The HI and stellar mass bivariate distribution of centrals and satellites for all, late- and early-type local galaxies

TL;DR

This study characterizes the distribution of HI gas relative to stellar mass in local galaxies, revealing differences based on galaxy type and environment, and provides empirical data for theoretical and simulation comparisons.

Contribution

It introduces a comprehensive empirical analysis of the HI-to-stellar mass ratio distribution across galaxy types and environments, utilizing new statistical methods and combined datasets.

Findings

Satellites are less HI-rich than centrals at low/intermediate masses.

Differences in HI content are larger between galaxy types than between environments.

Central galaxies dominate the HI mass function at all masses.

Abstract

We characterize the conditional distributions of the HI gas-to-stellar mass ratio, $R_{HI}\equiv M_{HI}/M_{\ast}$, given the stellar mass, $M_{\ast}$, of local galaxies from $M_{\ast}\sim 10^7$ to $10^{12}$ $M_{\odot}$ separated into centrals and satellites as well as into late- and early-type galaxies (LTGs and ETGs, respectively). To do so, we use (1) the homogeneous "eXtended GALEX Arecibo SDSS Survey", xGASS (Catinella et al. 2018), by re-estimating their upper limits and taking into account them in our statistical analysis; and (2) the results from a large compilation of HI data reported in Calette et al. (2018). We use the $R_{HI}$ conditional distributions combined with the Galaxy Stellar Mass Function to infer the bivariate $M_{HI}$ and $M_{\ast}$ distribution of all galaxies as well of the late/early-type and central/satellite subsamples and their combinations. Satellites are on average less HI gas-rich than centrals at low and intermediate masses, with differences being larger for ETGs than LTGs; at $M_{\ast}>3-5\times 10^{10}$ $M_{\odot}$ the differences are negligible. The differences in the HI gas content are much larger between LTGs and ETGs than between centrals and satellites. Our empirical HI Mass Function is strongly dominated by central galaxies at all masses. The empirically constrained bivariate $M_{HI}$ and $M_{\ast}$ distributions presented here can be used to compare and constrain theoretical predictions as well as to generate galaxy mock catalogues.