\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
0 & ID &  --  &  None \\ 
1 & cubename &  --  &  -- \\ 
2 & ra &  --  &  None \\ 
3 & dec &  --  &  None \\ 
4 & void &  --  &  None \\ 
5 & TType &  --  &  None \\ 
6 & Re\_arc &  arcsec  &  Adopted effective radius in arcsec   \\ 
7 & FoV &  --  &  Ratio between the diagonal radius of the cube and Re  \\ 
8 & redshift &  --  &  -- \\ 
9 & DL &  { Mpc}  &  Adopted luminosity distance   \\ 
10 & DA &  { Mpc}  &  Adopted angular-diameter distance   \\ 
11 & PA &  degrees  &  Adopted position angle in degrees   \\ 
12 & ellip &  --  &  Adopted ellipticity   \\ 
13 & Re\_kpc &  kpc  &  Effective radius in kpc   \\ 
14 & log\_Mass &  log(M$_\odot$)  &  Integrated stellar mass in units of the solar mass in logarithm scale   \\ 
15 & e\_log\_Mass &  log(M$_\odot$)  &  Error of the integrated stellar mass { in logratihm-scale}  \\ 
16 & log\_SFR\_Ha &  --  &  -- \\ 
17 & e\_log\_SFR\_Ha &  --  &  -- \\ 
18 & log\_SFR\_ssp &  log(M$_\odot$ yr$^{-1}$)  &  Integrated SFR derived from the SSP analysis t$$<$$32Myr   \\ 
19 & e\_log\_SFR\_ssp &  --  &  -- \\ 
20 & log\_NII\_Ha\_cen &  --  &  Logarithm of the [NII]6583/H$\alpha$ line ratio in the central aperture   \\ 
21 & e\_log\_NII\_Ha\_cen &  --  &  Error in the logarithm of the [NII]6583/H$\alpha$ line ratio   \\ 
22 & log\_OIII\_Hb\_cen &  --  &  Logarithm of the [OIII]5007/H$\beta$ line ratio in the central aperture   \\ 
23 & e\_log\_OIII\_Hb\_cen &  --  &  Error in the logarithm of the [OIII]5007/H$\beta$ line ratio    \\ 
24 & log\_SII\_Ha\_cen &  --  &  Logarithm of the [SII]6717+6731/H$\alpha$ line ratio in the central aperture  \\ 
25 & e\_log\_SII\_Ha\_cen &  --  &  Error in the logarithm of the [SII]6717/H$\alpha$ line ratio    \\ 
26 & log\_OII\_Hb\_cen &  --  &  Logarithm of the [OII]3727/H$\beta$ line ratio in the central aperture \\ 
27 & e\_log\_OII\_Hb\_cen &  --  &  Error in the logarithm of the [OII]3727/H$\beta$ line ratio   \\ 
28 & EW\_Ha\_cen &  \AA\  &  EW of H$\alpha$ in the central aperture   \\ 
29 & e\_EW\_Ha\_cen &  \AA\  &  Error of the EW of H$\alpha$ in the central aperture   \\ 
30 & ZH\_LW\_Re\_fit &  dex  &  { LW metallicity of the stellar population at Re, normalized to the solar value, in logarithm scales}   \\ 
31 & e\_ZH\_LW\_Re\_fit &  dex  &  Error in the luminosity weighted metallicity of the stellar population   \\ 
32 & alpha\_ZH\_LW\_Re\_fit &  dex/Re  &  Slope of the gradient of the LW metallicity of the stellar population   \\ 
33 & e\_alpha\_ZH\_LW\_Re\_fit &  dex/Re  &  Error of the slope of the gradient of the LW log-metallicity   \\ 
34 & ZH\_MW\_Re\_fit &  dex  &  { MW metallicity of the stellar population at Re, normalized to the solar value, in logarithm scales}   \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
35 & e\_ZH\_MW\_Re\_fit &  dex  &  Error in the Mass weighted metallicity of the stellar population  \\ 
36 & alpha\_ZH\_MW\_Re\_fit &  dex/Re  &  Slope of the gradient of the MW log-metallicity of the stellar population   \\ 
37 & e\_alpha\_ZH\_MW\_Re\_fit &  dex/Re  &  Error of the slope of the gradient of the MW log-metallicity   \\ 
38 & Age\_LW\_Re\_fit &  log(yr)  &  Luminosity weighted age of the stellar population in logarithm scale   \\ 
39 & e\_Age\_LW\_Re\_fit &  log(yr)  &  Error in the luminosity weighted age of the stellar population   \\ 
40 & alpha\_Age\_LW\_Re\_fit &  log(yr)/Re  &  Slope of the gradient of the LW log-age of the stellar population   \\ 
41 & e\_alpha\_Age\_LW\_Re\_fit &  log(yr)/Re  &  Error of the slope of the gradient of the LW log-age of the stellar population  \\ 
42 & Age\_MW\_Re\_fit &  log(yr)  &  Mass weighted age of the stellar population in logarithm   \\ 
43 & e\_Age\_MW\_Re\_fit &  log(yr)  &  Error in the Mass weighted age of the stellar population   \\ 
44 & alpha\_Age\_MW\_Re\_fit &  { log(yr)}/Re  &  Slope of the gradient of the MW log-age of the stellar population   \\ 
45 & e\_alpha\_Age\_MW\_Re\_fit &  { log(yr)}/Re  &  Error of the slope of the gradient of the MW log-age of the stellar population   \\ 
46 & log\_Mass\_gas &  log(M$_\odot$)  &  Integrated gas mass in units of the solar mass in logarithm scale   \\ 
47 & vel\_sigma\_Re &  --  &  Velocity/dispersion ratio for the stellar populations within 1.5 Re   \\ 
48 & e\_vel\_sigma\_Re &  --  &  Error in the velocity/dispersion ratio for the stellar population   \\ 
49 & log\_SFR\_SF &  log(M$_\odot$ yr$^{-1}$)  &  Integrated SFR using only the spaxels compatible with SF   \\ 
50 & log\_SFR\_D\_C &  log(M$_\odot$ yr$^{-1}$)  &  Integrated SFR diffuse corrected   \\ 
51 & OH\_O3N2\_cen &  dex  &  Oxygen abundance using the calibrator O3N2 at the central aperture \\ 
52 & e\_OH\_O3N2\_cen &  dex  &  Error in Oxygen abundance using the calibrator O3N2 at the central aperture   \\ 
53 & OH\_N2\_cen &  dex  &  Oxygen abundance using the calibrator N2 at the central aperture \\ 
54 & e\_OH\_N2\_cen &  dex  &  Error in Oxygen abundance using the calibrator N2 at the central aperture   \\ 
55 & OH\_ONS\_cen &  dex  &  Oxygen abundance using the calibrator ONS at the central aperture \\ 
56 & e\_OH\_ONS\_cen &  dex  &  Error in Oxygen abundance using the calibrator ONS at the central aperture   \\ 
57 & OH\_R23\_cen &  dex  &  Oxygen abundance using the calibrator R23 at the central aperture \\ 
58 & e\_OH\_R23\_cen &  dex  &  Error in Oxygen abundance using the calibrator R23 at the central aperture   \\ 
59 & OH\_pyqz\_cen &  dex  &  Oxygen abundance using the calibrator pyqz at the central aperture \\ 
60 & e\_OH\_pyqz\_cen &  dex  &  Error in Oxygen abundance using the calibrator pyqz at the central aperture   \\ 
61 & OH\_t2\_cen &  dex  &  Oxygen abundance using the calibrator t2 at the central aperture \\ 
62 & e\_OH\_t2\_cen &  dex  &  Error in Oxygen abundance using the calibrator t2 at the central aperture   \\ 
63 & OH\_M08\_cen &  dex  &  Oxygen abundance using the calibrator M08 at the central aperture \\ 
64 & e\_OH\_M08\_cen &  dex  &  Error in Oxygen abundance using the calibrator M08 at the central aperture   \\ 
65 & OH\_T04\_cen &  dex  &  Oxygen abundance using the calibrator T04 at the central aperture \\ 
66 & e\_OH\_T04\_cen &  dex  &  Error in Oxygen abundance using the calibrator T04 at the central aperture   \\ 
67 & OH\_dop\_cen &  dex  &  Oxygen abundance using the calibrator dop at the central aperture \\ 
68 & e\_OH\_dop\_cen &  dex  &  Error in Oxygen abundance using the calibrator dop at the central aperture   \\ 
69 & OH\_O3N2\_EPM09\_cen &  dex  &  Oxygen abundance using the calibrator O3N2\_EPM09 at the central aperture \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
