Trophic resource partitioning drives fine-scale coexistence in cryptic bat species

Orly Razgour, Roberto Novella-Fernandez, Carlos Ibáñez, Javier Juste, Beth Clare & C. Patrick Doncaster
Understanding the processes that enable species coexistence has important implications for assessing how ecological systems will respond to global change. Morphology and functional similarity increase the potential for competition, and therefore, co-occurring morphologically similar but genetically unique species are a good model system for testing coexistence mechanisms. We used DNA metabarcoding and High Throughput Sequencing to characterise for the first time the trophic ecology of two recently-described cryptic bat species with parapatric ranges, Myotis escalerai...
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