Star formation quenching precedes morphological transformation in COSMOS-WEB's richest galaxy groups

Z. Ghaffari (1; 2); G. Gozaliasl (3; 4); A. Biviano (1; 2); G. Toni (5; 6; 7); S. Taamoli (9); M. Maturi (7; 8); L. Moscardini (5; 6; 11); A. Zacchei (1; 2); F. Gentile (12; 6); M. Haas (13); H. Akins (14); R. C. Arango-Toro (15); Y. Cheng (26); C. Casey (16; 14; 17); M. Franco (12; 14); S. Harish (10); H. Hatamnia (9); O. Ilbert (15); J. Kartaltepe (10); A. H. Khostovan (18; 10); A. M. Koekemoer (19); D. Liu (21); G. A. Mamon (20); H. J. McCracken (20); J. McKinney (14); J. Rhodes (22); B. Robertson (23); M. Shuntov (17; 24; 25); L. Yang (10) ((1) INAF Trieste; Italy; (2) IFPU; Italy; (3) Aalto University; Finland; (4) University of Helsinki; Finland; (5) University of Bologna; Italy; (6) INAF Bologna; Italy; (7) University Heidelberg; Germany; (8) ITP Heidelberg; Germany; (9) UC Riverside; USA; (10) RIT; USA; (11) INFN Bologna; Italy; (12) CEA Paris-Saclay; France; (13) Ruhr University Bochum; Germany; (14) UT Austin; USA; (15) LAM Marseille; France; (16) UC Santa Barbara; USA; (17) DAWN; Denmark; (18) University of Kentucky; USA; (19) STScI; USA; (20) IAP Paris; France; (21) Purple Mountain Observatory; China; (22) Caltech/IPAC; USA; (23) UC Santa Cruz; USA; (24) Niels Bohr Institute; Denmark; (25) University of Geneva; Switzerland; (26) University of Washington; USA)

arXiv:2601.06297·astro-ph.GA·April 1, 2026

Star formation quenching precedes morphological transformation in COSMOS-WEB's richest galaxy groups

Z. Ghaffari (1, 2), G. Gozaliasl (3, 4), A. Biviano (1, 2), G. Toni (5, 6, 7), S. Taamoli (9), M. Maturi (7, 8), L. Moscardini (5, 6, 11), A. Zacchei (1, 2), F. Gentile (12, 6), M. Haas (13), H. Akins (14), R. C. Arango-Toro (15), Y. Cheng (26), C. Casey (16, 14, 17)

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TL;DR

This study shows that in rich galaxy groups, star formation quenching occurs before morphological changes, especially in massive galaxies, highlighting a mass-dependent and environment-influenced evolutionary process.

Contribution

It provides new evidence that star formation quenching predates morphological transformation in galaxy groups, contrasting with classical cluster relations, and emphasizes the role of AGN feedback and mergers.

Findings

01

High-mass galaxies rapidly quench and become spheroidal ETGs within ~1 Gyr.

02

Red sequences are established at z < 1, indicating early quenching in group environments.

03

Group environments influence lower-mass galaxy evolution differently than high-mass galaxies.

Abstract

We analyzed the 25 richest galaxy groups in COSMOS-Web at z = 0.18-3.65, identified via the AMICO algorithm. These groups contain 20-30 galaxies with high (>75%) membership probability. Our study reveals both passive-density and active-density relations: late-type galaxies (LTGs) prefer higher central overdensities than early-type galaxies (ETGs) across all groups, and many massive LTGs exhibit colors typical of quiescent galaxies. We identify red sequences (RS) in 5 groups, prominently established at z < 1, with early emergence in the RS locus up to z ~ 2.2. This suggests group environments represent a transitional phase where star formation quenching precedes morphological transformation, contrasting with the classical morphology-density relation in rich clusters. In the central regions (~33 arcsec / 100 kpc from centers), we identified 86 galaxies: 23 (~27%) ETGs and 63 (~73%)…

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