Molecular assessment of dietary niche partitioning in an endemic island radiation of tropical mammals

Island radiations represent unique evolutionary histories in unique ecological contexts. These radiations provide opportunities to investigate ecological diversification in groups that typically exhibit niche partitioning among their constituents, including partitioning of food resources. DNA metabarcoding produces finer levels of diet identification than traditional methods, allowing us to examine dietary niche partitioning in communities or clades in which species share superficially similar diets. Here, we use DNA metabarcoding to investigate dietary niche partitioning in an endemic radiation of mammals in the Philippines. Our data reveal niche partitioning as well as phylogenetically-uncorrelated adaptive evolution in this small mammal community. Because 70% of the focal species belong to the tribe Chrotomyini, an endemic Philippine radiation of murid rodents that feed extensively on earthworms, this study sheds light on dietary adaptation and its role in the co-occurrence of closely related species. Our results reveal fine-scale resource partitioning within this community; our data provide compelling evidence for niche partitioning of diet that was masked by previous diet categories and will help in further dissecting the model adaptive radiation of endemic small mammals on Luzon. This study reinforces the notion that DNA metabarcoding can be a valuable tool for investigating both ecological relationships and evolutionary ecology at the community and phylogenetic level, respectively.

Automated summary

This study used DNA metabarcoding to investigate dietary niche partitioning in an endemic radiation of mammals in the Philippines, revealing both niche partitioning and phylogenetically-uncorrelated adaptive evolution in this small mammal community. The data provide evidence for fine-scale resource partitioning within the community and shed light on the role of dietary adaptation in the co-occurrence of closely related species. The study reinforces the value of DNA metabarcoding as a tool for investigating ecological relationships and evolutionary ecology at both the community and phylogenetic level.