Document Type
Article
Department/Program
Virginia Institute of Marine Science
Publication Date
2016
Journal
Proceedings Of The National Academy Of Sciences Of The United States Of America
Volume
113
Issue
22
First Page
6230
Last Page
6235
Abstract
Fishes are the most diverse group of vertebrates, play key functional roles in aquatic ecosystems, and provide protein for a billion people, especially in the developing world. Those functions are compromised by mounting pressures on marine biodiversity and ecosystems. Because of its economic and food value, fish biomass production provides an unusually direct link from biodiversity to critical ecosystem services. We used the Reef Life Survey's global database of 4,556 standardized fish surveys to test the importance of biodiversity to fish production relative to 25 environmental drivers. Temperature, biodiversity, and human influence together explained 47% of the global variation in reef fish biomass among sites. Fish species richness and functional diversity were among the strongest predictors of fish biomass, particularly for the largebodied species and carnivores preferred by fishers, and these biodiversity effects were robust to potentially confounding influences of sample abundance, scale, and environmental correlations. Warmer temperatures increased biomass directly, presumably by raising metabolism, and indirectly by increasing diversity, whereas temperature variability reduced biomass. Importantly, diversity and climate interact, with biomass of diverse communities less affected by rising and variable temperatures than species-poor communities. Biodiversity thus buffers global fish biomass from climate change, and conservation of marine biodiversity can stabilize fish production in a changing ocean.
DOI
10.1073/pnas.1524465113
Keywords
Coral-Reefs; Marine Ecosystems; Diversity; Productivity; Patterns; Impacts; Ecology; Vulnerability; Predictors; Predators
Recommended Citation
Duffy, JE; Lefcheck, JS; Stuart-Smith, Rochelle; Navarrete, SA; and Edgar, GJ, Biodiversity enhances reef fish biomass and resistance to climate change (2016). Proceedings Of The National Academy Of Sciences Of The United States Of America, 113(22), 6230-6235.
10.1073/pnas.1524465113