TY - JOUR T1 - ROLE of inter-related population-level host traits in determining pathogen richness and zoonotic risk JF - bioRxiv DO - 10.1101/123067 SP - 123067 AU - Tim C.D. Lucas AU - Hilde M. Wilkinson-Herbots AU - Kate E. Jones Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/04/02/123067.abstract N2 - Zoonotic diseases are an increasingly important source of human infectious diseases, and host pathogen richness of reservoir host species is a critical driver of spill-over risk. Population-level traits of hosts such as population size, host density and geographic range size have all been shown to be important determinants of host pathogen richness. However, empirically identifying the independent influences of these traits has proven difficult as many of these traits directly depend on each other. Here we develop a mechanistic, metapopulation, susceptible-infected-recovered model to identify the independent influences of these population-level traits on the ability of a newly evolved pathogen to invade and persist in host populations in the presence of an endemic pathogen. We use bats as a case study as they are highly social and an important source of zoonotic disease. We show that larger populations and group sizes had a greater influence on the chances of pathogen invasion and persistence than increased host density or the number of groups. As anthropogenic change affects these traits to different extents, this increased understanding of how traits independently determine pathogen richness will aid in predicting future zoonotic spill-over risk. ER -