarbon,delta_HFC4310,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC4310_halocarbon,molarMass,n,n,y,252,g,molar mass
+HFC4310_halocarbon,HFC4310_emissions,n,y,y,"""(csv)""",,
+HFC125_halocarbon,tau,n,n,y,30,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC125_halocarbon,rho_HFC125,n,n,y,2.34E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC125_halocarbon,delta_HFC125,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC125_halocarbon,molarMass,n,n,y,120.02,g,molar mass
+HFC125_halocarbon,HFC125_emissions,n,y,y,"""(csv)""",,
+HFC134a_halocarbon,tau,n,n,y,14,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC134a_halocarbon,rho_HFC134a,n,n,y,1.67E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC134a_halocarbon,delta_HFC134a,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC134a_halocarbon,molarMass,n,n,y,102.02,g,molar mass
+HFC134a_halocarbon,HFC134a_emissions,n,y,y,"""(csv)""",,
+HFC143a_halocarbon,tau,n,n,y,51,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC143a_halocarbon,rho_HFC143a,n,n,y,1.68E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC143a_halocarbon,delta_HFC143a,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC143a_halocarbon,molarMass,n,n,y,84.04,g,molar mass
+HFC143a_halocarbon,HFC143a_emissions,n,y,y,"""(csv)""",,
+HFC227ea_halocarbon,tau,n,n,y,36,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC227ea_halocarbon,rho_HFC227ea,n,n,y,2.73E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC227ea_halocarbon,delta_HFC227ea,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC227ea_halocarbon,molarMass,n,n,y,170.03,g,molar mass
+HFC227ea_halocarbon,HFC227ea_emissions,n,y,y,"""(csv)""",,
+HFC245fa_halocarbon,tau,n,n,y,7.9,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HFC245fa_halocarbon,rho_HFC245fa,n,n,y,2.45E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HFC245fa_halocarbon,delta_HFC245fa,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HFC245fa_halocarbon,molarMass,n,n,y,134,g,molar mass
+HFC245fa_halocarbon,HFC245fa_emissions,n,y,y,"""(csv)""",,
+SF6_halocarbon,tau,n,n,y,3200,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+SF6_halocarbon,rho_SF6,n,n,y,5.67E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+SF6_halocarbon,delta_SF6,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+SF6_halocarbon,molarMass,n,n,y,146.06,g,molar mass
+SF6_halocarbon,SF6_emissions,n,y,y,"""(csv)""",,
+CFC11_halocarbon,tau,n,n,y,52,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CFC11_halocarbon,rho_CFC11,n,n,y,2.59E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CFC11_halocarbon,delta_CFC11,n,n,y,0.13,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CFC11_halocarbon,molarMass,n,n,y,137.35,g,molar mass
+CFC11_halocarbon,CFC11_emissions,n,y,y,"""(csv)""",,
+CFC12_halocarbon,tau,n,n,y,102,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CFC12_halocarbon,rho_CFC12,n,n,y,3.20E-03,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CFC12_halocarbon,delta_CFC12,n,n,y,0.13,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CFC12_halocarbon,molarMass,n,n,y,120.9,g,molar mass
+CFC12_halocarbon,CFC12_emissions,n,y,y,"""(csv)""",,
+CFC113_halocarbon,tau,n,n,y,93,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CFC113_halocarbon,rho_CFC113,n,n,y,3.01E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CFC113_halocarbon,delta_CFC113,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CFC113_halocarbon,molarMass,n,n,y,187.35,g,molar mass
+CFC113_halocarbon,CFC113_emissions,n,y,y,"""(csv)""",,
+CFC114_halocarbon,tau,n,n,y,189,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CFC114_halocarbon,rho_CFC114,n,n,y,3.14E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CFC114_halocarbon,delta_CFC114,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CFC114_halocarbon,molarMass,n,n,y,170.9,g,molar mass
+CFC114_halocarbon,CFC114_emissions,n,y,y,"""(csv)""",,
+CFC115_halocarbon,tau,n,n,y,540,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CFC115_halocarbon,rho_CFC115,n,n,y,2.46E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CFC115_halocarbon,delta_CFC115,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CFC115_halocarbon,molarMass,n,n,y,154.45,g,molar mass
