\begin{table}%t2
%%\centering

\par
\caption{\label{tab:h2flux}Line emission (in 10$^{-2}$~erg~s$^{-1}$~cm$^{-2}$ sr$^{-1}$), radial velocity with respect to the rest velocity of T~Tau~Sa, tangential velocity, inclination angle, excitation temperature and size of the seven regions marked in Fig.~\ref{fig:h2v10s1}.}
\begin{tabular}{ccccccccc}
\hline\hline\noalign{\smallskip}
Line & $\lambda$ ($\mu$m) & 1a & 1b & 2 & 3 & 4 & 5 & 6\\
\hline
$v = 1$--0 S(3)& 1.9576& 1.7&  1.5& 2.5& 1.6& 1.4&1.7& 1.2\\
$v = 1$--0 S(2)& 2.0338& 0.40&  0.39& 0.50& 0.41& $<$1.2$^a$&0.45&0.40\\
$v = 2$--1 S(3)&2.0729& $<$0.16\tablefootmark{a}& $<$0.097$^a$& 0.10& 0.083& $<$0.14\tablefootmark{a}&$<$0.075$^a$&$<$0.17\tablefootmark{a}\\
$v = 1$--0 $S$(1)& 2.1218& 1.1& 1.1 & 1.4 & 1.2& 1.3&1.3 & 1.1\\
$v = 2$--1 S(2)& 2.1542 & 0.058& 0.056& $<$0.094\tablefootmark{a}&$<$0.047$^a$& $<$0.10\tablefootmark{a}& $<$0.072\tablefootmark{a}& $<$0.078\tablefootmark{a}\\  
$v = 1$--0 S(0)& 2.2235 & 0.28& 0.27& 0.31& 0.25& 0.32& 0.24& 0.31\\
$v = 2$--1 $S$(1)& 2.2477 & 0.11& 0.13& 0.14& 0.11& $<$ 0.11$^a$ &$<$0.077\tablefootmark{a}& $<$0.090\tablefootmark{a}\\
$v = 2$--1 S(0)& 2.3556 & $<$0.045\tablefootmark{a}& $<$0.044\tablefootmark{a}& $<$0.058\tablefootmark{a}& $<$0.054\tablefootmark{a}& $<$0.10$^a$&$<$0.083$^a$& $<$0.15\tablefootmark{a}\\
$v = 1$--0 Q(1)& 2.4066 & 1.1 & 1.1 & 1.2 & 1.3& 1.5&1.3& 1.4\\
$v = 1$--0 Q(2)& 2.4134 & 0.32& 0.33& 0.40& 0.36&0.40&0.39& 0.39\\
$v = 1$--0 Q(3)& 2.4237 & 0.96& 0.98& 1.1& 1.1&1.2&1.2& 1.1\\
$v = 1$--0 Q(4)& 2.4375 & 0.55& 0.30& 0.32& 0.24& 0.20&0.20&$<$0.21\tablefootmark{a}\\
rad. vel. (km~s$^{-1}$)&& --22 & --19 & --21 & --17 &--9 &--10 &--8 \\
tang. vel. (km~s$^{-1}$)&& 53&&&32&--&--&\\
inclination ($^{\circ}$) && 70&&&60&&&\\
Ex. Temp.~(K) && 2000& 2000 &2100& 1900&1100&1500&1300\\
size~(AU) && 21 & 21 & 26 & 37 &25 & 25 &25\\ 
\hline
\end{tabular}
\tablefoot{\tablefootmark{a}{2$\sigma$ upper limit.}}
\vspace*{4mm}
\end{table}