netcdf CESM2.1_piControl_901-1000.cvdp_data.901-1000 { dimensions: TIME = 100 ; time_lag_cor = 31 ; lev = 61 ; lat_amoc = 395 ; ncurves = 4 ; frequency2 = 50 ; lat = 192 ; lon = 288 ; frequency = 600 ; time = 1200 ; j = 384 ; i = 320 ; j2 = 384 ; i2 = 320 ; longitude = 129 ; time_mon3 = 49 ; time_mon1 = 29 ; time_mon2 = 12 ; period = 123 ; variables: int TIME(TIME) ; TIME:calendar = "standard" ; TIME:standard_name = "time" ; TIME:long_name = "time" ; TIME:units = "YYYY" ; float amoc_amv_lag_cor(time_lag_cor) ; amoc_amv_lag_cor:_FillValue = 9.96921e+36f ; amoc_amv_lag_cor:long_name = "AMOC AMV lead lag correlation" ; amoc_amv_lag_cor:missing_value = 9.96921e+36f ; amoc_amv_lag_cor:units = "1" ; float amoc_mean_ann(lev, lat_amoc) ; amoc_mean_ann:long_name = "AMOC mean (annual)" ; amoc_mean_ann:units = "Sv" ; amoc_mean_ann:_FillValue = 9.96921e+36f ; amoc_mean_ann:missing_value = 9.96921e+36f ; float amoc_pattern_ann(lev, lat_amoc) ; amoc_pattern_ann:units = "Sv" ; amoc_pattern_ann:long_name = "AMOC regression onto AMOC principal component timeseries (annual)" ; amoc_pattern_ann:_FillValue = 1.e+20f ; amoc_pattern_ann:pcvar = "46.6%*" ; amoc_pattern_ann:missing_value = 1.e+20f ; float amoc_spectra_ann(ncurves, frequency2) ; amoc_spectra_ann:_FillValue = 9.96921e+36f ; amoc_spectra_ann:units_info = "df refers to frequency interval; data are standardized so there are no physical units" ; amoc_spectra_ann:units = "1/df" ; amoc_spectra_ann:info = "(0,:)=spectrum,(1,:)=Markov red noise spectrum, (2,:)=0.95% confidence bound for Markhov, (3,:)=0.99% confidence bound for Markhov" ; amoc_spectra_ann:missing_value = 9.96921e+36f ; amoc_spectra_ann:long_name = "AMOC (monthly) power spectra, Markov spectrum and confidence curves" ; float amoc_sst_regression_ann(lat, lon) ; amoc_sst_regression_ann:_FillValue = -900.f ; amoc_sst_regression_ann:units = "C" ; amoc_sst_regression_ann:long_name = "sst regression onto AMOC principal component timeseries (annual)" ; amoc_sst_regression_ann:missing_value = -900.f ; float amoc_stddev_ann(lev, lat_amoc) ; amoc_stddev_ann:_FillValue = 9.96921e+36f ; amoc_stddev_ann:units = "Sv" ; amoc_stddev_ann:long_name = "AMOC standard deviation (annual)" ; amoc_stddev_ann:missing_value = 9.96921e+36f ; float amoc_tas_regression_ann(lat, lon) ; amoc_tas_regression_ann:_FillValue = -900.f ; amoc_tas_regression_ann:units = "C" ; amoc_tas_regression_ann:long_name = "tas regression onto AMOC principal component timeseries (annual)" ; amoc_tas_regression_ann:missing_value = -900.f ; float amoc_timeseries_ann(TIME) ; amoc_timeseries_ann:_FillValue = 1.e+20f ; amoc_timeseries_ann:long_name = "AMOC pc1 timeseries (annual)" ; amoc_timeseries_ann:missing_value = 1.e+20f ; amoc_timeseries_ann:units = "1" ; float amv_pattern_lowpass_mon(lat, lon) ; amv_pattern_lowpass_mon:long_name = "AMV low-pass regression pattern (monthly)" ; amv_pattern_lowpass_mon:units = "C" ; amv_pattern_lowpass_mon:_FillValue = -900.f ; amv_pattern_lowpass_mon:missing_value = -900.f ; float amv_pattern_mon(lat, lon) ; amv_pattern_mon:long_name = "amv regression pattern (monthly)" ; amv_pattern_mon:units = "C" ; amv_pattern_mon:_FillValue = -900.f ; amv_pattern_mon:missing_value = -900.f ; float amv_pr_regression_lowpass_mon(lat, lon) ; amv_pr_regression_lowpass_mon:long_name = "pr low-pass regression onto AMV low-pass timeseries (monthly)" ; amv_pr_regression_lowpass_mon:units = "mm/day" ; amv_pr_regression_lowpass_mon:_FillValue = -900.f ; amv_pr_regression_lowpass_mon:missing_value = -900.f ; float amv_pr_regression_mon(lat, lon) ; amv_pr_regression_mon:_FillValue = -900.f ; amv_pr_regression_mon:long_name = "pr regression onto AMV timeseries (monthly)" ; amv_pr_regression_mon:units = "mm/day" ; amv_pr_regression_mon:missing_value = -900.f ; float amv_prime_pattern_lowpass_mon(lat, lon) ; amv_prime_pattern_lowpass_mon:long_name = "AMV\' low-pass regression pattern (monthly)" ; amv_prime_pattern_lowpass_mon:units = "C" ; amv_prime_pattern_lowpass_mon:_FillValue = -900.f ; amv_prime_pattern_lowpass_mon:missing_value = -900.f ; float amv_prime_pattern_mon(lat, lon) ; amv_prime_pattern_mon:long_name = "AMV\' regression pattern (monthly)" ; amv_prime_pattern_mon:units = "C" ; amv_prime_pattern_mon:_FillValue = -900.f ; amv_prime_pattern_mon:missing_value = -900.f ; float amv_prime_pr_regression_lowpass_mon(lat, lon) ; amv_prime_pr_regression_lowpass_mon:long_name = "pr low-pass regression onto AMV low-pass timeseries (monthly)" ; amv_prime_pr_regression_lowpass_mon:units = "mm/day" ; amv_prime_pr_regression_lowpass_mon:_FillValue = -900.f ; amv_prime_pr_regression_lowpass_mon:missing_value = -900.f ; float amv_prime_pr_regression_mon(lat, lon) ; amv_prime_pr_regression_mon:_FillValue = -900.f ; amv_prime_pr_regression_mon:long_name = "pr regression onto AMV low-pass timeseries (monthly)" ; amv_prime_pr_regression_mon:units = "mm/day" ; amv_prime_pr_regression_mon:missing_value = -900.f ; float amv_prime_spectra(ncurves, frequency) ; amv_prime_spectra:info = "(0,:)=spectrum,(1,:)=Markov red noise spectrum, (2,:)=0.95% confidence bound for Markhov, (3,:)=0.99% confidence bound for Markhov" ; amv_prime_spectra:units = "1/df" ; amv_prime_spectra:units_info = "df refers to frequency interval; data are standardized so there are no physical units" ; amv_prime_spectra:_FillValue = 9.96921e+36f ; amv_prime_spectra:missing_value = 9.96921e+36f ; amv_prime_spectra:long_name = "AMV\' (monthly) power spectra, Markov spectrum and confidence curves" ; float amv_prime_tas_regression_lowpass_mon(lat, lon) ; amv_prime_tas_regression_lowpass_mon:long_name = "tas prime low-pass regression onto AMV prime low-pass timeseries (monthly)" ; amv_prime_tas_regression_lowpass_mon:units = "C" ; amv_prime_tas_regression_lowpass_mon:_FillValue = -900.f ; amv_prime_tas_regression_lowpass_mon:missing_value = -900.f ; float amv_prime_tas_regression_mon(lat, lon) ; amv_prime_tas_regression_mon:_FillValue = -900.f ; amv_prime_tas_regression_mon:long_name = "tas prime regression onto AMV prime timeseries (monthly)" ; amv_prime_tas_regression_mon:units = "C" ; amv_prime_tas_regression_mon:missing_value = -900.f ; float amv_prime_timeseries_lowpass_mon(time) ; amv_prime_timeseries_lowpass_mon:_FillValue = -900.f ; amv_prime_timeseries_lowpass_mon:missing_value = -900.f ; amv_prime_timeseries_lowpass_mon:long_name = "AMV\' low-pass timeseries (monthly)" ; amv_prime_timeseries_lowpass_mon:units = "C" ; float amv_prime_timeseries_mon(time) ; amv_prime_timeseries_mon:_FillValue = -900.f ; amv_prime_timeseries_mon:missing_value = -900.f ; amv_prime_timeseries_mon:long_name = "AMV\' timeseries (monthly)" ; amv_prime_timeseries_mon:units = "C" ; float amv_spectra(ncurves, frequency) ; amv_spectra:info = "(0,:)=spectrum,(1,:)=Markov red noise spectrum, (2,:)=0.95% confidence bound for Markhov, (3,:)=0.99% confidence bound for Markhov" ; amv_spectra:units = "1/df" ; amv_spectra:units_info = "df refers to frequency interval; data are standardized so there are no physical units" ; amv_spectra:_FillValue = 9.96921e+36f ; amv_spectra:missing_value = 9.96921e+36f ; amv_spectra:long_name = "AMV (monthly) power spectra, Markov spectrum and confidence curves" ; float amv_tas_regression_lowpass_mon(lat, lon) ; amv_tas_regression_lowpass_mon:long_name = "tas low-pass regression onto AMV low-pass timeseries (monthly)" ; amv_tas_regression_lowpass_mon:units = "C" ; amv_tas_regression_lowpass_mon:_FillValue = -900.f ; amv_tas_regression_lowpass_mon:missing_value = -900.f ; float amv_tas_regression_mon(lat, lon) ; amv_tas_regression_mon:_FillValue = -900.f ; amv_tas_regression_mon:long_name = "tas regression onto AMV timeseries (monthly)" ; amv_tas_regression_mon:units = "C" ; amv_tas_regression_mon:missing_value = -900.f ; float amv_timeseries_lowpass_mon(time) ; amv_timeseries_lowpass_mon:_FillValue = -900.f ; amv_timeseries_lowpass_mon:missing_value = -900.f ; amv_timeseries_lowpass_mon:long_name = "AMV low-pass timeseries (monthly)" ; amv_timeseries_lowpass_mon:units = "C" ; float amv_timeseries_mon(time) ; amv_timeseries_mon:_FillValue = -900.f ; amv_timeseries_mon:missing_value = -900.f ; amv_timeseries_mon:long_name = "AMV timeseries (monthly)" ; amv_timeseries_mon:units = "C" ; float atlantic_meridional_mode(time) ; atlantic_meridional_mode:_FillValue = -900.f ; atlantic_meridional_mode:comment_cvdp = "area average domain (-5:20N, 80W:0E) - (-10:5N, 60W:15E)" ; atlantic_meridional_mode:units = "C" ; atlantic_meridional_mode:long_name = "Atlantic Meridional Mode Index (monthly)" ; atlantic_meridional_mode:missing_value = -900.f ; float atlantic_nino(time) ; atlantic_nino:_FillValue = -900.f ; atlantic_nino:comment_cvdp = "area average domain (-3:3N, -20:0E)" ; atlantic_nino:units = "C" ; atlantic_nino:long_name = "Atlantic Nino Index (monthly)" ; atlantic_nino:missing_value = -900.f ; float frequency(frequency) ; frequency:units = "1" ; frequency:long_name = "power spectra frequency" ; float frequency2(frequency2) ; frequency2:long_name = "power spectra frequency" ; frequency2:units = "1" ; float indian_ocean_dipole(time) ; indian_ocean_dipole:_FillValue = -900.f ; indian_ocean_dipole:comment_cvdp = "area average domain (-10:10N, 50:70E) - (-10:0N, 90:110E)" ; indian_ocean_dipole:units = "C" ; indian_ocean_dipole:long_name = "Indian Ocean Dipole Index (monthly)" ; indian_ocean_dipole:missing_value = -900.f ; double lat(lat) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; lat:_FillValue = -900. ; lat:standard_name = "latitude" ; float lat2d_ice_nh(j, i) ; lat2d_ice_nh:_FillValue = 1.e+30f ; lat2d_ice_nh:missing_value = 1.e+30f ; lat2d_ice_nh:long_name = "Northern Hemisphere ice grid 2-dimensional latitudes" ; float lat2d_ice_sh(j2, i2) ; lat2d_ice_sh:_FillValue = 1.e+30f ; lat2d_ice_sh:missing_value = 1.e+30f ; lat2d_ice_sh:long_name = "Southern Hemisphere ice grid 2-dimensional latitudes" ; float lat_amoc(lat_amoc) ; lat_amoc:long_name = "latitude grid for transport diagnostics" ; lat_amoc:units = "degrees_north" ; lat_amoc:valid_min = -79.48815f ; lat_amoc:valid_max = 90.f ; float lev(lev) ; lev:long_name = "depth from surface to top of layer" ; lev:units = "m" ; lev:positive = "down" ; lev:valid_min = 0.f ; lev:valid_max = 549999.1f ; double lon(lon) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; lon:_FillValue = -900. ; lon:standard_name = "longitude" ; float lon2d_ice_nh(j, i) ; lon2d_ice_nh:_FillValue = 1.e+30f ; lon2d_ice_nh:missing_value = 1.e+30f ; lon2d_ice_nh:long_name = "Northern Hemisphere ice grid 2-dimensional longitudes" ; float lon2d_ice_sh(j2, i2) ; lon2d_ice_sh:_FillValue = 1.e+30f ; lon2d_ice_sh:missing_value = 1.e+30f ; lon2d_ice_sh:long_name = "Southern Hemisphere ice grid 2-dimensional longitudes" ; double longitude(longitude) ; longitude:_FillValue = -900. ; longitude:standard_name = "longitude" ; longitude:long_name = "longitude" ; longitude:units = "degrees_east" ; float nam_pattern_ann(lat, lon) ; nam_pattern_ann:_FillValue = -900.f ; nam_pattern_ann:units = "hPa" ; nam_pattern_ann:pcvar = "29.0%*" ; nam_pattern_ann:missing_value = -900.f ; nam_pattern_ann:long_name = "NAM spatial pattern (ANN)" ; float nam_pattern_djf(lat, lon) ; nam_pattern_djf:_FillValue = -900.f ; nam_pattern_djf:units = "hPa" ; nam_pattern_djf:pcvar = "33.2%*" ; nam_pattern_djf:missing_value = -900.f ; nam_pattern_djf:long_name = "NAM spatial pattern (DJF)" ; float nam_pattern_jas(lat, lon) ; nam_pattern_jas:_FillValue = -900.f ; nam_pattern_jas:units = "hPa" ; nam_pattern_jas:pcvar = "19.4%*" ; nam_pattern_jas:missing_value = -900.f ; nam_pattern_jas:long_name = "NAM spatial pattern (JAS)" ; float nam_pattern_jfm(lat, lon) ; nam_pattern_jfm:_FillValue = -900.f ; nam_pattern_jfm:units = "hPa" ; nam_pattern_jfm:pcvar = "38.5%*" ; nam_pattern_jfm:missing_value = -900.f ; nam_pattern_jfm:long_name = "NAM spatial pattern (JFM)" ; float nam_pattern_jja(lat, lon) ; nam_pattern_jja:_FillValue = -900.f ; nam_pattern_jja:units = "hPa" ; nam_pattern_jja:pcvar = "22.8%*" ; nam_pattern_jja:missing_value = -900.f ; nam_pattern_jja:long_name = "NAM spatial pattern (JJA)" ; float nam_pattern_mam(lat, lon) ; nam_pattern_mam:_FillValue = -900.f ; nam_pattern_mam:units = "hPa" ; nam_pattern_mam:pcvar = "33.6%*" ; nam_pattern_mam:missing_value = -900.f ; nam_pattern_mam:long_name = "NAM spatial pattern (MAM)" ; float nam_pattern_son(lat, lon) ; nam_pattern_son:_FillValue = -900.f ; nam_pattern_son:units = "hPa" ; nam_pattern_son:pcvar = "23.0%*" ; nam_pattern_son:missing_value = -900.f ; nam_pattern_son:long_name = "NAM spatial pattern (SON)" ; float nam_timeseries_ann(TIME) ; nam_timeseries_ann:long_name = "NAM normalized principal component timeseries (ANN)" ; nam_timeseries_ann:units = "1" ; nam_timeseries_ann:_FillValue = 9.96921e+36f ; nam_timeseries_ann:missing_value = 9.96921e+36f ; float nam_timeseries_djf(TIME) ; nam_timeseries_djf:_FillValue = 9.96921e+36f ; nam_timeseries_djf:missing_value = 9.96921e+36f ; nam_timeseries_djf:long_name = "NAM normalized principal component timeseries (DJF)" ; nam_timeseries_djf:units = "1" ; float nam_timeseries_jas(TIME) ; nam_timeseries_jas:long_name = "NAM normalized principal component timeseries (JAS)" ; nam_timeseries_jas:units = "1" ; nam_timeseries_jas:_FillValue = 9.96921e+36f ; nam_timeseries_jas:missing_value = 9.96921e+36f ; float nam_timeseries_jfm(TIME) ; nam_timeseries_jfm:long_name = "NAM normalized principal component timeseries (JFM)" ; nam_timeseries_jfm:units = "1" ; nam_timeseries_jfm:_FillValue = 9.96921e+36f ; nam_timeseries_jfm:missing_value = 9.96921e+36f ; float nam_timeseries_jja(TIME) ; nam_timeseries_jja:long_name = "NAM normalized principal component timeseries (JJA)" ; nam_timeseries_jja:units = "1" ; nam_timeseries_jja:_FillValue = 9.96921e+36f ; nam_timeseries_jja:missing_value = 9.96921e+36f ; float nam_timeseries_mam(TIME) ; nam_timeseries_mam:long_name = "NAM normalized principal component timeseries (MAM)" ; nam_timeseries_mam:units = "1" ; nam_timeseries_mam:_FillValue = 9.96921e+36f ; nam_timeseries_mam:missing_value = 9.96921e+36f ; float nam_timeseries_son(TIME) ; nam_timeseries_son:long_name = "NAM normalized principal component timeseries (SON)" ; nam_timeseries_son:units = "1" ; nam_timeseries_son:_FillValue = 9.96921e+36f ; nam_timeseries_son:missing_value = 9.96921e+36f ; float nao_pattern_ann(lat, lon) ; nao_pattern_ann:_FillValue = -900.f ; nao_pattern_ann:units = "hPa" ; nao_pattern_ann:pcvar = "36.9%*" ; nao_pattern_ann:missing_value = -900.f ; nao_pattern_ann:long_name = "nao spatial pattern (ANN)" ; float nao_pattern_djf(lat, lon) ; nao_pattern_djf:_FillValue = -900.f ; nao_pattern_djf:units = "hPa" ; nao_pattern_djf:pcvar = "45.6%*" ; nao_pattern_djf:missing_value = -900.f ; nao_pattern_djf:long_name = "nao spatial pattern (DJF)" ; float nao_pattern_jas(lat, lon) ; nao_pattern_jas:_FillValue = -900.f ; nao_pattern_jas:units = "hPa" ; nao_pattern_jas:pcvar = "28.9%*" ; nao_pattern_jas:missing_value = -900.f ; nao_pattern_jas:long_name = "nao spatial pattern (JAS)" ; float nao_pattern_jfm(lat, lon) ; nao_pattern_jfm:_FillValue = -900.f ; nao_pattern_jfm:units = "hPa" ; nao_pattern_jfm:pcvar = "45.9%*" ; nao_pattern_jfm:missing_value = -900.f ; nao_pattern_jfm:long_name = "nao spatial pattern (JFM)" ; float nao_pattern_jja(lat, lon) ; nao_pattern_jja:_FillValue = -900.f ; nao_pattern_jja:units = "hPa" ; nao_pattern_jja:pcvar = "30.1%*" ; nao_pattern_jja:missing_value = -900.f ; nao_pattern_jja:long_name = "nao spatial pattern (JJA)" ; float nao_pattern_mam(lat, lon) ; nao_pattern_mam:_FillValue = -900.f ; nao_pattern_mam:units = "hPa" ; nao_pattern_mam:pcvar = "39.6%*" ; nao_pattern_mam:missing_value = -900.f ; nao_pattern_mam:long_name = "nao spatial pattern (MAM)" ; float nao_pattern_son(lat, lon) ; nao_pattern_son:_FillValue = -900.f ; nao_pattern_son:units = "hPa" ; nao_pattern_son:pcvar = "32.2%*" ; nao_pattern_son:missing_value = -900.f ; nao_pattern_son:long_name = "nao spatial pattern (SON)" ; float nao_timeseries_ann(TIME) ; nao_timeseries_ann:long_name = "nao normalized principal component timeseries (ANN)" ; nao_timeseries_ann:units = "1" ; nao_timeseries_ann:_FillValue = 9.96921e+36f ; nao_timeseries_ann:missing_value = 9.96921e+36f ; float nao_timeseries_djf(TIME) ; nao_timeseries_djf:_FillValue = 9.96921e+36f ; nao_timeseries_djf:missing_value = 9.96921e+36f ; nao_timeseries_djf:long_name = "nao normalized principal component timeseries (DJF)" ; nao_timeseries_djf:units = "1" ; float nao_timeseries_jas(TIME) ; nao_timeseries_jas:long_name = "nao normalized principal component timeseries (JAS)" ; nao_timeseries_jas:units = "1" ; nao_timeseries_jas:_FillValue = 9.96921e+36f ; nao_timeseries_jas:missing_value = 9.96921e+36f ; float nao_timeseries_jfm(TIME) ; nao_timeseries_jfm:long_name = "nao normalized principal component timeseries (JFM)" ; nao_timeseries_jfm:units = "1" ; nao_timeseries_jfm:_FillValue = 9.96921e+36f ; nao_timeseries_jfm:missing_value = 9.96921e+36f ; float nao_timeseries_jja(TIME) ; nao_timeseries_jja:long_name = "nao normalized principal component timeseries (JJA)" ; nao_timeseries_jja:units = "1" ; nao_timeseries_jja:_FillValue = 9.96921e+36f ; nao_timeseries_jja:missing_value = 9.96921e+36f ; float nao_timeseries_mam(TIME) ; nao_timeseries_mam:long_name = "nao normalized principal component timeseries (MAM)" ; nao_timeseries_mam:units = "1" ; nao_timeseries_mam:_FillValue = 9.96921e+36f ; nao_timeseries_mam:missing_value = 9.96921e+36f ; float nao_timeseries_son(TIME) ; nao_timeseries_son:long_name = "nao normalized principal component timeseries (SON)" ; nao_timeseries_son:units = "1" ; nao_timeseries_son:_FillValue = 9.96921e+36f ; nao_timeseries_son:missing_value = 9.96921e+36f ; int ncurves(ncurves) ; ncurves:long_name = "power spectra curves" ; ncurves:units = "1" ; float nino12(time) ; nino12:_FillValue = -900.f ; nino12:comment_cvdp = "area average domain (-10:0N, 270:280E)" ; nino12:units = "C" ; nino12:long_name = "nino1+2 timeseries (monthly)" ; nino12:missing_value = -900.f ; float nino3(time) ; nino3:_FillValue = -900.f ; nino3:comment_cvdp = "area average domain (-5:5N, 210:270E)" ; nino3:units = "C" ; nino3:long_name = "nino3 timeseries (monthly)" ; nino3:missing_value = -900.f ; float nino34(time) ; nino34:units = "C" ; nino34:long_name = "nino3.4 timeseries (monthly)" ; nino34:_FillValue = -900.f ; nino34:comment_cvdp = "area average domain (-5:5N, 190:240E)" ; nino34:missing_value = -900.f ; float nino34_autocorrelation(time_mon3) ; nino34_autocorrelation:_FillValue = -900.f ; nino34_autocorrelation:units = "1" ; nino34_autocorrelation:missing_value = -900.f ; nino34_autocorrelation:long_name = "nino3.4 autocorrelation" ; float nino34_elnino_spacomp_pr_djf1(lat, lon) ; nino34_elnino_spacomp_pr_djf1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_pr_djf1:units = "mm/day" ; nino34_elnino_spacomp_pr_djf1:long_name = "nino3.4 pr El Nino spatial composite (DJF+1)" ; nino34_elnino_spacomp_pr_djf1:_FillValue = -900.f ; nino34_elnino_spacomp_pr_djf1:missing_value = -900.f ; float nino34_elnino_spacomp_pr_jja0(lat, lon) ; nino34_elnino_spacomp_pr_jja0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_pr_jja0:_FillValue = -900.f ; nino34_elnino_spacomp_pr_jja0:units = "mm/day" ; nino34_elnino_spacomp_pr_jja0:long_name = "nino3.4 pr El Nino spatial composite (JJA+0)" ; nino34_elnino_spacomp_pr_jja0:missing_value = -900.f ; float nino34_elnino_spacomp_pr_mam1(lat, lon) ; nino34_elnino_spacomp_pr_mam1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_pr_mam1:units = "mm/day" ; nino34_elnino_spacomp_pr_mam1:long_name = "nino3.4 pr El Nino spatial composite (MAM+1)" ; nino34_elnino_spacomp_pr_mam1:_FillValue = -900.f ; nino34_elnino_spacomp_pr_mam1:missing_value = -900.f ; float nino34_elnino_spacomp_pr_son0(lat, lon) ; nino34_elnino_spacomp_pr_son0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_pr_son0:units = "mm/day" ; nino34_elnino_spacomp_pr_son0:long_name = "nino3.4 pr El Nino spatial composite (SON+0)" ; nino34_elnino_spacomp_pr_son0:_FillValue = -900.f ; nino34_elnino_spacomp_pr_son0:missing_value = -900.f ; float nino34_elnino_spacomp_psl_djf1(lat, lon) ; nino34_elnino_spacomp_psl_djf1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_psl_djf1:units = "hPa" ; nino34_elnino_spacomp_psl_djf1:long_name = "nino3.4 psl El Nino spatial composite (DJF+1)" ; nino34_elnino_spacomp_psl_djf1:_FillValue = -900.f ; nino34_elnino_spacomp_psl_djf1:missing_value = -900.f ; float nino34_elnino_spacomp_psl_jja0(lat, lon) ; nino34_elnino_spacomp_psl_jja0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_psl_jja0:_FillValue = -900.f ; nino34_elnino_spacomp_psl_jja0:units = "hPa" ; nino34_elnino_spacomp_psl_jja0:long_name = "nino3.4 psl El Nino spatial composite (JJA+0)" ; nino34_elnino_spacomp_psl_jja0:missing_value = -900.f ; float nino34_elnino_spacomp_psl_mam1(lat, lon) ; nino34_elnino_spacomp_psl_mam1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_psl_mam1:units = "hPa" ; nino34_elnino_spacomp_psl_mam1:long_name = "nino3.4 psl El Nino spatial composite (MAM+1)" ; nino34_elnino_spacomp_psl_mam1:_FillValue = -900.f ; nino34_elnino_spacomp_psl_mam1:missing_value = -900.f ; float nino34_elnino_spacomp_psl_son0(lat, lon) ; nino34_elnino_spacomp_psl_son0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_psl_son0:units = "hPa" ; nino34_elnino_spacomp_psl_son0:long_name = "nino3.4 psl El Nino spatial composite (SON+0)" ; nino34_elnino_spacomp_psl_son0:_FillValue = -900.f ; nino34_elnino_spacomp_psl_son0:missing_value = -900.f ; float nino34_elnino_spacomp_sst_djf1(lat, lon) ; nino34_elnino_spacomp_sst_djf1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_sst_djf1:long_name = "nino3.4 sst El Nino spatial composite (DJF+1)" ; nino34_elnino_spacomp_sst_djf1:units = "C" ; nino34_elnino_spacomp_sst_djf1:_FillValue = -900.f ; nino34_elnino_spacomp_sst_djf1:missing_value = -900.f ; float nino34_elnino_spacomp_sst_jja0(lat, lon) ; nino34_elnino_spacomp_sst_jja0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_sst_jja0:_FillValue = -900.f ; nino34_elnino_spacomp_sst_jja0:long_name = "nino3.4 sst El Nino spatial composite (JJA+0)" ; nino34_elnino_spacomp_sst_jja0:units = "C" ; nino34_elnino_spacomp_sst_jja0:missing_value = -900.f ; float nino34_elnino_spacomp_sst_mam1(lat, lon) ; nino34_elnino_spacomp_sst_mam1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_sst_mam1:long_name = "nino3.4 sst El Nino spatial composite (MAM+1)" ; nino34_elnino_spacomp_sst_mam1:units = "C" ; nino34_elnino_spacomp_sst_mam1:_FillValue = -900.f ; nino34_elnino_spacomp_sst_mam1:missing_value = -900.f ; float nino34_elnino_spacomp_sst_son0(lat, lon) ; nino34_elnino_spacomp_sst_son0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_sst_son0:long_name = "nino3.4 sst El Nino spatial composite (SON+0)" ; nino34_elnino_spacomp_sst_son0:units = "C" ; nino34_elnino_spacomp_sst_son0:_FillValue = -900.f ; nino34_elnino_spacomp_sst_son0:missing_value = -900.f ; float nino34_elnino_spacomp_tas_djf1(lat, lon) ; nino34_elnino_spacomp_tas_djf1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_tas_djf1:units = "C" ; nino34_elnino_spacomp_tas_djf1:long_name = "nino3.4 tas El Nino spatial composite (DJF+1)" ; nino34_elnino_spacomp_tas_djf1:_FillValue = -900.f ; nino34_elnino_spacomp_tas_djf1:missing_value = -900.f ; float nino34_elnino_spacomp_tas_jja0(lat, lon) ; nino34_elnino_spacomp_tas_jja0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_tas_jja0:_FillValue = -900.f ; nino34_elnino_spacomp_tas_jja0:units = "C" ; nino34_elnino_spacomp_tas_jja0:long_name = "nino3.4 tas El Nino spatial composite (JJA+0)" ; nino34_elnino_spacomp_tas_jja0:missing_value = -900.f ; float nino34_elnino_spacomp_tas_mam1(lat, lon) ; nino34_elnino_spacomp_tas_mam1:number_of_elnino_events = 17 ; nino34_elnino_spacomp_tas_mam1:units = "C" ; nino34_elnino_spacomp_tas_mam1:long_name = "nino3.4 tas El Nino spatial composite (MAM+1)" ; nino34_elnino_spacomp_tas_mam1:_FillValue = -900.f ; nino34_elnino_spacomp_tas_mam1:missing_value = -900.f ; float nino34_elnino_spacomp_tas_son0(lat, lon) ; nino34_elnino_spacomp_tas_son0:number_of_elnino_events = 17 ; nino34_elnino_spacomp_tas_son0:units = "C" ; nino34_elnino_spacomp_tas_son0:long_name = "nino3.4 tas El Nino spatial composite (SON+0)" ; nino34_elnino_spacomp_tas_son0:_FillValue = -900.f ; nino34_elnino_spacomp_tas_son0:missing_value = -900.f ; float nino34_hov_elnino(time_mon1, longitude) ; nino34_hov_elnino:_FillValue = -900.f ; nino34_hov_elnino:units = "C" ; nino34_hov_elnino:number_of_events = 15 ; nino34_hov_elnino:missing_value = -900.f ; nino34_hov_elnino:long_name = "nino3.4 El Nino Hovmoller sst composite" ; float nino34_hov_lanina(time_mon1, longitude) ; nino34_hov_lanina:_FillValue = -900.f ; nino34_hov_lanina:units = "C" ; nino34_hov_lanina:number_of_events = 15 ; nino34_hov_lanina:missing_value = -900.f ; nino34_hov_lanina:long_name = "nino3.4 La Nina Hovmoller sst composite" ; float nino34_lanina_spacomp_pr_djf1(lat, lon) ; nino34_lanina_spacomp_pr_djf1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_pr_djf1:long_name = "nino3.4 pr La Nina spatial composite (DJF+1)" ; nino34_lanina_spacomp_pr_djf1:units = "mm/day" ; nino34_lanina_spacomp_pr_djf1:_FillValue = -900.f ; nino34_lanina_spacomp_pr_djf1:missing_value = -900.f ; float nino34_lanina_spacomp_pr_jja0(lat, lon) ; nino34_lanina_spacomp_pr_jja0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_pr_jja0:long_name = "nino3.4 pr La Nina spatial composite (JJA+0)" ; nino34_lanina_spacomp_pr_jja0:units = "mm/day" ; nino34_lanina_spacomp_pr_jja0:_FillValue = -900.f ; nino34_lanina_spacomp_pr_jja0:missing_value = -900.f ; float nino34_lanina_spacomp_pr_mam1(lat, lon) ; nino34_lanina_spacomp_pr_mam1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_pr_mam1:long_name = "nino3.4 pr La Nina spatial composite (MAM+1)" ; nino34_lanina_spacomp_pr_mam1:units = "mm/day" ; nino34_lanina_spacomp_pr_mam1:_FillValue = -900.f ; nino34_lanina_spacomp_pr_mam1:missing_value = -900.f ; float nino34_lanina_spacomp_pr_son0(lat, lon) ; nino34_lanina_spacomp_pr_son0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_pr_son0:long_name = "nino3.4 pr La Nina spatial composite (SON+0)" ; nino34_lanina_spacomp_pr_son0:units = "mm/day" ; nino34_lanina_spacomp_pr_son0:_FillValue = -900.f ; nino34_lanina_spacomp_pr_son0:missing_value = -900.f ; float nino34_lanina_spacomp_psl_djf1(lat, lon) ; nino34_lanina_spacomp_psl_djf1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_psl_djf1:long_name = "nino3.4 psl La Nina spatial composite (DJF+1)" ; nino34_lanina_spacomp_psl_djf1:units = "hPa" ; nino34_lanina_spacomp_psl_djf1:_FillValue = -900.f ; nino34_lanina_spacomp_psl_djf1:missing_value = -900.f ; float nino34_lanina_spacomp_psl_jja0(lat, lon) ; nino34_lanina_spacomp_psl_jja0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_psl_jja0:long_name = "nino3.4 psl La Nina spatial composite (JJA+0)" ; nino34_lanina_spacomp_psl_jja0:units = "hPa" ; nino34_lanina_spacomp_psl_jja0:_FillValue = -900.f ; nino34_lanina_spacomp_psl_jja0:missing_value = -900.f ; float nino34_lanina_spacomp_psl_mam1(lat, lon) ; nino34_lanina_spacomp_psl_mam1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_psl_mam1:long_name = "nino3.4 psl La Nina spatial composite (MAM+1)" ; nino34_lanina_spacomp_psl_mam1:units = "hPa" ; nino34_lanina_spacomp_psl_mam1:_FillValue = -900.f ; nino34_lanina_spacomp_psl_mam1:missing_value = -900.f ; float nino34_lanina_spacomp_psl_son0(lat, lon) ; nino34_lanina_spacomp_psl_son0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_psl_son0:long_name = "nino3.4 psl La Nina spatial composite (SON+0)" ; nino34_lanina_spacomp_psl_son0:units = "hPa" ; nino34_lanina_spacomp_psl_son0:_FillValue = -900.f ; nino34_lanina_spacomp_psl_son0:missing_value = -900.f ; float nino34_lanina_spacomp_sst_djf1(lat, lon) ; nino34_lanina_spacomp_sst_djf1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_sst_djf1:units = "C" ; nino34_lanina_spacomp_sst_djf1:long_name = "nino3.4 sst La Nina spatial composite (DJF+1)" ; nino34_lanina_spacomp_sst_djf1:_FillValue = -900.f ; nino34_lanina_spacomp_sst_djf1:missing_value = -900.f ; float nino34_lanina_spacomp_sst_jja0(lat, lon) ; nino34_lanina_spacomp_sst_jja0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_sst_jja0:units = "C" ; nino34_lanina_spacomp_sst_jja0:long_name = "nino3.4 sst La Nina spatial composite (JJA+0)" ; nino34_lanina_spacomp_sst_jja0:_FillValue = -900.f ; nino34_lanina_spacomp_sst_jja0:missing_value = -900.f ; float nino34_lanina_spacomp_sst_mam1(lat, lon) ; nino34_lanina_spacomp_sst_mam1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_sst_mam1:units = "C" ; nino34_lanina_spacomp_sst_mam1:long_name = "nino3.4 sst La Nina spatial composite (MAM+1)" ; nino34_lanina_spacomp_sst_mam1:_FillValue = -900.f ; nino34_lanina_spacomp_sst_mam1:missing_value = -900.f ; float nino34_lanina_spacomp_sst_son0(lat, lon) ; nino34_lanina_spacomp_sst_son0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_sst_son0:units = "C" ; nino34_lanina_spacomp_sst_son0:long_name = "nino3.4 sst La Nina spatial composite (SON+0)" ; nino34_lanina_spacomp_sst_son0:_FillValue = -900.f ; nino34_lanina_spacomp_sst_son0:missing_value = -900.f ; float nino34_lanina_spacomp_tas_djf1(lat, lon) ; nino34_lanina_spacomp_tas_djf1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_tas_djf1:long_name = "nino3.4 tas La Nina spatial composite (DJF+1)" ; nino34_lanina_spacomp_tas_djf1:units = "C" ; nino34_lanina_spacomp_tas_djf1:_FillValue = -900.f ; nino34_lanina_spacomp_tas_djf1:missing_value = -900.f ; float nino34_lanina_spacomp_tas_jja0(lat, lon) ; nino34_lanina_spacomp_tas_jja0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_tas_jja0:long_name = "nino3.4 tas La Nina spatial composite (JJA+0)" ; nino34_lanina_spacomp_tas_jja0:units = "C" ; nino34_lanina_spacomp_tas_jja0:_FillValue = -900.f ; nino34_lanina_spacomp_tas_jja0:missing_value = -900.f ; float nino34_lanina_spacomp_tas_mam1(lat, lon) ; nino34_lanina_spacomp_tas_mam1:number_of_lanina_events = 15 ; nino34_lanina_spacomp_tas_mam1:long_name = "nino3.4 tas La Nina spatial composite (MAM+1)" ; nino34_lanina_spacomp_tas_mam1:units = "C" ; nino34_lanina_spacomp_tas_mam1:_FillValue = -900.f ; nino34_lanina_spacomp_tas_mam1:missing_value = -900.f ; float nino34_lanina_spacomp_tas_son0(lat, lon) ; nino34_lanina_spacomp_tas_son0:number_of_lanina_events = 15 ; nino34_lanina_spacomp_tas_son0:long_name = "nino3.4 tas La Nina spatial composite (SON+0)" ; nino34_lanina_spacomp_tas_son0:units = "C" ; nino34_lanina_spacomp_tas_son0:_FillValue = -900.f ; nino34_lanina_spacomp_tas_son0:missing_value = -900.f ; float nino34_monthly_stddev(time_mon2) ; nino34_monthly_stddev:_FillValue = 9.96921e+36f ; nino34_monthly_stddev:units = "C" ; nino34_monthly_stddev:long_name = "nino3.4 monthly standard deviation" ; nino34_monthly_stddev:missing_value = 9.96921e+36f ; float nino34_runstddev(time) ; nino34_runstddev:_FillValue = -900.f ; nino34_runstddev:units = "C" ; nino34_runstddev:long_name = "nino3.4 30yr running standard deviation" ; nino34_runstddev:missing_value = -900.f ; float nino34_spacomp_pr_djf1(lat, lon) ; nino34_spacomp_pr_djf1:number_of_lanina_events = 15 ; nino34_spacomp_pr_djf1:number_of_elnino_events = 17 ; nino34_spacomp_pr_djf1:long_name = "nino3.4 pr EN-LN spatial composite (DJF+1)" ; nino34_spacomp_pr_djf1:units = "mm/day" ; nino34_spacomp_pr_djf1:_FillValue = -900.f ; nino34_spacomp_pr_djf1:missing_value = -900.f ; float nino34_spacomp_pr_jja0(lat, lon) ; nino34_spacomp_pr_jja0:number_of_lanina_events = 15 ; nino34_spacomp_pr_jja0:number_of_elnino_events = 17 ; nino34_spacomp_pr_jja0:long_name = "nino3.4 pr EN-LN spatial composite (JJA+0)" ; nino34_spacomp_pr_jja0:units = "mm/day" ; nino34_spacomp_pr_jja0:_FillValue = -900.f ; nino34_spacomp_pr_jja0:missing_value = -900.f ; float nino34_spacomp_pr_mam1(lat, lon) ; nino34_spacomp_pr_mam1:number_of_lanina_events = 15 ; nino34_spacomp_pr_mam1:number_of_elnino_events = 17 ; nino34_spacomp_pr_mam1:long_name = "nino3.4 pr EN-LN spatial composite (MAM+1)" ; nino34_spacomp_pr_mam1:units = "mm/day" ; nino34_spacomp_pr_mam1:_FillValue = -900.f ; nino34_spacomp_pr_mam1:missing_value = -900.f ; float nino34_spacomp_pr_son0(lat, lon) ; nino34_spacomp_pr_son0:number_of_lanina_events = 15 ; nino34_spacomp_pr_son0:number_of_elnino_events = 17 ; nino34_spacomp_pr_son0:long_name = "nino3.4 pr EN-LN spatial composite (SON+0)" ; nino34_spacomp_pr_son0:units = "mm/day" ; nino34_spacomp_pr_son0:_FillValue = -900.f ; nino34_spacomp_pr_son0:missing_value = -900.f ; float nino34_spacomp_psl_djf1(lat, lon) ; nino34_spacomp_psl_djf1:number_of_lanina_events = 15 ; nino34_spacomp_psl_djf1:number_of_elnino_events = 17 ; nino34_spacomp_psl_djf1:long_name = "nino3.4 psl EN-LN spatial composite (DJF+1)" ; nino34_spacomp_psl_djf1:units = "hPa" ; nino34_spacomp_psl_djf1:_FillValue = -900.f ; nino34_spacomp_psl_djf1:missing_value = -900.f ; float nino34_spacomp_psl_jja0(lat, lon) ; nino34_spacomp_psl_jja0:number_of_lanina_events = 15 ; nino34_spacomp_psl_jja0:number_of_elnino_events = 17 ; nino34_spacomp_psl_jja0:long_name = "nino3.4 psl EN-LN spatial composite (JJA+0)" ; nino34_spacomp_psl_jja0:units = "hPa" ; nino34_spacomp_psl_jja0:_FillValue = -900.f ; nino34_spacomp_psl_jja0:missing_value = -900.f ; float nino34_spacomp_psl_mam1(lat, lon) ; nino34_spacomp_psl_mam1:number_of_lanina_events = 15 ; nino34_spacomp_psl_mam1:number_of_elnino_events = 17 ; nino34_spacomp_psl_mam1:long_name = "nino3.4 psl EN-LN spatial composite (MAM+1)" ; nino34_spacomp_psl_mam1:units = "hPa" ; nino34_spacomp_psl_mam1:_FillValue = -900.f ; nino34_spacomp_psl_mam1:missing_value = -900.f ; float nino34_spacomp_psl_son0(lat, lon) ; nino34_spacomp_psl_son0:number_of_lanina_events = 15 ; nino34_spacomp_psl_son0:number_of_elnino_events = 17 ; nino34_spacomp_psl_son0:long_name = "nino3.4 psl EN-LN spatial composite (SON+0)" ; nino34_spacomp_psl_son0:units = "hPa" ; nino34_spacomp_psl_son0:_FillValue = -900.f ; nino34_spacomp_psl_son0:missing_value = -900.f ; float nino34_spacomp_sst_djf1(lat, lon) ; nino34_spacomp_sst_djf1:number_of_lanina_events = 15 ; nino34_spacomp_sst_djf1:number_of_elnino_events = 17 ; nino34_spacomp_sst_djf1:units = "C" ; nino34_spacomp_sst_djf1:long_name = "nino3.4 sst EN-LN spatial composite (DJF+1)" ; nino34_spacomp_sst_djf1:_FillValue = -900.f ; nino34_spacomp_sst_djf1:missing_value = -900.f ; float nino34_spacomp_sst_jja0(lat, lon) ; nino34_spacomp_sst_jja0:number_of_lanina_events = 15 ; nino34_spacomp_sst_jja0:number_of_elnino_events = 17 ; nino34_spacomp_sst_jja0:units = "C" ; nino34_spacomp_sst_jja0:long_name = "nino3.4 sst EN-LN spatial composite (JJA+0)" ; nino34_spacomp_sst_jja0:_FillValue = -900.f ; nino34_spacomp_sst_jja0:missing_value = -900.f ; float nino34_spacomp_sst_mam1(lat, lon) ; nino34_spacomp_sst_mam1:number_of_lanina_events = 15 ; nino34_spacomp_sst_mam1:number_of_elnino_events = 17 ; nino34_spacomp_sst_mam1:units = "C" ; nino34_spacomp_sst_mam1:long_name = "nino3.4 sst EN-LN spatial composite (MAM+1)" ; nino34_spacomp_sst_mam1:_FillValue = -900.f ; nino34_spacomp_sst_mam1:missing_value = -900.f ; float nino34_spacomp_sst_son0(lat, lon) ; nino34_spacomp_sst_son0:number_of_lanina_events = 15 ; nino34_spacomp_sst_son0:number_of_elnino_events = 17 ; nino34_spacomp_sst_son0:units = "C" ; nino34_spacomp_sst_son0:long_name = "nino3.4 sst EN-LN spatial composite (SON+0)" ; nino34_spacomp_sst_son0:_FillValue = -900.f ; nino34_spacomp_sst_son0:missing_value = -900.f ; float nino34_spacomp_tas_djf1(lat, lon) ; nino34_spacomp_tas_djf1:number_of_lanina_events = 15 ; nino34_spacomp_tas_djf1:number_of_elnino_events = 17 ; nino34_spacomp_tas_djf1:long_name = "nino3.4 tas EN-LN spatial composite (DJF+1)" ; nino34_spacomp_tas_djf1:units = "C" ; nino34_spacomp_tas_djf1:_FillValue = -900.f ; nino34_spacomp_tas_djf1:missing_value = -900.f ; float nino34_spacomp_tas_jja0(lat, lon) ; nino34_spacomp_tas_jja0:number_of_lanina_events = 15 ; nino34_spacomp_tas_jja0:number_of_elnino_events = 17 ; nino34_spacomp_tas_jja0:long_name = "nino3.4 tas EN-LN spatial composite (JJA+0)" ; nino34_spacomp_tas_jja0:units = "C" ; nino34_spacomp_tas_jja0:_FillValue = -900.f ; nino34_spacomp_tas_jja0:missing_value = -900.f ; float nino34_spacomp_tas_mam1(lat, lon) ; nino34_spacomp_tas_mam1:number_of_lanina_events = 15 ; nino34_spacomp_tas_mam1:number_of_elnino_events = 17 ; nino34_spacomp_tas_mam1:long_name = "nino3.4 tas EN-LN spatial composite (MAM+1)" ; nino34_spacomp_tas_mam1:units = "C" ; nino34_spacomp_tas_mam1:_FillValue = -900.f ; nino34_spacomp_tas_mam1:missing_value = -900.f ; float nino34_spacomp_tas_son0(lat, lon) ; nino34_spacomp_tas_son0:number_of_lanina_events = 15 ; nino34_spacomp_tas_son0:number_of_elnino_events = 17 ; nino34_spacomp_tas_son0:long_name = "nino3.4 tas EN-LN spatial composite (SON+0)" ; nino34_spacomp_tas_son0:units = "C" ; nino34_spacomp_tas_son0:_FillValue = -900.f ; nino34_spacomp_tas_son0:missing_value = -900.f ; float nino34_spectra(ncurves, frequency) ; nino34_spectra:_FillValue = 9.96921e+36f ; nino34_spectra:units_info = "df refers to frequency interval" ; nino34_spectra:units = "C^2/df" ; nino34_spectra:comment_cvdp = "(0,:)=spectrum,(1,:)=Markov red noise spectrum, (2,:)=0.95% confidence bound for Markhov, (3,:)=0.99% confidence bound for Markhov" ; nino34_spectra:missing_value = 9.96921e+36f ; nino34_spectra:long_name = "nino3.4 power spectra" ; float nino34_wavelet_coi(time) ; nino34_wavelet_coi:units = "" ; nino34_wavelet_coi:long_name = "wavelet_cone_of_influence" ; float nino34_wavelet_power(period, time) ; nino34_wavelet_power:units = "C^2" ; nino34_wavelet_power:long_name = "nino3.4 wavelet power" ; float nino34_wavelet_significance(period, time) ; nino34_wavelet_significance:units = "" ; nino34_wavelet_significance:long_name = "nino3.4 wavelet significance" ; float nino4(time) ; nino4:_FillValue = -900.f ; nino4:comment_cvdp = "area average domain (-5:5N, 160:210E)" ; nino4:units = "C" ; nino4:long_name = "nino4 timeseries (monthly)" ; nino4:missing_value = -900.f ; float north_atlantic(time) ; north_atlantic:_FillValue = -900.f ; north_atlantic:comment_cvdp = "area average domain (0:60N, -80:0E)" ; north_atlantic:units = "C" ; north_atlantic:long_name = "North Atlantic timeseries (monthly)" ; north_atlantic:missing_value = -900.f ; float north_pacific_index_ndjfm(TIME) ; north_pacific_index_ndjfm:_FillValue = -900.f ; north_pacific_index_ndjfm:area = "30:65N, 160:220E" ; north_pacific_index_ndjfm:units = "hPa" ; north_pacific_index_ndjfm:long_name = "North Pacific Index" ; north_pacific_index_ndjfm:missing_value = -900.f ; float north_pacific_meridional_mode(time) ; north_pacific_meridional_mode:_FillValue = -900.f ; north_pacific_meridional_mode:units = "1" ; north_pacific_meridional_mode:long_name = "North Pacific Meridional Mode (monthly)" ; north_pacific_meridional_mode:comment_cvdp = "1st EOF of SST-residual (-20:30N, 175:265E)" ; north_pacific_meridional_mode:missing_value = -900.f ; float north_tropical_atlantic(time) ; north_tropical_atlantic:_FillValue = -900.f ; north_tropical_atlantic:comment_cvdp = "area average domain (5.5:23.5N, 302.5:345E)" ; north_tropical_atlantic:units = "C" ; north_tropical_atlantic:long_name = "Tropical Northern Atlantic SST timeseries (monthly)" ; north_tropical_atlantic:missing_value = -900.f ; float npi_pattern_ndjfm(lat, lon) ; npi_pattern_ndjfm:_FillValue = -900.f ; npi_pattern_ndjfm:units = "hPa" ; npi_pattern_ndjfm:long_name = "NPI spatial pattern (NDJFM)" ; npi_pattern_ndjfm:missing_value = -900.f ; float npo_pattern_ann(lat, lon) ; npo_pattern_ann:_FillValue = -900.f ; npo_pattern_ann:units = "hPa" ; npo_pattern_ann:pcvar = "14.3%*" ; npo_pattern_ann:missing_value = -900.f ; npo_pattern_ann:long_name = "npo spatial pattern (ANN)" ; float npo_pattern_djf(lat, lon) ; npo_pattern_djf:_FillValue = -900.f ; npo_pattern_djf:units = "hPa" ; npo_pattern_djf:pcvar = "15.2%*" ; npo_pattern_djf:missing_value = -900.f ; npo_pattern_djf:long_name = "npo spatial pattern (DJF)" ; float npo_pattern_jas(lat, lon) ; npo_pattern_jas:_FillValue = -900.f ; npo_pattern_jas:units = "hPa" ; npo_pattern_jas:pcvar = "17.2%" ; npo_pattern_jas:missing_value = -900.f ; npo_pattern_jas:long_name = "npo spatial pattern (JAS)" ; float npo_pattern_jfm(lat, lon) ; npo_pattern_jfm:_FillValue = -900.f ; npo_pattern_jfm:units = "hPa" ; npo_pattern_jfm:pcvar = "11.9%*" ; npo_pattern_jfm:missing_value = -900.f ; npo_pattern_jfm:long_name = "npo spatial pattern (JFM)" ; float npo_pattern_jja(lat, lon) ; npo_pattern_jja:_FillValue = -900.f ; npo_pattern_jja:units = "hPa" ; npo_pattern_jja:pcvar = "13.8%*" ; npo_pattern_jja:missing_value = -900.f ; npo_pattern_jja:long_name = "npo spatial pattern (JJA)" ; float npo_pattern_mam(lat, lon) ; npo_pattern_mam:_FillValue = -900.f ; npo_pattern_mam:units = "hPa" ; npo_pattern_mam:pcvar = "15.6%*" ; npo_pattern_mam:missing_value = -900.f ; npo_pattern_mam:long_name = "npo spatial pattern (MAM)" ; float npo_pattern_son(lat, lon) ; npo_pattern_son:_FillValue = -900.f ; npo_pattern_son:units = "hPa" ; npo_pattern_son:pcvar = "18.6%*" ; npo_pattern_son:missing_value = -900.f ; npo_pattern_son:long_name = "npo spatial pattern (SON)" ; float npo_timeseries_ann(TIME) ; npo_timeseries_ann:long_name = "npo normalized principal component timeseries (ANN)" ; npo_timeseries_ann:units = "1" ; npo_timeseries_ann:_FillValue = 9.96921e+36f ; npo_timeseries_ann:missing_value = 9.96921e+36f ; float npo_timeseries_djf(TIME) ; npo_timeseries_djf:long_name = "npo normalized principal component timeseries (DJF)" ; npo_timeseries_djf:units = "1" ; npo_timeseries_djf:_FillValue = 9.96921e+36f ; npo_timeseries_djf:missing_value = 9.96921e+36f ; float npo_timeseries_jas(TIME) ; npo_timeseries_jas:long_name = "npo normalized principal component timeseries (JAS)" ; npo_timeseries_jas:units = "1" ; npo_timeseries_jas:_FillValue = 9.96921e+36f ; npo_timeseries_jas:missing_value = 9.96921e+36f ; float npo_timeseries_jfm(TIME) ; npo_timeseries_jfm:long_name = "npo normalized principal component timeseries (JFM)" ; npo_timeseries_jfm:units = "1" ; npo_timeseries_jfm:_FillValue = 9.96921e+36f ; npo_timeseries_jfm:missing_value = 9.96921e+36f ; float npo_timeseries_jja(TIME) ; npo_timeseries_jja:long_name = "npo normalized principal component timeseries (JJA)" ; npo_timeseries_jja:units = "1" ; npo_timeseries_jja:_FillValue = 9.96921e+36f ; npo_timeseries_jja:missing_value = 9.96921e+36f ; float npo_timeseries_mam(TIME) ; npo_timeseries_mam:long_name = "npo normalized principal component timeseries (MAM)" ; npo_timeseries_mam:units = "1" ; npo_timeseries_mam:_FillValue = 9.96921e+36f ; npo_timeseries_mam:missing_value = 9.96921e+36f ; float npo_timeseries_son(TIME) ; npo_timeseries_son:long_name = "npo normalized principal component timeseries (SON)" ; npo_timeseries_son:units = "1" ; npo_timeseries_son:_FillValue = 9.96921e+36f ; npo_timeseries_son:missing_value = 9.96921e+36f ; float pdv_pattern_mon(lat, lon) ; pdv_pattern_mon:_FillValue = -900.f ; pdv_pattern_mon:long_name = "PDV regression pattern (monthly)" ; pdv_pattern_mon:units = "C" ; pdv_pattern_mon:pcvar = "25.5%*" ; pdv_pattern_mon:missing_value = -900.f ; float