+CFC115_halocarbon,CCl4_emissions,n,y,y,"""(csv)""",,
+CCl4_halocarbon,tau,n,n,y,32,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CCl4_halocarbon,rho_CCl4,n,n,y,1.66E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CCl4_halocarbon,delta_CCl4,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CCl4_halocarbon,molarMass,n,n,y,153.8,g,molar mass
+CCl4_halocarbon,CFC115_emissions,n,y,y,"""(csv)""",,
+CH3CC13_halocarbon,tau,n,n,y,5,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CH3CC13_halocarbon,rho_CH3CCl3,n,n,y,6.50E-05,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CH3CC13_halocarbon,delta_CH3CCl3,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CH3CC13_halocarbon,molarMass,n,n,y,133.35,g,molar mass
+CH3CC13_halocarbon,CH3CCl3_emissions,n,y,y,"""(csv)""",,
+halon1211_halocarbon,tau,n,n,y,16,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+halon1211_halocarbon,rho_halon1211,n,n,y,3.00E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+halon1211_halocarbon,delta_halon1211,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+halon1211_halocarbon,molarMass,n,n,y,165.35,g,molar mass
+halon1211_halocarbon,halon1211_emissions,n,y,y,"""(csv)""",,
+halon1301_halocarbon,tau,n,n,y,72,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+halon1301_halocarbon,rho_halon1301,n,n,y,2.99E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+halon1301_halocarbon,delta_halon1301,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+halon1301_halocarbon,molarMass,n,n,y,148.9,g,molar mass
+halon1301_halocarbon,halon1301_emissions,n,y,y,"""(csv)""",,
+halon2402_halocarbon,tau,n,n,y,28,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+halon2402_halocarbon,rho_halon2402,n,n,y,3.12E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+halon2402_halocarbon,delta_halon2402,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+halon2402_halocarbon,molarMass,n,n,y,259.8,g,molar mass
+halon2402_halocarbon,halon2402_emissions,n,y,y,"""(csv)""",,
+HCF22_halocarbon,tau,n,n,y,11.9,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HCF22_halocarbon,rho_HCFC22,n,n,y,2.14E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HCF22_halocarbon,delta_HCFC22,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HCF22_halocarbon,molarMass,n,n,y,86.45,g,molar mass
+HCF22_halocarbon,HCFC22_emissions,n,y,y,"""(csv)""",,
+HCFC141b_halocarbon,tau,n,n,y,9.4,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HCFC141b_halocarbon,rho_HCFC141b,n,n,y,1.61E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HCFC141b_halocarbon,delta_HCFC141b,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HCFC141b_halocarbon,molarMass,n,n,y,116.9,g,molar mass
+HCFC141b_halocarbon,HCFC141b_emissions,n,y,y,"""(csv)""",,
+HCFC142b_halocarbon,tau,n,n,y,18,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+HCFC142b_halocarbon,rho_HCFC142b,n,n,y,1.93E-04,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+HCFC142b_halocarbon,delta_HCFC142b,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+HCFC142b_halocarbon,molarMass,n,n,y,100.45,g,molar mass
+HCFC142b_halocarbon,HCFC142b_emissions,n,y,y,"""(csv)""",,
+CH3Cl_halocarbon,tau,n,n,y,0.9,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CH3Cl_halocarbon,rho_CH3Cl,n,n,y,5.00E-06,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CH3Cl_halocarbon,delta_CH3Cl,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CH3Cl_halocarbon,H0,n,n,y,504,pptv,"preindustrial concentration, from Saito et al 2007 GRL"
+CH3Cl_halocarbon,molarMass,n,n,y,50.45,g,molar mass
+CH3Cl_halocarbon,CH3Cl_emissions,n,y,y,"""(csv)""",,
+CH3Br_halocarbon,tau,n,n,y,0.8,years,lifetime in years (Table 7.SM.7 IPPC AR6)
+CH3Br_halocarbon,rho_CH3Br,n,n,y,4.00E-06,W m-2 ppt-1,radiative efficiencies (Table 7.SM.7 IPPC AR6)
+CH3Br_halocarbon,delta_CH3Br,n,n,y,0,(unitless),tropospheric adjustments scalar (7.3.2.4 IPCC AR6)
+CH3Br_halocarbon,H0,n,n,y,5.8,pptv,"preindustrial concentration, from Saltzman et al 2004 JGR"
+CH3Br_halocarbon,molarMass,n,n,y,50.45,g,molar mass
+CH3Br_halocarbon,CH3Br_emissions,n,y,y,"""(csv)""",,
\ No newline at end of file
diff --git a/data/inputstable.rda b/data/inputstable.rda
index 5c844f66..c9e1d5d9 100644
Binary files a/data/inputstable.rda and b/data/inputstable.rda differ