The Morphology-Density Relation in the Sloan Digital Sky Survey

We have studied the morphology-density relation and morphology--cluster-centric-radius relation using a volume limited sample (0.05$<z<$0.1, $Mr^*<-$20.5) of the Sloan Digital Sky Survey (SDSS) data. We found there are two characteristic changes in both the morphology-density and the morphology-radius relations, suggesting two different mechanisms are responsible for the relations. In the sparsest regions (below 1 Mpc$^{-2}$ or outside of 1 virial radius), both relations become less noticeable, suggesting the responsible physical mechanisms for galaxy morphological change require denser environment. In the intermediate density regions (density between 1 and 6 Mpc$^{-2}$ or virial radius between 0.3 and 1), intermediate-type fractions increase toward denser regions, whereas late-disc fractions decrease. In the densest regions (above 6 Mpc$^{-2}$ or inside of 0.3 virial radius), intermediate-type fractions decrease radically and early-type fractions increase in turn. This is a contrasting result to that in intermediate regions and it suggests that yet another mechanism is more responsible for the morphological change in these regions. We also compared the morphology-density relation from the SDSS (0.01$<z<$0.054) with that of the MORPHS data ($z\sim$0.5). Two relations lie on top of each other, suggesting that the morphology-density relation was already established at $z\sim$0.5 as is in the present universe.