netcdf enalasso_samstat_20180701era5d25x100_sbmwrm-aer3-flxsstC1.m1.20180701.000000 { dimensions: z = 260 ; time = 720 ; variables: float z(z) ; z:units = "m" ; z:long_name = "height" ; float time(time) ; time:units = "day" ; time:long_name = "time" ; float p(z) ; p:units = "mb" ; p:long_name = "pressure" ; float SST(time) ; SST:long_name = "SST" ; SST:units = "K" ; float Ps(time) ; Ps:long_name = "Surface Pressure" ; Ps:units = "" ; float CLDSHD(time) ; CLDSHD:long_name = "Shaded Cloud Fraction" ; CLDSHD:units = "" ; float AREAPREC(time) ; AREAPREC:long_name = "Surface Precip. Fraction" ; AREAPREC:units = "" ; float WMAX(time) ; WMAX:long_name = "Maximum Updraft Velocity" ; WMAX:units = "m/s" ; float UMAX(time) ; UMAX:long_name = "Maximum Horizontal Wind" ; UMAX:units = "m/s" ; float PREC(time) ; PREC:long_name = "Surface Precipitation" ; PREC:units = "mm/day" ; float LHF(time) ; LHF:long_name = "Latent Heat Flux" ; LHF:units = "W/m2" ; float SHF(time) ; SHF:long_name = "Sensible Heat Flux" ; SHF:units = "W/m2" ; float PW(time) ; PW:long_name = "Precipitable Water" ; PW:units = "mm" ; float PWOBS(time) ; PWOBS:long_name = "Observed Precipitable Water" ; PWOBS:units = "mm" ; float CWP(time) ; CWP:long_name = "Cloud Water Path" ; CWP:units = "g/m2" ; float IWP(time) ; IWP:long_name = "Ice Water Path" ; IWP:units = "g/m2" ; float RWP(time) ; RWP:long_name = "Rain Water Path" ; RWP:units = "g/m2" ; float SWP(time) ; SWP:long_name = "Snow Water Path" ; SWP:units = "g/m2" ; float GWP(time) ; GWP:long_name = "Grauple Water Path" ; GWP:units = "g/m2" ; float HWP(time) ; HWP:long_name = "Hail Water Path" ; HWP:units = "g/m2" ; float CAPE(time) ; CAPE:long_name = "CAPE" ; CAPE:units = "J/kg" ; float CAPEOBS(time) ; CAPEOBS:long_name = "CAPEOBS" ; CAPEOBS:units = "J/kg" ; float CIN(time) ; CIN:long_name = "CIN" ; CIN:units = "J/kg" ; float CINOBS(time) ; CINOBS:long_name = "CINOBS" ; CINOBS:units = "J/kg" ; float LWNS(time) ; LWNS:long_name = "Net LW flux at sfc" ; LWNS:units = "W/m2" ; float LWNT(time) ; LWNT:long_name = "Net LW flux at Top-of-Model)" ; LWNT:units = "W/m2" ; float LWNTOA(time) ; LWNTOA:long_name = "Net LW flux at TOA" ; LWNTOA:units = "W/m2" ; float LWNSC(time) ; LWNSC:long_name = "Net LW flux at sfc (Clear Sky)" ; LWNSC:units = "W/m2" ; float LWNTOAC(time) ; LWNTOAC:long_name = "Net LW flux at TOA (Clear Sky)" ; LWNTOAC:units = "W/m2" ; float LWDS(time) ; LWDS:long_name = "Downward LW flux at sfc" ; LWDS:units = "W/m2" ; float SWNS(time) ; SWNS:long_name = "Net SW flux at sfc" ; SWNS:units = "W/m2" ; float SWNT(time) ; SWNT:long_name = "Net SW flux at Top-of-Model" ; SWNT:units = "W/m2" ; float SWNTOA(time) ; SWNTOA:long_name = "Net SW flux at TOA" ; SWNTOA:units = "W/m2" ; float SWNSC(time) ; SWNSC:long_name = "Net SW flux at sfc (Clear Sky)" ; SWNSC:units = "W/m2" ; float SWNTOAC(time) ; SWNTOAC:long_name = "Net SW flux at TOA (Clear Sky)" ; SWNTOAC:units = "W/m2" ; float SWDS(time) ; SWDS:long_name = "Downward SW flux at sfc" ; SWDS:units = "W/m2" ; float SOLIN(time) ; SOLIN:long_name = "Incoming SW flux at TOA" ; SOLIN:units = "W/m2" ; float SSTOBS(time) ; SSTOBS:long_name = "Observed SST" ; SSTOBS:units = "K" ; float LHFOBS(time) ; LHFOBS:long_name = "Observed Latent Heat Flux" ; LHFOBS:units = "W/m2" ; float SHFOBS(time) ; SHFOBS:long_name = "Observed Sensible Heat Flux" ; SHFOBS:units = "SHFOBS" ; float ZINV(time) ; ZINV:long_name = "GCSS Inversion Height" ; ZINV:units = "km" ; ZINV:_FillValue = -1.f ; float ZINV2(time) ; ZINV2:long_name = "GCSS Variance of the Inversion Height" ; ZINV2:units = "km2" ; ZINV2:_FillValue = -1.f ; float ZCT(time) ; ZCT:long_name = "GCSS Mean Cloud-top Height" ; ZCT:units = "km" ; ZCT:_FillValue = -1.f ; float ZCT2(time) ; ZCT2:long_name = "GCSS Variance of Cloud-top Height" ; ZCT2:units = "km2" ; ZCT2:_FillValue = -1.f ; float ZCTMAX(time) ; ZCTMAX:long_name = "GCSS Maximum Cloud-top Height" ; ZCTMAX:units = "km" ; ZCTMAX:_FillValue = -1.f ; float ZCB(time) ; ZCB:long_name = "GCSS Mean Cloud-base Height" ; ZCB:units = "km" ; ZCB:_FillValue = -1.f ; float ZCB2(time) ; ZCB2:long_name = "GCSS Variance of Cloud-base Height" ; ZCB2:units = "km" ; ZCB2:_FillValue = -1.f ; float ZCBMIN(time) ; ZCBMIN:long_name = "GCSS Minimum Cloud-base Height" ; ZCBMIN:units = "km" ; ZCBMIN:_FillValue = -1.f ; float PRECMN(time) ; PRECMN:long_name = "GCSS Precipitation Rate" ; PRECMN:units = "mm/d" ; PRECMN:_FillValue = -1.f ; float PREC2(time) ; PREC2:long_name = "GCSS Variance of Precipitation Rate" ; PREC2:units = "(mm/d)^2" ; PREC2:_FillValue = -1.f ; float PRECMAX(time) ; PRECMAX:long_name = "GCSS Maximum Precipitation Rate" ; PRECMAX:units = "mm/d" ; PRECMAX:_FillValue = -1.f ; float PRES(time, z) ; PRES:long_name = "Pressure" ; PRES:units = "mb" ; PRES:missing_value = -9999.f ; float U(time, z) ; U:long_name = "x wind component" ; U:units = "m/s" ; U:missing_value = -9999.f ; float V(time, z) ; V:long_name = "y wind component" ; V:units = "m/s" ; V:missing_value = -9999.f ; float UOBS(time, z) ; UOBS:long_name = "Observed x wind component" ; UOBS:units = "m/s" ; UOBS:missing_value = -9999.f ; float VOBS(time, z) ; VOBS:long_name = "Observed y wind component" ; VOBS:units = "m/s" ; VOBS:missing_value = -9999.f ; float WOBS(time, z) ; WOBS:long_name = "Observed large-scale vert. velocity" ; WOBS:units = "m/s" ; WOBS:missing_value = -9999.f ; float RHO(time, z) ; RHO:long_name = "Air density" ; RHO:units = "kg/m3" ; RHO:missing_value = -9999.f ; float MSE(time, z) ; MSE:long_name = "Moist static energy" ; MSE:units = "K" ; MSE:missing_value = -9999.f ; float DSE(time, z) ; DSE:long_name = "Dry static energy" ; DSE:units = "K" ; DSE:missing_value = -9999.f ; float SSE(time, z) ; SSE:long_name = "Saturation static energy" ; SSE:units = "K" ; SSE:missing_value = -9999.f ; float THETAE(time, z) ; THETAE:long_name = "Equivalent (generalized) potential temperature" ; THETAE:units = "K" ; THETAE:missing_value = -9999.f ; float THETA(time, z) ; THETA:long_name = "Potential temperature" ; THETA:units = "K" ; THETA:missing_value = -9999.f ; float THETAV(time, z) ; THETAV:long_name = "Virtual potential temperature" ; THETAV:units = "K" ; THETAV:missing_value = -9999.f ; float THETAL(time, z) ; THETAL:long_name = "Liquid water potential temperature" ; THETAL:units = "K" ; THETAL:missing_value = -9999.f ; float TABS(time, z) ; TABS:long_name = "Absolute temperature" ; TABS:units = "K" ; TABS:missing_value = -9999.f ; float TABSOBS(time, z) ; TABSOBS:long_name = "Observed Absolute temperature" ; TABSOBS:units = "K" ; TABSOBS:missing_value = -9999.f ; float TL(time, z) ; TL:long_name = "Liquid water static energy" ; TL:units = "K" ; TL:missing_value = -9999.f ; float QT(time, z) ; QT:long_name = "Total water (no precip)" ; QT:units = "g/kg" ; QT:missing_value = -9999.f ; float QV(time, z) ; QV:long_name = "Water vapor" ; QV:units = "g/kg" ; QV:missing_value = -9999.f ; float QVOBS(time, z) ; QVOBS:long_name = "Observed Water vapor" ; QVOBS:units = "g/kg" ; QVOBS:missing_value = -9999.f ; float TTEND(time, z) ; TTEND:long_name = "Observed Large-Scale Temperature Tendency" ; TTEND:units = "K/day" ; TTEND:missing_value = -9999.f ; float QTEND(time, z) ; QTEND:long_name = "Observed Large-Scale Moisture Tendency" ; QTEND:units = "g/kg/day" ; QTEND:missing_value = -9999.f ; float QCL(time, z) ; QCL:long_name = "Cloud water" ; QCL:units = "g/kg" ; QCL:missing_value = -9999.f ; float QCI(time, z) ; QCI:long_name = "Cloud ice" ; QCI:units = "g/kg" ; QCI:missing_value = -9999.f ; float QPL(time, z) ; QPL:long_name = "Rain content" ; QPL:units = "g/kg" ; QPL:missing_value = -9999.f ; float QPI(time, z) ; QPI:long_name = "Snow content" ; QPI:units = "g/kg" ; QPI:missing_value = -9999.f ; float QN(time, z) ; QN:long_name = "Cloud water and cloud ice" ; QN:units = "g/kg" ; QN:missing_value = -9999.f ; float QP(time, z) ; QP:long_name = "Rain and Snow" ; QP:units = "g/kg" ; QP:missing_value = -9999.f ; float QSAT(time, z) ; QSAT:long_name = "Saturation mixing ratio" ; QSAT:units = "g/kg" ; QSAT:missing_value = -9999.f ; float QCOND(time, z) ; QCOND:long_name = "Total Condensate" ; QCOND:units = "g/kg" ; QCOND:missing_value = -9999.f ; float PRECIP(time, z) ; PRECIP:long_name = "Precipitation flux" ; PRECIP:units = "mm/day" ; PRECIP:missing_value = -9999.f ; float RELH(time, z) ; RELH:long_name = "Relative humidity" ; RELH:units = "per cent" ; RELH:missing_value = -9999.f ; float TLFLUX(time, z) ; TLFLUX:long_name = "Liquid water static energy flux (Total)" ; TLFLUX:units = "W/m2" ; TLFLUX:missing_value = -9999.f ; float TLFLUXS(time, z) ; TLFLUXS:long_name = "Liquid water static energy flux (SGS)" ; TLFLUXS:units = "W/m2" ; TLFLUXS:missing_value = -9999.f ; float TVFLUX(time, z) ; TVFLUX:long_name = "Buoyancy flux (Resolved)" ; TVFLUX:units = "W/m2" ; TVFLUX:missing_value = -9999.f ; float QLFLUX(time, z) ; QLFLUX:long_name = "Liquid water flux (Resolved, w/ precip)" ; QLFLUX:units = "W/m2" ; QLFLUX:missing_value = -9999.f ; float QIFLUX(time, z) ; QIFLUX:long_name = "Ice flux (Resolved, w/ precip)" ; QIFLUX:units = "W/m2" ; QIFLUX:missing_value = -9999.f ; float UW(time, z) ; UW:long_name = "x-momentum flux (Total)" ; UW:units = "m2/s2" ; UW:missing_value = -9999.f ; float UWSB(time, z) ; UWSB:long_name = "x-momentum flux (SGS)" ; UWSB:units = "m2/s2" ; UWSB:missing_value = -9999.f ; float VW(time, z) ; VW:long_name = "y-momentum flux (Total)" ; VW:units = "m2/s2" ; VW:missing_value = -9999.f ; float VWSB(time, z) ; VWSB:long_name = "y-momentum flux (SGS)" ; VWSB:units = "m2/s2" ; VWSB:missing_value = -9999.f ; float RADLWUP(time, z) ; RADLWUP:long_name = "Upward longwave radiative flux" ; RADLWUP:units = "W/m2" ; RADLWUP:missing_value = -9999.f ; float RADLWDN(time, z) ; RADLWDN:long_name = "Downward longwave radiative flux" ; RADLWDN:units = "W/m2" ; RADLWDN:missing_value = -9999.f ; float RADSWUP(time, z) ; RADSWUP:long_name = "Upward shortwave radiative flux" ; RADSWUP:units = "W/m2" ; RADSWUP:missing_value = -9999.f ; float RADSWDN(time, z) ; RADSWDN:long_name = "Downward shortwave radiative flux" ; RADSWDN:units = "W/m2" ; RADSWDN:missing_value = -9999.f ; float RADQRLW(time, z) ; RADQRLW:long_name = "Longwave heating rate" ; RADQRLW:units = "K/day" ; RADQRLW:missing_value = -9999.f ; float RADQRSW(time, z) ; RADQRSW:long_name = "Shortwave heating rate" ; RADQRSW:units = "K/day" ; RADQRSW:missing_value = -9999.f ; float RADQR(time, z) ; RADQR:long_name = "Radiative heating rate" ; RADQR:units = "K/day" ; RADQR:missing_value = -9999.f ; float RADQRS(time, z) ; RADQRS:long_name = "Clear-sky Radiative heating rate" ; RADQRS:units = "K/day" ; RADQRS:missing_value = -9999.f ; float RADQRC(time, z) ; RADQRC:long_name = "Cloudy-sky Radiative heating rate" ; RADQRC:units = "K/day" ; RADQRC:missing_value = -9999.f ; float Q1C(time, z) ; Q1C:long_name = "Apparent heat source: Q1 - QR" ; Q1C:units = "K/day" ; Q1C:missing_value = -9999.f ; float Q2(time, z) ; Q2:long_name = "Apparent moisture sink: Q2" ; Q2:units = "K/day" ; Q2:missing_value = -9999.f ; float U2(time, z) ; U2:long_name = "Variance of the x wind component" ; U2:units = "m2/s2" ; U2:missing_value = -9999.f ; float V2(time, z) ; V2:long_name = "Variance of the y wind component" ; V2:units = "m2/s2" ; V2:missing_value = -9999.f ; float W2(time, z) ; W2:long_name = "Variance of the z wind component" ; W2:units = "m2/s2" ; W2:missing_value = -9999.f ; float TL2(time, z) ; TL2:long_name = "Variance of l.w.stat.energy" ; TL2:units = "K2" ; TL2:missing_value = -9999.f ; float TQ(time, z) ; TQ:long_name = "CoVariance of TL and QT (no precip)" ; TQ:units = "K2" ; TQ:missing_value = -9999.f ; float QT2(time, z) ; QT2:long_name = "Variance of total water (no precip)" ; QT2:units = "g2/kg2" ; QT2:missing_value = -9999.f ; float QL2(time, z) ; QL2:long_name = "Variance of liquid water (w/ precip)" ; QL2:units = "g2/kg2" ; QL2:missing_value = -9999.f ; float QI2(time, z) ; QI2:long_name = "Variance of ice water (w/ precip)" ; QI2:units = "g2/kg2" ; QI2:missing_value = -9999.f ; float QS2(time, z) ; QS2:long_name = "Variance of saturation mixing ratio" ; QS2:units = "g2/kg2" ; QS2:missing_value = -9999.f ; float W3(time, z) ; W3:long_name = "Third moment of the vertical velocity" ; W3:units = "m3/s3" ; W3:missing_value = -9999.f ; float AUP(time, z) ; AUP:long_name = "domain fraction occupied by updrafts" ; AUP:units = "" ; AUP:missing_value = -9999.f ; float WSKEW(time, z) ; WSKEW:long_name = "Vertical velocity skewness W3/(W2)^3/2" ; WSKEW:units = "" ; WSKEW:missing_value = -9999.f ; float TKE(time, z) ; TKE:long_name = "Turbulent kinetic energy (Resolved)" ; TKE:units = "m2/s2" ; TKE:missing_value = -9999.f ; float TKES(time, z) ; TKES:long_name = "Turbulent kinetic energy (SGS)" ; TKES:units = "m2/s2" ; TKES:missing_value = -9999.f ; float TK(time, z) ; TK:long_name = "Eddy viscosity" ; TK:units = "m2/s" ; TK:missing_value = -9999.f ; float TKH(time, z) ; TKH:long_name = "Eddy diffusivity" ; TKH:units = "m2/s" ; TKH:missing_value = -9999.f ; float TLADV(time, z) ; TLADV:long_name = "Advective Transport of TL" ; TLADV:units = "K/day" ; TLADV:missing_value = -9999.f ; float TLDIFF(time, z) ; TLDIFF:long_name = "Diffusive Transport of TL" ; TLDIFF:units = "K/day" ; TLDIFF:missing_value = -9999.f ; float TLLAT(time, z) ; TLLAT:long_name = "Latent Heating of TL" ; TLLAT:units = "K/day" ; TLLAT:missing_value = -9999.f ; float TLRAD(time, z) ; TLRAD:long_name = "Radiative Heating of TL" ; TLRAD:units = "K/day" ; TLRAD:missing_value = -9999.f ; float SHEAR(time, z) ; SHEAR:long_name = "Shear production of TKE (resolved)" ; SHEAR:units = "m2/s3" ; SHEAR:missing_value = -9999.f ; float SHEARS(time, z) ; SHEARS:long_name = "Shear production of TKE (SGS)" ; SHEARS:units = "m2/s3" ; SHEARS:missing_value = -9999.f ; float BUOYA(time, z) ; BUOYA:long_name = "Buoyancy production of TKE (resolved)" ; BUOYA:units = "m2/s3" ; BUOYA:missing_value = -9999.f ; float BUOYAS(time, z) ; BUOYAS:long_name = "Buoyancy production of TKE (SGS)" ; BUOYAS:units = "m2/s3" ; BUOYAS:missing_value = -9999.f ; float ADVTR(time, z) ; ADVTR:long_name = "Turbulent advective transport of TKE (Resolved)" ; ADVTR:units = "m2/s3" ; ADVTR:missing_value = -9999.f ; float PRESSTR(time, z) ; PRESSTR:long_name = "Pressure transport of TKE (Resolved)" ; PRESSTR:units = "m2/s3" ; PRESSTR:missing_value = -9999.f ; float ADVTRS(time, z) ; ADVTRS:long_name = "Turbulent+pressure transport of TKE (SGS)" ; ADVTRS:units = "m2/s3" ; ADVTRS:missing_value = -9999.f ; float DIFTR(time, z) ; DIFTR:long_name = "SGS transport of TKE (Resolved)" ; DIFTR:units = "m2/s3" ; DIFTR:missing_value = -9999.f ; float DISSIP(time, z) ; DISSIP:long_name = "Dissipation (Resolved)" ; DISSIP:units = "m2/s3" ; DISSIP:missing_value = -9999.f ; float DISSIPS(time, z) ; DISSIPS:long_name = "Dissipation (SGS)" ; DISSIPS:units = "m2/s3" ; DISSIPS:missing_value = -9999.f ; float WUADV(time, z) ; WUADV:long_name = "WU advection (Resolved)" ; WUADV:units = "m2/s3" ; WUADV:missing_value = -9999.f ; float WVADV(time, z) ; WVADV:long_name = "WV advection (Resolved)" ; WVADV:units = "m2/s3" ; WVADV:missing_value = -9999.f ; float WUPRES(time, z) ; WUPRES:long_name = "WU pressure (Resolved)" ; WUPRES:units = "m2/s3" ; WUPRES:missing_value = -9999.f ; float WVPRES(time, z) ; WVPRES:long_name = "WV pressure (Resolved)" ; WVPRES:units = "m2/s3" ; WVPRES:missing_value = -9999.f ; float WUANIZ(time, z) ; WUANIZ:long_name = "WU return to anisotropy (Resolved)" ; WUANIZ:units = "m2/s3" ; WUANIZ:missing_value = -9999.f ; float WVANIZ(time, z) ; WVANIZ:long_name = "WV return to anisotropy (Resolved)" ; WVANIZ:units = "m2/s3" ; WVANIZ:missing_value = -9999.f ; float WUSHEAR(time, z) ; WUSHEAR:long_name = "WU shear(Resolved)" ; WUSHEAR:units = "m2/s3" ; WUSHEAR:missing_value = -9999.f ; float WVSHEAR(time, z) ; WVSHEAR:long_name = "WV shear (Resolved)" ; WVSHEAR:units = "m2/s3" ; WVSHEAR:missing_value = -9999.f ; float WUBUOY(time, z) ; WUBUOY:long_name = "WU buoyancy (Resolved)" ; WUBUOY:units = "m2/s3" ; WUBUOY:missing_value = -9999.f ; float WVBUOY(time, z) ; WVBUOY:long_name = "WV buoyancy (Resolved)" ; WVBUOY:units = "m2/s3" ; WVBUOY:missing_value = -9999.f ; float WUDIFF(time, z) ; WUDIFF:long_name = "WU diffusion (Resolved)" ; WUDIFF:units = "m2/s3" ; WUDIFF:missing_value = -9999.f ; float WVDIFF(time, z) ; WVDIFF:long_name = "WV diffusion (Resolved)" ; WVDIFF:units = "m2/s3" ; WVDIFF:missing_value = -9999.f ; float W2ADV(time, z) ; W2ADV:long_name = "WU advection (Resolved)" ; W2ADV:units = "m2/s3" ; W2ADV:missing_value = -9999.f ; float W2PRES(time, z) ; W2PRES:long_name = "W2 pressure (Resolved)" ; W2PRES:units = "m2/s3" ; W2PRES:missing_value = -9999.f ; float W2REDIS(time, z) ; W2REDIS:long_name = "W2 pressure redistribution(Resolved)" ; W2REDIS:units = "m2/s3" ; W2REDIS:missing_value = -9999.f ; float W2BUOY(time, z) ; W2BUOY:long_name = "W2 buoyancy (Resolved)" ; W2BUOY:units = "m2/s3" ; W2BUOY:missing_value = -9999.f ; float W2DIFF(time, z) ; W2DIFF:long_name = "W2 diffusion (Resolved)" ; W2DIFF:units = "m2/s3" ; W2DIFF:missing_value = -9999.f ; float TWGRAD(time, z) ; TWGRAD:long_name = "Gradient production of TL vertical flux" ; TWGRAD:units = "m s-2 K" ; TWGRAD:missing_value = -9999.f ; float TWADV(time, z) ; TWADV:long_name = "Transport of TL vertical flux" ; TWADV:units = "m s-2 