Effects on galaxy evolution: pair interactions versus environment

In a hierarchical universe, mergers may be an important mechanism not only in increasing the mass of galaxies but also in driving the colour and morphological evolution of galaxies. We use a large sample of similar to 1000 simulated galaxies of stellar mass greater than 109.6?M? (for similar to 4800 observations at multiple redshifts) from a high-resolution (0.46?h-1?kpc) cosmological simulation to determine under what circumstances being a member of a pair influences galaxy properties at z = 0.2. We identify gravitationally bound pairs, and find a relative fraction of blueblue (wet), redred (dry) and bluered (mixed) pairs that agrees with observations. All pairs tend to avoid the extreme environments of clusters and void centres. While pairs in groups can include galaxies that are both blue, both red, or one of each colour, in the field it is extraordinarily rare for pair galaxies to both be red. We find that physically bound pairs closer than 250?h-1?kpc tend to have higher specific star formation rates (sSFRs) than the galaxy population as a whole. However, the sSFR of a bound galaxy relative to galaxies in a comparable local density environment (determined by the distance to the fifth nearest neighbour, ?5) differs depending on the local density. In regions of high ?5 the bound population has a higher fraction of star-forming (bluer) galaxies, whereas there is very little difference between bound and unbound galaxies in low ?5 regions. This effect on the star-forming fraction may be driven by the higher fraction of bound H?i-rich galaxies compared to unbound galaxies, particularly at high local densities. It appears that being in a pair has an incremental, but not overwhelming, effect on the star formation rate of the paired galaxies, compared to the more pronounced trend where galaxies overall have low sSFR (red) in clusters and higher sSFR (blue) at the centre of voids. This trend depends most strongly on local galaxy density (?5). We find no strong evidence that pair interactions are the driver of the colourdensity relation for galaxies.