Our findings suggest that body size distribution, reef area, and temperature are major predictors of species richness and accumulation across scales, consistent with recent theories linking home range to species-area relationships as well as metabolic effects on speciation rates. Based on our results, we hypothesise that in less diverse areas, species are larger and likely more dispersive, leading to larger range sizes and less turnover between sites...
In this response we have incorporated data on gastropod and seaweed biodiversity referred to by Ávila et al. (2016, Journal of Biogeography, doi:10.1111/jbi.12816) to allow an updated analysis on marine shallow-water biogeography patterns...
The aim of this study was to understand whether the large-scale biogeographical patterns of the species–area, species–island age and species–isolation relationships associated with marine shallow-water groups in the Atlantic Ocean vary among marine taxa and differ from the biogeographical patterns observed in terrestrial habitats...
This study investigates the reef fish community structure of the world's smallest remote tropical island, the St Peter and St Paul's Archipelago, in the equatorial Atlantic. The interplay between isolation, high endemism and low species richness makes the St Peter and St Paul's Archipelago ecologically simpler than larger and highly connected shelf reef systems, making it an important natural laboratory for ecology and biogeography, particularly with respect to the effects of abiotic and biotic factors, and the functional organisation of such a depauperate community...