\documentclass[a4paper,12pt]{article} \parindent0.0em \parskip1.5ex plus 0.5ex minus 0.5ex \begin{document} \begin{table}[t] Codes available from PUMA-burner (adapted from ECHAM) \\ \begin{tabular}[t]{|l|l|l|l|l|} \hline \multicolumn{1}{|c|}{Code} & \multicolumn{1}{c|}{Levels}& \multicolumn{1}{c|}{Type} & \multicolumn{1}{c|}{Variable} & \multicolumn{1}{c|}{Unit} \\ \hline \hline 110 & 1 & g & mixed layer depth & m \\ \hline 129 & 1 & s & surface geopotential & m$^{2}$/s$^{2}$ \\ \hline 130 & NLEV & s & temperature & K \\ \hline 131 & NLEV & c & u-velocity & m/s \\ \hline 132 & NLEV & c & v-velocity & m/s \\ \hline 133 & NLEV & s & specific humidity & kg/kg \\ \hline 135 & NLEV & c & vertical velocity & Pa/s \\ \hline 138 & NLEV & s & vorticity & 1/s \\ \hline 139 & 1 & g & surface temperature & K \\ \hline 140 & 1 & g & soil wetness & m \\ \hline 141 & 1 & g & snow depth (water equi.) & m \\ \hline 142 & 1 & ga & large scale precipitation & m/s \\ \hline 143 & 1 & ga & convective precipitation & m/s \\ \hline 144 & 1 & ga & snow fall & m/s \\ \hline 146 & 1 & ga & surface sensible heat flux & W/m$^{2}$ \\ \hline 147 & 1 & ga & surface latent heat flux & W/m$^{2}$ \\ \hline 148 & NLEV & c & horizontal streamfunktion & m$^{2}$/s \\ \hline 149 & NLEV & c & velocity potential & m$^{2}$/s \\ \hline 151 & 1 & c & mean sea level pressure & Pa \\ \hline 152 & 1 & s & ln(surface pressure) & \\ \hline 153 & NLEV & g & cloud liquid water content & kg/kg \\ \hline 155 & NLEV & s & divergence & 1/s \\ \hline 156 & NLEV & c & geopotential height & gpm \\ \hline 157 & NLEV & c & relative humidity & frac. \\ \hline 159 & 1 & g & (u$^{\star}$)$^{3}$ & (m/s)$^{3}$ \\ \hline 160 & 1 & ga & surface runoff & m/s \\ \hline \end{tabular} \end{table} \begin{table}[t] \begin{tabular}[t]{|l|l|l|l|l|} \hline \multicolumn{1}{|c|}{Code} & \multicolumn{1}{c|}{Levels}& \multicolumn{1}{c|}{Type} & \multicolumn{1}{c|}{Variable} & \multicolumn{1}{c|}{Unit} \\ \hline \hline 162 & NLEV & g & cloud cover & frac. \\ \hline 164 & 1 & ga & total cloud cover & frac. \\ \hline 169 & 1 & ga & surface temperature & K \\ \hline 170 & 1 & g & deep soil temperature & K \\ \hline 172 & 1 & g & land sea mask & [0:sea,1:land] \\ \hline 173 & 1 & g & surface roughness & m \\ \hline 175 & 1 & g & surface albedo & frac. \\ \hline 176 & 1 & ga & surface solar radiation & W/m$^{2}$ \\ \hline 177 & 1 & ga & surface thermal radiation & W/m$^{2}$ \\ \hline 178 & 1 & ga & top solar radiation & W/m$^{2}$ \\ \hline 179 & 1 & ga & top thermal radiation & W/m$^{2}$ \\ \hline 180 & 1 & ga & u-stress & Pa \\ \hline 181 & 1 & ga & v-stress & Pa \\ \hline 182 & 1 & ga & evaporation & m/s \\ \hline 183 & 1 & g & soil temperature & K \\ \hline 203 & 1 & ga & top solar radiation upward & W/m$^{2}$ \\ \hline 204 & 1 & ga & surface solar radiation upward & W/m$^{2}$ \\ \hline 205 & 1 & ga & surface thermal radiation upward & W/m$^{2}$ \\ \hline 207 & 1 & g & soil temperature (level 2) & K \\ \hline 208 & 1 & g & soil temperature (level 3) & K \\ \hline 209 & 1 & g & soil temperature (level 4) & K \\ \hline 210 & 1 & g & sea ice cover & frac. \\ \hline 211 & 1 & g & sea ice thickness & m \\ \hline 212 & 1 & g & vegetation cover & frac. \\ \hline 218 & 1 & g & snow melt (water equiv.) & m/s \\ \hline 221 & 1 & g & snow depth change (water equiv.) & m/s \\ \hline 230 & 1 & ga & vertical integrated spec. hum. & kg/m$^{2}$ \\ \hline 232 & 1 & g & glacier cover & frac. \\ \hline \end{tabular} \vspace*{0.5cm} s: PUMA spectral field; g: PUMA grid point field; c: computed by PUMA-burner; a: accumulated \end{table} \end{document}