70 & e\_OH\_O3N2\_EPM09\_cen &  dex  &  Error in Oxygen abundance using the calibrator O3N2\_EPM09 at the central aperture   \\ 
71 & log\_OI\_Ha\_cen &  dex  &  Logarithm of the [OI]6301/H$\alpha$ within a central aperture \\ 
72 & e\_log\_OI\_Ha\_cen &  dex  &  Error in the logarithm of the [OI]6301/H$\alpha$ within a central aperture    \\ 
73 & Ha\_Hb\_cen &  --  &  Ratio between the flux of Ha$\alpha$ and H$\beta$ within a central aperture \\ 
74 & e\_Ha\_Hb\_cen &  --  &  Error of Ha\_Hb\_cen   \\ 
75 & log\_NII\_Ha\_Re &  dex  &  Logarithm of the [NII]6583/H$\alpha$ line ratio at 1Re \\ 
76 & e\_log\_NII\_Ha\_Re &  dex  &  Error in the logarithm of the [NII]6583/H$\alpha$ ratio at 1Re   \\ 
77 & log\_OIII\_Hb\_Re &  dex  &  Logarithm of the [OIII]5007/H$\beta$ line ratio at 1Re \\ 
78 & e\_log\_OIII\_Hb\_Re &  dex  &  Error in the logarithm of the [OIII]5007/H$\beta$ ratio at 1Re   \\ 
79 & log\_SII\_Ha\_Re &  dex  &  Logarithm of the [SII]6717+6731/H$\alpha$ ratio at 1Re \\ 
80 & e\_log\_SII\_Ha\_Re &  dex  &  Error in the logarithm of the [SII]6717/H$\alpha$ ratio at 1Re   \\ 
81 & log\_OII\_Hb\_Re &  dex  &  Logarithm of the [OII]3727/H$\beta$ ratio at 1Re \\ 
82 & e\_log\_OII\_Hb\_Re &  dex  &  Error in the logarithm of the [OII]3727/H$\beta$ at 1Re   \\ 
83 & log\_OI\_Ha\_Re &  dex  &  Logarithm of the [OI]6301/H$\alpha$ ratio at 1Re \\ 
84 & e\_log\_OI\_Ha\_Re &  dex  &  Error in the logarithm of the [OI]6301/H$\alpha$ ratio at 1Re   \\ 
85 & EW\_Ha\_Re &  \AA\  &  EW of H$\alpha$ at 1Re \\ 
86 & e\_EW\_Ha\_Re &  \AA\  &  Error of the EW of H$\alpha$ at 1Re   \\ 
87 & Ha\_Hb\_Re &  --  &  Ratio between the flux of H$\alpha$ and H$\beta$ within at 1Re \\ 
88 & e\_Ha\_Hb\_Re &  --  &  Error of Ha\_Hb\_Re   \\ 
89 & log\_NII\_Ha\_ALL &  dex  &  Logarithm of the [NII]6583/H$\alpha$ line ratio within the entire FoV \\ 
90 & e\_log\_NII\_Ha\_ALL &  dex  &  Error in the logarithm of the [NII]6583/$\alpha$ ratio within the entire FoV   \\ 
91 & log\_OIII\_Hb\_ALL &  dex  &  Logarithm of the [OIII]5007/H$\beta$ line ratio within the FoV \\ 
92 & e\_log\_OIII\_Hb\_ALL &  dex  &  Error in the logarithm of the [OIII]5007/H$\beta$ ratio within the FoV   \\ 
93 & log\_SII\_Ha\_ALL &  dex  &  Logarithm of the [SII]6717+6731/H$\alpha$ ratio within the entire FoV \\ 
94 & e\_log\_SII\_Ha\_ALL &  dex  &  Error in the logarithm of the [SII]6717/H$\alpha$ ratio within the FoV   \\ 
95 & log\_OII\_Hb\_ALL &  dex  &  Logarithm of the [OII]3727/H$\beta$ ratio within the entire FoV \\ 
96 & e\_log\_OII\_Hb\_ALL &  dex  &  Error in the logarithm of the [OII]3727/H$\beta$ ratio within the FoV   \\ 
97 & log\_OI\_Ha\_ALL &  dex  &  Logarithm of the [OI]6301/H$\alpha$ ratio within the entire FoV \\ 
98 & e\_log\_OI\_Ha\_ALL &  dex  &  Error in the logarithm of the [OI]6301/H$\beta$ ratio within the FoV   \\ 
99 & EW\_Ha\_ALL &  \AA\  &  EW of H$\alpha$ within the entire FoV \\ 
100 & e\_EW\_Ha\_ALL &  \AA\  &  Error of the EW of H$\alpha$ within the FoV   \\ 
101 & Ha\_Hb\_ALL &  --  &  Ratio between the flux of H$\alpha$ and H$\beta$ within the entire FoV \\ 
102 & Sigma\_Mass\_cen &  log(M$_\odot$ pc$^{-2}$)  &  Stellar Mass surface density in the central aperture   \\ 
103 & e\_Sigma\_Mass\_cen &  log(M$_\odot$ pc$^{-2}$)  &  Error in Stellar Mass density in the central aperture \\ 
104 & Sigma\_Mass\_Re &  log(M$_\odot$ pc$^{-2}$)  &  Stellar Mass surface density at 1Re   \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
105 & e\_Sigma\_Mass\_Re &  log(M$_\odot$ pc$^{-2}$)  &  Error in Stellar Mass density at 1Re \\ 
106 & Sigma\_Mass\_ALL &  log(M$_\odot$ pc$^{-2}$)  &  Average Stellar Mass surface density within the entire FoV   \\ 
107 & e\_Sigma\_Mass\_ALL &  log(M$_\odot$ pc$^{-2}$)  &  Error in the average Stellar Mass surface density within the FoV \\ 
108 & T30 &  Gyr  &  Lookback time at which the galaxy has formed 30\% of its stellar mass   \\ 
109 & ZH\_T30 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T30   time \\ 
110 & ZH\_Re\_T30 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T30   time   \\ 
111 & a\_ZH\_T30 &  dex/Re  &  Slope of the ZH gradient at T30   time \\ 
112 & T40 &  Gyr  &  Lookback time at which the galaxy has formed 40\% of its stellar mass   \\ 
113 & ZH\_T40 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T40   time \\ 
114 & ZH\_Re\_T40 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T40   time   \\ 
115 & a\_ZH\_T40 &  dex/Re  &  Slope of the ZH gradient at T40   time \\ 
116 & T50 &  Gyr  &  Lookback time at which the galaxy has formed 50\% of its stellar mass   \\ 
117 & ZH\_T50 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T50   time \\ 
118 & ZH\_Re\_T50 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T50   time   \\ 
119 & a\_ZH\_T50 &  dex/Re  &  Slope of the ZH gradient at T50   time \\ 
120 & T60 &  Gyr  &  Lookback time at which the galaxy has formed 60\% of its stellar mass   \\ 
121 & ZH\_T60 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T60   time \\ 
122 & ZH\_Re\_T60 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T60   time   \\ 
123 & a\_ZH\_T60 &  dex/Re  &  Slope of the ZH gradient at T60   time \\ 
124 & T70 &  Gyr  &  Lookback time at which the galaxy has formed 70\% of its stellar mass   \\ 
125 & ZH\_T70 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T70   time \\ 
126 & ZH\_Re\_T70 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T70   time   \\ 
127 & a\_ZH\_T70 &  dex/Re  &  Slope of the ZH gradient at T70   time \\ 
128 & T80 &  Gyr  &  Lookback time at which the galaxy has formed 80\% of its stellar mass   \\ 
129 & ZH\_T80 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T80   time \\ 
130 & ZH\_Re\_T80 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T80   time   \\ 
131 & a\_ZH\_T80 &  dex/Re  &  Slope of the ZH gradient at T80   time \\ 
132 & T90 &  Gyr  &  Lookback time at which the galaxy has formed 90\% of its stellar mass   \\ 
133 & ZH\_T90 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T90   time \\ 
134 & ZH\_Re\_T90 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T90   time   \\ 
135 & a\_ZH\_T90 &  dex/Re  &  Slope of the ZH gradient at T90   time \\ 
136 & T95 &  Gyr  &  Lookback time at which the galaxy has formed 95\% of its stellar mass   \\ 
137 & ZH\_T95 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T95   time \\ 
138 & ZH\_Re\_T95 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T95   time   \\ 
139 & a\_ZH\_T95 &  dex/Re  &  Slope of the ZH gradient at T95   time \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
140 & T99 &  Gyr  &  Lookback time at which the galaxy has formed 99\% of its stellar mass   \\ 
