Optimal differentiation to the edge of trait space (EoTS)
Abstract
The ecological and evolutionary processes that allow alien species to establish and dominate native communities (i.e., become invasive) have been a rich area of research. Past areas of inquiry have included identifying the traits necessary to invade a community and/or determining how phylogenetic relatedness of the introduced species with the resident community can promote invasive success. Yet despite decades of research, little consensus exists about why particular species successfully invade native communities while others do not. Here we develop a conceptual framework for why only certain introduced species become invasive: optimal differentiation to the edge of trait space (EoTS). We posit that optimal differentiation leading to successful invasion into a community requires that the multi-dimensional trait space of the introduced species exists at the edge of the multi-dimensional trait space of the native community. Species that possess traits that are too different cannot enter the community because of environmental filtering, while species that are too similar will either become integrated into the community but not take over or alternatively never establish. We apply this conceptual framework to species functional traits and discuss how both genetic processes and phylogenetic processes may also result in optimal differentiation to EoTS.
Publication Title
Evolutionary Ecology
Recommended Citation
Molofsky, J., Park, D., Richardson, D., Keller, S., Beckage, B., Mandel, J., Boatwright, J., & Hui, C. (2022). Optimal differentiation to the edge of trait space (EoTS). Evolutionary Ecology, 36 (5), 743-752. https://doi.org/10.1007/s10682-022-10192-7