News Release

Bridging large riverine ecosystems for inter-basin exchanges

Peer-Reviewed Publication

KeAi Communications Co., Ltd.

This plot shows the percentage of fish species in the Upper Mississippi (UMR) and Upper Yangtze River (UYR) basins exhibiting various traits, illustrating similarities between the assemblages of the two systems.

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This plot shows the percentage of fish species in the Upper Mississippi (UMR) and Upper Yangtze River (UYR) basins exhibiting various traits, illustrating similarities between the assemblages of the two systems.

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Credit: Kyle J. Brumm

Many of the world’s large rivers have been modified to support food security, hydropower production, navigation and trade. While these developments are necessary to support a growing human population, they also pose substantial risks to the structure and functioning of aquatic ecosystems. Given the challenge of sustaining human livelihoods while implementing biodiversity conservation, inter-basin partnerships have been established to facilitate the exchange of best management practices. However, few direct comparisons have been made to highlight similarities and differences among large riverine ecosystems, potentially limiting the effectiveness of inter-basin exchanges.

“When we take a look at fish assemblages in the Mississippi and Yangtze Rivers, there are only a handful of species that are shared between the two systems, making it difficult to draw meaningful comparisons,” said lead author Kyle Brumm, a doctoral student in the Department of Fisheries and Wildlife at Michigan State University.

To overcome this challenge, an international team of researchers compiled data on the feeding habits, reproductive strategies and habitat preferences of more than 120 species — ultimately using summaries of these traits to investigate and compare responses of fishes to environmental conditions between the two systems.

“By combining traits with environmental data including factors like climate, land use and water quality, we gain a better understanding of why biodiversity loss is occurring,” Brumm explained. “Traits provide details about what a species needs to survive, grow, and reproduce, so this type of analysis tells us whether biodiversity loss is associated with changes in food availability, habitat complexity or water temperature, to name a few examples.”

Despite differences in species identities, traits of fish assemblages in the Mississippi and Yangtze Rivers were very similar. Traits that were most influential in determining species’ responses to the environment were those associated with feeding habits and habitat preferences. Collectively, these findings provide insights to develop management strategies and safeguard against the loss of ecological functions (e.g., nutrient cycling) in these two internationally important riverine ecosystems.

“Besides providing insights into fishes of the Mississippi and Yangtze Rivers, the approaches adopted in this study can be applied to formulate expectations and test hypotheses in other large rivers throughout the world, which are generally understudied relative to smaller rivers and streams,” Brumm added.

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Contact the author: Kyle J. Brumm (brummkyl@msu.edu) – Department of Fisheries and Wildlife, Michigan State University, East Lansing, MI, USA

The publisher KeAi was established by Elsevier and China Science Publishing & Media Ltd to unfold quality research globally. In 2013, our focus shifted to open access publishing. We now proudly publish more than 100 world-class, open access, English language journals, spanning all scientific disciplines. Many of these are titles we publish in partnership with prestigious societies and academic institutions, such as the National Natural Science Foundation of China (NSFC).


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