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Main Authors: Cao, Yibo, Pan, Zhizheng
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.19795
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author Cao, Yibo
Pan, Zhizheng
author_facet Cao, Yibo
Pan, Zhizheng
contents Gas accretion from both the circum-galactic medium (CGM)/inter-galatic medium (IGM) and interacting companion galaxy can dilute the gas phase metallicity of a galaxy. However, their relative contribution to the chemical evolution of galaxies remains to be quantified. To this end, in this work we study a sample of 510 star-forming galaxies (SFGs) having anomalously low-metallicity (ALM) regions selected from the MaNGA data available in the Data Release 17 from the Sloan Digital Sky Survey. ALM regions are defined as those having gas phase metallicities that are at least $\sim 2σ$ lower than the emprical relation between stellar mass surface density ($Σ_{*}$) and gas phase metallicity, i.e., the $Σ_{*}-Z$ relation. We find that ALM galaxies have higher star formation rates and \Hi~gas fractions than normal SFGs at fixed $M_*$. $\sim$25\% of the ALM galaxies exhibit tidal features, while the tidal fraction is only $\sim$12\% for normal SFGs, indicating that galaxy interaction is an important factor responsible for the ALM phenomenon. To explore the origin of non-tidal ALM galaxies, we compare their morphologies and environments with those of mass-matched normal SFGs. We find that non-tidal ALM galaxies tend to have more disk-dominated morphologies and reside in less-dense environment. These findings suggest that cold gas accretion from the CGM/IGM is the primary cause for the ALM phenomenon, while galaxy interaction plays a minor but non-negligible role.
format Preprint
id arxiv_https___arxiv_org_abs_2509_19795
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle On the formation of star-forming galaxies having anomalously low-metallicity regions: the role of galaxy interaction and CGM/IGM accretion
Cao, Yibo
Pan, Zhizheng
Astrophysics of Galaxies
Gas accretion from both the circum-galactic medium (CGM)/inter-galatic medium (IGM) and interacting companion galaxy can dilute the gas phase metallicity of a galaxy. However, their relative contribution to the chemical evolution of galaxies remains to be quantified. To this end, in this work we study a sample of 510 star-forming galaxies (SFGs) having anomalously low-metallicity (ALM) regions selected from the MaNGA data available in the Data Release 17 from the Sloan Digital Sky Survey. ALM regions are defined as those having gas phase metallicities that are at least $\sim 2σ$ lower than the emprical relation between stellar mass surface density ($Σ_{*}$) and gas phase metallicity, i.e., the $Σ_{*}-Z$ relation. We find that ALM galaxies have higher star formation rates and \Hi~gas fractions than normal SFGs at fixed $M_*$. $\sim$25\% of the ALM galaxies exhibit tidal features, while the tidal fraction is only $\sim$12\% for normal SFGs, indicating that galaxy interaction is an important factor responsible for the ALM phenomenon. To explore the origin of non-tidal ALM galaxies, we compare their morphologies and environments with those of mass-matched normal SFGs. We find that non-tidal ALM galaxies tend to have more disk-dominated morphologies and reside in less-dense environment. These findings suggest that cold gas accretion from the CGM/IGM is the primary cause for the ALM phenomenon, while galaxy interaction plays a minor but non-negligible role.
title On the formation of star-forming galaxies having anomalously low-metallicity regions: the role of galaxy interaction and CGM/IGM accretion
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2509.19795