K" ; TWADV:missing_value = -9999.f ; float TWDIFF(time, z) ; TWDIFF:long_name = "Diffusion of TL vertical flux" ; TWDIFF:units = "m s-2 K" ; TWDIFF:missing_value = -9999.f ; float TWBUOY(time, z) ; TWBUOY:long_name = "Buoyancy production of TL vertical flux" ; TWBUOY:units = "m s-2 K" ; TWBUOY:missing_value = -9999.f ; float TWPRES(time, z) ; TWPRES:long_name = "Pressure production of TL vertical flux" ; TWPRES:units = "m s-2 K" ; TWPRES:missing_value = -9999.f ; float QWGRAD(time, z) ; QWGRAD:long_name = "Gradient production of total water (including precip.) flux" ; QWGRAD:units = "m s-2 K" ; QWGRAD:missing_value = -9999.f ; float QWADV(time, z) ; QWADV:long_name = "Transport of total water (including precip.) flux" ; QWADV:units = "m s-2 K" ; QWADV:missing_value = -9999.f ; float QWDIFF(time, z) ; QWDIFF:long_name = "Diffusion of total water (including precip.) flux" ; QWDIFF:units = "m s-2 K" ; QWDIFF:missing_value = -9999.f ; float QWBUOY(time, z) ; QWBUOY:long_name = "Buoyancy production of total water (including precip.) flux" ; QWBUOY:units = "m s-2" ; QWBUOY:missing_value = -9999.f ; float QWPRES(time, z) ; QWPRES:long_name = "Pressure production of total water (including precip.) flux" ; QWPRES:units = "m s-2" ; QWPRES:missing_value = -9999.f ; float T2ADVTR(time, z) ; T2ADVTR:long_name = "Transport of TL variance" ; T2ADVTR:units = "K2/s" ; T2ADVTR:missing_value = -9999.f ; float T2GRAD(time, z) ; T2GRAD:long_name = "Gradient production of TL variance" ; T2GRAD:units = "K2/s" ; T2GRAD:missing_value = -9999.f ; float T2DISSIP(time, z) ; T2DISSIP:long_name = "Dissipation of TL variance" ; T2DISSIP:units = "K2/s" ; T2DISSIP:missing_value = -9999.f ; float T2DIFTR(time, z) ; T2DIFTR:long_name = "SGS transport of TL variance" ; T2DIFTR:units = "K2/s" ; T2DIFTR:missing_value = -9999.f ; float HYDRO(time, z) ; HYDRO:long_name = "Total fraction of hydrometeors" ; HYDRO:units = "" ; HYDRO:missing_value = -9999.f ; float MCUP(time, z) ; MCUP:long_name = "Updraft cloud mass flux" ; MCUP:units = "kg/m2/s" ; MCUP:missing_value = -9999.f ; float MCDNS(time, z) ; MCDNS:long_name = "Downdraft saturated cloud mass flux" ; MCDNS:units = "kg/m2/s" ; MCDNS:missing_value = -9999.f ; float MCDNU(time, z) ; MCDNU:long_name = "Downdraft unsaturated mass flux" ; MCDNU:units = "kg/m2/s" ; MCDNU:missing_value = -9999.f ; float MC(time, z) ; MC:long_name = "Cloud mass flux" ; MC:units = "kg/m2/s" ; MC:missing_value = -9999.f ; float CORECL(time, z) ; CORECL:long_name = "Cloudy Updraft core fraction" ; CORECL:units = "" ; CORECL:missing_value = -9999.f ; float COREDNCL(time, z) ; COREDNCL:long_name = "Cloudy Downdraft core fraction" ; COREDNCL:units = "" ; COREDNCL:missing_value = -9999.f ; float MCRUP(time, z) ; MCRUP:long_name = "Updraft core mass flux" ; MCRUP:units = "kg/m2/s" ; MCRUP:missing_value = -9999.f ; float MCRDNS(time, z) ; MCRDNS:long_name = "Downdraft cloud core mass flux" ; MCRDNS:units = "kg/m2/s" ; MCRDNS:missing_value = -9999.f ; float MCRDNU(time, z) ; MCRDNU:long_name = "Downdraft unsaturated core mass flux" ; MCRDNU:units = "kg/m2/s" ; MCRDNU:missing_value = -9999.f ; float MCR(time, z) ; MCR:long_name = "Core mass flux" ; MCR:units = "kg/m2/s" ; MCR:missing_value = -9999.f ; float QVTEND(time, z) ; QVTEND:long_name = "Large-Scale Vertical Advection Moisture Tendency" ; QVTEND:units = "g/kg/day" ; QVTEND:missing_value = -9999.f ; float QHTEND(time, z) ; QHTEND:long_name = "Large-Scale Horizontal Advection Moisture Tendency" ; QHTEND:units = "g/kg/day" ; QHTEND:missing_value = -9999.f ; float QNUDGE(time, z) ; QNUDGE:long_name = "Large-Scale Moisture Nudging" ; QNUDGE:units = "g/kg/day" ; QNUDGE:missing_value = -9999.f ; float THTEND(time, z) ; THTEND:long_name = "Large-Scale Horizontal Advection Temperature Tendency" ; THTEND:units = "K/day" ; THTEND:missing_value = -9999.f ; float TVTEND(time, z) ; TVTEND:long_name = "Large-Scale Vertical Advection Temperature Tendency" ; TVTEND:units = "K/day" ; TVTEND:missing_value = -9999.f ; float TNUDGE(time, z) ; TNUDGE:long_name = "Large-Scale Temperature Nudging" ; TNUDGE:units = "K/day" ; TNUDGE:missing_value = -9999.f ; float WSTAR3(time, z) ; WSTAR3:long_name = "Value at inversion is w*^3 (conv. vel. scale)" ; WSTAR3:units = "m3/s3" ; WSTAR3:missing_value = -9999.f ; float UADV(time, z) ; UADV:long_name = "Resolved