Galaxy And Mass Assembly (GAMA): Environment-dependent galaxy stellar mass functions in the low-redshift Universe
Abstract
From a carefully selected sample of 52\,089 galaxies and 10\,429 groups, we investigate the variation of the low-redshift galaxy stellar mass function (GSMF) in the equatorial Galaxy And Mass Assembly (GAMA) dataset as a function of four different environmental properties. We find that: (i) The GSMF is not strongly affected by distance to the nearest filament but rather by group membership. (ii) More massive halos tend to host more massive galaxies and exhibit a steeper decline with stellar mass in the number of intermediate-mass galaxies. This result is robust against the choice of dynamical and luminosity-based group halo mass estimates. (iii) The GSMF of group galaxies does not depend on the position within a filament, but for groups outside of filaments, the characteristic mass of the GSMF is lower. Finally, our global GSMF is well described by a double Schechter function with the following parameters: [M / (M \, h70-2)] = 10.76 0.01, 1 = (3.75 0.09) × 10-3 Mpc-3 h703, α1 = -0.86 0.03, 2 = (0.13 0.05) × 10-3 Mpc-3 h703, and α2 = -1.71 0.06. This result is consistent with previous GAMA studies in terms of M, although we find lower values for both α1 and α2.
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