141 & ZH\_T99 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at T99   time \\ 
142 & ZH\_Re\_T99 &  dex  &  Stellar metallicity, normalized by the solar value, in logarithm-scale at Re at T99   time   \\ 
143 & a\_ZH\_T99 &  dex/Re  &  Slope of the ZH gradient at T99   time \\ 
144 & log\_Mass\_gas\_Av\_gas\_OH &  log(M$_\odot$)  &  { Integrated gas mass using the calibrator log\_Mass\_gas\_Av\_gas\_OH, in logarithm-scale}  \\ 
145 & log\_Mass\_gas\_Av\_ssp\_OH &  log(M$_\odot$)  &  { Integrated gas mass using the calibrator log\_Mass\_gas\_Av\_ssp\_OH, in logarithm-scale} \\ 
146 & vel\_ssp\_2 &  km s$^{-1}$  &  Stellar velocity at 2 Re   \\ 
147 & e\_vel\_ssp\_2 &  km/s  &  Error in vel\_ssp\_2 \\ 
148 & vel\_Ha\_2 &  km s$^{-1}$  &  H$\alpha$ velocity at 2 Re   \\ 
149 & e\_vel\_Ha\_2 &  km/s  &  Error in vel\_Ha\_2 \\ 
150 & vel\_ssp\_1 &  km s$^{-1}$  &  Stellar velocity at 1 Re   \\ 
151 & e\_vel\_ssp\_1 &  km/s  &  Error of vel\_ssp\_1 \\ 
152 & vel\_Ha\_1 &  km/s  &  H$\alpha$ velocity at 1 Re   \\ 
153 & e\_vel\_Ha\_1 &  km/s  &  Error of e\_vel\_Ha\_1 \\ 
154 & log\_SFR\_ssp\_100Myr &  log(M$_\odot$ yr$^{-1}$)  &  Integrated SFR derived from the SSP analysis for t$$<$$100Myr   \\ 
155 & log\_SFR\_ssp\_10Myr &  log(M$_\odot$ yr$^{-1}$)  &  Integrated SFR derived from the SSP analysis for t$$<$$10Myr \\ 
156 & vel\_disp\_Ha\_cen &  km/s  &  H$\alpha$ Velocity dispersion at the central aperture   \\ 
157 & vel\_disp\_ssp\_cen &  km/s  &  Stellar velocity dispersion at the central aperture \\ 
158 & vel\_disp\_Ha\_1Re &  km/s  &  H$\alpha$ velocity dispersion at 1 Re   \\ 
159 & vel\_disp\_ssp\_1Re &  km/s  &  Stellar velocity at 1 Re  159  \\ 
160 & log\_Mass\_in\_Re &  --  &  -- \\ 
161 & ML\_int &  M$_\odot$/L$_\odot$  &  V-band mass-to-light ratio from integrated quantities \\ 
162 & ML\_avg &  M$_\odot$/L$_\odot$  &  V-band mass-to-light ratio averaged across the FoV   \\ 
163 & F\_Ha\_cen &  10$^{-16}$ \flux  &  Flux intensity of H$\alpha$ in the central aperture \\ 
164 & e\_F\_Ha\_cen &  10$^{-16}$ \flux  &  Error of F\_Ha\_cen   \\ 
165 & R50\_kpc\_V &  kpc  &  { Radius at which it is integrated half of the light in the V-band within the FoV} \\ 
166 & e\_R50\_kpc\_V &  kpc  &  Error of R50\_kpc\_V   \\ 
167 & R50\_kpc\_Mass &  kpc  &  { Radius at which is integrated half of the stellar mass within the FoV } \\ 
168 & e\_R50\_kpc\_Mass &  kpc  &  Error of R50\_kpc\_Mass   \\ 
169 & log\_Mass\_corr\_in\_R50\_V &  log(M$_\odot$)  &  Integrated stellar mass within { R50\_kpc\_V} \\ 
170 & e\_log\_Mass\_corr\_in\_R50\_V &  log(M$_\odot$)  &  Error of log\_Mass\_corr\_in\_R50\_V   \\ 
171 & log\_Mass\_gas\_Av\_gas\_log\_log &  log(M$_\odot$)  &  Molecular gas mass derived from the dust extinction { using the log-log calibration} \\ 
172 & Av\_gas\_Re &  mag  &  Dust extinction in the V-band derived from the H$\alpha$/H$\beta$ line ratio { at 1 Re}   \\ 
173 & e\_Av\_gas\_Re &  mag  &  Error of Av\_gas\_Re \\ 
174 & Av\_ssp\_Re &  mag  &  Dust extinction in the V-band derived from the analysis of the stellar population   \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
175 & e\_Av\_ssp\_Re &  mag  &  Error of the Av\_ssp\_Re \\ 
176 & Lambda\_Re &  --  &  Specific angular momentum ($\lambda$-parameter) for the stellar populations { within 1 Re}   \\ 
177 & e\_Lambda\_Re &  --  &  { Error of the Lambda\_Re parameter} \\ 
178 & flux\_[OII]3726.03\_Re\_fit &  10$^{-16}$ \flux   &  Flux intensity of [OII]3726.03 at 1Re \\ 
179 & e\_flux\_[OII]3726.03\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OII]3726.03 at 1Re   \\ 
180 & flux\_[OII]3726.03\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OII]3726.03 at 1Re \\ 
181 & e\_flux\_[OII]3726.03\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OII]3726.03 at 1Re   \\ 
182 & flux\_[OII]3728.82\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OII]3728.82 at 1Re \\ 
183 & e\_flux\_[OII]3728.82\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OII]3728.82 at 1Re   \\ 
184 & flux\_[OII]3728.82\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OII]3728.82 at 1Re \\ 
185 & e\_flux\_[OII]3728.82\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OII]3728.82 at 1Re   \\ 
186 & flux\_HI3734.37\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of HI3734.37 at 1Re \\ 
187 & e\_flux\_HI3734.37\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HI3734.37 at 1Re   \\ 
188 & flux\_HI3734.37\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of HI3734.37 at 1Re \\ 
189 & e\_flux\_HI3734.37\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HI3734.37 at 1Re   \\ 
190 & flux\_HI3797.9\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of HI3797.9 at 1Re \\ 
191 & e\_flux\_HI3797.9\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HI3797.9 at 1Re   \\ 
192 & flux\_HI3797.9\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of HI3797.9 at 1Re \\ 
193 & e\_flux\_HI3797.9\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HI3797.9 at 1Re   \\ 
194 & flux\_HeI3888.65\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI3888.65 at 1Re \\ 
195 & e\_flux\_HeI3888.65\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI3888.65 at 1Re   \\ 
196 & flux\_HeI3888.65\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI3888.65 at 1Re  \hline  \\ 
197 & e\_flux\_HeI3888.65\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI3888.65 at 1Re   \\ 
198 & flux\_HI3889.05\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of HI3889.05 at 1Re \\ 
199 & e\_flux\_HI3889.05\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HI3889.05 at 1Re   \\ 
200 & flux\_HI3889.05\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of HI3889.05 at 1Re \\ 
201 & e\_flux\_HI3889.05\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HI3889.05 at 1Re   \\ 
202 & flux\_HeI3964.73\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI3964.73 at 1Re \\ 
203 & e\_flux\_HeI3964.73\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI3964.73 at 1Re   \\ 
204 & flux\_HeI3964.73\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI3964.73 at 1Re \\ 
205 & e\_flux\_HeI3964.73\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI3964.73 at 1Re   \\ 
206 & flux\_[NeIII]3967.46\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NeIII]3967.46 at 1Re \\ 
207 & e\_flux\_[NeIII]3967.46\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NeIII]3967.46 at 1Re   \\ 
208 & flux\_[NeIII]3967.46\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NeIII]3967.46 at 1Re \\ 
209 & e\_flux\_[NeIII]3967.46\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NeIII]3967.46 at 1Re   \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