zonal momentum flux convergence" ; UADV:units = "m/s/day" ; UADV:missing_value = -9999.f ; float VADV(time, z) ; VADV:long_name = "Resolved meridioinal momentum flux convergence" ; VADV:units = "m/s/day" ; VADV:missing_value = -9999.f ; float UDIFF(time, z) ; UDIFF:long_name = "Subgrid zonal momentum flux convergence" ; UDIFF:units = "m/s/day" ; UDIFF:missing_value = -9999.f ; float VDIFF(time, z) ; VDIFF:long_name = "Subgrid meridioinal momentum flux convergence" ; VDIFF:units = "m/s/day" ; VDIFF:missing_value = -9999.f ; float UNUDGE(time, z) ; UNUDGE:long_name = "Zonal velocity nudging" ; UNUDGE:units = "m/s/day" ; UNUDGE:missing_value = -9999.f ; float VNUDGE(time, z) ; VNUDGE:long_name = "Meridional velocity nudging" ; VNUDGE:units = "m/s/day" ; VNUDGE:missing_value = -9999.f ; float ULSADVV(time, z) ; ULSADVV:long_name = "Large-scale vertical advection of Zonal velocity" ; ULSADVV:units = "m/s/day" ; ULSADVV:missing_value = -9999.f ; float VLSADVV(time, z) ; VLSADVV:long_name = "Large-scale vertical advection of meridional velocity" ; VLSADVV:units = "m/s/day" ; VLSADVV:missing_value = -9999.f ; float USTOR(time, z) ; USTOR:long_name = "Zonal velocity storage" ; USTOR:units = "m/s/day" ; USTOR:missing_value = -9999.f ; float VSTOR(time, z) ; VSTOR:long_name = "Meridional velocity storage" ; VSTOR:units = "m/s/day" ; VSTOR:missing_value = -9999.f ; float UTENDCOR(time, z) ; UTENDCOR:long_name = "Zonal velocity tendency due to Coriolis effect" ; UTENDCOR:units = "m/s/day" ; UTENDCOR:missing_value = -9999.f ; float URESID(time, z) ; URESID:long_name = "Zonal velocity budget residual" ; URESID:units = "m/s/day" ; URESID:missing_value = -9999.f ; float VTENDCOR(time, z) ; VTENDCOR:long_name = "Meridional velocity budget residual" ; VTENDCOR:units = "m/s/day" ; VTENDCOR:missing_value = -9999.f ; float VRESID(time, z) ; VRESID:long_name = "Meridional velocity budget residual" ; VRESID:units = "m/s/day" ; VRESID:missing_value = -9999.f ; float TLSTOR(time, z) ; TLSTOR:long_name = "Liquid-ice static energy storage" ; TLSTOR:units = "K/day" ; TLSTOR:missing_value = -9999.f ; float QTSTOR(time, z) ; QTSTOR:long_name = "Total water (no precip.) storage" ; QTSTOR:units = "K/day" ; QTSTOR:missing_value = -9999.f ; float THETAL2(time, z) ; THETAL2:long_name = "Liquid water potential temperature variance" ; THETAL2:units = "K**2" ; THETAL2:missing_value = -9999.f ; float THETAIL(time, z) ; THETAIL:long_name = "Liquid ice water potential temperature" ; THETAIL:units = "K" ; THETAIL:missing_value = -9999.f ; float CF_I(time, z) ; CF_I:long_name = "Ice cloud fraction" ; CF_I:units = "" ; CF_I:missing_value = -9999.f ; float CF_L(time, z) ; CF_L:long_name = "Liquid cloud fraction" ; CF_L:units = "" ; CF_L:missing_value = -9999.f ; float CLD(time, z) ; CLD:long_name = "cloud Fraction" ; CLD:units = "" ; CLD:missing_value = -9999.f ; float WCLD(time, z) ; WCLD:long_name = "Mean W in cloud" ; WCLD:units = "m/s" ; WCLD:missing_value = -9999.f ; float UCLD(time, z) ; UCLD:long_name = "Mean U in cloud" ; UCLD:units = "m/s" ; UCLD:missing_value = -9999.f ; float VCLD(time, z) ; VCLD:long_name = "Mean V in cloud" ; VCLD:units = "m/s" ; VCLD:missing_value = -9999.f ; float MSECLD(time, z) ; MSECLD:long_name = "Mean moist static energy in cloud" ; MSECLD:units = "K" ; MSECLD:missing_value = -9999.f ; float DSECLD(time, z) ; DSECLD:long_name = "Mean dry static energy in cloud" ; DSECLD:units = "K" ; DSECLD:missing_value = -9999.f ; float TLCLD(time, z) ; TLCLD:long_name = "Mean liquid-ice static energy in cloud" ; TLCLD:units = "K" ; TLCLD:missing_value = -9999.f ; float TACLD(time, z) ; TACLD:long_name = "Mean TABS in cloud" ; TACLD:units = "K" ; TACLD:missing_value = -9999.f ; float TVCLD(time, z) ; TVCLD:long_name = "Mean THETAV in cloud" ; TVCLD:units = "K" ; TVCLD:missing_value = -9999.f ; float TVCLDA(time, z) ; TVCLDA:long_name = "Mean THETAV anomaly in cloud" ; TVCLDA:units = "K" ; TVCLDA:missing_value = -9999.f ; float QTCLD(time, z) ; QTCLD:long_name = "Mean QT in cloud" ; QTCLD:units = "g/kg" ; QTCLD:missing_value = -9999.f ; float QNCLD(time, z) ; QNCLD:long_name = "Mean QN in cloud" ; QNCLD:units = "g/kg" ; QNCLD:missing_value = -9999.f ; float QPCLD(time, z) ; QPCLD:long_name = "Mean QP in cloud" ; QPCLD:units = "g/kg" ; QPCLD:missing_value = -9999.f ; float