Molecular gas scaling relations for local star-forming galaxies in the low-$M_*$ regime

TL;DR

This study analyzes molecular gas fractions and depletion times in local star-forming galaxies, revealing a constant molecular gas fraction across a range of low to intermediate stellar masses and minimal environmental influence.

Contribution

It provides new insights into the constancy of molecular gas fractions in low-mass galaxies and the weak dependence of depletion times on stellar mass and environment.

Findings

Molecular gas fraction remains constant at ~10% across low to intermediate stellar masses.

Depletion timescale shows a weak dependence on stellar mass with a slope of 0.16.

Group environment has negligible impact on molecular gas content in local star-forming galaxies.

Abstract

We derived molecular gas fractions ($f_\mathrm{mol}=M_\mathrm{mol}/M_*$) and depletion times ($\tau_\mathrm{mol}= M_\mathrm{mol}/\mathrm{SFR} $) for 353 galaxies representative of the local star-forming population with $10^{8.5}\,M_\odot < M_* < 10^{10.5}\,M_\odot$ drawn from the ALLSMOG and xCOLDGASS surveys of CO(2-1) and CO(1-0) line emission. By adding constraints from low-mass galaxies and upper limits for CO non-detections, we find the median molecular gas fraction of the local star-forming population to be constant at $\log f_\mathrm{mol}=-0.99^{+0.22}_{-0.19}$, challenging previous reports of increased molecular gas fractions in low-mass galaxies. Above $M_*\sim 10^{10.5}\,M_\odot$, we find the $f_\mathrm{mol}$ vs. $M_*$ relation to be sensitive to the selection criteria for star-forming galaxies. We tested the robustness of our results against different prescriptions for the CO-to-H$_2$ conversion factor and different selection criteria for star-forming galaxies. The depletion timescale $\tau_\mathrm{mol}$ weakly depends on $M_*$, following a power law with a best-fit slope of $0.16\pm 0.03$. This suggests that small variations in specific SFR ($ \mathrm{sSFR=SFR}/M_*$) across the local main sequence of star-forming galaxies with $M_* < 10^{10.5}\,M_\odot$ are mainly driven by differences in the efficiency of converting the available molecular gas into stars. We tested these results against a possible dependence of $f_\mathrm{mol}$ and $\tau_\mathrm{mol}$ on the surrounding (group) environment of the targets by splitting them into centrals, satellites, and isolated galaxies, and find no significant variation between these populations. We conclude that the group environment is unlikely to have a large systematic effect on the molecular gas content of star-forming galaxies in the local Universe.