210 & flux\_CaII3968.47\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of CaII3968.47 at 1Re \\ 
211 & e\_flux\_CaII3968.47\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of CaII3968.47 at 1Re   \\ 
212 & flux\_CaII3968.47\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of CaII3968.47 at 1Re \\ 
213 & e\_flux\_CaII3968.47\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of CaII3968.47 at 1Re   \\ 
214 & flux\_Hepsilon3970.07\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\epsilon$3970.07 at 1Re \\ 
215 & e\_flux\_Hepsilon3970.07\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\epsilon$3970.07 at 1Re   \\ 
216 & flux\_Hepsilon3970.07\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\epsilon$3970.07 at 1Re \\ 
217 & e\_flux\_Hepsilon3970.07\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\epsilon$3970.07 at 1Re   \\ 
218 & flux\_Hdelta4101.77\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\delta$4101.77 at 1Re \\ 
219 & e\_flux\_Hdelta4101.77\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\delta$4101.77 at 1Re   \\ 
220 & flux\_Hdelta4101.77\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\delta$4101.77 at 1Re \\ 
221 & e\_flux\_Hdelta4101.77\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\delta$4101.77 at 1Re   \\ 
222 & flux\_Hgamma4340.49\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\gamma$4340.49 at 1Re \\ 
223 & e\_flux\_Hgamma4340.49\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\gamma$4340.49 at 1Re   \\ 
224 & flux\_Hgamma4340.49\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\gamma$4340.49 at 1Re \\ 
225 & e\_flux\_Hgamma4340.49\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\gamma$4340.49 at 1Re   \\ 
226 & flux\_Hbeta4861.36\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\beta$4861.36 at 1Re \\ 
227 & e\_flux\_Hbeta4861.36\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\beta$4861.36 at 1Re   \\ 
228 & flux\_Hbeta4861.36\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\beta$4861.36 at 1Re \\ 
229 & e\_flux\_Hbeta4861.36\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\beta$4861.36 at 1Re   \\ 
230 & flux\_[OIII]4958.91\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OIII]4958.91 at 1Re \\ 
231 & e\_flux\_[OIII]4958.91\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OIII]4958.91 at 1Re   \\ 
232 & flux\_[OIII]4958.91\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OIII]4958.91 at 1Re \\ 
233 & e\_flux\_[OIII]4958.91\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OIII]4958.91 at 1Re   \\ 
234 & flux\_[OIII]5006.84\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OIII]5006.84 at 1Re \\ 
235 & e\_flux\_[OIII]5006.84\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OIII]5006.84 at 1Re   \\ 
236 & flux\_[OIII]5006.84\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OIII]5006.84 at 1Re \\ 
237 & e\_flux\_[OIII]5006.84\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OIII]5006.84 at 1Re   \\ 
238 & flux\_HeI5015.68\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI5015.68 at 1Re \\ 
239 & e\_flux\_HeI5015.68\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI5015.68 at 1Re   \\ 
240 & flux\_HeI5015.68\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI5015.68 at 1Re \\ 
241 & e\_flux\_HeI5015.68\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI5015.68 at 1Re   \\ 
242 & flux\_[NI]5197.9\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NI]5197.9 at 1Re \\ 
243 & e\_flux\_[NI]5197.9\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NI]5197.9 at 1Re   \\ 
244 & flux\_[NI]5197.9\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NI]5197.9 at 1Re \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
245 & e\_flux\_[NI]5197.9\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NI]5197.9 at 1Re   \\ 
246 & flux\_[NI]5200.26\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NI]5200.26 at 1Re \\ 
247 & e\_flux\_[NI]5200.26\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NI]5200.26 at 1Re   \\ 
248 & flux\_[NI]5200.26\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NI]5200.26 at 1Re \\ 
249 & e\_flux\_[NI]5200.26\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NI]5200.26 at 1Re   \\ 
250 & flux\_HeI5876.0\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI5876.0 at 1Re \\ 
251 & e\_flux\_HeI5876.0\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI5876.0 at 1Re   \\ 
252 & flux\_HeI5876.0\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of HeI5876.0 at 1Re \\ 
253 & e\_flux\_HeI5876.0\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of HeI5876.0 at 1Re   \\ 
254 & flux\_NaI5889.95\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of NaI5889.95 at 1Re \\ 
255 & e\_flux\_NaI5889.95\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of NaI5889.95 at 1Re   \\ 
256 & flux\_NaI5889.95\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of NaI5889.95 at 1Re \\ 
257 & e\_flux\_NaI5889.95\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of NaI5889.95 at 1Re   \\ 
258 & flux\_NaI5895.92\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of NaI5895.92 at 1Re \\ 
259 & e\_flux\_NaI5895.92\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of NaI5895.92 at 1Re   \\ 
260 & flux\_NaI5895.92\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of NaI5895.92 at 1Re \\ 
261 & e\_flux\_NaI5895.92\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of NaI5895.92 at 1Re   \\ 
262 & flux\_[OI]6300.3\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OI]6300.3 at 1Re \\ 
263 & e\_flux\_[OI]6300.3\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OI]6300.3 at 1Re   \\ 
264 & flux\_[OI]6300.3\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [OI]6300.3 at 1Re \\ 
265 & e\_flux\_[OI]6300.3\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [OI]6300.3 at 1Re   \\ 
266 & flux\_[NII]6548.05\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NII]6548.05 at 1Re \\ 
267 & e\_flux\_[NII]6548.05\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NII]6548.05 at 1Re   \\ 
268 & flux\_[NII]6548.05\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NII]6548.05 at 1Re \\ 
269 & e\_flux\_[NII]6548.05\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NII]6548.05 at 1Re   \\ 
270 & flux\_Halpha6562.85\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\alpha$6562.85 at 1Re \\ 
271 & e\_flux\_Halpha6562.85\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\alpha$6562.85 at 1Re   \\ 
272 & flux\_Halpha6562.85\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of H$\alpha$6562.85 at 1Re \\ 
273 & e\_flux\_Halpha6562.85\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of H$\alpha$6562.85 at 1Re   \\ 
