Correlations between environment and other properties of galaxies from the Sloan Digital Sky Survey at fixed color

From the volume-limited Main galaxy sample of the Sloan Digital Sky Survey Data Release 6 (SDSS DR6), we construct three samples with g-r color bins 0.4 <= g-r < 0.6, 0.6 <= g-r < 0.8 0.8 <= g-r < 1.0, labeled S1-S3, to investigate how other properties of galaxies depend on environment at fixed color. For each sample, we measure the local three-dimensional galaxy density in a comoving sphere with radius equal to the distance to the 5th nearest galaxy for each galaxy, select about 5% galaxies and construct the two subsamples at both extremes of density. Our study suggests that the environmental dependence of luminosity is mainly due to the environmental dependence of galaxy color and the correlation between color and luminosity. In addition, we preferentially conclude that concentration index and morphologies are not strongly correlated with local density at fixed color, and that galaxy color is a galaxy property very predictive of the local environment. Because SDSS spectroscopy is incomplete for bright galaxies at very low redshifts, we also use a volume-limited Main galaxy sample with a lower redshift limit z = 0.05, which contains 94,954 galaxies at 0.05 < z < 0.089 with -22.40 < M(r) < -20.16, and reach the same conclusions. Due to the bimodality of the u-r color distribution, we classify galaxies as 'red' and 'blue', respectively, and further subdivide the samples into star-forming galaxies and passive ones using H alpha equivalent width, W(0)(H alpha). Results show that color and star formation activity of galaxies are galaxy properties very predictive of the local environment. (C) 2009 Elsevier B.V. All rights reserved.