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Ecological similarity governs non-native fish establishment while human pressure and native diversity shape invasion richness

Meng Xu, Miao Fang, M.U. Mohamed Anas, Nicholas E. Mandrak, Cindy Chu, Hong Qian, Yong Cao, Chunlong Liu, Ross N. Cuthbert, Shaopeng Li, Guohuan Su, Pablo A. Tedesco, Jaimie T. A. Dick, Hui Wei, Fandong Yu, Lu Shu, Xuejie Wang, Xidong Mu, Dangen Gu

2025Science Advances15 citationsDOIOpen Access PDF

Abstract

Biological invasions by non-native fish species pose a major threat to global freshwater ecosystems. However, our understanding of why invaders establish in some communities but not others (i.e., occurrence probability) and why some communities harbor more invaders than others (i.e., invasion richness) remains limited. Here, we combine species- and community-level analyses across taxonomic, phylogenetic, and functional dimensions to investigate both the occurrence probability and invasion richness of exotic and translocated fish species across nearly 3000 North American freshwater fish communities. We found that ecological similarity between non-native and native species primarily governed non-native fish establishment, with invaders more likely to succeed when closely related to native species. In contrast, invasion richness was largely promoted by human pressure, while native diversity reduced richness specifically for translocated species. Additionally, both the occurrence and richness of invaders increased toward lower latitudes. Together, these findings highlight the distinct yet complementary roles of environmental filtering, human activities, and biotic interactions in shaping freshwater fish invasions.

Topics & Concepts

Species richnessIntroduced speciesEcologyInvasive speciesBiologyFreshwater ecosystemFreshwater fishPhylogenetic diversityBiodiversityEcosystemPropagule pressureSpecies diversityFish <Actinopterygii>Phylogenetic treeFisheryPopulationBiological dispersalBiochemistrySociologyDemographyGeneFish Ecology and Management StudiesAquatic Invertebrate Ecology and BehaviorWildlife Ecology and Conservation