274 & flux\_[NII]6583.45\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NII]6583.45 at 1Re \\ 
275 & e\_flux\_[NII]6583.45\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NII]6583.45 at 1Re   \\ 
276 & flux\_[NII]6583.45\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [NII]6583.45 at 1Re \\ 
277 & e\_flux\_[NII]6583.45\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [NII]6583.45 at 1Re   \\ 
278 & flux\_[SII]6716.44\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [SII]6716.44 at 1Re \\ 
279 & e\_flux\_[SII]6716.44\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [SII]6716.44 at 1Re   \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
280 & flux\_[SII]6716.44\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [SII]6716.44 at 1Re \\ 
281 & e\_flux\_[SII]6716.44\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [SII]6716.44 at 1Re   \\ 
282 & flux\_[SII]6730.82\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [SII]6730.82 at 1Re \\ 
283 & e\_flux\_[SII]6730.82\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [SII]6730.82 at 1Re   \\ 
284 & flux\_[SII]6730.82\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [SII]6730.82 at 1Re \\ 
285 & e\_flux\_[SII]6730.82\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [SII]6730.82 at 1Re   \\ 
286 & flux\_[ArIII]7135.8\_Re\_fit &  10$^{-16}$ \flux  &  Flux intensity of [ArIII]7135.8 at 1Re \\ 
287 & e\_flux\_[ArIII]7135.8\_Re\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [ArIII]7135.8 at 1Re   \\ 
288 & flux\_[ArIII]7135.8\_alpha\_fit &  10$^{-16}$ \flux  &  Flux intensity of [ArIII]7135.8 at 1Re \\ 
289 & e\_flux\_[ArIII]7135.8\_alpha\_fit &  10$^{-16}$ \flux  &  Error in the flux intensity of [ArIII]7135.8 at 1Re   \\ 
290 & OH\_Mar13\_N2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Mar13\_N2 at 1Re \\ 
291 & e\_OH\_Mar13\_N2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Mar13\_N2 at 1Re   \\ 
292 & OH\_Mar13\_N2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Mar13\_N2 \\ 
293 & e\_OH\_Mar13\_N2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Mar13\_N2   \\ 
294 & OH\_Mar13\_O3N2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Mar13\_O3N2 at 1Re \\ 
295 & e\_OH\_Mar13\_O3N2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Mar13\_O3N2 at 1Re   \\ 
296 & OH\_Mar13\_O3N2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Mar13\_O3N2 \\ 
297 & e\_OH\_Mar13\_O3N2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Mar13\_O3N2   \\ 
298 & OH\_T04\_Re\_fit &  dex  &  Oxygen abundance using the calibrator T04 at 1Re \\ 
299 & e\_OH\_T04\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator T04 at 1Re   \\ 
300 & OH\_T04\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator T04 \\ 
301 & e\_OH\_T04\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator T04   \\ 
302 & OH\_Pet04\_N2\_lin\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pet04\_N2\_lin at 1Re \\ 
303 & e\_OH\_Pet04\_N2\_lin\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pet04\_N2\_lin at 1Re   \\ 
304 & OH\_Pet04\_N2\_lin\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pet04\_N2\_lin \\ 
305 & e\_OH\_Pet04\_N2\_lin\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pet04\_N2\_lin   \\ 
306 & OH\_Pet04\_N2\_poly\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pet04\_N2\_poly at 1Re \\ 
307 & e\_OH\_Pet04\_N2\_poly\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pet04\_N2\_poly at 1Re   \\ 
308 & OH\_Pet04\_N2\_poly\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pet04\_N2\_poly \\ 
309 & e\_OH\_Pet04\_N2\_poly\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pet04\_N2\_poly   \\ 
310 & OH\_Pet04\_O3N2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pet04\_O3N2 at 1Re \\ 
311 & e\_OH\_Pet04\_O3N2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pet04\_O3N2 at 1Re   \\ 
312 & OH\_Pet04\_O3N2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pet04\_O3N2 \\ 
313 & e\_OH\_Pet04\_O3N2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pet04\_O3N2   \\ 
314 & OH\_Kew02\_N2O2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Kew02\_N2O2 at 1Re \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
315 & e\_OH\_Kew02\_N2O2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Kew02\_N2O2 at 1Re   \\ 
316 & OH\_Kew02\_N2O2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Kew02\_N2O2 \\ 
317 & e\_OH\_Kew02\_N2O2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Kew02\_N2O2   \\ 
318 & OH\_Pil10\_ONS\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pil10\_ONS at 1Re \\ 
319 & e\_OH\_Pil10\_ONS\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pil10\_ONS at 1Re   \\ 
320 & OH\_Pil10\_ONS\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pil10\_ONS \\ 
321 & e\_OH\_Pil10\_ONS\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pil10\_ONS   \\ 
322 & OH\_Pil10\_ON\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pil10\_ON at 1Re \\ 
323 & e\_OH\_Pil10\_ON\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pil10\_ON at 1Re   \\ 
324 & OH\_Pil10\_ON\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pil10\_ON \\ 
325 & e\_OH\_Pil10\_ON\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pil10\_ON   \\ 
326 & OH\_Pil11\_NS\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pil11\_NS at 1Re \\ 
327 & e\_OH\_Pil11\_NS\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pil11\_NS at 1Re   \\ 
328 & OH\_Pil11\_NS\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pil11\_NS \\ 
329 & e\_OH\_Pil11\_NS\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pil11\_NS   \\ 
330 & OH\_Cur20\_RS32\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_RS32 at 1Re \\ 
331 & e\_OH\_Cur20\_RS32\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_RS32 at 1Re   \\ 
332 & OH\_Cur20\_RS32\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_RS32 \\ 
333 & e\_OH\_Cur20\_RS32\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_RS32   \\ 
334 & OH\_Cur20\_R3\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_R3 at 1Re \\ 
335 & e\_OH\_Cur20\_R3\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_R3 at 1Re   \\ 
336 & OH\_Cur20\_R3\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_R3 \\ 
337 & e\_OH\_Cur20\_R3\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_R3   \\ 
338 & OH\_Cur20\_O3O2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_O3O2 at 1Re \\ 
339 & e\_OH\_Cur20\_O3O2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_O3O2 at 1Re   \\ 
340 & OH\_Cur20\_O3O2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_O3O2 \\ 
341 & e\_OH\_Cur20\_O3O2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_O3O2   \\ 
342 & OH\_Cur20\_S2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_S2 at 1Re \\ 