pdv_pr_regression_mon(lat, lon) ; pdv_pr_regression_mon:_FillValue = -900.f ; pdv_pr_regression_mon:long_name = "pr regression onto PDV timeseries (monthly)" ; pdv_pr_regression_mon:units = "mm/day" ; pdv_pr_regression_mon:missing_value = -900.f ; float pdv_prime_pattern_mon(lat, lon) ; pdv_prime_pattern_mon:_FillValue = -900.f ; pdv_prime_pattern_mon:long_name = "PDV\' regression pattern (monthly)" ; pdv_prime_pattern_mon:units = "C" ; pdv_prime_pattern_mon:pcvar = "26.6%*" ; pdv_prime_pattern_mon:missing_value = -900.f ; float pdv_prime_pr_regression_mon(lat, lon) ; pdv_prime_pr_regression_mon:_FillValue = -900.f ; pdv_prime_pr_regression_mon:long_name = "pr regression onto PDV low-pass timeseries (monthly)" ; pdv_prime_pr_regression_mon:units = "mm/day" ; pdv_prime_pr_regression_mon:missing_value = -900.f ; float pdv_prime_spectra(ncurves, frequency) ; pdv_prime_spectra:info = "(0,:)=spectrum,(1,:)=Markov red noise spectrum, (2,:)=0.95% confidence bound for Markhov, (3,:)=0.99% confidence bound for Markhov" ; pdv_prime_spectra:units = "1/df" ; pdv_prime_spectra:units_info = "df refers to frequency interval; data are standardized so there are no physical units" ; pdv_prime_spectra:_FillValue = 9.96921e+36f ; pdv_prime_spectra:missing_value = 9.96921e+36f ; pdv_prime_spectra:long_name = "PDV\' (monthly) power spectra, Markov spectrum and confidence curves" ; float pdv_prime_tas_regression_mon(lat, lon) ; pdv_prime_tas_regression_mon:_FillValue = -900.f ; pdv_prime_tas_regression_mon:long_name = "tas prime regression onto PDV prime timeseries (monthly)" ; pdv_prime_tas_regression_mon:units = "C" ; pdv_prime_tas_regression_mon:missing_value = -900.f ; float pdv_prime_timeseries_mon(time) ; pdv_prime_timeseries_mon:_FillValue = -900.f ; pdv_prime_timeseries_mon:units = "C" ; pdv_prime_timeseries_mon:missing_value = -900.f ; pdv_prime_timeseries_mon:long_name = "PDV\' timeseries (monthly)" ; float pdv_spectra(ncurves, frequency) ; pdv_spectra:info = "(0,:)=spectrum,(1,:)=Markov red noise spectrum, (2,:)=0.95% confidence bound for Markhov, (3,:)=0.99% confidence bound for Markhov" ; pdv_spectra:units = "1/df" ; pdv_spectra:units_info = "df refers to frequency interval; data are standardized so there are no physical units" ; pdv_spectra:_FillValue = 9.96921e+36f ; pdv_spectra:missing_value = 9.96921e+36f ; pdv_spectra:long_name = "PDV (monthly) power spectra, Markov spectrum and confidence curves" ; float pdv_tas_regression_mon(lat, lon) ; pdv_tas_regression_mon:_FillValue = -900.f ; pdv_tas_regression_mon:long_name = "tas regression onto PDV timeseries (monthly)" ; pdv_tas_regression_mon:units = "C" ; pdv_tas_regression_mon:missing_value = -900.f ; float pdv_timeseries_mon(time) ; pdv_timeseries_mon:_FillValue = -900.f ; pdv_timeseries_mon:units = "1" ; pdv_timeseries_mon:missing_value = -900.f ; pdv_timeseries_mon:long_name = "PDV timeseries (monthly)" ; float period(period) ; period:long_name = "wavelet period" ; period:units = "1" ; float pna_pattern_ann(lat, lon) ; pna_pattern_ann:_FillValue = -900.f ; pna_pattern_ann:units = "hPa" ; pna_pattern_ann:pcvar = "44.9%*" ; pna_pattern_ann:missing_value = -900.f ; pna_pattern_ann:long_name = "pna spatial pattern (ANN)" ; float pna_pattern_djf(lat, lon) ; pna_pattern_djf:_FillValue = -900.f ; pna_pattern_djf:units = "hPa" ; pna_pattern_djf:pcvar = "49.0%*" ; pna_pattern_djf:missing_value = -900.f ; pna_pattern_djf:long_name = "pna spatial pattern (DJF)" ; float pna_pattern_jas(lat, lon) ; pna_pattern_jas:_FillValue = -900.f ; pna_pattern_jas:units = "hPa" ; pna_pattern_jas:pcvar = "23.2%*" ; pna_pattern_jas:missing_value = -900.f ; pna_pattern_jas:long_name = "pna spatial pattern (JAS)" ; float pna_pattern_jfm(lat, lon) ; pna_pattern_jfm:_FillValue = -900.f ; pna_pattern_jfm:units = "hPa" ; pna_pattern_jfm:pcvar = "59.1%*" ; pna_pattern_jfm:missing_value = -900.f ; pna_pattern_jfm:long_name = "pna spatial pattern (JFM)" ; float pna_pattern_jja(lat, lon) ; pna_pattern_jja:_FillValue = -900.f ; pna_pattern_jja:units = "hPa" ; pna_pattern_jja:pcvar = "26.9%*" ; pna_pattern_jja:missing_value = -900.f ; pna_pattern_jja:long_name = "pna spatial pattern (JJA)" ; float pna_pattern_mam(lat, lon) ; pna_pattern_mam:_FillValue = -900.f ; pna_pattern_mam:units = "hPa" ; pna_pattern_mam:pcvar = "45.1%*" ; pna_pattern_mam:missing_value = -900.f ; pna_pattern_mam:long_name = "pna spatial pattern (MAM)" ; float pna_pattern_son(lat, lon) ; pna_pattern_son:_FillValue = -900.f ; pna_pattern_son:units = "hPa" ; pna_pattern_son:pcvar = "28.5%*" ; pna_pattern_son:missing_value = -900.f ; pna_pattern_son:long_name = "pna spatial pattern (SON)" ; float pna_timeseries_ann(TIME) ; pna_timeseries_ann:long_name = "pna normalized principal component timeseries (ANN)" ; pna_timeseries_ann:units = "1" ; pna_timeseries_ann:_FillValue = 9.96921e+36f ; pna_timeseries_ann:missing_value = 9.96921e+36f ; float pna_timeseries_djf(TIME) ; pna_timeseries_djf:_FillValue = 9.96921e+36f ; pna_timeseries_djf:missing_value = 9.96921e+36f ; pna_timeseries_djf:long_name = "pna normalized principal component timeseries (DJF)" ; pna_timeseries_djf:units = "1" ; float pna_timeseries_jas(TIME) ; pna_timeseries_jas:long_name = "pna normalized principal component timeseries (JAS)" ; pna_timeseries_jas:units = "1" ; pna_timeseries_jas:_FillValue = 9.96921e+36f ; pna_timeseries_jas:missing_value = 9.96921e+36f ; float pna_timeseries_jfm(TIME) ; pna_timeseries_jfm:long_name = "pna normalized principal component timeseries (JFM)" ; pna_timeseries_jfm:units = "1" ; pna_timeseries_jfm:_FillValue = 9.96921e+36f ; pna_timeseries_jfm:missing_value = 9.96921e+36f ; float pna_timeseries_jja(TIME) ; pna_timeseries_jja:long_name = "pna normalized principal component timeseries (JJA)" ; pna_timeseries_jja:units = "1" ; pna_timeseries_jja:_FillValue = 9.96921e+36f ; pna_timeseries_jja:missing_value = 9.96921e+36f ; float pna_timeseries_mam(TIME) ; pna_timeseries_mam:long_name = "pna normalized principal component timeseries (MAM)" ; pna_timeseries_mam:units = "1" ; pna_timeseries_mam:_FillValue = 9.96921e+36f ; pna_timeseries_mam:missing_value = 9.96921e+36f ; float pna_timeseries_son(TIME) ; pna_timeseries_son:long_name = "pna normalized principal component timeseries (SON)" ; pna_timeseries_son:units = "1" ; pna_timeseries_son:_FillValue = 9.96921e+36f ; pna_timeseries_son:missing_value = 9.96921e+36f ; float pr_global_avg_ann(TIME) ; pr_global_avg_ann:units = "mm/day" ; pr_global_avg_ann:long_name = "pr global area-average (annual)" ; pr_global_avg_ann:_FillValue = -900.f ; pr_global_avg_ann:missing_value = -900.f ; float pr_global_avg_djf(TIME) ; pr_global_avg_djf:_FillValue = -900.f ; pr_global_avg_djf:units = "mm/day" ; pr_global_avg_djf:long_name = "pr global area-average (DJF)" ; pr_global_avg_djf:missing_value = -900.f ; float pr_global_avg_jas(TIME) ; pr_global_avg_jas:units = "mm/day" ; pr_global_avg_jas:long_name = "pr global area-average (JAS)" ; pr_global_avg_jas:_FillValue = -900.f ; pr_global_avg_jas:missing_value = -900.f ; float pr_global_avg_jfm(TIME) ; pr_global_avg_jfm:units = "mm/day" ; pr_global_avg_jfm:long_name = "pr global area-average (JFM)" ; pr_global_avg_jfm:_FillValue = -900.f ; pr_global_avg_jfm:missing_value = -900.f ; float pr_global_avg_jja(TIME) ; pr_global_avg_jja:units = "mm/day" ; pr_global_avg_jja:long_name = "pr global area-average (JJA)" ; pr_global_avg_jja:_FillValue = -900.f ; pr_global_avg_jja:missing_value = -900.f ; float pr_global_avg_land_ann(TIME) ; pr_global_avg_land_ann:long_name = "pr global land-only area-average (annual)" ; pr_global_avg_land_ann:units = "mm/day" ; pr_global_avg_land_ann:_FillValue = -900.f ; pr_global_avg_land_ann:missing_value = -900.f ; float pr_global_avg_land_djf(TIME) ; pr_global_avg_land_djf:long_name = "pr global land-only area-average (DJF)" ; pr_global_avg_land_djf:units = "mm/day" ; pr_global_avg_land_djf:_FillValue = -900.f ; pr_global_avg_land_djf:missing_value = -900.f ; float pr_global_avg_land_jas(TIME) ; pr_global_avg_land_jas:long_name = "pr global land-only area-average (JAS)" ; pr_global_avg_land_jas:units = "mm/day" ; pr_global_avg_land_jas:_FillValue = -900.f ; pr_global_avg_land_jas:missing_value = -900.f ; float pr_global_avg_land_jfm(TIME) ; pr_global_avg_land_jfm:long_name = "pr global land-only area-average (JFM)" ; pr_global_avg_land_jfm:units = "mm/day" ; pr_global_avg_land_jfm:_FillValue = -900.f ; pr_global_avg_land_jfm:missing_value = -900.f ; float pr_global_avg_land_jja(TIME) ; pr_global_avg_land_jja:long_name = "pr global land-only area-average (JJA)" ; pr_global_avg_land_jja:units = "mm/day" ; pr_global_avg_land_jja:_FillValue = -900.f ; pr_global_avg_land_jja:missing_value = -900.f ; float pr_global_avg_land_mam(TIME) ; pr_global_avg_land_mam:long_name = "pr global land-only area-average (MAM)" ; pr_global_avg_land_mam:units = "mm/day" ; pr_global_avg_land_mam:_FillValue = -900.f ; pr_global_avg_land_mam:missing_value = -900.f ; float pr_global_avg_land_son(TIME) ; pr_global_avg_land_son:long_name = "pr global land-only area-average (SON)" ; pr_global_avg_land_son:units = "mm/day" ; pr_global_avg_land_son:_FillValue = -900.f ; pr_global_avg_land_son:missing_value = -900.f ; float pr_global_avg_mam(TIME) ; pr_global_avg_mam:units = "mm/day" ; pr_global_avg_mam:long_name = "pr global area-average (MAM)" ; pr_global_avg_mam:_FillValue = -900.f ; pr_global_avg_mam:missing_value = -900.f ; float pr_global_avg_son(TIME) ; pr_global_avg_son:units = "mm/day" ; pr_global_avg_son:long_name = "pr global area-average (SON)" ; pr_global_avg_son:_FillValue = -900.f ; pr_global_avg_son:missing_value = -900.f ; float pr_spatialmean_ann(lat, lon) ; pr_spatialmean_ann:units = "mm/day" ; pr_spatialmean_ann:long_name = "pr climatology (annual)" ; pr_spatialmean_ann:_FillValue = -900.f ; pr_spatialmean_ann:missing_value = -900.f ; float pr_spatialmean_djf(lat, lon) ; pr_spatialmean_djf:_FillValue = -900.f ; pr_spatialmean_djf:units = "mm/day" ; pr_spatialmean_djf:long_name = "pr climatology (DJF)" ; pr_spatialmean_djf:missing_value = -900.f ; float pr_spatialmean_jas(lat, lon) ; pr_spatialmean_jas:units = "mm/day" ; pr_spatialmean_jas:long_name = "pr climatology (JAS)" ; pr_spatialmean_jas:_FillValue = -900.f ; pr_spatialmean_jas:missing_value = -900.f ; float pr_spatialmean_jfm(lat, lon) ; pr_spatialmean_jfm:units = "mm/day" ; pr_spatialmean_jfm:long_name = "pr climatology (JFM)" ; pr_spatialmean_jfm:_FillValue = -900.f ; pr_spatialmean_jfm:missing_value = -900.f ; float pr_spatialmean_jja(lat, lon) ; pr_spatialmean_jja:units = "mm/day" ; pr_spatialmean_jja:long_name = "pr climatology (JJA)" ; pr_spatialmean_jja:_FillValue = -900.f ; pr_spatialmean_jja:missing_value = -900.f ; float pr_spatialmean_mam(lat, lon) ; pr_spatialmean_mam:units = "mm/day" ; pr_spatialmean_mam:long_name = "pr climatology (MAM)" ; pr_spatialmean_mam:_FillValue = -900.f ; pr_spatialmean_mam:missing_value = -900.f ; float pr_spatialmean_son(lat, lon) ; pr_spatialmean_son:units = "mm/day" ; pr_spatialmean_son:long_name = "pr climatology (SON)" ; pr_spatialmean_son:_FillValue = -900.f ; pr_spatialmean_son:missing_value = -900.f ; float pr_spatialstddev_ann(lat, lon) ; pr_spatialstddev_ann:units = "mm/day" ; pr_spatialstddev_ann:long_name = "pr standard deviation (annual)" ; pr_spatialstddev_ann:_FillValue = -900.f ; pr_spatialstddev_ann:missing_value = -900.f ; float pr_spatialstddev_djf(lat, lon) ; pr_spatialstddev_djf:units = "mm/day" ; pr_spatialstddev_djf:long_name = "pr standard deviation (DJF)" ; pr_spatialstddev_djf:_FillValue = -900.f ; pr_spatialstddev_djf:missing_value = -900.f ; float pr_spatialstddev_jas(lat, lon) ; pr_spatialstddev_jas:units = "mm/day" ; pr_spatialstddev_jas:long_name = "pr standard deviation (JAS)" ; pr_spatialstddev_jas:_FillValue = -900.f ; pr_spatialstddev_jas:missing_value = -900.f ; float pr_spatialstddev_jfm(lat, lon) ; pr_spatialstddev_jfm:units = "mm/day" ; pr_spatialstddev_jfm:long_name = "pr standard deviation (JFM)" ; pr_spatialstddev_jfm:_FillValue = -900.f ; pr_spatialstddev_jfm:missing_value = -900.f ; float pr_spatialstddev_jja(lat, lon) ; pr_spatialstddev_jja:units = "mm/day" ; pr_spatialstddev_jja:long_name = "pr standard deviation (JJA)" ; pr_spatialstddev_jja:_FillValue = -900.f ; pr_spatialstddev_jja:missing_value = -900.f ; float pr_spatialstddev_mam(lat, lon) ; pr_spatialstddev_mam:units = "mm/day" ; pr_spatialstddev_mam:long_name = "pr standard deviation (MAM)" ; pr_spatialstddev_mam:_FillValue = -900.f ; pr_spatialstddev_mam:missing_value = -900.f ; float pr_spatialstddev_son(lat, lon) ; pr_spatialstddev_son:units = "mm/day" ; pr_spatialstddev_son:long_name = "pr standard deviation (SON)" ; pr_spatialstddev_son:_FillValue = -900.f ; pr_spatialstddev_son:missing_value = -900.f ; float pr_trends_ann(lat, lon) ; pr_trends_ann:units = "mm/day 100yr~S~-1~N~" ; pr_trends_ann:long_name = "pr linear trends (annual)" ; pr_trends_ann:_FillValue = -900.f ; pr_trends_ann:missing_value = -900.f ; float pr_trends_djf(lat, lon) ; pr_trends_djf:units = "mm/day 100yr~S~-1~N~" ; pr_trends_djf:long_name = "pr linear trends (DJF)" ; pr_trends_djf:_FillValue = -900.f ; pr_trends_djf:missing_value = -900.f ; float pr_trends_jas(lat, lon) ; pr_trends_jas:units = "mm/day 100yr~S~-1~N~" ; pr_trends_jas:long_name = "pr linear trends (JAS)" ; pr_trends_jas:_FillValue = -900.f ; pr_trends_jas:missing_value = -900.f ; float pr_trends_jfm(lat, lon) ; pr_trends_jfm:units = "mm/day 100yr~S~-1~N~" ; pr_trends_jfm:long_name = "pr linear trends (JFM)" ; pr_trends_jfm:_FillValue = -900.f ; pr_trends_jfm:missing_value = -900.f ; float pr_trends_jja(lat, lon) ; pr_trends_jja:units = "mm/day 100yr~S~-1~N~" ; pr_trends_jja:long_name = "pr linear trends (JJA)" ; pr_trends_jja:_FillValue = -900.f ; pr_trends_jja:missing_value = -900.f ; float pr_trends_mam(lat, lon) ; pr_trends_mam:units = "mm/day 100yr~S~-1~N~" ; pr_trends_mam:long_name = "pr linear trends (MAM)" ; pr_trends_mam:_FillValue = -900.f ; pr_trends_mam:missing_value = -900.f ; float pr_trends_son(lat, lon) ; pr_trends_son:units = "mm/day 100yr~S~-1~N~" ; pr_trends_son:long_name = "pr linear trends (SON)" ; pr_trends_son:_FillValue = -900.f ; pr_trends_son:missing_value = -900.f ; float psa1_pattern_ann(lat, lon) ; psa1_pattern_ann:_FillValue = -900.f ; psa1_pattern_ann:units = "hPa" ; psa1_pattern_ann:pcvar = "14.0%" ; psa1_pattern_ann:missing_value = -900.f ; psa1_pattern_ann:long_name = "psa1 spatial pattern (ANN)" ; float psa1_pattern_djf(lat, lon) ; psa1_pattern_djf:_FillValue = -900.f ; psa1_pattern_djf:units = "hPa" ; psa1_pattern_djf:pcvar = "11.0%*" ; psa1_pattern_djf:missing_value = -900.f ; psa1_pattern_djf:long_name = "psa1 spatial pattern (DJF)" ; float psa1_pattern_jas(lat, lon) ; psa1_pattern_jas:_FillValue = -900.f ; psa1_pattern_jas:units = "hPa" ; psa1_pattern_jas:pcvar = "14.4%*" ; psa1_pattern_jas:missing_value = -900.f ; psa1_pattern_jas:long_name = "psa1 spatial pattern (JAS)" ; float psa1_pattern_jfm(lat, lon) ; psa1_pattern_jfm:_FillValue = -900.f ; psa1_pattern_jfm:units = "hPa" ; psa1_pattern_jfm:pcvar = "12.9%*" ; psa1_pattern_jfm:missing_value = -900.f ; psa1_pattern_jfm:long_name = "psa1 spatial pattern (JFM)" ; float psa1_pattern_jja(lat, lon) ; psa1_pattern_jja:_FillValue = -900.f ; psa1_pattern_jja:units = "hPa" ; psa1_pattern_jja:pcvar = "14.0%*" ; psa1_pattern_jja:missing_value = -900.f ; psa1_pattern_jja:long_name = "psa1 spatial pattern (JJA)" ; float psa1_pattern_mam(lat, lon) ; psa1_pattern_mam:_FillValue = -900.f ; psa1_pattern_mam:units = "hPa" ; psa1_pattern_mam:pcvar = "16.8%*" ; psa1_pattern_mam:missing_value = -900.f ; psa1_pattern_mam:long_name = "psa1 spatial pattern (MAM)" ; float psa1_pattern_son(lat, lon) ; psa1_pattern_son:_FillValue = -900.f ; psa1_pattern_son:units = "hPa" ; psa1_pattern_son:pcvar = "16.4%*" ; psa1_pattern_son:missing_value = -900.f ; psa1_pattern_son:long_name = "psa1 spatial pattern (SON)" ; float psa1_timeseries_ann(TIME) ; psa1_timeseries_ann:long_name = "psa1 normalized principal component timeseries (ANN)" ; psa1_timeseries_ann:units = "1" ; psa1_timeseries_ann:_FillValue = 9.96921e+36f ; psa1_timeseries_ann:missing_value = 9.96921e+36f ; float psa1_timeseries_djf(TIME) ; psa1_timeseries_djf:long_name = "psa1 normalized principal component timeseries (DJF)" ; psa1_timeseries_djf:units = "1" ; psa1_timeseries_djf:_FillValue = 9.96921e+36f ; psa1_timeseries_djf:missing_value = 9.96921e+36f ; float psa1_timeseries_jas(TIME) ; psa1_timeseries_jas:long_name = "psa1 normalized principal component timeseries (JAS)" ; psa1_timeseries_jas:units = "1" ; psa1_timeseries_jas:_FillValue = 9.96921e+36f ; psa1_timeseries_jas:missing_value = 9.96921e+36f ; float psa1_timeseries_jfm(TIME) ; psa1_timeseries_jfm:long_name = "psa1 normalized principal component timeseries (JFM)" ; psa1_timeseries_jfm:units = "1" ; psa1_timeseries_jfm:_FillValue = 9.96921e+36f ; psa1_timeseries_jfm:missing_value = 9.96921e+36f ; float psa1_timeseries_jja(TIME) ; psa1_timeseries_jja:long_name = "psa1 normalized principal component timeseries (JJA)" ; psa1_timeseries_jja:units = "1" ; psa1_timeseries_jja:_FillValue = 9.96921e+36f ; psa1_timeseries_jja:missing_value = 9.96921e+36f ; float psa1_timeseries_mam(TIME) ; psa1_timeseries_mam:long_name = "psa1 normalized principal component timeseries (MAM)" ; psa1_timeseries_mam:units = "1" ; psa1_timeseries_mam:_FillValue = 9.96921e+36f ; psa1_timeseries_mam:missing_value = 9.96921e+36f ; float psa1_timeseries_son(TIME) ; psa1_timeseries_son:long_name = "psa1 normalized principal component timeseries (SON)" ; psa1_timeseries_son:units = "1" ; psa1_timeseries_son:_FillValue = 9.96921e+36f ; psa1_timeseries_son:missing_value = 9.96921e+36f ; float psa2_pattern_ann(lat, lon) ; psa2_pattern_ann:_FillValue = -900.f ; psa2_pattern_ann:units = "hPa" ; psa2_pattern_ann:pcvar = "12.6%" ; psa2_pattern_ann:missing_value = -900.f ; psa2_pattern_ann:long_name = "psa2 spatial pattern (ANN)" ; float psa2_pattern_djf(lat, lon) ; psa2_pattern_djf:_FillValue = -900.f ; psa2_pattern_djf:units = "hPa" ; psa2_pattern_djf:pcvar = " 7.0%*" ; psa2_pattern_djf:missing_value = -900.f ; psa2_pattern_djf:long_name = "psa2 spatial pattern (DJF)" ; float psa2_pattern_jas(lat, lon) ; psa2_pattern_jas:_FillValue = -900.f ; psa2_pattern_jas:units = "hPa" ; psa2_pattern_jas:pcvar = " 8.7%*" ; psa2_pattern_jas:missing_value = -900.f ; psa2_pattern_jas:long_name = "psa2 spatial pattern (JAS)" ; float psa2_pattern_jfm(lat, lon) ; psa2_pattern_jfm:_FillValue = -900.f ; psa2_pattern_jfm:units = "hPa" ; psa2_pattern_jfm:pcvar = " 8.9%*" ; psa2_pattern_jfm:missing_value = -900.f ; psa2_pattern_jfm:long_name = "psa2 spatial pattern (JFM)" ; float psa2_pattern_jja(lat, lon) ; psa2_pattern_jja:_FillValue = -900.f ; psa2_pattern_jja:units = "hPa" ; psa2_pattern_jja:pcvar = " 9.2%" ; psa2_pattern_jja:missing_value = -900.f ; psa2_pattern_jja:long_name = "psa2 spatial pattern (JJA)" ; float psa2_pattern_mam(lat, lon) ; psa2_pattern_mam:_FillValue = -900.f ; psa2_pattern_mam:units = "hPa" ; psa2_pattern_mam:pcvar = "12.6%*" ; psa2_pattern_mam:missing_value = -900.f ; psa2_pattern_mam:long_name = "psa2 spatial pattern (MAM)" ; float psa2_pattern_son(lat, lon) ; psa2_pattern_son:_FillValue = -900.f ; psa2_pattern_son:units = "hPa" ; psa2_pattern_son:pcvar = " 9.5%*" ; psa2_pattern_son:missing_value = -900.f ; psa2_pattern_son:long_name = "psa2 spatial pattern (SON)" ; float psa2_timeseries_ann(TIME) ; psa2_timeseries_ann:long_name = "psa2 normalized principal component timeseries (ANN)" ; psa2_timeseries_ann:units = "1" ; psa2_timeseries_ann:_FillValue = 9.96921e+36f ; psa2_timeseries_ann:missing_value = 9.96921e+36f ; float psa2_timeseries_djf(TIME) ; psa2_timeseries_djf:long_name = "psa2 normalized principal component timeseries (DJF)" ; psa2_timeseries_djf:units = "1" ; psa2_timeseries_djf:_FillValue = 9.96921e+36f ; psa2_timeseries_djf:missing_value = 9.96921e+36f ; float psa2_timeseries_jas(TIME) ; psa2_timeseries_jas:long_name = "psa2 normalized principal component timeseries (JAS)" ; psa2_timeseries_jas:units = "1" ; psa2_timeseries_jas:_FillValue = 9.96921e+36f ; psa2_timeseries_jas:missing_value = 9.96921e+36f ; float psa2_timeseries_jfm(TIME) ; psa2_timeseries_jfm:long_name = "psa2 normalized principal component timeseries (JFM)" ; psa2_timeseries_jfm:units = "1" ; psa2_timeseries_jfm:_FillValue = 9.96921e+36f ; psa2_timeseries_jfm:missing_value = 9.96921e+36f ; float psa2_timeseries_jja(TIME) ; psa2_timeseries_jja:long_name = "psa2 normalized principal component timeseries (JJA)" ; psa2_timeseries_jja:units = "1" ; psa2_timeseries_jja:_FillValue = 9.96921e+36f ; psa2_timeseries_jja:missing_value = 9.96921e+36f ; float psa2_timeseries_mam(TIME) ; psa2_timeseries_mam:long_name = "psa2 normalized principal component timeseries (MAM)" ; psa2_timeseries_mam:units = "1" ; psa2_timeseries_mam:_FillValue = 9.96921e+36f ; psa2_timeseries_mam:missing_value = 9.96921e+36f ; float psa2_timeseries_son(TIME) ; psa2_timeseries_son:long_name = "psa2 normalized principal component timeseries (SON)" ; psa2_timeseries_son:units = "1" ; psa2_timeseries_son:_FillValue = 9.96921e+36f ; psa2_timeseries_son:missing_value = 9.96921e+36f ; float psl_spatialmean_ann(lat, lon) ; psl_spatialmean_ann:units = "hPa" ; psl_spatialmean_ann:long_name = "psl climatology (annual)" ; psl_spatialmean_ann:_FillValue = -900.f ; psl_spatialmean_ann:missing_value = -900.f ; float psl_spatialmean_djf(lat, lon) ; psl_spatialmean_djf:_FillValue = -900.f ; psl_spatialmean_djf:units = "hPa" ; psl_spatialmean_djf:long_name = "psl climatology (DJF)" ; psl_spatialmean_djf:missing_value = -900.f ; float psl_spatialmean_jas(lat, lon) ; psl_spatialmean_jas:units = "hPa" ; psl_spatialmean_jas:long_name = "psl climatology (JAS)" ; psl_spatialmean_jas:_FillValue = -900.f ; psl_spatialmean_jas:missing_value = -900.f ; float psl_spatialmean_jfm(lat, lon) ; psl_spatialmean_jfm:units = "hPa" ; psl_spatialmean_jfm:long_name = "psl climatology (JFM)" ; psl_spatialmean_jfm:_FillValue = -900.f ; psl_spatialmean_jfm:missing_value = -900.f ; float psl_spatialmean_jja(lat, lon) ; psl_spatialmean_jja:units = "hPa" ; psl_spatialmean_jja:long_name = "psl climatology (JJA)" ; psl_spatialmean_jja:_FillValue = -900.f ; psl_spatialmean_jja:missing_value = -900.f ; float psl_spatialmean_mam(lat, lon) ; psl_spatialmean_mam:units = "hPa" ; psl_spatialmean_mam:long_name = "psl climatology (MAM)" ; psl_spatialmean_mam:_FillValue = -900.f ; psl_spatialmean_mam:missing_value = -900.f ; float psl_spatialmean_son(lat, lon) ; psl_spatialmean_son:units = "hPa" ; psl_spatialmean_son:long_name = "psl climatology (SON)" ; psl_spatialmean_son:_FillValue = -900.f ; psl_spatialmean_son:missing_value = -900.f ; float psl_spatialstddev_ann(lat, lon) ; psl_spatialstddev_ann:units = "hPa" ; psl_spatialstddev_ann:long_name = "psl standard deviation (annual)" ; psl_spatialstddev_ann:_FillValue = -900.f ; psl_spatialstddev_ann:missing_value = -900.f ; float psl_spatialstddev_djf(lat, lon) ; psl_spatialstddev_djf:units = "hPa" ; psl_spatialstddev_djf:long_name = "psl standard deviation (DJF)" ; psl_spatialstddev_djf:_FillValue = -900.f ; psl_spatialstddev_djf:missing_value = -900.f ; float psl_spatialstddev_jas(lat, lon) ; psl_spatialstddev_jas:units = "hPa" ; psl_spatialstddev_jas:long_name = "psl standard deviation (JAS)" ; psl_spatialstddev_jas:_FillValue = -900.f ; psl_spatialstddev_jas:missing_value = -900.f ; float psl_spatialstddev_jfm(lat, lon) ; psl_spatialstddev_jfm:units = "hPa" ; psl_spatialstddev_jfm:long_name = "psl standard deviation (JFM)" ; psl_spatialstddev_jfm:_FillValue = -900.f ; psl_spatialstddev_jfm:missing_value = -900.f ; float psl_spatialstddev_jja(lat, lon) ; psl_spatialstddev_jja:units = "hPa" ; psl_spatialstddev_jja:long_name = "psl standard deviation (JJA)" ; psl_spatialstddev_jja:_FillValue = -900.f ; psl_spatialstddev_jja:missing_value = -900.f ; float psl_spatialstddev_mam(lat, lon) ; psl_spatialstddev_mam:units = "hPa" ; psl_spatialstddev_mam:long_name = "psl standard deviation (MAM)" ; psl_spatialstddev_mam:_FillValue = -900.f ; psl_spatialstddev_mam:missing_value = -900.f ; float psl_spatialstddev_son(lat, lon) ; psl_spatialstddev_son:units = "hPa" ; psl_spatialstddev_son:long_name = "psl standard deviation (SON)" ; psl_spatialstddev_son:_FillValue = -900.f ; psl_spatialstddev_son:missing_value = -900.f ; float psl_trends_ann(lat, lon) ; psl_trends_ann:units = "hPa 100yr~S~-1~N~" ; psl_trends_ann:long_name = "psl linear trends (annual)" ; psl_trends_ann:_FillValue = -900.f ; psl_trends_ann:missing_value = -900.f ; float psl_trends_djf(lat, lon) ; psl_trends_djf:units = "hPa 100yr~S~-1~N~" ; psl_trends_djf:long_name = "psl linear trends (DJF)" ; psl_trends_djf:_FillValue = -900.f ; psl_trends_djf:missing_value = -900.f ; float psl_trends_jas(lat, lon) ; psl_trends_jas:units = "hPa 100yr~S~-1~N~" ; psl_trends_jas:long_name = "psl linear trends (JAS)" ; psl_trends_jas:_FillValue = -900.f ; psl_trends_jas:missing_value = -900.f ; float psl_trends_jfm(lat, lon) ; psl_trends_jfm:units = "hPa 100yr~S~-1~N~" ; psl_trends_jfm:long_name = "psl linear trends (JFM)" ; psl_trends_jfm:_FillValue = -900.f ; psl_trends_jfm:missing_value = -900.f ; float psl_trends_jja(lat, lon) ; psl_trends_jja:units = "hPa 100yr~S~-1~N~" ; psl_trends_jja:long_name = "psl linear trends (JJA)" ; psl_trends_jja:_FillValue = -900.f ; psl_trends_jja:missing_value = -900.f ; float psl_trends_mam(lat, lon) ; psl_trends_mam:units = "hPa 100yr~S~-1~N~" ; psl_trends_mam:long_name = "psl linear trends (MAM)" ; psl_trends_mam:_FillValue = -900.f ; psl_trends_mam:missing_value = -900.f ; float psl_trends_son(lat, lon) ; psl_trends_son:units = "hPa 100yr~S~-1~N~" ; psl_trends_son:long_name = "psl linear trends (SON)" ; psl_trends_son:_FillValue = -900.f ; psl_trends_son:missing_value = -900.f ; float sam_pattern_ann(lat, lon) ; sam_pattern_ann:_FillValue = -900.f ; sam_pattern_ann:units = "hPa" ; sam_pattern_ann:pcvar = "28.0%*" ; sam_pattern_ann:missing_value = -900.f ; sam_pattern_ann:long_name = "sam spatial pattern (ANN)" ; float sam_pattern_djf(lat, lon) ; sam_pattern_djf:_FillValue = -900.f ; sam_pattern_djf:units = "hPa" ; sam_pattern_djf:pcvar = "44.9%*" ; sam_pattern_djf:missing_value = -900.f ; sam_pattern_djf:long_name = "sam spatial pattern (DJF)" ; float sam_pattern_jas(lat, lon) ; sam_pattern_jas:_FillValue = -900.f ; sam_pattern_jas:units = "hPa" ; sam_pattern_jas:pcvar = "35.7%*" ; sam_pattern_jas:missing_value = -900.f ; sam_pattern_jas:long_name = "sam spatial pattern (JAS)" ; float sam_pattern_jfm(lat, lon) ; sam_pattern_jfm:_FillValue = -900.f ; sam_pattern_jfm:units = "hPa" ; sam_pattern_jfm:pcvar = "37.9%*" ; sam_pattern_jfm:missing_value = -900.f ; sam_pattern_jfm:long_name = "sam spatial pattern (JFM)" ; float sam_pattern_jja(lat, lon) ; sam_pattern_jja:_FillValue = -900.f ; sam_pattern_jja:units = "hPa" ; sam_pattern_jja:pcvar = "30.1%*" ; sam_pattern_jja:missing_value = -900.f ; sam_pattern_jja:long_name = "sam spatial pattern (JJA)" ; float sam_pattern_mam(lat, lon) ; sam_pattern_mam:_FillValue = -900.f ; sam_pattern_mam:units = "hPa" ; sam_pattern_mam:pcvar = "20.3%*" ; sam_pattern_mam:missing_value = -900.f ; sam_pattern_mam:long_name = "sam spatial pattern (MAM)" ; float sam_pattern_son(lat, lon) ; sam_pattern_son:_FillValue = -900.f ; sam_pattern_son:units = "hPa" ; sam_pattern_son:pcvar = "27.9%*" ; sam_pattern_son:missing_value = -900.f ; sam_pattern_son:long_name = "sam spatial pattern (SON)" ; float sam_timeseries_ann(TIME) ; sam_timeseries_ann:long_name = "sam normalized principal component timeseries (ANN)" ; sam_timeseries_ann:units = "1" ; sam_timeseries_ann:_FillValue = 9.96921e+36f ; sam_timeseries_ann:missing_value = 9.96921e+36f ; float sam_timeseries_djf(TIME) ; sam_timeseries_djf:_FillValue = 9.96921e+36f ; sam_timeseries_djf:missing_value = 9.96921e+36f ; sam_timeseries_djf:long_name = "sam normalized principal component timeseries (DJF)" ; sam_timeseries_djf:units = "1" ; float sam_timeseries_jas(TIME) ; sam_timeseries_jas:long_name = "sam normalized principal component timeseries (JAS)" ; sam_timeseries_jas:units = "1" ; sam_timeseries_jas:_FillValue = 9.96921e+36f ; sam_timeseries_jas:missing_value = 9.96921e+36f ; float sam_timeseries_jfm(TIME) ; sam_timeseries_jfm:long_name = "sam normalized principal component timeseries (JFM)" ; sam_timeseries_jfm:units = "1" ; sam_timeseries_jfm:_FillValue = 9.96921e+36f ; sam_timeseries_jfm:missing_value = 9.96921e+36f ; float sam_timeseries_jja(TIME) ; sam_timeseries_jja:long_name = "sam normalized principal component timeseries (JJA)" ; sam_timeseries_jja:units = "1" ; sam_timeseries_jja:_FillValue = 9.96921e+36f ; sam_timeseries_jja:missing_value = 9.96921e+36f ; float sam_timeseries_mam(TIME) ; sam_timeseries_mam:long_name = "sam normalized principal component timeseries (MAM)" ; sam_timeseries_mam:units = "1" ; sam_timeseries_mam:_FillValue = 9.96921e+36f ; sam_timeseries_mam:missing_value = 9.96921e+36f ; float sam_timeseries_son(TIME) ; sam_timeseries_son:long_name = "sam normalized principal component timeseries (SON)" ; sam_timeseries_son:units = "1" ; sam_timeseries_son:_FillValue = 9.96921e+36f ; sam_timeseries_son:missing_value = 9.96921e+36f ; float siconc_nh_extent_ann(TIME) ; siconc_nh_extent_ann:time_rep = "averaged" ; siconc_nh_extent_ann:long_name = "Northern Hemisphere siconc extent timeseries (annual)" ; siconc_nh_extent_ann:units = "10^12 m2" ; siconc_nh_extent_ann:_FillValue = 1.e+30f ; siconc_nh_extent_ann:missing_value = 1.e+30f ; float siconc_nh_extent_anom_mon(time) ; siconc_nh_extent_anom_mon:_FillValue = 1.e+30f ; siconc_nh_extent_anom_mon:units = "10^12 m2" ; siconc_nh_extent_anom_mon:long_name = "Northern Hemisphere siconc extent anomaly timeseries (monthly)" ; siconc_nh_extent_anom_mon:time_rep = "averaged" ; siconc_nh_extent_anom_mon:missing_value = 1.e+30f ; float siconc_nh_extent_climo(time_mon2) ; siconc_nh_extent_climo:_FillValue = 1.e+30f ; siconc_nh_extent_climo:units = "10^12 m2" ; siconc_nh_extent_climo:long_name = "Northern Hemisphere siconc extent climatology" ; siconc_nh_extent_climo:time_rep = "averaged" ; siconc_nh_extent_climo:missing_value = 1.e+30f ; float siconc_nh_extent_djf(TIME) ; siconc_nh_extent_djf:time_rep = "averaged" ; siconc_nh_extent_djf:long_name = "Northern Hemisphere siconc extent timeseries (DJF)" ; siconc_nh_extent_djf:units = "10^12 m2" ; siconc_nh_extent_djf:_FillValue = 1.e+30f ; siconc_nh_extent_djf:missing_value = 1.e+30f ; float siconc_nh_extent_feb(TIME) ; siconc_nh_extent_feb:time_rep = "averaged" ; siconc_nh_extent_feb:long_name = "Northern Hemisphere siconc extent timeseries (February)" ; siconc_nh_extent_feb:units = "10^12 m2" ; siconc_nh_extent_feb:_FillValue = 1.e+30f ; siconc_nh_extent_feb:missing_value = 1.e+30f ; float siconc_nh_extent_jas(TIME) ; siconc_nh_extent_jas:time_rep = "averaged" ; siconc_nh_extent_jas:long_name = "Northern Hemisphere siconc extent timeseries (JAS)" ; siconc_nh_extent_jas:units = "10^12 m2" ; siconc_nh_extent_jas:_FillValue = 1.e+30f ; siconc_nh_extent_jas:missing_value = 1.e+30f ; float siconc_nh_extent_jfm(TIME) ; siconc_nh_extent_jfm:time_rep = "averaged" ; siconc_nh_extent_jfm:long_name = "Northern Hemisphere siconc extent timeseries (JFM)" ; siconc_nh_extent_jfm:units = "10^12 m2" ; siconc_nh_extent_jfm:_FillValue = 1.e+30f ; siconc_nh_extent_jfm:missing_value = 1.e+30f ; float siconc_nh_extent_jja(TIME) ; siconc_nh_extent_jja:time_rep = "averaged" ; siconc_nh_extent_jja:long_name = "Northern Hemisphere siconc extent timeseries (JJA)" ; siconc_nh_extent_jja:units = "10^12 m2" ; siconc_nh_extent_jja:_FillValue = 1.e+30f ; siconc_nh_extent_jja:missing_value = 1.e+30f ; float siconc_nh_extent_mam(TIME) ; siconc_nh_extent_mam:time_rep = "averaged" ; siconc_nh_extent_mam:long_name = "Northern Hemisphere siconc extent timeseries (MAM)" ; siconc_nh_extent_mam:units = "10^12 m2" ; siconc_nh_extent_mam:_FillValue = 1.e+30f ; siconc_nh_extent_mam:missing_value = 1.e+30f ; float siconc_nh_extent_mar(TIME) ; siconc_nh_extent_mar:time_rep = "averaged" ; siconc_nh_extent_mar:long_name = "Northern Hemisphere siconc extent timeseries (March)" ; siconc_nh_extent_mar:units = "10^12 m2" ; siconc_nh_extent_mar:_FillValue = 1.e+30f ; siconc_nh_extent_mar:missing_value = 1.e+30f ; float siconc_nh_extent_mon(time) ; siconc_nh_extent_mon:time_rep = "averaged" ; siconc_nh_extent_mon:long_name = "Northern Hemisphere siconc extent timeseries (monthly)" ; siconc_nh_extent_mon:units = "10^12 m2" ; siconc_nh_extent_mon:_FillValue = 1.e+30f ; siconc_nh_extent_mon:missing_value = 1.e+30f ; float siconc_nh_extent_oct(TIME) ; siconc_nh_extent_oct:time_rep = "averaged" ; siconc_nh_extent_oct:long_name = "Northern Hemisphere siconc extent timeseries (October)" ; siconc_nh_extent_oct:units = "10^12 m2" ; siconc_nh_extent_oct:_FillValue = 1.e+30f ; siconc_nh_extent_oct:missing_value = 1.e+30f ; float siconc_nh_extent_sep(TIME) ; siconc_nh_extent_sep:time_rep = "averaged" ; siconc_nh_extent_sep:long_name = "Northern Hemisphere siconc extent timeseries (September)" ; siconc_nh_extent_sep:units = "10^12 m2" ; siconc_nh_extent_sep:_FillValue = 1.e+30f ; siconc_nh_extent_sep:missing_value = 1.e+30f ; float siconc_nh_extent_son(TIME) ; siconc_nh_extent_son:time_rep = "averaged" ; siconc_nh_extent_son:long_name = "Northern Hemisphere siconc extent timeseries (SON)" ; siconc_nh_extent_son:units = "10^12 m2" ; siconc_nh_extent_son:_FillValue = 1.e+30f ; siconc_nh_extent_son:missing_value = 1.e+30f ; float siconc_nh_spatialmean_ann(j, i) ; siconc_nh_spatialmean_ann:units = "%" ; siconc_nh_spatialmean_ann:long_name = "Northern Hemisphere siconc climatology (annual)" ; siconc_nh_spatialmean_ann:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialmean_ann:time_rep = "averaged" ; siconc_nh_spatialmean_ann:_FillValue = 1.e+30f ; siconc_nh_spatialmean_ann:missing_value = 1.e+30f ; float siconc_nh_spatialmean_djf(j, i) ; siconc_nh_spatialmean_djf:_FillValue = 1.e+30f ; siconc_nh_spatialmean_djf:units = "%" ; siconc_nh_spatialmean_djf:long_name = "Northern Hemisphere siconc climatology (DJF)" ; siconc_nh_spatialmean_djf:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialmean_djf:time_rep = "averaged" ; siconc_nh_spatialmean_djf:missing_value = 1.e+30f ; float siconc_nh_spatialmean_jas(j, i) ; siconc_nh_spatialmean_jas:units = "%" ; siconc_nh_spatialmean_jas:long_name = "Northern Hemisphere siconc climatology (JAS)" ; siconc_nh_spatialmean_jas:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialmean_jas:time_rep = "averaged" ; siconc_nh_spatialmean_jas:_FillValue = 1.e+30f ; siconc_nh_spatialmean_jas:missing_value = 1.e+30f ; float siconc_nh_spatialmean_jfm(j, i) ; siconc_nh_spatialmean_jfm:units = "%" ; siconc_nh_spatialmean_jfm:long_name = "Northern Hemisphere siconc climatology (JFM)" ; siconc_nh_spatialmean_jfm:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialmean_jfm:time_rep = "averaged" ; siconc_nh_spatialmean_jfm:_FillValue = 1.e+30f ; siconc_nh_spatialmean_jfm:missing_value = 1.e+30f ; float siconc_nh_spatialmean_jja(j, i) ; siconc_nh_spatialmean_jja:units = "%" ; siconc_nh_spatialmean_jja:long_name = "Northern Hemisphere siconc climatology (JJA)" ; siconc_nh_spatialmean_jja:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialmean_jja:time_rep = "averaged" ; siconc_nh_spatialmean_jja:_FillValue = 1.e+30f ; siconc_nh_spatialmean_jja:missing_value = 1.e+30f ; float siconc_nh_spatialmean_mam(j, i) ; siconc_nh_spatialmean_mam:units = "%" ; siconc_nh_spatialmean_mam:long_name = "Northern Hemisphere siconc climatology (MAM)" ; siconc_nh_spatialmean_mam:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialmean_mam:time_rep = "averaged" ; siconc_nh_spatialmean_mam:_FillValue = 1.e+30f ; siconc_nh_spatialmean_mam:missing_value = 1.e+30f ; float siconc_nh_spatialmean_son(j, i) ; siconc_nh_spatialmean_son:units = "%" ; siconc_nh_spatialmean_son:long_name = "Northern Hemisphere siconc climatology (SON)" ; siconc_nh_spatialmean_son:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialmean_son:time_rep = "averaged" ; siconc_nh_spatialmean_son:_FillValue = 1.e+30f ; siconc_nh_spatialmean_son:missing_value = 1.e+30f ; float siconc_nh_spatialstddev_ann(j, i) ; siconc_nh_spatialstddev_ann:units = "%" ; siconc_nh_spatialstddev_ann:long_name = "Northern Hemisphere siconc standard deviation (annual)" ; siconc_nh_spatialstddev_ann:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialstddev_ann:time_rep = "averaged" ; siconc_nh_spatialstddev_ann:_FillValue = 1.e+30f ; siconc_nh_spatialstddev_ann:missing_value = 1.e+30f ; float siconc_nh_spatialstddev_djf(j, i) ; siconc_nh_spatialstddev_djf:units = "%" ; siconc_nh_spatialstddev_djf:long_name = "Northern Hemisphere siconc standard deviation (DJF)" ; siconc_nh_spatialstddev_djf:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialstddev_djf:time_rep = "averaged" ; siconc_nh_spatialstddev_djf:_FillValue = 1.e+30f ; siconc_nh_spatialstddev_djf:missing_value = 1.e+30f ; float siconc_nh_spatialstddev_jas(j, i) ; siconc_nh_spatialstddev_jas:units = "%" ; siconc_nh_spatialstddev_jas:long_name = "Northern Hemisphere siconc standard deviation (JAS)" ; siconc_nh_spatialstddev_jas:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialstddev_jas:time_rep = "averaged" ; siconc_nh_spatialstddev_jas:_FillValue = 1.e+30f ; siconc_nh_spatialstddev_jas:missing_value = 1.e+30f ; float siconc_nh_spatialstddev_jfm(j, i) ; siconc_nh_spatialstddev_jfm:units = "%" ; siconc_nh_spatialstddev_jfm:long_name = "Northern Hemisphere siconc standard deviation (JFM)" ; siconc_nh_spatialstddev_jfm:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialstddev_jfm:time_rep = "averaged" ; siconc_nh_spatialstddev_jfm:_FillValue = 1.e+30f ; siconc_nh_spatialstddev_jfm:missing_value = 1.e+30f ; float siconc_nh_spatialstddev_jja(j, i) ; siconc_nh_spatialstddev_jja:units = "%" ; siconc_nh_spatialstddev_jja:long_name = "Northern Hemisphere siconc standard deviation (JJA)" ; siconc_nh_spatialstddev_jja:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialstddev_jja:time_rep = "averaged" ; siconc_nh_spatialstddev_jja:_FillValue = 1.e+30f ; siconc_nh_spatialstddev_jja:missing_value = 1.e+30f ; float siconc_nh_spatialstddev_mam(j, i) ; siconc_nh_spatialstddev_mam:units = "%" ; siconc_nh_spatialstddev_mam:long_name = "Northern Hemisphere siconc standard deviation (MAM)" ; siconc_nh_spatialstddev_mam:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialstddev_mam:time_rep = "averaged" ; siconc_nh_spatialstddev_mam:_FillValue = 1.e+30f ; siconc_nh_spatialstddev_mam:missing_value = 1.e+30f ; float siconc_nh_spatialstddev_son(j, i) ; siconc_nh_spatialstddev_son:units = "%" ; siconc_nh_spatialstddev_son:long_name = "Northern Hemisphere siconc standard deviation (SON)" ; siconc_nh_spatialstddev_son:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_spatialstddev_son:time_rep = "averaged" ; siconc_nh_spatialstddev_son:_FillValue = 1.e+30f ; siconc_nh_spatialstddev_son:missing_value = 1.e+30f ; float siconc_nh_trends_ann(j, i) ; siconc_nh_trends_ann:units = "% 100yr~S~-1~N~" ; siconc_nh_trends_ann:long_name = "Northern Hemisphere siconc linear trends (annual)" ; siconc_nh_trends_ann:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_trends_ann:time_rep = "averaged" ; siconc_nh_trends_ann:_FillValue = 1.e+30f ; siconc_nh_trends_ann:missing_value = 1.e+30f ; float siconc_nh_trends_djf(j, i) ; siconc_nh_trends_djf:_FillValue = 1.e+30f ; siconc_nh_trends_djf:units = "% 100yr~S~-1~N~" ; siconc_nh_trends_djf:long_name = "Northern Hemisphere siconc linear trends (DJF)" ; siconc_nh_trends_djf:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_trends_djf:time_rep = "averaged" ; siconc_nh_trends_djf:missing_value = 1.e+30f ; float siconc_nh_trends_jas(j, i) ; siconc_nh_trends_jas:units = "% 100yr~S~-1~N~" ; siconc_nh_trends_jas:long_name = "Northern Hemisphere siconc linear trends (JAS)" ; siconc_nh_trends_jas:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_trends_jas:time_rep = "averaged" ; siconc_nh_trends_jas:_FillValue = 1.e+30f ; siconc_nh_trends_jas:missing_value = 1.e+30f ; float siconc_nh_trends_jfm(j, i) ; siconc_nh_trends_jfm:units = "% 100yr~S~-1~N~" ; siconc_nh_trends_jfm:long_name = "Northern Hemisphere siconc linear trends (JFM)" ; siconc_nh_trends_jfm:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_trends_jfm:time_rep = "averaged" ; siconc_nh_trends_jfm:_FillValue = 1.e+30f ; siconc_nh_trends_jfm:missing_value = 1.e+30f ; float siconc_nh_trends_jja(j, i) ; siconc_nh_trends_jja:units = "% 100yr~S~-1~N~" ; siconc_nh_trends_jja:long_name = "Northern Hemisphere siconc linear trends (JJA)" ; siconc_nh_trends_jja:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_trends_jja:time_rep = "averaged" ; siconc_nh_trends_jja:_FillValue = 1.e+30f ; siconc_nh_trends_jja:missing_value = 1.e+30f ; float siconc_nh_trends_mam(j, i) ; siconc_nh_trends_mam:units = "% 100yr~S~-1~N~" ; siconc_nh_trends_mam:long_name = "Northern Hemisphere siconc linear trends (MAM)" ; siconc_nh_trends_mam:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_trends_mam:time_rep = "averaged" ; siconc_nh_trends_mam:_FillValue = 1.e+30f ; siconc_nh_trends_mam:missing_value = 1.e+30f ; float siconc_nh_trends_son(j, i) ; siconc_nh_trends_son:units = "% 100yr~S~-1~N~" ; siconc_nh_trends_son:long_name = "Northern Hemisphere siconc linear trends (SON)" ; siconc_nh_trends_son:coordinates = "lat2d_ice_nh lon2d_ice_nh" ; siconc_nh_trends_son:time_rep = "averaged" ; siconc_nh_trends_son:_FillValue = 1.e+30f ; siconc_nh_trends_son:missing_value = 1.e+30f ; float siconc_sh_extent_ann(TIME) ; siconc_sh_extent_ann:time_rep = "averaged" ; siconc_sh_extent_ann:long_name = "Southern Hemisphere siconc extent timeseries (annual)" ; siconc_sh_extent_ann:units = "10^12 m2" ; siconc_sh_extent_ann:_FillValue = 1.e+30f ; siconc_sh_extent_ann:missing_value = 1.e+30f ; float siconc_sh_extent_anom_mon(time) ; siconc_sh_extent_anom_mon:_FillValue = 1.e+30f ; siconc_sh_extent_anom_mon:units = "10^12 m2" ; siconc_sh_extent_anom_mon:long_name = "Southern Hemisphere siconc extent anomaly timeseries (monthly)" ; siconc_sh_extent_anom_mon:time_rep = "averaged" ; siconc_sh_extent_anom_mon:missing_value = 1.e+30f ; float siconc_sh_extent_climo(time_mon2) ; siconc_sh_extent_climo:_FillValue = 1.e+30f ; siconc_sh_extent_climo:units = "10^12 m2" ; siconc_sh_extent_climo:long_name = "Southern Hemisphere siconc extent climatology" ; siconc_sh_extent_climo:time_rep = "averaged" ; siconc_sh_extent_climo:missing_value = 1.e+30f ; float siconc_sh_extent_djf(TIME) ; siconc_sh_extent_djf:time_rep = "averaged" ; siconc_sh_extent_djf:long_name = "Southern Hemisphere siconc extent timeseries (DJF)" ; siconc_sh_extent_djf:units = "10^12 m2" ; siconc_sh_extent_djf:_FillValue = 1.e+30f ; siconc_sh_extent_djf:missing_value = 1.e+30f ; float siconc_sh_extent_feb(TIME) ; siconc_sh_extent_feb:time_rep = "averaged" ; siconc_sh_extent_feb:long_name = "Southern Hemisphere siconc extent timeseries (February)" ; siconc_sh_extent_feb:units = "10^12 m2" ; siconc_sh_extent_feb:_FillValue = 1.e+30f ; siconc_sh_extent_feb:missing_value = 1.e+30f ; float siconc_sh_extent_jas(TIME) ; siconc_sh_extent_jas:time_rep = "averaged" ; siconc_sh_extent_jas:long_name = "Southern