Obscured star formation in intermediate-density environments: A spitzer study of the Abell 901/902 supercluster

Anna Gallazzi*, Eric F. Bell, Christian Wolf, Meghan E. Gray, Casey Papovich, Marco Barden, Chien Y. Peng, Klaus Meisenheimer, Catherine Heymans, Eelco Van Kampen, Rachel Gilmour, Michael Balogh, Daniel H. McIntosh, David Bacon, Fabio D. Barazza, Asmus Böhm, John A.R. Caldwell, Boris Häussler, Knud Jahnke, Shardha JogeeKyle Lane, Aday R. Robaina, Sebastian F. Sanchez, Andy Taylor, Lutz Wisotzki, Xianzhong Zheng

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

96 Citations (Scopus)


We explore the amount of obscured star formation as a function of environment in the Abell 901/902 (A901/902) supercluster at z = 0.165 in conjunction with a field sample drawn from the A901 and CDFS fields, imaged with the Hubble Space Telescope as part of the Space Telescope A901/902 Galaxy Evolution Survey and Galaxy Evolution from Morphology and Spectral Energy Distributions (SEDs) Survey. We combine the COMBO-17 near-UV/optical SED with Spitzer 24 μ photometry to estimate both the unobscured and obscured star formation in galaxies with M * > 1010 M . We find that the star formation activity in massive galaxies is suppressed in dense environments, in agreement with previous studies. Yet, nearly 40% of the star-forming (SF) galaxies have red optical colors at intermediate and high densities. These red systems are not starbursting; they have star formation rates (SFRs) per unit stellar mass similar to or lower than blue SF galaxies. More than half of the red SF galaxies have low infrared-to-ultraviolet (IR-to-UV) luminosity ratios, relatively high Sérsic indices, and they are equally abundant at all densities. They might be gradually quenching their star formation, possibly but not necessarily under the influence of gas-removing environmental processes. The other ≳40% of the red SF galaxies have high IR-to-UV luminosity ratios, indicative of high dust obscuration. They have relatively high specific SFRs and are more abundant at intermediate densities. Our results indicate that while there is an overall suppression in the SF galaxy fraction with density, the small amount of star formation surviving the cluster environment is to a large extent obscured, suggesting that environmental interactions trigger a phase of obscured star formation, before complete quenching.

Original languageEnglish
Pages (from-to)1883-1900
Number of pages18
JournalAstrophysical Journal
Issue number2
Publication statusPublished - 2009
Externally publishedYes


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