May 16, 2001
A meta-analysis is performed of the literature on evolution in cosmic star-formation rate density from redshift unity to the present day. The measurements are extremely diverse, including radio, infrared, and ultraviolet broad-band photometric indicators, and visible and near-ultraviolet line-emission indicators. Although there is large scatter among indicators at any given redshift, virtually all studies find a significant decrease from redshift unity to the present day. This is the most heterogeneously confirmed result in the study of galaxy evolution. When comoving star-formation rate density is treated as being proportional to $(1+z)^{\beta}$, the meta-analysis gives a best-fit exponent and conservative confidence interval of $\beta= 2.7\pm 0.7$ in a world model with $(\Omega_M,\Omega_{\Lambda})=(0.3,0.7)$ and $\beta= 3.3\pm 0.8$ in $(\Omega_M,\Omega_{\Lambda})=(1.0,0.0)$. In either case these evolutionary trends are strong enough that the bulk of the stellar mass at the present day ought to be in old ($>6 \mathrm{Gyr}$) populations.
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