Hemisphere siconc extent timeseries (JAS)" ; siconc_sh_extent_jas:units = "10^12 m2" ; siconc_sh_extent_jas:_FillValue = 1.e+30f ; siconc_sh_extent_jas:missing_value = 1.e+30f ; float siconc_sh_extent_jfm(TIME) ; siconc_sh_extent_jfm:time_rep = "averaged" ; siconc_sh_extent_jfm:long_name = "Southern Hemisphere siconc extent timeseries (JFM)" ; siconc_sh_extent_jfm:units = "10^12 m2" ; siconc_sh_extent_jfm:_FillValue = 1.e+30f ; siconc_sh_extent_jfm:missing_value = 1.e+30f ; float siconc_sh_extent_jja(TIME) ; siconc_sh_extent_jja:time_rep = "averaged" ; siconc_sh_extent_jja:long_name = "Southern Hemisphere siconc extent timeseries (JJA)" ; siconc_sh_extent_jja:units = "10^12 m2" ; siconc_sh_extent_jja:_FillValue = 1.e+30f ; siconc_sh_extent_jja:missing_value = 1.e+30f ; float siconc_sh_extent_mam(TIME) ; siconc_sh_extent_mam:time_rep = "averaged" ; siconc_sh_extent_mam:long_name = "Southern Hemisphere siconc extent timeseries (MAM)" ; siconc_sh_extent_mam:units = "10^12 m2" ; siconc_sh_extent_mam:_FillValue = 1.e+30f ; siconc_sh_extent_mam:missing_value = 1.e+30f ; float siconc_sh_extent_mar(TIME) ; siconc_sh_extent_mar:time_rep = "averaged" ; siconc_sh_extent_mar:long_name = "Southern Hemisphere siconc extent timeseries (March)" ; siconc_sh_extent_mar:units = "10^12 m2" ; siconc_sh_extent_mar:_FillValue = 1.e+30f ; siconc_sh_extent_mar:missing_value = 1.e+30f ; float siconc_sh_extent_mon(time) ; siconc_sh_extent_mon:time_rep = "averaged" ; siconc_sh_extent_mon:long_name = "Southern Hemisphere siconc extent timeseries (monthly)" ; siconc_sh_extent_mon:units = "10^12 m2" ; siconc_sh_extent_mon:_FillValue = 1.e+30f ; siconc_sh_extent_mon:missing_value = 1.e+30f ; float siconc_sh_extent_oct(TIME) ; siconc_sh_extent_oct:time_rep = "averaged" ; siconc_sh_extent_oct:long_name = "Southern Hemisphere siconc extent timeseries (October)" ; siconc_sh_extent_oct:units = "10^12 m2" ; siconc_sh_extent_oct:_FillValue = 1.e+30f ; siconc_sh_extent_oct:missing_value = 1.e+30f ; float siconc_sh_extent_sep(TIME) ; siconc_sh_extent_sep:time_rep = "averaged" ; siconc_sh_extent_sep:long_name = "Southern Hemisphere siconc extent timeseries (September)" ; siconc_sh_extent_sep:units = "10^12 m2" ; siconc_sh_extent_sep:_FillValue = 1.e+30f ; siconc_sh_extent_sep:missing_value = 1.e+30f ; float siconc_sh_extent_son(TIME) ; siconc_sh_extent_son:time_rep = "averaged" ; siconc_sh_extent_son:long_name = "Southern Hemisphere siconc extent timeseries (SON)" ; siconc_sh_extent_son:units = "10^12 m2" ; siconc_sh_extent_son:_FillValue = 1.e+30f ; siconc_sh_extent_son:missing_value = 1.e+30f ; float siconc_sh_spatialmean_ann(j2, i2) ; siconc_sh_spatialmean_ann:units = "%" ; siconc_sh_spatialmean_ann:long_name = "Southern Hemisphere siconc climatology (annual)" ; siconc_sh_spatialmean_ann:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialmean_ann:time_rep = "averaged" ; siconc_sh_spatialmean_ann:_FillValue = 1.e+30f ; siconc_sh_spatialmean_ann:missing_value = 1.e+30f ; float siconc_sh_spatialmean_djf(j2, i2) ; siconc_sh_spatialmean_djf:_FillValue = 1.e+30f ; siconc_sh_spatialmean_djf:units = "%" ; siconc_sh_spatialmean_djf:long_name = "Southern Hemisphere siconc climatology (DJF)" ; siconc_sh_spatialmean_djf:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialmean_djf:time_rep = "averaged" ; siconc_sh_spatialmean_djf:missing_value = 1.e+30f ; float siconc_sh_spatialmean_jas(j2, i2) ; siconc_sh_spatialmean_jas:units = "%" ; siconc_sh_spatialmean_jas:long_name = "Southern Hemisphere siconc climatology (JAS)" ; siconc_sh_spatialmean_jas:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialmean_jas:time_rep = "averaged" ; siconc_sh_spatialmean_jas:_FillValue = 1.e+30f ; siconc_sh_spatialmean_jas:missing_value = 1.e+30f ; float siconc_sh_spatialmean_jfm(j2, i2) ; siconc_sh_spatialmean_jfm:units = "%" ; siconc_sh_spatialmean_jfm:long_name = "Southern Hemisphere siconc climatology (JFM)" ; siconc_sh_spatialmean_jfm:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialmean_jfm:time_rep = "averaged" ; siconc_sh_spatialmean_jfm:_FillValue = 1.e+30f ; siconc_sh_spatialmean_jfm:missing_value = 1.e+30f ; float siconc_sh_spatialmean_jja(j2, i2) ; siconc_sh_spatialmean_jja:units = "%" ; siconc_sh_spatialmean_jja:long_name = "Southern Hemisphere siconc climatology (JJA)" ; siconc_sh_spatialmean_jja:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialmean_jja:time_rep = "averaged" ; siconc_sh_spatialmean_jja:_FillValue = 1.e+30f ; siconc_sh_spatialmean_jja:missing_value = 1.e+30f ; float siconc_sh_spatialmean_mam(j2, i2) ; siconc_sh_spatialmean_mam:units = "%" ; siconc_sh_spatialmean_mam:long_name = "Southern Hemisphere siconc climatology (MAM)" ; siconc_sh_spatialmean_mam:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialmean_mam:time_rep = "averaged" ; siconc_sh_spatialmean_mam:_FillValue = 1.e+30f ; siconc_sh_spatialmean_mam:missing_value = 1.e+30f ; float siconc_sh_spatialmean_son(j2, i2) ; siconc_sh_spatialmean_son:units = "%" ; siconc_sh_spatialmean_son:long_name = "Southern Hemisphere siconc climatology (SON)" ; siconc_sh_spatialmean_son:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialmean_son:time_rep = "averaged" ; siconc_sh_spatialmean_son:_FillValue = 1.e+30f ; siconc_sh_spatialmean_son:missing_value = 1.e+30f ; float siconc_sh_spatialstddev_ann(j2, i2) ; siconc_sh_spatialstddev_ann:units = "%" ; siconc_sh_spatialstddev_ann:long_name = "Southern Hemisphere siconc standard deviation (annual)" ; siconc_sh_spatialstddev_ann:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialstddev_ann:time_rep = "averaged" ; siconc_sh_spatialstddev_ann:_FillValue = 1.e+30f ; siconc_sh_spatialstddev_ann:missing_value = 1.e+30f ; float siconc_sh_spatialstddev_djf(j2, i2) ; siconc_sh_spatialstddev_djf:units = "%" ; siconc_sh_spatialstddev_djf:long_name = "Southern Hemisphere siconc standard deviation (DJF)" ; siconc_sh_spatialstddev_djf:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialstddev_djf:time_rep = "averaged" ; siconc_sh_spatialstddev_djf:_FillValue = 1.e+30f ; siconc_sh_spatialstddev_djf:missing_value = 1.e+30f ; float siconc_sh_spatialstddev_jas(j2, i2) ; siconc_sh_spatialstddev_jas:units = "%" ; siconc_sh_spatialstddev_jas:long_name = "Southern Hemisphere siconc standard deviation (JAS)" ; siconc_sh_spatialstddev_jas:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialstddev_jas:time_rep = "averaged" ; siconc_sh_spatialstddev_jas:_FillValue = 1.e+30f ; siconc_sh_spatialstddev_jas:missing_value = 1.e+30f ; float siconc_sh_spatialstddev_jfm(j2, i2) ; siconc_sh_spatialstddev_jfm:units = "%" ; siconc_sh_spatialstddev_jfm:long_name = "Southern Hemisphere siconc standard deviation (JFM)" ; siconc_sh_spatialstddev_jfm:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialstddev_jfm:time_rep = "averaged" ; siconc_sh_spatialstddev_jfm:_FillValue = 1.e+30f ; siconc_sh_spatialstddev_jfm:missing_value = 1.e+30f ; float siconc_sh_spatialstddev_jja(j2, i2) ; siconc_sh_spatialstddev_jja:units = "%" ; siconc_sh_spatialstddev_jja:long_name = "Southern Hemisphere siconc standard deviation (JJA)" ; siconc_sh_spatialstddev_jja:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialstddev_jja:time_rep = "averaged" ; siconc_sh_spatialstddev_jja:_FillValue = 1.e+30f ; siconc_sh_spatialstddev_jja:missing_value = 1.e+30f ; float siconc_sh_spatialstddev_mam(j2, i2) ; siconc_sh_spatialstddev_mam:units = "%" ; siconc_sh_spatialstddev_mam:long_name = "Southern Hemisphere siconc standard deviation (MAM)" ; siconc_sh_spatialstddev_mam:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialstddev_mam:time_rep = "averaged" ; siconc_sh_spatialstddev_mam:_FillValue = 1.e+30f ; siconc_sh_spatialstddev_mam:missing_value = 1.e+30f ; float siconc_sh_spatialstddev_son(j2, i2) ; siconc_sh_spatialstddev_son:units = "%" ; siconc_sh_spatialstddev_son:long_name = "Southern Hemisphere siconc standard deviation (SON)" ; siconc_sh_spatialstddev_son:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_spatialstddev_son:time_rep = "averaged" ; siconc_sh_spatialstddev_son:_FillValue = 1.e+30f ; siconc_sh_spatialstddev_son:missing_value = 1.e+30f ; float siconc_sh_trends_ann(j2, i2) ; siconc_sh_trends_ann:units = "% 100yr~S~-1~N~" ; siconc_sh_trends_ann:long_name = "Southern Hemisphere siconc linear trends (annual)" ; siconc_sh_trends_ann:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_trends_ann:time_rep = "averaged" ; siconc_sh_trends_ann:_FillValue = 1.e+30f ; siconc_sh_trends_ann:missing_value = 1.e+30f ; float siconc_sh_trends_djf(j2, i2) ; siconc_sh_trends_djf:_FillValue = 1.e+30f ; siconc_sh_trends_djf:units = "% 100yr~S~-1~N~" ; siconc_sh_trends_djf:long_name = "Southern Hemisphere siconc linear trends (DJF)" ; siconc_sh_trends_djf:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_trends_djf:time_rep = "averaged" ; siconc_sh_trends_djf:missing_value = 1.e+30f ; float siconc_sh_trends_jas(j2, i2) ; siconc_sh_trends_jas:units = "% 100yr~S~-1~N~" ; siconc_sh_trends_jas:long_name = "Southern Hemisphere siconc linear trends (JAS)" ; siconc_sh_trends_jas:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_trends_jas:time_rep = "averaged" ; siconc_sh_trends_jas:_FillValue = 1.e+30f ; siconc_sh_trends_jas:missing_value = 1.e+30f ; float siconc_sh_trends_jfm(j2, i2) ; siconc_sh_trends_jfm:units = "% 100yr~S~-1~N~" ; siconc_sh_trends_jfm:long_name = "Southern Hemisphere siconc linear trends (JFM)" ; siconc_sh_trends_jfm:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_trends_jfm:time_rep = "averaged" ; siconc_sh_trends_jfm:_FillValue = 1.e+30f ; siconc_sh_trends_jfm:missing_value = 1.e+30f ; float siconc_sh_trends_jja(j2, i2) ; siconc_sh_trends_jja:units = "% 100yr~S~-1~N~" ; siconc_sh_trends_jja:long_name = "Southern Hemisphere siconc linear trends (JJA)" ; siconc_sh_trends_jja:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_trends_jja:time_rep = "averaged" ; siconc_sh_trends_jja:_FillValue = 1.e+30f ; siconc_sh_trends_jja:missing_value = 1.e+30f ; float siconc_sh_trends_mam(j2, i2) ; siconc_sh_trends_mam:units = "% 100yr~S~-1~N~" ; siconc_sh_trends_mam:long_name = "Southern Hemisphere siconc linear trends (MAM)" ; siconc_sh_trends_mam:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_trends_mam:time_rep = "averaged" ; siconc_sh_trends_mam:_FillValue = 1.e+30f ; siconc_sh_trends_mam:missing_value = 1.e+30f ; float siconc_sh_trends_son(j2, i2) ; siconc_sh_trends_son:units = "% 100yr~S~-1~N~" ; siconc_sh_trends_son:long_name = "Southern Hemisphere siconc linear trends (SON)" ; siconc_sh_trends_son:coordinates = "lat2d_ice_sh lon2d_ice_sh" ; siconc_sh_trends_son:time_rep = "averaged" ; siconc_sh_trends_son:_FillValue = 1.e+30f ; siconc_sh_trends_son:missing_value = 1.e+30f ; float so_pattern_ann(lat, lon) ; so_pattern_ann:long_name = "Southern Oscillation spatial pattern (annual)" ; so_pattern_ann:units = "hPa" ; so_pattern_ann:_FillValue = -900.f ; so_pattern_ann:missing_value = -900.f ; float so_pattern_djf(lat, lon) ; so_pattern_djf:_FillValue = -900.f ; so_pattern_djf:long_name = "Southern Oscillation spatial pattern (DJF)" ; so_pattern_djf:units = "hPa" ; so_pattern_djf:missing_value = -900.f ; float so_pattern_jas(lat, lon) ; so_pattern_jas:long_name = "Southern Oscillation spatial pattern (JAS)" ; so_pattern_jas:units = "hPa" ; so_pattern_jas:_FillValue = -900.f ; so_pattern_jas:missing_value = -900.f ; float so_pattern_jfm(lat, lon) ; so_pattern_jfm:long_name = "Southern Oscillation spatial pattern (JFM)" ; so_pattern_jfm:units = "hPa" ; so_pattern_jfm:_FillValue = -900.f ; so_pattern_jfm:missing_value = -900.f ; float so_pattern_jja(lat, lon) ; so_pattern_jja:long_name = "Southern Oscillation spatial pattern (JJA)" ; so_pattern_jja:units = "hPa" ; so_pattern_jja:_FillValue = -900.f ; so_pattern_jja:missing_value = -900.f ; float so_pattern_mam(lat, lon) ; so_pattern_mam:long_name = "Southern Oscillation spatial pattern (MAM)" ; so_pattern_mam:units = "hPa" ; so_pattern_mam:_FillValue = -900.f ; so_pattern_mam:missing_value = -900.f ; float so_pattern_son(lat, lon) ; so_pattern_son:long_name = "Southern Oscillation spatial pattern (SON)" ; so_pattern_son:units = "hPa" ; so_pattern_son:_FillValue = -900.f ; so_pattern_son:missing_value = -900.f ; float so_timeseries_ann(TIME) ; so_timeseries_ann:units = "hPa" ; so_timeseries_ann:long_name = "Southern Oscillation Index (annual)" ; so_timeseries_ann:_FillValue = -900.f ; so_timeseries_ann:missing_value = -900.f ; float so_timeseries_djf(TIME) ; so_timeseries_djf:units = "hPa" ; so_timeseries_djf:_FillValue = -900.f ; so_timeseries_djf:missing_value = -900.f ; so_timeseries_djf:long_name = "Southern Oscillation Index (DJF)" ; float so_timeseries_jas(TIME) ; so_timeseries_jas:units = "hPa" ; so_timeseries_jas:long_name = "Southern Oscillation Index (JAS)" ; so_timeseries_jas:_FillValue = -900.f ; so_timeseries_jas:missing_value = -900.f ; float so_timeseries_jfm(TIME) ; so_timeseries_jfm:units = "hPa" ; so_timeseries_jfm:long_name = "Southern Oscillation Index (JFM)" ; so_timeseries_jfm:_FillValue = -900.f ; so_timeseries_jfm:missing_value = -900.f ; float so_timeseries_jja(TIME) ; so_timeseries_jja:units = "hPa" ; so_timeseries_jja:long_name = "Southern Oscillation Index (JJA)" ; so_timeseries_jja:_FillValue = -900.f ; so_timeseries_jja:missing_value = -900.f ; float so_timeseries_mam(TIME) ; so_timeseries_mam:units = "hPa" ; so_timeseries_mam:long_name = "Southern Oscillation Index (MAM)" ; so_timeseries_mam:_FillValue = -900.f ; so_timeseries_mam:missing_value = -900.f ; float so_timeseries_son(TIME) ; so_timeseries_son:units = "hPa" ; so_timeseries_son:long_name = "Southern Oscillation Index (SON)" ; so_timeseries_son:_FillValue = -900.f ; so_timeseries_son:missing_value = -900.f ; float south_pacific_meridional_mode(time) ; south_pacific_meridional_mode:_FillValue = -900.f ; south_pacific_meridional_mode:units = "1" ; south_pacific_meridional_mode:long_name = "South Pacific Meridional Mode (monthly)" ; south_pacific_meridional_mode:comment_cvdp = "1st EOF of SST-residual (-35:-20N, 180:290E)" ; south_pacific_meridional_mode:missing_value = -900.f ; float south_tropical_atlantic(time) ; south_tropical_atlantic:_FillValue = -900.f ; south_tropical_atlantic:comment_cvdp = "area average domain (-20:0N, -30:10E)" ; south_tropical_atlantic:units = "C" ; south_tropical_atlantic:long_name = "Tropical Southern Atlantic SST timeseries (monthly)" ; south_tropical_atlantic:missing_value = -900.f ; float southern_ocean(time) ; southern_ocean:_FillValue = -900.f ; southern_ocean:comment_cvdp = "area average domain (-70:-50N, 0:360E)" ; southern_ocean:units = "C" ; southern_ocean:long_name = "Southern Ocean Index (monthly)" ; southern_ocean:missing_value = -900.f ; float sst_global_avg_ann(TIME) ; sst_global_avg_ann:units = "C" ; sst_global_avg_ann:long_name = "sst global area-average (annual)" ; sst_global_avg_ann:_FillValue = -900.f ; sst_global_avg_ann:missing_value = -900.f ; float sst_global_avg_djf(TIME) ; sst_global_avg_djf:_FillValue = -900.f ; sst_global_avg_djf:units = "C" ; sst_global_avg_djf:long_name = "sst global area-average (DJF)" ; sst_global_avg_djf:missing_value = -900.f ; float sst_global_avg_jas(TIME) ; sst_global_avg_jas:units = "C" ; sst_global_avg_jas:long_name = "sst global area-average (JAS)" ; sst_global_avg_jas:_FillValue = -900.f ; sst_global_avg_jas:missing_value = -900.f ; float sst_global_avg_jfm(TIME) ; sst_global_avg_jfm:units = "C" ; sst_global_avg_jfm:long_name = "sst global area-average (JFM)" ; sst_global_avg_jfm:_FillValue = -900.f ; sst_global_avg_jfm:missing_value = -900.f ; float sst_global_avg_jja(TIME) ; sst_global_avg_jja:units = "C" ; sst_global_avg_jja:long_name = "sst global area-average (JJA)" ; sst_global_avg_jja:_FillValue = -900.f ; sst_global_avg_jja:missing_value = -900.f ; float sst_global_avg_mam(TIME) ; sst_global_avg_mam:units = "C" ; sst_global_avg_mam:long_name = "sst global area-average (MAM)" ; sst_global_avg_mam:_FillValue = -900.f ; sst_global_avg_mam:missing_value = -900.f ; float sst_global_avg_son(TIME) ; sst_global_avg_son:units = "C" ; sst_global_avg_son:long_name = "sst global area-average (SON)" ; sst_global_avg_son:_FillValue = -900.f ; sst_global_avg_son:missing_value = -900.f ; float sst_spatialmean_ann(lat, lon) ; sst_spatialmean_ann:units = "C" ; sst_spatialmean_ann:long_name = "sst climatology (annual)" ; sst_spatialmean_ann:_FillValue = -900.f ; sst_spatialmean_ann:missing_value = -900.f ; float sst_spatialmean_djf(lat, lon) ; sst_spatialmean_djf:_FillValue = -900.f ; sst_spatialmean_djf:units = "C" ; sst_spatialmean_djf:long_name = "sst climatology (DJF)" ; sst_spatialmean_djf:missing_value = -900.f ; float sst_spatialmean_jas(lat, lon) ; sst_spatialmean_jas:units = "C" ; sst_spatialmean_jas:long_name = "sst climatology (JAS)" ; sst_spatialmean_jas:_FillValue = -900.f ; sst_spatialmean_jas:missing_value = -900.f ; float sst_spatialmean_jfm(lat, lon) ; sst_spatialmean_jfm:units = "C" ; sst_spatialmean_jfm:long_name = "sst climatology (JFM)" ; sst_spatialmean_jfm:_FillValue = -900.f ; sst_spatialmean_jfm:missing_value = -900.f ; float sst_spatialmean_jja(lat, lon) ; sst_spatialmean_jja:units = "C" ; sst_spatialmean_jja:long_name = "sst climatology (JJA)" ; sst_spatialmean_jja:_FillValue = -900.f ; sst_spatialmean_jja:missing_value = -900.f ; float sst_spatialmean_mam(lat, lon) ; sst_spatialmean_mam:units = "C" ; sst_spatialmean_mam:long_name = "sst climatology (MAM)" ; sst_spatialmean_mam:_FillValue = -900.f ; sst_spatialmean_mam:missing_value = -900.f ; float sst_spatialmean_son(lat, lon) ; sst_spatialmean_son:units = "C" ; sst_spatialmean_son:long_name = "sst climatology (SON)" ; sst_spatialmean_son:_FillValue = -900.f ; sst_spatialmean_son:missing_value = -900.f ; float sst_spatialstddev_ann(lat, lon) ; sst_spatialstddev_ann:units = "C" ; sst_spatialstddev_ann:long_name = "sst standard deviation (annual)" ; sst_spatialstddev_ann:_FillValue = -900.f ; sst_spatialstddev_ann:missing_value = -900.f ; float sst_spatialstddev_djf(lat, lon) ; sst_spatialstddev_djf:units = "C" ; sst_spatialstddev_djf:long_name = "sst standard deviation (DJF)" ; sst_spatialstddev_djf:_FillValue = -900.f ; sst_spatialstddev_djf:missing_value = -900.f ; float sst_spatialstddev_jas(lat, lon) ; sst_spatialstddev_jas:units = "C" ; sst_spatialstddev_jas:long_name = "sst standard deviation (JAS)" ; sst_spatialstddev_jas:_FillValue = -900.f ; sst_spatialstddev_jas:missing_value = -900.f ; float sst_spatialstddev_jfm(lat, lon) ; sst_spatialstddev_jfm:units = "C" ; sst_spatialstddev_jfm:long_name = "sst standard deviation (JFM)" ; sst_spatialstddev_jfm:_FillValue = -900.f ; sst_spatialstddev_jfm:missing_value = -900.f ; float sst_spatialstddev_jja(lat, lon) ; sst_spatialstddev_jja:units = "C" ; sst_spatialstddev_jja:long_name = "sst standard deviation (JJA)" ; sst_spatialstddev_jja:_FillValue = -900.f ; sst_spatialstddev_jja:missing_value = -900.f ; float sst_spatialstddev_mam(lat, lon) ; sst_spatialstddev_mam:units = "C" ; sst_spatialstddev_mam:long_name = "sst standard deviation (MAM)" ; sst_spatialstddev_mam:_FillValue = -900.f ; sst_spatialstddev_mam:missing_value = -900.f ; float sst_spatialstddev_son(lat, lon) ; sst_spatialstddev_son:units = "C" ; sst_spatialstddev_son:long_name = "sst standard deviation (SON)" ; sst_spatialstddev_son:_FillValue = -900.f ; sst_spatialstddev_son:missing_value = -900.f ; float sst_trends_ann(lat, lon) ; sst_trends_ann:units = "C 100yr~S~-1~N~" ; sst_trends_ann:long_name = "sst linear trends (annual)" ; sst_trends_ann:_FillValue = -900.f ; sst_trends_ann:missing_value = -900.f ; float sst_trends_djf(lat, lon) ; sst_trends_djf:units = "C 100yr~S~-1~N~" ; sst_trends_djf:long_name = "sst linear trends (DJF)" ; sst_trends_djf:_FillValue = -900.f ; sst_trends_djf:missing_value = -900.f ; float sst_trends_jas(lat, lon) ; sst_trends_jas:units = "C 100yr~S~-1~N~" ; sst_trends_jas:long_name = "sst linear trends (JAS)" ; sst_trends_jas:_FillValue = -900.f ; sst_trends_jas:missing_value = -900.f ; float sst_trends_jfm(lat, lon) ; sst_trends_jfm:units = "C 100yr~S~-1~N~" ; sst_trends_jfm:long_name = "sst linear trends (JFM)" ; sst_trends_jfm:_FillValue = -900.f ; sst_trends_jfm:missing_value = -900.f ; float sst_trends_jja(lat, lon) ; sst_trends_jja:units = "C 100yr~S~-1~N~" ; sst_trends_jja:long_name = "sst linear trends (JJA)" ; sst_trends_jja:_FillValue = -900.f ; sst_trends_jja:missing_value = -900.f ; float sst_trends_mam(lat, lon) ; sst_trends_mam:units = "C 100yr~S~-1~N~" ; sst_trends_mam:long_name = "sst linear trends (MAM)" ; sst_trends_mam:_FillValue = -900.f ; sst_trends_mam:missing_value = -900.f ; float sst_trends_son(lat, lon) ; sst_trends_son:units = "C 100yr~S~-1~N~" ; sst_trends_son:long_name = "sst linear trends (SON)" ; sst_trends_son:_FillValue = -900.f ; sst_trends_son:missing_value = -900.f ; float tas_global_avg_ann(TIME) ; tas_global_avg_ann:units = "C" ; tas_global_avg_ann:long_name = "tas global area-average (annual)" ; tas_global_avg_ann:_FillValue = -900.f ; tas_global_avg_ann:missing_value = -900.f ; float tas_global_avg_djf(TIME) ; tas_global_avg_djf:_FillValue = -900.f ; tas_global_avg_djf:units = "C" ; tas_global_avg_djf:long_name = "tas global area-average (DJF)" ; tas_global_avg_djf:missing_value = -900.f ; float tas_global_avg_jas(TIME) ; tas_global_avg_jas:units = "C" ; tas_global_avg_jas:long_name = "tas global area-average (JAS)" ; tas_global_avg_jas:_FillValue = -900.f ; tas_global_avg_jas:missing_value = -900.f ; float tas_global_avg_jfm(TIME) ; tas_global_avg_jfm:units = "C" ; tas_global_avg_jfm:long_name = "tas global area-average (JFM)" ; tas_global_avg_jfm:_FillValue = -900.f ; tas_global_avg_jfm:missing_value = -900.f ; float tas_global_avg_jja(TIME) ; tas_global_avg_jja:units = "C" ; tas_global_avg_jja:long_name = "tas global area-average (JJA)" ; tas_global_avg_jja:_FillValue = -900.f ; tas_global_avg_jja:missing_value = -900.f ; float tas_global_avg_mam(TIME) ; tas_global_avg_mam:units = "C" ; tas_global_avg_mam:long_name = "tas global area-average (MAM)" ; tas_global_avg_mam:_FillValue = -900.f ; tas_global_avg_mam:missing_value = -900.f ; float tas_global_avg_son(TIME) ; tas_global_avg_son:units = "C" ; tas_global_avg_son:long_name = "tas global area-average (SON)" ; tas_global_avg_son:_FillValue = -900.f ; tas_global_avg_son:missing_value = -900.f ; float tas_spatialmean_ann(lat, lon) ; tas_spatialmean_ann:units = "C" ; tas_spatialmean_ann:long_name = "tas climatology (annual)" ; tas_spatialmean_ann:_FillValue = -900.f ; tas_spatialmean_ann:missing_value = -900.f ; float tas_spatialmean_djf(lat, lon) ; tas_spatialmean_djf:_FillValue = -900.f ; tas_spatialmean_djf:units = "C" ; tas_spatialmean_djf:long_name = "tas climatology (DJF)" ; tas_spatialmean_djf:missing_value = -900.f ; float tas_spatialmean_jas(lat, lon) ; tas_spatialmean_jas:units = "C" ; tas_spatialmean_jas:long_name = "tas climatology (JAS)" ; tas_spatialmean_jas:_FillValue = -900.f ; tas_spatialmean_jas:missing_value = -900.f ; float tas_spatialmean_jfm(lat, lon) ; tas_spatialmean_jfm:units = "C" ; tas_spatialmean_jfm:long_name = "tas climatology (JFM)" ; tas_spatialmean_jfm:_FillValue = -900.f ; tas_spatialmean_jfm:missing_value = -900.f ; float tas_spatialmean_jja(lat, lon) ; tas_spatialmean_jja:units = "C" ; tas_spatialmean_jja:long_name = "tas climatology (JJA)" ; tas_spatialmean_jja:_FillValue = -900.f ; tas_spatialmean_jja:missing_value = -900.f ; float tas_spatialmean_mam(lat, lon) ; tas_spatialmean_mam:units = "C" ; tas_spatialmean_mam:long_name = "tas climatology (MAM)" ; tas_spatialmean_mam:_FillValue = -900.f ; tas_spatialmean_mam:missing_value = -900.f ; float tas_spatialmean_son(lat, lon) ; tas_spatialmean_son:units = "C" ; tas_spatialmean_son:long_name = "tas climatology (SON)" ; tas_spatialmean_son:_FillValue = -900.f ; tas_spatialmean_son:missing_value = -900.f ; float tas_spatialstddev_ann(lat, lon) ; tas_spatialstddev_ann:units = "C" ; tas_spatialstddev_ann:long_name = "tas standard deviation (annual)" ; tas_spatialstddev_ann:_FillValue = -900.f ; tas_spatialstddev_ann:missing_value = -900.f ; float tas_spatialstddev_djf(lat, lon) ; tas_spatialstddev_djf:units = "C" ; tas_spatialstddev_djf:long_name = "tas standard deviation (DJF)" ; tas_spatialstddev_djf:_FillValue = -900.f ; tas_spatialstddev_djf:missing_value = -900.f ; float tas_spatialstddev_jas(lat, lon) ; tas_spatialstddev_jas:units = "C" ; tas_spatialstddev_jas:long_name = "tas standard deviation (JAS)" ; tas_spatialstddev_jas:_FillValue = -900.f ; tas_spatialstddev_jas:missing_value = -900.f ; float tas_spatialstddev_jfm(lat, lon) ; tas_spatialstddev_jfm:units = "C" ; tas_spatialstddev_jfm:long_name = "tas standard deviation (JFM)" ; tas_spatialstddev_jfm:_FillValue = -900.f ; tas_spatialstddev_jfm:missing_value = -900.f ; float tas_spatialstddev_jja(lat, lon) ; tas_spatialstddev_jja:units = "C" ; tas_spatialstddev_jja:long_name = "tas standard deviation (JJA)" ; tas_spatialstddev_jja:_FillValue = -900.f ; tas_spatialstddev_jja:missing_value = -900.f ; float tas_spatialstddev_mam(lat, lon) ; tas_spatialstddev_mam:units = "C" ; tas_spatialstddev_mam:long_name = "tas standard deviation (MAM)" ; tas_spatialstddev_mam:_FillValue = -900.f ; tas_spatialstddev_mam:missing_value = -900.f ; float tas_spatialstddev_son(lat, lon) ; tas_spatialstddev_son:units = "C" ; tas_spatialstddev_son:long_name = "tas standard deviation (SON)" ; tas_spatialstddev_son:_FillValue = -900.f ; tas_spatialstddev_son:missing_value = -900.f ; float tas_trends_ann(lat, lon) ; tas_trends_ann:units = "C 100yr~S~-1~N~" ; tas_trends_ann:long_name = "tas linear trends (annual)" ; tas_trends_ann:_FillValue = -900.f ; tas_trends_ann:missing_value = -900.f ; float tas_trends_djf(lat, lon) ; tas_trends_djf:units = "C 100yr~S~-1~N~" ; tas_trends_djf:long_name = "tas linear trends (DJF)" ; tas_trends_djf:_FillValue = -900.f ; tas_trends_djf:missing_value = -900.f ; float tas_trends_jas(lat, lon) ; tas_trends_jas:units = "C 100yr~S~-1~N~" ; tas_trends_jas:long_name = "tas linear trends (JAS)" ; tas_trends_jas:_FillValue = -900.f ; tas_trends_jas:missing_value = -900.f ; float tas_trends_jfm(lat, lon) ; tas_trends_jfm:units = "C 100yr~S~-1~N~" ; tas_trends_jfm:long_name = "tas linear trends (JFM)" ; tas_trends_jfm:_FillValue = -900.f ; tas_trends_jfm:missing_value = -900.f ; float tas_trends_jja(lat, lon) ; tas_trends_jja:units = "C 100yr~S~-1~N~" ; tas_trends_jja:long_name = "tas linear trends (JJA)" ; tas_trends_jja:_FillValue = -900.f ; tas_trends_jja:missing_value = -900.f ; float tas_trends_mam(lat, lon) ; tas_trends_mam:units = "C 100yr~S~-1~N~" ; tas_trends_mam:long_name = "tas linear trends (MAM)" ; tas_trends_mam:_FillValue = -900.f ; tas_trends_mam:missing_value = -900.f ; float tas_trends_son(lat, lon) ; tas_trends_son:units = "C 100yr~S~-1~N~" ; tas_trends_son:long_name = "tas linear trends (SON)" ; tas_trends_son:_FillValue = -900.f ; tas_trends_son:missing_value = -900.f ; float time(time) ; time:units = "months since 901-01-15 00:00:00" ; time:calendar = "standard" ; time:long_name = "Time" ; time:standard_name = "time" ; time:actual_range = 0.f, 1199.f ; int time_lag_cor(time_lag_cor) ; time_lag_cor:calendar = "standard" ; time_lag_cor:standard_name = "time" ; time_lag_cor:long_name = "Time" ; time_lag_cor:units = "months since 0000-01-01 00:00:00" ; int time_mon1(time_mon1) ; time_mon1:calendar = "standard" ; time_mon1:standard_name = "time" ; time_mon1:long_name = "Time" ; time_mon1:units = "months since 0000-01-01 00:00:00" ; int time_mon2(time_mon2) ; time_mon2:calendar = "standard" ; time_mon2:standard_name = "time" ; time_mon2:long_name = "Time" ; time_mon2:units = "months since 0000-01-01 00:00:00" ; int time_mon3(time_mon3) ; time_mon3:calendar = "standard" ; time_mon3:standard_name = "time" ; time_mon3:long_name = "Time" ; time_mon3:units = "months since 0000-01-01 00:00:00" ; float tropical_indian_ocean(time) ; tropical_indian_ocean:_FillValue = -900.f ; tropical_indian_ocean:comment_cvdp = "area average domain (-15:15N, 40:110E)" ; tropical_indian_ocean:units = "C" ; tropical_indian_ocean:long_name = "Tropical Indian Ocean SST timeseries (monthly)" ; tropical_indian_ocean:missing_value = -900.f ; // global attributes: :source = "NCAR Climate Analysis Section\'s Climate Variability Diagnostics Package v1.0.0" ; :notes = "Data from CESM2.1 piControl 901-1000 Ensemble Mean from 901-1000" ; :climatology = "901-1000 climatology removed prior to all calculations (other than means)" ; :Conventions = "CF-1.6" ; :history = "Sat Nov 14 19:21:34 2020: ncks -O /project/diagnostics/external/Multi-Case/CVDP-LE_repository_new/CESM_Controls/CESM2.1_piControl_901-1000.cvdp_data.901-1000.nc /project/diagnostics/external/Multi-Case/CVDP-LE_repository_new/CESM_Controls/CESM2.1_piControl_901-1000.cvdp_data.901-1000.nc" ; :NCO = "\"4.5.2\"" ; }