{\footnotesize \begin{verbatim} netcdf stats { dimensions: latitude = 49 ; longitude = 65 ; altitude = 25 ; llmp1 = 26 ; Time = UNLIMITED ; // (12 currently) variables: float Time(Time) ; Time:title = "Time" ; Time:units = "days since 0000-00-0 00:00:00" ; float latitude(latitude) ; latitude:title = "latitude" ; latitude:units = "degrees_north" ; float longitude(longitude) ; longitude:title = "East longitude" ; longitude:units = "degrees_east" ; float altitude(altitude) ; altitude:long_name = "altitude" ; altitude:units = "km" ; altitude:positive = "up" ; float aps(altitude) ; aps:title = "hybrid pressure at midlayers" ; aps:units = "" ; float bps(altitude) ; bps:title = "hybrid sigma at midlayers" ; bps:units = "" ; float ps(Time, latitude, longitude) ; ps:title = "Surface pressure" ; ps:units = "Pa" ; float ps_sd(Time, latitude, longitude) ; ps_sd:title = "Surface pressure total standard deviation over th e season" ; ps_sd:units = "Pa" ; float tsurf(Time, latitude, longitude) ; tsurf:title = "Surface temperature" ; tsurf:units = "K" ; float tsurf_sd(Time, latitude, longitude) ; tsurf_sd:title = "Surface temperature total standard deviation o ver the season" ; tsurf_sd:units = "K" ; float co2ice(Time, latitude, longitude) ; co2ice:title = "CO2 ice cover" ; co2ice:units = "kg.m-2" ; float co2ice_sd(Time, latitude, longitude) ; co2ice_sd:title = "CO2 ice cover total standard deviation over t he season" ; co2ice_sd:units = "kg.m-2" ; float fluxsurf_lw(Time, latitude, longitude) ; fluxsurf_lw:title = "Thermal IR radiative flux to surface" ; fluxsurf_lw:units = "W.m-2" ; float fluxsurf_lw_sd(Time, latitude, longitude) ; fluxsurf_lw_sd:title = "Thermal IR radiative flux to surface tot al standard deviation over the season" ; fluxsurf_lw_sd:units = "W.m-2" ; float fluxsurf_sw(Time, latitude, longitude) ; fluxsurf_sw:title = "Solar radiative flux to surface" ; fluxsurf_sw:units = "W.m-2" ; float fluxsurf_sw_sd(Time, latitude, longitude) ; fluxsurf_sw_sd:title = "Solar radiative flux to surface total st andard deviation over the season" ; fluxsurf_sw_sd:units = "W.m-2" ; float fluxtop_lw(Time, latitude, longitude) ; fluxtop_lw:title = "Thermal IR radiative flux to space" ; fluxtop_lw:units = "W.m-2" ; float fluxtop_lw_sd(Time, latitude, longitude) ; fluxtop_lw_sd:title = "Thermal IR radiative flux to space total standard deviation over the season" ; fluxtop_lw_sd:units = "W.m-2" ; float fluxtop_sw(Time, latitude, longitude) ; fluxtop_sw:title = "Solar radiative flux to space" ; fluxtop_sw:units = "W.m-2" ; float fluxtop_sw_sd(Time, latitude, longitude) ; fluxtop_sw_sd:title = "Solar radiative flux to space total stand ard deviation over the season" ; fluxtop_sw_sd:units = "W.m-2" ; float dod(Time, latitude, longitude) ; dod:title = "Dust optical depth" ; dod:units = "" ; float dod_sd(Time, latitude, longitude) ; dod_sd:title = "Dust optical depth total standard deviation over the season" ; dod_sd:units = "" ; float temp(Time, altitude, latitude, longitude) ; temp:title = "Atmospheric temperature" ; temp:units = "K" ; float temp_sd(Time, altitude, latitude, longitude) ; temp_sd:title = "Atmospheric temperature total standard deviatio n over the season" ; temp_sd:units = "K" ; float u(Time, altitude, latitude, longitude) ; u:title = "Zonal (East-West) wind" ; u:units = "m.s-1" ; float u_sd(Time, altitude, latitude, longitude) ; u_sd:title = "Zonal (East-West) wind total standard deviation ov er the season" ; u_sd:units = "m.s-1" ; float v(Time, altitude, latitude, longitude) ; v:title = "Meridional (North-South) wind" ; v:units = "m.s-1" ; float v_sd(Time, altitude, latitude, longitude) ; v_sd:title = "Meridional (North-South) wind total standard devia tion over the season" ; v_sd:units = "m.s-1" ; float w(Time, altitude, latitude, longitude) ; w:title = "Vertical (down-up) wind" ; w:units = "m.s-1" ; float w_sd(Time, altitude, latitude, longitude) ; w_sd:title = "Vertical (down-up) wind total standard deviation o ver the season" ; w_sd:units = "m.s-1" ; float rho(Time, altitude, latitude, longitude) ; rho:title = "Atmospheric density" ; rho:units = "none" ; float rho_sd(Time, altitude, latitude, longitude) ; rho_sd:title = "Atmospheric density total standard deviation ove r the season" ; rho_sd:units = "none" ; float q2(Time, altitude, latitude, longitude) ; q2:title = "Boundary layer eddy kinetic energy" ; q2:units = "m2.s-2" ; float q2_sd(Time, altitude, latitude, longitude) ; q2_sd:title = "Boundary layer eddy kinetic energy total standard deviation over the season" ; q2_sd:units = "m2.s-2" ; float vmr_h2ovapor(Time, altitude, latitude, longitude) ; vmr_h2ovapor:title = "H2O vapor volume mixing ratio" ; vmr_h2ovapor:units = "mol/mol" ; float vmr_h2ovapor_sd(Time, altitude, latitude, longitude) ; vmr_h2ovapor_sd:title = "H2O vapor volume mixing ratio total sta ndard deviation over the season" ; vmr_h2ovapor_sd:units = "mol/mol" ; float vmr_h2oice(Time, altitude, latitude, longitude) ; vmr_h2oice:title = "H2O ice volume mixing ratio" ; vmr_h2oice:units = "mol/mol" ; float vmr_h2oice_sd(Time, altitude, latitude, longitude) ; vmr_h2oice_sd:title = "H2O ice volume mixing ratio total standar d deviation over the season" ; vmr_h2oice_sd:units = "mol/mol" ; float mtot(Time, latitude, longitude) ; mtot:title = "total mass of water vapor" ; mtot:units = "kg/m2" ; float mtot_sd(Time, latitude, longitude) ; mtot_sd:title = "total mass of water vapor total standard deviat ion over the season" ; mtot_sd:units = "kg/m2" ; float icetot(Time, latitude, longitude) ; icetot:title = "total mass of water ice" ; icetot:units = "kg/m2" ; float icetot_sd(Time, latitude, longitude) ; icetot_sd:title = "total mass of water ice total standard deviat ion over the season" ; icetot_sd:units = "kg/m2" ; } \end{verbatim} }