343 & e\_OH\_Cur20\_S2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_S2 at 1Re   \\ 
344 & OH\_Cur20\_S2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_S2 \\ 
345 & e\_OH\_Cur20\_S2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_S2   \\ 
346 & OH\_Cur20\_R2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_R2 at 1Re \\ 
347 & e\_OH\_Cur20\_R2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_R2 at 1Re   \\ 
348 & OH\_Cur20\_R2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_R2 \\ 
349 & e\_OH\_Cur20\_R2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_R2   \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
350 & OH\_Cur20\_N2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_N2 at 1Re \\ 
351 & e\_OH\_Cur20\_N2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_N2 at 1Re   \\ 
352 & OH\_Cur20\_N2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_N2 \\ 
353 & e\_OH\_Cur20\_N2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_N2   \\ 
354 & OH\_Cur20\_R23\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_R23 at 1Re \\ 
355 & e\_OH\_Cur20\_R23\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_R23 at 1Re  374  \\ 
356 & OH\_Cur20\_R23\_alpha\_fit &  dex  &  Slope of the O/H gradient using the calibrator Cur20\_R23 \\ 
357 & e\_OH\_Cur20\_R23\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_R23   \\ 
358 & OH\_Cur20\_O3N2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_O3N2 at 1Re \\ 
359 & e\_OH\_Cur20\_O3N2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_O3N2 at 1Re   \\ 
360 & OH\_Cur20\_O3N2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_O3N2 \\ 
361 & e\_OH\_Cur20\_O3N2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_O3N2   \\ 
362 & OH\_Cur20\_O3S2\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Cur20\_O3S2 at 1Re \\ 
363 & e\_OH\_Cur20\_O3S2\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Cur20\_O3S2 at 1Re   \\ 
364 & OH\_Cur20\_O3S2\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Cur20\_O3S2 \\ 
365 & e\_OH\_Cur20\_O3S2\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Cur20\_O3S2   \\ 
366 & OH\_KK04\_Re\_fit &  dex  &  Oxygen abundance using the calibrator KK04 at 1Re \\ 
367 & e\_OH\_KK04\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator KK04 at 1Re   \\ 
368 & OH\_KK04\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator KK04 \\ 
369 & e\_OH\_KK04\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator KK04   \\ 
370 & OH\_Pil16\_R\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pil16\_R at 1Re \\ 
371 & e\_OH\_Pil16\_R\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pil16\_R at 1Re   \\ 
372 & OH\_Pil16\_R\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pil16\_R \\ 
373 & e\_OH\_Pil16\_R\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pil16\_R   \\ 
374 & OH\_Pil16\_S\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Pil16\_S at 1Re \\ 
375 & e\_OH\_Pil16\_S\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Pil16\_S at 1Re   \\ 
376 & OH\_Pil16\_S\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Pil16\_S \\ 
377 & e\_OH\_Pil16\_S\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Pil16\_S   \\ 
378 & OH\_Ho\_Re\_fit &  dex  &  Oxygen abundance using the calibrator Ho at 1Re \\ 
379 & e\_OH\_Ho\_Re\_fit &  dex  &  Error in Oxygen abundance using the calibrator Ho at 1Re   \\ 
380 & OH\_Ho\_alpha\_fit &  dex/Re  &  Slope of the O/H gradient using the calibrator Ho \\ 
381 & e\_OH\_Ho\_alpha\_fit &  dex/Re  &  Error in the slope of the O/H gradient using the calibrator Ho   \\ 
382 & U\_Dors\_O32\_Re\_fit &  dex  &   log(U), ionization parameter using the calibrator Dors\_O32 at 1Re \\ 
383 & e\_U\_Dors\_O32\_Re\_fit &  dex  &  Error in log(U) using the calibrator Dors\_O32 at 1Re   \\ 
384 & U\_Dors\_O32\_alpha\_fit &  dex/Re  &  Slope of the log(U) gradient using the calibrator Dors\_O32 \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
385 & e\_U\_Dors\_O32\_alpha\_fit &  dex/Re  &  Error in the slope of the log(U) gradient using the calibrator Dors\_O32   \\ 
386 & U\_Dors\_S\_Re\_fit &  dex  &  log(U) ionization parameter using the calibrator Dors\_S at 1Re \\ 
387 & e\_U\_Dors\_S\_Re\_fit &  dex  &  Error in log(U) using the calibrator Dors\_S at 1Re   \\ 
388 & U\_Dors\_S\_alpha\_fit &  dex/Re  &  Slope of the log(U) gradient using the calibrator Dors\_S \\ 
389 & e\_U\_Dors\_S\_alpha\_fit &  dex/Re  &  Error in the slope of the log(U) gradient using the calibrator Dors\_S   \\ 
390 & U\_Mor16\_O23\_fs\_Re\_fit &  dex  &   log(U) ionization parameter using the calibrator Mor16\_O23\_fs at 1Re \\ 
391 & e\_U\_Mor16\_O23\_fs\_Re\_fit &  dex  &  Error in log(U) using the calibrator Mor16\_O23\_fs at 1Re   \\ 
392 & U\_Mor16\_O23\_fs\_alpha\_fit &  dex/Re  &  Slope of the log(U) gradient using the calibrator Mor16\_O23\_fs \\ 
393 & e\_U\_Mor16\_O23\_fs\_alpha\_fit &  dex/Re  &  Error in the slope of the log(U) gradient using the calibrator Mor16\_O23\_fs   \\ 
394 & U\_Mor16\_O23\_ts\_Re\_fit &  dex  &   log(U) ionization parameter using the calibrator Mor16\_O23\_ts at 1Re \\ 
395 & e\_U\_Mor16\_O23\_ts\_Re\_fit &  dex  &  Error in log(U) using the calibrator Mor16\_O23\_ts at 1Re   \\ 
396 & U\_Mor16\_O23\_ts\_alpha\_fit &  dex/Re  &  Slope of the log(U) gradient using the calibrator Mor16\_O23\_ts \\ 
397 & e\_U\_Mor16\_O23\_ts\_alpha\_fit &  dex/Re  &  Error in the slope of the log(U) gradient using the calibrator Mor16\_O23\_ts   \\ 
398 & NH\_Pil16\_R\_Re\_fit &  dex  &  Nitrogen abundance using the calibrator Pil16\_R at 1Re \\ 
399 & e\_NH\_Pil16\_R\_Re\_fit &  dex  &  Error in Nitrogen abundance using the calibrator Pil16\_R at 1Re   \\ 
400 & NH\_Pil16\_R\_alpha\_fit &  dex/Re  &  Slope of the N/H gradient using the calibrator Pil16\_R \\ 
401 & e\_NH\_Pil16\_R\_alpha\_fit &  dex/Re  &  Error in the slope of the N/H gradient using the calibrator Pil16\_R   \\ 
402 & NO\_Pil16\_R\_Re\_fit &  dex  &  N/O abundance using the calibrator Pil16\_R at 1Re \\ 
403 & e\_NO\_Pil16\_R\_Re\_fit &  dex  &  Error in N/O abundance using the calibrator Pil16\_R at 1Re   \\ 
404 & NO\_Pil16\_R\_alpha\_fit &  dex/Re  &  Slope of the N/O gradient using the calibrator Pil16\_R \\ 
405 & e\_NO\_Pil16\_R\_alpha\_fit &  dex/Re  &  Error in the slope of the N/O gradient using the calibrator Pil16\_R   \\ 
406 & NO\_Pil16\_Ho\_R\_Re\_fit &  dex  &  N/O abundance using the calibrator Pil16\_Ho\_R at 1Re \\ 
407 & e\_NO\_Pil16\_Ho\_R\_Re\_fit &  dex  &  Error in N/O abundance using the calibrator Pil16\_Ho\_R at 1Re   \\ 
408 & NO\_Pil16\_Ho\_R\_alpha\_fit &  dex/Re  &  Slope of the N/O gradient using the calibrator Pil16\_Ho\_R \\ 
