Rasm Simulations: Quality Control For Community Based Sea Ice Model Development

RASM simulations: Quality Control for Community Based Sea Ice Model Development ----------------------------------------------------------------------------------- Data from the Regional Arctic System Model (RASM) simulations by Andrew F. Roberts at Naval Postgraduate School, described in the manusc...

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Bibliographic Details
Main Author: Roberts, Andrew
Format: Dataset
Language:unknown
Published: Zenodo 2018
Subjects:
sea ice
Arctic
Hlid
Sea ice
Online Access:https://dx.doi.org/10.5281/zenodo.1308235
https://zenodo.org/record/1308235
Description
Summary:RASM simulations: Quality Control for Community Based Sea Ice Model Development ----------------------------------------------------------------------------------- Data from the Regional Arctic System Model (RASM) simulations by Andrew F. Roberts at Naval Postgraduate School, described in the manuscript: Roberts, Hunke, Allard, Bailey, Craig, Lemieux and Turner (2018): Quality Control for Community Based Sea Ice Model Development. It was produced using RASM with CICE sea ice model version 5.2 with the namelist: &setup_nml bfbflag = .false. diagfreq = 24 hist_avg = .true. histfreq = 'h','x','x','x','x' histfreq_n = 1,0,0,0,0 ice_ic = '/work4/projects/apcraig_dir/RACM/inputdata/ccsm4_init/R1008Gcaaa01a_loop2/1979-09-01/R1008Gcaaa01a_loop2.cice.r.1979-09-01-00000.nc' latpnt = 90.0,-65.0 lcdf64 = .true. lonpnt = 0.0,-45.0 ndtd = 1 pointer_file = './rpointer.ice' print_global = .true. print_points = .false. restart_ext = .false. restart_format = 'pio' year_init = 1 / &grid_nml grid_file = '/work4/projects/apcraig_dir/RACM/inputdata/ice/cice/ar9v3_20101118.grid' grid_format = 'bin' grid_type = 'regional' gridcpl_file = '/work4/projects/apcraig_dir/RACM/inputdata/ice/cice/domain.ocn.ar9v4.100920.nc' kcatbound = 0 kmt_file = '/work4/projects/apcraig_dir/RACM/inputdata/ice/cice/ar9v3_20110106.kmt' / &tracer_nml restart_aero = .false. restart_age = .false. restart_fy = .false. restart_lvl = .false. restart_pond_cesm = .false. restart_pond_lvl = .false. restart_pond_topo = .false. tr_aero = .false. tr_fy = .true. tr_iage = .true. tr_lvl = .true. tr_pond_cesm = .false. tr_pond_lvl = .true. tr_pond_topo = .false. / &thermo_nml a_rapid_mode = 0.5e-03 aspect_rapid_mode = 1.0 conduct = 'bubbly' dsdt_slow_mode = -1.5e-07 kitd = 1 ktherm = 2 phi_c_slow_mode = 0.05 phi_i_mushy = 0.85 rac_rapid_mode = 10 / &dynamics_nml advection = 'remap' cf = 21.3 kdyn = 2 (EAP) or kdyn = 2 (EVP) krdg_partic = 1 krdg_redist = 1 kstrength = 1 mu_rdg = 3.0 ndte = 600 revised_evp = .false. / &shortwave_nml ahmax = 0.3 albedo_type = 'default' albicei = 0.45 albicev = 0.75 albsnowi = 0.73 albsnowv = 0.98 dt_mlt = 1.00 kalg = 0.0 r_ice = 0.0 r_pnd = 0.0 r_snw = 0.50 rsnw_mlt = 1000. shortwave = 'dEdd' / &ponds_nml dpscale = 1.0e-3 frzpnd = 'hlid' hp1 = 0.01 hs0 = 0.03 hs1 = 0.03 pndaspect = 0.8 rfracmax = 0.85 rfracmin = 0.15 / &forcing_nml fbot_xfer_type = 'constant' formdrag = .false. highfreq = .true. l_mpond_fresh = .false. natmiter = 25 tfrz_option = 'mushy' / &domain_nml distribution_type = 'roundrobin' ew_boundary_type = 'cyclic' maskhalo_bound = .true. maskhalo_dyn = .true. maskhalo_remap = .true. ns_boundary_type = 'open' processor_shape = 'null' / &zbgc_nml bgc_data_dir = 'unknown_bgc_data_dir' bgc_flux_type = 'Jin2006' nit_data_type = 'unknown' phi_snow = 0.5 restart_bgc = .false. restart_hbrine = .false. restore_bgc = .false. sil_data_type = 'unknown' skl_bgc = .false. tr_bgc_am_sk = .false. tr_bgc_c_sk = .false. tr_bgc_chl_sk = .false. tr_bgc_dms_sk = .false. tr_bgc_dmspd_sk = .false. tr_bgc_dmspp_sk = .false. tr_bgc_sil_sk = .false. tr_brine = .false. / &icefields_bgc_nml f_aero = 'mxxxx' f_aeron = 'xxxxx' f_bgc_am_ml = 'xxxxx' f_bgc_am_sk = 'xxxxx' f_bgc_c = 'xxxxx' f_bgc_c_sk = 'xxxxx' f_bgc_chl = 'xxxxx' f_bgc_chl_sk = 'xxxxx' f_bgc_dms = 'xxxxx' f_bgc_dms_ml = 'xxxxx' f_bgc_dms_sk = 'xxxxx' f_bgc_dmsp_ml = 'xxxxx' f_bgc_dmspd = 'xxxxx' f_bgc_dmspd_sk = 'xxxxx' f_bgc_dmspp = 'xxxxx' f_bgc_dmspp_sk = 'xxxxx' f_bgc_n = 'xxxxx' f_bgc_n_sk = 'xxxxx' f_bgc_nh = 'xxxxx' f_bgc_nit_ml = 'xxxxx' f_bgc_nit_sk = 'xxxxx' f_bgc_no = 'xxxxx' f_bgc_s = 'xxxxx' f_bgc_sil = 'xxxxx' f_bgc_sil_ml = 'xxxxx' f_bgc_sil_sk = 'xxxxx' f_bphi = 'xxxxx' f_btin = 'xxxxx' f_faero_atm = 'mxxxx' f_faero_ocn = 'mxxxx' f_fbri = 'xxxxx' f_fn = 'xxxxx' f_fn_ai = 'xxxxx' f_fnh = 'xxxxx' f_fnh_ai = 'xxxxx' f_fno = 'xxxxx' f_fno_ai = 'xxxxx' f_fsil = 'xxxxx' f_fsil_ai = 'xxxxx' f_grownet = 'xxxxx' f_hbri = 'xxxxx' f_ppnet = 'xxxxx' / &icefields_drag_nml f_cdn_atm = 'hxxxx' f_cdn_ocn = 'hxxxx' f_drag = 'hxxxx' / &icefields_mechred_nml f_alvl = 'hxxxx' f_aparticn = 'xxxxx' f_araftn = 'xxxxx' f_ardg = 'hxxxx' f_ardgn = 'hxxxx' f_aredistn = 'xxxxx' f_dardg1dt = 'xxxxx' f_dardg1ndt = 'xxxxx' f_dardg2dt = 'xxxxx' f_dardg2ndt = 'xxxxx' f_dvirdgdt = 'xxxxx' f_dvirdgndt = 'xxxxx' f_krdgn = 'xxxxx' f_opening = 'hxxxx' f_vlvl = 'hxxxx' f_vraftn = 'xxxxx' f_vrdg = 'hxxxx' f_vrdgn = 'hxxxx' f_vredistn = 'xxxxx' / &icefields_pond_nml f_apeff = 'hxxxx' f_apeff_ai = 'hxxxx' f_apeffn = 'hxxxx' f_apond = 'hxxxx' f_apond_ai = 'hxxxx' f_apondn = 'hxxxx' f_hpond = 