Hunting and persecution drive mammal declines in Iran.

The negative impacts of human activities on biodiversity are well documented. However, extinction risk studies incorporating direct human threats particularly direct killing remain limited. Here, we evaluate the potential role that direct killing through hunting and persecution, indirect human threats via land-use change, and environmental and species traits such as reproductive rate and trophic level among others, may play in driving mammal species to extinction. Based on data for 156 mammal species from Iran, we applied generalized linear models to investigate correlates of extinction risk for: (1) all mammalian species, (2) large- and (3) small-bodied species. We show that hunting vulnerability is the most important predictor to affect extinction risk across all species. We also found that the small-bodied species are impacted by indirect human influence, whereas large species are highly affected by direct killing. Overall, the extrinsic environmental factors and intrinsic species traits had lower importance in our models. Our study gives insight into the dominant role of direct killing on mammal species decline and extinction, emphasizing the need to account for the different sources of threats when analysing the correlates of extinction risk.

Reassessing the evolutionary history of ass-like equids: insights from patterns of genetic variation in contemporary extant populations.

All extant equid species are grouped in a single genus - Equus. Among those, ass-like equids have remained particularly unstudied and their phylogenetic relations were poorly understood, most probably because they inhabit extreme environments in remote geographic areas. To gain further insights into the evolutionary history of ass-like equids, we have used a non-invasive sampling approach to collect representative fecal samples of extant African and Asiatic ass-like equid populations across their distribution range and mitochondrial DNA (mtDNA) sequencing analyses to examine intraspecific genetic diversity and population structure, and to reconstruct phylogenetic relations among wild ass species/subspecies. Sequence analyses of 410 base pairs of the fast evolving mtDNA control region identified the Asiatic wild ass population of Kalamaili (China) as the one displaying the highest diversity among all wild ass populations. Phylogenetic analyses of complete cytochrome b sequences revealed that African and Asiatic wild asses shared a common ancestor approximately 2.3Mya and that diversification in both groups occurred much latter, probably driven by climatic events during the Pleistocene. Inferred genetic relationships among Asiatic wild ass species do not support E. kiang monophyly, highlighting the need of more extensive studies in order to clarify the taxonomic status of species/subspecies belonging to this branch of the Equus phylogeny. These results highlight the importance of re-assessing the evolutionary history of ass-like equid species, and urge to extend studies at the population level to efficiently design conservation and management actions for these threatened species.