409 & e\_NO\_Pil16\_Ho\_R\_alpha\_fit &  dex/Re  &  Error in the slope of the N/O gradient using the calibrator Pil16\_Ho\_R   \\ 
410 & NO\_Pil16\_N2\_R2\_Re\_fit &  dex  &  N/O abundance using the calibrator Pil16\_N2\_R2 at 1Re \\ 
411 & e\_NO\_Pil16\_N2\_R2\_Re\_fit &  dex  &  Error in N/O abundance using the calibrator Pil16\_N2\_R2 at 1Re   \\ 
412 & NO\_Pil16\_N2\_R2\_alpha\_fit &  dex/Re  &  Slope of the N/O gradient using the calibrator Pil16\_N2\_R2 \\ 
413 & e\_NO\_Pil16\_N2\_R2\_alpha\_fit &  dex/Re  &  Error in the slope of the N/O gradient using the calibrator Pil16\_N2\_R2   \\ 
414 & Ne\_Oster\_S\_Re\_fit &  dex  &  electron density using the Oster\_S estimator at 1Re \\ 
415 & e\_Ne\_Oster\_S\_Re\_fit &  dex  &  Error in n\_e using the Oster\_S estimator at 1Re   \\ 
416 & Ne\_Oster\_S\_alpha\_fit &  dex/Re  &  Slope of the n\_e gradient using the Oster\_S estimator \\ 
417 & e\_Ne\_Oster\_S\_alpha\_fit &  dex/Re  &  Error in the slope of n\_e gradient using the Oster\_S estimator   \\ 
418 & C24668\_Re\_fit &  Angstrom  &  Value of the C24668 stellar index at 1Re \\ 
419 & C24668\_alpha\_fit &  --  &  Slope of the gradient of the C24668 index \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
420 & CN1\_Re\_fit &  Angstrom  &  Value of the CN1 stellar index at 1Re \\ 
421 & CN1\_alpha\_fit &  --  &  Slope of the gradient of the CN1 index \\ 
422 & CN2\_Re\_fit &  Angstrom  &  Value of the CN2 stellar index at 1Re \\ 
423 & CN2\_alpha\_fit &  --  &  Slope of the gradient of the CN2 index \\ 
424 & Ca4227\_Re\_fit &  Angstrom  &  Value of the Ca4227 stellar index at 1Re \\ 
425 & Ca4227\_alpha\_fit &  --  &  Slope of the gradient of the Ca4227 index \\ 
426 & Ca4455\_Re\_fit &  Angstrom  &  Value of the Ca4455 stellar index at 1Re \\ 
427 & Ca4455\_alpha\_fit &  --  &  Slope of the gradient of the Ca4455 index \\ 
428 & CaH1\_Re\_fit &  Angstrom  &  Value of the CaH1 stellar index at 1Re \\ 
429 & CaH1\_alpha\_fit &  --  &  Slope of the gradient of the CaH1 index \\ 
430 & CaH2\_Re\_fit &  Angstrom  &  Value of the CaH2 stellar index at 1Re \\ 
431 & CaH2\_alpha\_fit &  --  &  Slope of the gradient of the CaH2 index \\ 
432 & CaHK\_Re\_fit &  Angstrom  &  Value of the CaHK stellar index at 1Re \\ 
433 & CaHK\_alpha\_fit &  --  &  Slope of the gradient of the CaHK index \\ 
434 & Fe4383\_Re\_fit &  Angstrom  &  Value of the Fe4383 stellar index at 1Re \\ 
435 & Fe4383\_alpha\_fit &  --  &  Slope of the gradient of the Fe4383 index \\ 
436 & Fe4531\_Re\_fit &  Angstrom  &  Value of the Fe4531 stellar index at 1Re \\ 
437 & Fe4531\_alpha\_fit &  --  &  Slope of the gradient of the Fe4531 index \\ 
438 & Fe5015\_Re\_fit &  Angstrom  &  Value of the Fe5015 stellar index at 1Re \\ 
439 & Fe5015\_alpha\_fit &  --  &  Slope of the gradient of the Fe5015 index \\ 
440 & Fe5270\_Re\_fit &  \AA\  &  Value of the Fe5270 stellar index at 1Re \\ 
441 & Fe5270\_alpha\_fit &  \AA/Re  &  Slope of the gradient of the Fe5270 index \\ 
442 & Fe5335\_Re\_fit &  \AA\  &  Value of the Fe5335 stellar index at 1Re \\ 
443 & Fe5335\_alpha\_fit &  \AA/Re  &  Slope of the gradient of the Fe5335 index \\ 
444 & Fe5406\_Re\_fit &  Angstrom  &  Value of the Fe5406 stellar index at 1Re \\ 
445 & Fe5406\_alpha\_fit &  --  &  Slope of the gradient of the Fe5406 index \\ 
446 & Fe5709\_Re\_fit &  Angstrom  &  Value of the Fe5709 stellar index at 1Re \\ 
447 & Fe5709\_alpha\_fit &  --  &  Slope of the gradient of the Fe5709 index \\ 
448 & Fe5782\_Re\_fit &  Angstrom  &  Value of the Fe5782 stellar index at 1Re \\ 
449 & Fe5782\_alpha\_fit &  --  &  Slope of the gradient of the Fe5782 index \\ 
450 & G4300\_Re\_fit &  Angstrom  &  Value of the G4300 stellar index at 1Re \\ 
451 & G4300\_alpha\_fit &  --  &  Slope of the gradient of the G4300 index \\ 
452 & HDeltaA\_Re\_fit &  Angstrom  &  Value of the HDeltaA stellar index at 1Re \\ 
453 & HDeltaA\_alpha\_fit &  --  &  Slope of the gradient of the HDeltaA index \\ 
454 & HDeltaF\_Re\_fit &  Angstrom  &  Value of the HDeltaF stellar index at 1Re \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
455 & HDeltaF\_alpha\_fit &  --  &  Slope of the gradient of the HDeltaF index \\ 
456 & HGammaA\_Re\_fit &  Angstrom  &  Value of the HGammaA stellar index at 1Re \\ 
457 & HGammaA\_alpha\_fit &  --  &  Slope of the gradient of the HGammaA index \\ 
458 & HGammaF\_Re\_fit &  Angstrom  &  Value of the HGammaF stellar index at 1Re \\ 
459 & HGammaF\_alpha\_fit &  --  &  Slope of the gradient of the HGammaF index \\ 
460 & Hb\_Re\_fit &  \AA\  &  Value of the H$\beta$ stellar index at 1Re \\ 
461 & Hb\_alpha\_fit &  \AA/Re  &  Slope of the gradient of the H$\beta$ index \\ 
462 & Hdmod\_Re\_fit &  \AA\  &  Value of the Hdmod stellar index at 1Re \\ 
463 & Hdmod\_alpha\_fit &  \AA/Re  &  Slope of the gradient of the Hdmod index \\ 
464 & Mg1\_Re\_fit &  Angstrom  &  Value of the Mg1 stellar index at 1Re \\ 
465 & Mg1\_alpha\_fit &  --  &  Slope of the gradient of the Mg1 index \\ 
466 & Mg2\_Re\_fit &  Angstrom  &  Value of the Mg2 stellar index at 1Re \\ 
467 & Mg2\_alpha\_fit &  --  &  Slope of the gradient of the Mg2 index \\ 
468 & MgICvD\_Re\_fit &  Angstrom  &  Value of the MgICvD stellar index at 1Re \\ 
469 & MgICvD\_alpha\_fit &  --  &  Slope of the gradient of the MgICvD index \\ 
470 & Mgb\_Re\_fit &  \AA\  &  Value of the Mgb stellar index at 1Re \\ 
471 & Mgb\_alpha\_fit &  \AA/Re  &  Slope of the gradient of the Mgb index \\ 
472 & NaD\_Re\_fit &  Angstrom  &  Value of the NaD stellar index at 1Re \\ 
473 & NaD\_alpha\_fit &  --  &  Slope of the gradient of the NaD index \\ 
474 & SN\_Re\_fit &  --  &  Value of the SN stellar index at 1Re \\ 
475 & SN\_alpha\_fit &  --  &  Slope of the gradient of the SN index \\ 
476 & TiO1\_Re\_fit &  Angstrom  &  Value of the TiO1 stellar index at 1Re \\ 
477 & TiO1\_alpha\_fit &  --  &  Slope of the gradient of the TiO1 index \\ 
478 & TiO2SDSS\_Re\_fit &  Angstrom  &  Value of the TiO2SDSS stellar index at 1Re \\ 
479 & TiO2SDSS\_alpha\_fit &  --  &  Slope of the gradient of the TiO2SDSS index \\ 
480 & TiO2\_Re\_fit &  Angstrom  &  Value of the TiO2 stellar index at 1Re \\ 
481 & TiO2\_alpha\_fit &  --  &  Slope of the gradient of the TiO2 index \\ 
482 & aTiO\_Re\_fit &  Angstrom  &  Value of the aTiO stellar index at 1Re \\ 
483 & aTiO\_alpha\_fit &  --  &  Slope of the gradient of the aTiO index \\ 
484 & bTiO\_Re\_fit &  Angstrom  &  Value of the bTiO stellar index at 1Re \\ 
485 & bTiO\_alpha\_fit &  --  &  Slope of the gradient of the bTiO index \\ 
486 & e\_C24668\_Re\_fit &  Angstrom  &  Error of the C24668 stellar index at 1Re \\ 
