We present a model of chemical evolution in disc galaxies, which extends our semi-analytic model for galaxy evolution. This semi-analytic framework has already been shown to reproduce the observed star formation histories. We take an open box approach which tracks the metallicity of two phases, the hot coronal gas and the cold gas making up the disc. Gaseous infall at primordial metallicities is constrained by analytic fits to N-body simulations and the model includes supernova and active galactic nuclei feedback.We address the differences between observedmetallicities obtained from H II data and fromdamped Lyman alpha absorbers and show that they may be explained by observational selection effects resulting from radial metallicity gradients, without having to resort to a separate population of galaxies. Within the framework describing these selection effects the cold disc gas of our chemical evolution model is shown to reproduce the metallicities of both the H II regions and the damped Lyman alpha absorbers. DLA metallicities are shown to be largely determined by dwarf galaxies especially at high redshifts.
History
Publication title
Monthly Notices of the Royal Astronomical Society
Volume
418
Issue
4
Pagination
2113-2816
ISSN
1365-2966
Department/School
School of Natural Sciences
Publisher
Wiley-Blackwell Publishing Ltd
Place of publication
United Kingdom
Rights statement
The definitive published version is available online at: http://www3.interscience.wiley.com/