WCLDA(time, z) ; WCLDA:long_name = "W in cloud averaged over the whole domain" ; WCLDA:units = "m/s" ; WCLDA:missing_value = -9999.f ; float TLWCLD(time, z) ; TLWCLD:long_name = "TLW in cloud averaged over the whole domain" ; TLWCLD:units = "Km/s" ; TLWCLD:missing_value = -9999.f ; float TVWCLD(time, z) ; TVWCLD:long_name = "TVW in cloud averaged over the whole domain" ; TVWCLD:units = "Km/s" ; TVWCLD:missing_value = -9999.f ; float QTWCLD(time, z) ; QTWCLD:long_name = "QTW in cloud averaged over the whole domain" ; QTWCLD:units = "g/kg m/s" ; QTWCLD:missing_value = -9999.f ; float QCWCLD(time, z) ; QCWCLD:long_name = "QCW in cloud averaged over the whole domain" ; QCWCLD:units = "g/kg m/s" ; QCWCLD:missing_value = -9999.f ; float QIWCLD(time, z) ; QIWCLD:long_name = "QIW in cloud averaged over the whole domain" ; QIWCLD:units = "g/kg m/s" ; QIWCLD:missing_value = -9999.f ; float HFCLD(time, z) ; HFCLD:long_name = "Mean Frozen MSE in cloud" ; HFCLD:units = "K" ; HFCLD:missing_value = -9999.f ; float HFCLDA(time, z) ; HFCLDA:long_name = "Mean Frozen MSE anomaly in cloud" ; HFCLDA:units = "K" ; HFCLDA:missing_value = -9999.f ; float UCLDA(time, z) ; UCLDA:long_name = "Mean U anomaly in cloud" ; UCLDA:units = "m/s" ; UCLDA:missing_value = -9999.f ; float VCLDA(time, z) ; VCLDA:long_name = "Mean V anomaly in cloud" ; VCLDA:units = "m/s" ; VCLDA:missing_value = -9999.f ; float UPGFCLD(time, z) ; UPGFCLD:long_name = "Zonal pressure gradient in cloud" ; UPGFCLD:units = "m/s2" ; UPGFCLD:missing_value = -9999.f ; float VPGFCLD(time, z) ; VPGFCLD:long_name = "Meridional pressure gradient in cloud" ; VPGFCLD:units = "m/s2" ; VPGFCLD:missing_value = -9999.f ; float WPGFCLD(time, z) ; WPGFCLD:long_name = "Vertical pressure gradient in cloud" ; WPGFCLD:units = "m/s2" ; WPGFCLD:missing_value = -9999.f ; float UWCLD(time, z) ; UWCLD:long_name = "UW in cloud" ; UWCLD:units = "m2/s2" ; UWCLD:missing_value = -9999.f ; float VWCLD(time, z) ; VWCLD:long_name = "VW in cloud" ; VWCLD:units = "m2/s2" ; VWCLD:missing_value = -9999.f ; float UWSBCLD(time, z) ; UWSBCLD:long_name = "Subgrid UW in cloud" ; UWSBCLD:units = "m2/s2" ; UWSBCLD:missing_value = -9999.f ; float VWSBCLD(time, z) ; VWSBCLD:long_name = "Subgrid VW in cloud" ; VWSBCLD:units = "m2/s2" ; VWSBCLD:missing_value = -9999.f ; float MFCLD(time, z) ; MFCLD:long_name = "Mass flux in cloud averaged over the whole domain" ; MFCLD:units = "kg/m2/s" ; MFCLD:missing_value = -9999.f ; float MFHCLD(time, z) ; MFHCLD:long_name = "RHO*W*HF in cloud averaged over the whole domain" ; MFHCLD:units = "K kg/m2/s" ; MFHCLD:missing_value = -9999.f ; float MFHCLDA(time, z) ; MFHCLDA:long_name = "RHO*W*HF anomaly in cloud averaged over the whole domain" ; MFHCLDA:units = "K kg/m2/s" ; MFHCLDA:missing_value = -9999.f ; float MFTLCLD(time, z) ; MFTLCLD:long_name = "RHO*W*TL in cloud averaged over the whole domain" ; MFTLCLD:units = "K kg/m2/s" ; MFTLCLD:missing_value = -9999.f ; float MFTLCLDA(time, z) ; MFTLCLDA:long_name = "RHO*W*TL anomaly in cloud averaged over the whole domain" ; MFTLCLDA:units = "K kg/m2/s" ; MFTLCLDA:missing_value = -9999.f ; float MFTVCLD(time, z) ; MFTVCLD:long_name = "RHO*W*TV in cloud averaged over the whole domain" ; MFTVCLD:units = "K kg/m2/s" ; MFTVCLD:missing_value = -9999.f ; float MFTVCLDA(time, z) ; MFTVCLDA:long_name = "RHO*W*TV anomaly in cloud averaged over the whole domain" ; MFTVCLDA:units = "K kg/m2/s" ; MFTVCLDA:missing_value = -9999.f ; float MFQTCLD(time, z) ; MFQTCLD:long_name = "RHO*W*QT in cloud averaged over the whole domain" ; MFQTCLD:units = "g/m2/s" ; MFQTCLD:missing_value = -9999.f ; float MFQTCLDA(time, z) ; MFQTCLDA:long_name = "RHO*W*QT anomaly in cloud averaged over the whole domain" ; MFQTCLDA:units = "g/m2/s" ; MFQTCLDA:missing_value = -9999.f ; float RUWCLD(time, z) ; RUWCLD:long_name = "RHOUW in cloud averaged over the whole domain" ; RUWCLD:units = "kg/m/s2" ; RUWCLD:missing_value = -9999.f ; float RVWCLD(time, z) ; RVWCLD:long_name = "RHOVW in cloud averaged over the whole domain" ; RVWCLD:units = "kg/m/s2" ; RVWCLD:missing_value = -9999.f ; float RWWCLD(time, z) ; RWWCLD:long_name = "RHOWW in cloud averaged over the whole domain" ; RWWCLD:units = "kg/m/s2" ; RWWCLD:missing_value = -9999.f ; float QTFLUX(time, z) ; QTFLUX:long_name = "Total water (including precip.) flux (Total)" ; QTFLUX:units = "W/m2" ; QTFLUX:missing_value = -9999.f ; float QTFLUXS(time, z) ; QTFLUXS:long_name = "Total water (including precip.) flux (SGS)" ; QTFLUXS:units = "W/m2" ; QTFLUXS:missing_value = -9999.f ; float MQC(time, z) ; MQC:long_name = "Cloud water (microphysics)" ; MQC:units = "g/m^3" ; MQC:missing_value = -9999.f ; float MQR(time, z) ; MQR:long_name = "Rain water (microphysics)" ; MQR:units = "g/m^3" ; MQR:missing_value = -9999.f ; float MQI(time, z) ; MQI:long_name = "Ice crystal (microphysics)" ; MQI:units = "g/m^3" ; MQI:missing_value = -9999.f ; float MQS(time, z) ; MQS:long_name = "Snow water (microphysics)" ; MQS:units = "g/m^3" ; MQS:missing_value = -9999.f ; float MQG(time, z) ; MQG:long_name = "Graupel water (microphysics)" ; MQG:units = "g/m^3" ; MQG:missing_value = -9999.f ; float MQH(time, z) ; MQH:long_name = "Hail water (microphysics)" ; MQH:units = "g/m^3" ; MQH:missing_value = -9999.f ; float SSWMICRO(time, z) ; SSWMICRO:long_name = "Supersaturation with respect to water" ; SSWMICRO:units = "%" ; SSWMICRO:missing_value = -9999.f ; float SSIMICRO(time, z) ; SSIMICRO:long_name = "Supersaturation with respect to ice" ; SSIMICRO:units = "%" ; SSIMICRO:missing_value = -9999.f ; float NCN(time, z) ; NCN:long_name = "CCN concentration" ; NCN:units = "cm-3" ; NCN:missing_value = -9999.f ; float NIN(time, z) ; NIN:long_name = "IN concentration" ; NIN:units = "L-3" ; NIN:missing_value = -9999.f ; float NCD(time, z) ; NCD:long_name = "CD concentration" ; NCD:units = "cm-3" ; NCD:missing_value = -9999.f ; float NR(time, z) ; NR:long_name = "Rain drop concentration" ; NR:units = "cm-3" ; NR:missing_value = -9999.f ; float NI(time, z) ; NI:long_name = "ice crystal number concentration" ; NI:units = "cm-3" ; NI:missing_value = -9999.f ; float NS(time, z) ; NS:long_name = "Snow number concentration" ; NS:units = "l-3" ; NS:missing_value = -9999.f ; float NG(time, z) ; NG:long_name = "graupel concentration" ; NG:units = "l-3" ; NG:missing_value = -9999.f ; float NH(time, z) ; NH:long_name = "Hail number concentration" ; NH:units = "l-3" ; NH:missing_value = -9999.f ; float VFI_MW(time, z) ; VFI_MW:long_name = "mass-weighted ice fall velocity" ; VFI_MW:units = "m/s" ; VFI_MW:missing_value = -9999.f ; float DITEND(time, z) ; DITEND:long_name = "Ice mixing ratio tendency due to dep/sub" ; DITEND:units = "g/kg/s" ; DITEND:missing_value = -9999.f ; float DLTEND(time, z) ; DLTEND:long_name = "Liquid mixing ratio tendency due to cond/evap" ; DLTEND:units = "g/kg/s" ; DLTEND:missing_value = -9999.f ; float SEDLTEND(time, z) ; SEDLTEND:long_name = "Liquid mixing ratio tendency due to sed" ; SEDLTEND:units = "g/kg/s" ; SEDLTEND:missing_value = -9999.f ; float SEDITEND(time, z) ; SEDITEND:long_name = "Ice mixing ratio tendency due to sed" ; SEDITEND:units = "g/kg/s" ; SEDITEND:missing_value = -9999.f ; float FRZTEND(time, z) ; FRZTEND:long_name = "Liquid mixing ratio tendency due to freezing" ; FRZTEND:units = "g/kg/s" ; FRZTEND:missing_value = -9999.f ; float QNI100(time, z) ; QNI100:long_name = "Ice particle conc > 100 um" ; QNI100:units = "L-1" ; QNI100:missing_value = -9999.f ; // global attributes: :SAM\ version = "" ; :caseid = "20180701_sdom_sbm_noice_haer_sst_era5" ; :product_description = "LASSO-ENA simulation from SAM model, 20180701era5d25x100_sbmwrm-aer3-flxsst" ; :sim_name = "20180701era5d25x100_sbmwrm-aer3-flxsst" ; :model_type = "SAM v6.10.3 plus LASSO modifications" ; :stagesam_ena_repository = "https://code.arm.gov/lasso/lasso-ena-codes/stagesam_ena.git" ; :stagesam_ena_git_hash = "8404ad7" ; :input_source = "/gpfs/wolf2/arm/cli120/proj-shared/sey/ena/sam/prod/20180701_sdom_sbm_noice_haer_sst_era5" ; :site_id = "ena" ; :platform_id = "lasso" ; :facility_designation = "C1" ; :location_description = "Eastern North Atlantic (ENA) Atmospheric Observatory, Graciosa Island, Azores" ; :data_level = "m1" ; :contact = "lasso@arm.gov, LASSO PI: William Gustafson (PNNL, william.gustafson@pnnl.gov), LASSO Co-PI: Scott Giangrande (BNL, scott.giangrande@bnl.gov)" ; :doi_isPartOf_lasso-ena = "https://doi.org/10.5439/2572639" ; :doi_isDocumentedBy = "https://doi.org/10.5439/2572640" ; :doi_thisFileType = "https://doi.org/10.5439/2572635" ; :model_source_repository = "https://code.arm.gov/lasso/lasso-ena-codes/lasso_sam_sbm/-/tree/lasso_ena_noice" ; :model_source_git_hash = "f83adf58" ; }