Central Velocity Dispersion being the Primary Driver of Abundance Patterns in Quenched Galaxies

TL;DR

This study finds that central velocity dispersion is the main factor influencing element abundance patterns in quenched galaxies, surpassing stellar mass and size, and highlights its link to star formation burstiness.

Contribution

It demonstrates that central velocity dispersion predominantly determines element abundances, revealing a new primary driver of chemical evolution in quenched galaxies.

Findings

Central velocity dispersion correlates strongly with element abundances.

Relative abundances remain stable across formation times when binned by velocity dispersion.

Fe and Ca show weak dependence on velocity dispersion.

Abstract

The element abundances of galaxies provide crucial insights into their formation and evolution. Using high-resolution IFU data from the MaNGA survey, we analyze the central spectra (0-0.5 $R_{\rm e}$) of 1,185 quenched galaxies ($z = 0.012-0.15$) to study their element abundances and stellar populations. We employ the full-spectrum fitting code {\tt alf} to derive stellar ages and element abundances from synthetic spectra and empirical libraries. Our key findings are: (1) Central velocity dispersion ($\sigma_*$) is the most effective parameter correlating with (relative) element abundances, especially [Na/Fe], [Mg/Fe], [C/Fe], and [N/Fe], outperforming $M_\ast$ and $M_\ast/R_{\rm e}$. (2) When binned by $\sigma_*$, the relative abundances of Na, Mg, C, and N remain stable across different formation times ($T_{\rm form}$), suggesting these elements are primarily influenced by the burstiness of star formation (traced by $\sigma_*$) rather than prolonged evolutionary processes. (3) Fe and Ca show little variation with $\sigma_*$, indicating weaker sensitivity to $\sigma_*$-driven processes. However, $T_{\rm form}$ has a global influence on all elements, contributing to their overall chemical evolution, albeit secondary to $\sigma_*$ for most elements. These results support the primary role of $\sigma_*$ in shaping the abundance patterns, likely stemming from the connection between central massive black holes and possibly dark matter halos, which influences the burstiness of star formation histories.