The Environmental Dependence of the Evolving S0 Fraction

Abstract

We re-investigate the dramatic rise in the S0 fraction, f_(S0), within clusters since z ~ 0.5. In particular, we focus on the role of the global galaxy environment on f_(S0) by compiling, either from our own observations or the literature, robust line-of-sight velocity dispersions, σ's, for a sample of galaxy groups and clusters at 0.1 < z < 0.8 that have uniformly determined, published morphological fractions. We find that the trend of f_(S0) with redshift is twice as strong for σ < 750 km s^(–1) groups/poor clusters than for higher-σ, rich clusters. From this result, we infer that over this redshift range galaxy-galaxy interactions, which are more effective in lower-σ environments, are more responsible for transforming spiral galaxies into S0's than galaxy-environment processes, which are more effective in higher-σ environments. The rapid, recent growth of the S0 population in groups and poor clusters implies that large numbers of progenitors exist in low-σ systems at modest redshifts (~0.5), where morphologies and internal kinematics are within the measurement range of current technology.

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