This blog post is provided by James Herrera, Ph.D., Duke Lemur Center SAVA Conservation Initiative and tells the #StoryBehindthePaper for the paper “Predicting primate-parasite associations using exponentional random graph models”, which was recently published in Journal of Animal Ecology. In their paper they show that large primates in warm climates and sharing the same biogeographic region have more parasites than small species in cool, dry climates. Parasites known from multiple non-primate hosts, especially viruses, protozoa, and helminth worms infect more primates than primate-specific parasites or fungi and bacteria. Advanced social network analyses allowed the first multidimensional analysis of primate-parasite ecological interactions.
After three years of the coronavirus pandemic, we have all become keenly aware of the impacts pathogens have on global systems. Parasites are ubiquitous in nature, including all species that live on or inside another organism – the host – from which they get their resources. Wild animals are often co-infected by multiple parasites at the same time. The chimpanzee, for example, is known to host over 100 parasites; chimps are one of the best studied primates because of their close relationship to people and the relevance of chimp parasites for human health. In contrast, species like the indri, a lemur only found on Madagascar, are only known to host about 10 parasites. Many other primates are so poorly studied, only 1 parasite has ever been recorded.
In a new study published in the Journal of Animal Ecology, we examined which traits of both primates and parasites predict the likelihood of their interactions. Using advanced techniques in social network analysis, called the exponential random graph, we were able to simultaneously test the traits of primates and parasites to determine what predisposes primates to infection and what gives some parasites a unique advantage. For primates, larger species that are found in warmer, wetter climates are more likely to host diverse parasites, compared to smaller species living in drier, cooler climates. Further, species in the same branches of the evolutionary tree and those that live in the same geographic region are more likely to share parasites than more distantly related species found on different continents. Viruses, protozoa, and helminth worms are more likely to infect diverse primates than fungi, arthropods, and bacteria. Parasites that are known to infect non-primate mammals are also more likely to infect diverse primates.
These new results were made possible by the great advances being made in infectious disease ecology. Over the last two decades, Dr. Charles Nunn at Duke University’s Evolutionary Anthropology and Global Health departments has been working with teams of researchers to compile all published records of primate-parasite interactions. Combing through the literature, almost 600 published sources were obtained to glean which parasites are found in over 200 primates species, with over 2,300 interactions recorded. With the analytical tools in social network science mastered by Duke Sociology professor Dr. James Moody, we were able to systematically test how traits of both hosts and parasites affect the likelihood of their interaction for the first time. While many previous studies used subsets of this database and examined either hosts or parasites in isolation, we were able to make new inferences about the critical links in this unique ecological network.
This work builds on a recent study that showed how extinction of primate hosts could lead to the co-extinction of almost 200 parasite species. While at first this might seem like a good thing, in fact it could have negative impacts on biodiversity as a whole. Many parasites don’t actually cause disease or death in the hosts, and some may even have beneficial properties. We simply don’t know enough about these critical and co-evolved relationships to understand what effects host-parasite coextinctions could have in the long-term.
While it might seem strange to worry about parasite extinctions, they are actually an important part of biodiversity and ecosystem functions. Understanding how primates and parasites interact reveals new insights into coevolutionary theory, and could also contribute to the conservation of underappreciated species richness. While from a public health perspective, we’d like to see some parasites disappear, like corona and ebola viruses, from an evolutionary stance, the sheer diversity of parasites and their intimate relationships with their hosts make them fascinating and crucial components of biodiversity.
Read the paper
Read the full paper here: Herrera, J.P., Moody, J. and Nunn, C.L. (2023), Predicting primate-parasite associations using exponentional random graph models. J Anim Ecol. Accepted Author Manuscript. https://doi.org/10.1111/1365-2656.13883