'hxxxx' f_hpond_ai = 'hxxxx' f_hpondn = 'hxxxx' f_ipond = 'hxxxx' f_ipond_ai = 'hxxxx' / &icefields_nml f_a11 = 'hxxxx' f_a12 = 'hxxxx' f_aice = 'hxxxx' f_aicen = 'hxxxx' f_aisnap = 'hxxxx' f_albice = 'hxxxx' f_albpnd = 'hxxxx' f_albsni = 'hxxxx' f_albsno = 'hxxxx' f_alidf = 'hxxxx' f_alidr = 'hxxxx' f_alvdf = 'hxxxx' f_alvdr = 'hxxxx' f_angle = .true. f_anglet = .true. f_blkmask = .true. f_bounds = .false. f_congel = 'hxxxx' f_coszen = 'hxxxx' f_daidtd = 'hxxxx' f_daidtt = 'hxxxx' f_divu = 'hxxxx' f_dsnow = 'hxxxx' f_dvidtd = 'hxxxx' f_dvidtt = 'hxxxx' f_dxt = .false. f_dxu = .false. f_dyt = .false. f_dyu = .false. f_e11 = 'xxxxx' f_e12 = 'xxxxx' f_e22 = 'xxxxx' f_evap = 'hxxxx' f_evap_ai = 'hxxxx' f_fcondtop_ai = 'hxxxx' f_fcondtopn_ai = 'hxxxx' f_fhocn = 'hxxxx' f_fhocn_ai = 'hxxxx' f_flat = 'hxxxx' f_flat_ai = 'hxxxx' f_flatn_ai = 'hxxxx' f_flwdn = 'hxxxx' f_flwup = 'hxxxx' f_flwup_ai = 'hxxxx' f_fmeltt_ai = 'hxxxx' f_fmelttn_ai = 'hxxxx' f_frazil = 'hxxxx' f_fresh = 'hxxxx' f_fresh_ai = 'hxxxx' f_frz_onset = 'hxxxx' f_frzmlt = 'hxxxx' f_fsalt = 'hxxxx' f_fsalt_ai = 'hxxxx' f_fsens = 'hxxxx' f_fsens_ai = 'hxxxx' f_fsensn_ai = 'hxxxx' f_fsurf_ai = 'hxxxx' f_fsurfn_ai = 'hxxxx' f_fswabs = 'hxxxx' f_fswabs_ai = 'hxxxx' f_fswdn = 'hxxxx' f_fswfac = 'hxxxx' f_fswint_ai = 'xxxxx' f_fswthru = 'hxxxx' f_fswthru_ai = 'hxxxx' f_fy = 'hxxxx' f_hi = 'hxxxx' f_hisnap = 'xxxxx' f_hs = 'hxxxx' f_hte = .false. f_htn = .false. f_iage = 'hxxxx' f_icepresent = 'hxxxx' f_keffn_top = 'xxxxx' f_meltb = 'hxxxx' f_meltl = 'hxxxx' f_melts = 'hxxxx' f_meltt = 'hxxxx' f_mlt_onset = 'hxxxx' f_ncat = .true. f_qref = 'hxxxx' f_rain = 'hxxxx' f_rain_ai = 'hxxxx' f_s11 = 'hxxxx' f_s12 = 'hxxxx' f_s22 = 'hxxxx' f_shear = 'hxxxx' f_sice = 'hxxxx' f_sig1 = 'hxxxx' f_sig2 = 'hxxxx' f_sinz = 'xxxxx' f_snoice = 'hxxxx' f_snow = 'hxxxx' f_snow_ai = 'hxxxx' f_sss = 'hxxxx' f_sst = 'hxxxx' f_strairx = 'hxxxx' f_strairy = 'hxxxx' f_strcorx = 'hxxxx' f_strcory = 'hxxxx' f_strength = 'hxxxx' f_strintx = 'hxxxx' f_strinty = 'hxxxx' f_strocnx = 'hxxxx' f_strocny = 'hxxxx' f_strtltx = 'hxxxx' f_strtlty = 'hxxxx' f_tair = 'hxxxx' f_tarea = .true. f_tinz = 'xxxxx' f_tmask = .true. f_tref = 'hxxxx' f_trsig = 'hxxxx' f_tsfc = 'hxxxx' f_tsnz = 'xxxxx' f_uarea = .true. f_uatm = 'hxxxx' f_uocn = 'hxxxx' f_uvel = 'hxxxx' f_vatm = 'hxxxx' f_vgrdb = .true. f_vgrdi = .true. f_vgrds = .true. f_vicen = 'hxxxx' f_vocn = 'hxxxx' f_vsnon = 'hxxxx' f_vvel = 'hxxxx' f_yieldstress11 = 'hxxxx' f_yieldstress12 = 'hxxxx' f_yieldstress22 = 'hxxxx' / &ice_prescribed_nml prescribed_ice = .false. /

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