487 & e\_C24668\_alpha\_fit &  --  &  Error in the slope of the gradient of the C24668 index \\ 
488 & e\_CN1\_Re\_fit &  Angstrom  &  Error of the CN1 stellar index at 1Re \\ 
489 & e\_CN1\_alpha\_fit &  --  &  Error in the slope of the gradient of the CN1 index \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
490 & e\_CN2\_Re\_fit &  Angstrom  &  Error of the CN2 stellar index at 1Re \\ 
491 & e\_CN2\_alpha\_fit &  --  &  Error in the slope of the gradient of the CN2 index \\ 
492 & e\_Ca4227\_Re\_fit &  Angstrom  &  Error of the Ca4227 stellar index at 1Re \\ 
493 & e\_Ca4227\_alpha\_fit &  --  &  Error in the slope of the gradient of the Ca4227 index \\ 
494 & e\_Ca4455\_Re\_fit &  Angstrom  &  Error of the Ca4455 stellar index at 1Re \\ 
495 & e\_Ca4455\_alpha\_fit &  --  &  Error in the slope of the gradient of the Ca4455 index \\ 
496 & e\_CaH1\_Re\_fit &  Angstrom  &  Error of the CaH1 stellar index at 1Re \\ 
497 & e\_CaH1\_alpha\_fit &  --  &  Error in the slope of the gradient of the CaH1 index \\ 
498 & e\_CaH2\_Re\_fit &  Angstrom  &  Error of the CaH2 stellar index at 1Re \\ 
499 & e\_CaH2\_alpha\_fit &  --  &  Error in the slope of the gradient of the CaH2 index \\ 
500 & e\_CaHK\_Re\_fit &  Angstrom  &  Error of the CaHK stellar index at 1Re \\ 
501 & e\_CaHK\_alpha\_fit &  --  &  Error in the slope of the gradient of the CaHK index \\ 
502 & e\_Fe4383\_Re\_fit &  Angstrom  &  Error of the Fe4383 stellar index at 1Re \\ 
503 & e\_Fe4383\_alpha\_fit &  --  &  Error in the slope of the gradient of the Fe4383 index \\ 
504 & e\_Fe4531\_Re\_fit &  Angstrom  &  Error of the Fe4531 stellar index at 1Re \\ 
505 & e\_Fe4531\_alpha\_fit &  --  &  Error in the slope of the gradient of the Fe4531 index \\ 
506 & e\_Fe5015\_Re\_fit &  Angstrom  &  Error of the Fe5015 stellar index at 1Re \\ 
507 & e\_Fe5015\_alpha\_fit &  --  &  Error in the slope of the gradient of the Fe5015 index \\ 
508 & e\_Fe5270\_Re\_fit &  \AA\  &  Error of the Fe5270 stellar index at 1Re   \\ 
509 & e\_Fe5270\_alpha\_fit &  \AA/Re  &  Error of the slope of the gradient of the Fe5270 index   \\ 
510 & e\_Fe5335\_Re\_fit &  \AA\  &  Error of the Fe5335 stellar index at 1Re   \\ 
511 & e\_Fe5335\_alpha\_fit &  \AA/Re  &  Error of the slope of the gradient of the Fe5335 index   \\ 
512 & e\_Fe5406\_Re\_fit &  Angstrom  &  Error of the Fe5406 stellar index at 1Re \\ 
513 & e\_Fe5406\_alpha\_fit &  --  &  Error in the slope of the gradient of the Fe5406 index \\ 
514 & e\_Fe5709\_Re\_fit &  Angstrom  &  Error of the Fe5709 stellar index at 1Re \\ 
515 & e\_Fe5709\_alpha\_fit &  --  &  Error in the slope of the gradient of the Fe5709 index \\ 
516 & e\_Fe5782\_Re\_fit &  Angstrom  &  Error of the Fe5782 stellar index at 1Re \\ 
517 & e\_Fe5782\_alpha\_fit &  --  &  Error in the slope of the gradient of the Fe5782 index \\ 
518 & e\_G4300\_Re\_fit &  Angstrom  &  Error of the G4300 stellar index at 1Re \\ 
519 & e\_G4300\_alpha\_fit &  --  &  Error in the slope of the gradient of the G4300 index \\ 
520 & e\_HDeltaA\_Re\_fit &  Angstrom  &  Error of the HDeltaA stellar index at 1Re \\ 
521 & e\_HDeltaA\_alpha\_fit &  --  &  Error in the slope of the gradient of the HDeltaA index \\ 
522 & e\_HDeltaF\_Re\_fit &  Angstrom  &  Error of the HDeltaF stellar index at 1Re \\ 
523 & e\_HDeltaF\_alpha\_fit &  --  &  Error in the slope of the gradient of the HDeltaF index \\ 
524 & e\_HGammaA\_Re\_fit &  Angstrom  &  Error of the HGammaA stellar index at 1Re \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}

\addtocounter{table}{-1}

\begin{table*}
\begin{center}
\caption{Integrated and characteristic parameters delivered for each analyzed datacube.}
\begin{tabular}{llll}
\hline\hline
\#  & parameter name & units & Description  \\ 
\hline
525 & e\_HGammaA\_alpha\_fit &  --  &  Error in the slope of the gradient of the HGammaA index \\ 
526 & e\_HGammaF\_Re\_fit &  Angstrom  &  Error of the HGammaF stellar index at 1Re \\ 
527 & e\_HGammaF\_alpha\_fit &  --  &  Error in the slope of the gradient of the HGammaF index \\ 
528 & e\_Hb\_Re\_fit &  \AA\  &  Error of the H$\beta$ stellar index at 1Re   \\ 
529 & e\_Hb\_alpha\_fit &  \AA/Re  &  Error of the slope of the gradient of the H$\beta$index   \\ 
530 & e\_Hdmod\_Re\_fit &  \AA\  &  Error of the Hdmod stellar index at 1Re   \\ 
531 & e\_Hdmod\_alpha\_fit &  \AA/Re  &  Error of the slope of the gradient of the Hdmod index   \\ 
532 & e\_Mg1\_Re\_fit &  Angstrom  &  Error of the Mg1 stellar index at 1Re \\ 
533 & e\_Mg1\_alpha\_fit &  --  &  Error in the slope of the gradient of the Mg1 index \\ 
534 & e\_Mg2\_Re\_fit &  Angstrom  &  Error of the Mg2 stellar index at 1Re \\ 
535 & e\_Mg2\_alpha\_fit &  --  &  Error in the slope of the gradient of the Mg2 index \\ 
536 & e\_MgICvD\_Re\_fit &  Angstrom  &  Error of the MgICvD stellar index at 1Re \\ 
537 & e\_MgICvD\_alpha\_fit &  --  &  Error in the slope of the gradient of the MgICvD index \\ 
538 & e\_Mgb\_Re\_fit &  \AA\  &  Error of the Mgb stellar index at 1Re   \\ 
539 & e\_Mgb\_alpha\_fit &  \AA/Re  &  Error of the slope of the gradient of the Mgb index   \\ 
540 & e\_NaD\_Re\_fit &  Angstrom  &  Error of the NaD stellar index at 1Re \\ 
541 & e\_NaD\_alpha\_fit &  --  &  Error in the slope of the gradient of the NaD index \\ 
542 & e\_SN\_Re\_fit &  --  &  Error of the SN stellar index at 1Re \\ 
543 & e\_SN\_alpha\_fit &  --  &  Error in the slope of the gradient of the SN index \\ 
544 & e\_TiO1\_Re\_fit &  Angstrom  &  Error of the TiO1 stellar index at 1Re \\ 
545 & e\_TiO1\_alpha\_fit &  --  &  Error in the slope of the gradient of the TiO1 index \\ 
546 & e\_TiO2SDSS\_Re\_fit &  Angstrom  &  Error of the TiO2SDSS stellar index at 1Re \\ 
547 & e\_TiO2SDSS\_alpha\_fit &  --  &  Error in the slope of the gradient of the TiO2SDSS index \\ 
548 & e\_TiO2\_Re\_fit &  Angstrom  &  Error of the TiO2 stellar index at 1Re \\ 
549 & e\_TiO2\_alpha\_fit &  --  &  Error in the slope of the gradient of the TiO2 index \\ 
550 & e\_aTiO\_Re\_fit &  Angstrom  &  Error of the aTiO stellar index at 1Re \\ 
551 & e\_aTiO\_alpha\_fit &  --  &  Error in the slope of the gradient of the aTiO index \\ 
552 & e\_bTiO\_Re\_fit &  Angstrom  &  Error of the bTiO stellar index at 1Re \\ 
553 & e\_bTiO\_alpha\_fit &  --  &  Error in the slope of the gradient of the bTiO index \\ 
554 & D4000\_Re\_fit &  --  &  Value of the D4000 stellar index at 1Re \\ 
555 & e\_D4000\_Re\_fit &  --  &  Error of the D4000 stellar index at 1Re   \\ 
556 & D4000\_alpha\_fit &  --  &  Slope of the gradient of the D4000 index \\ 
557 & e\_D4000\_alpha\_fit &  --  &  Error of the slope of the gradient of the D4000 index   \\ 
\hline 
\end{tabular}abel{tab:cat}
\end{center}
\end{table*}


