Extent, patterns, and drivers of hypoxia in the world's streams and rivers

Joanna R. Blaszczak; Lauren E. Koenig; Francine H. Mejia; Lluís Gómez‐Gener; Christopher L. Dutton; Alice M. Carter; Nancy B. Grimm; Judson W. Harvey; Ashley M. Helton; Matthew J. Cohen

doi:10.1002/lol2.10297

Limnology and Oceanography Letters (Jun 2023)

Extent, patterns, and drivers of hypoxia in the world's streams and rivers

Joanna R. Blaszczak,
Lauren E. Koenig,
Francine H. Mejia,
Lluís Gómez‐Gener,
Christopher L. Dutton,
Alice M. Carter,
Nancy B. Grimm,
Judson W. Harvey,
Ashley M. Helton,
Matthew J. Cohen

Affiliations

Joanna R. Blaszczak: Department of Natural Resources and Environmental Science University of Nevada, Reno Reno Nevada USA
Lauren E. Koenig: Department of Natural Resources and the Environment and the Center for Environmental Sciences and Engineering University of Connecticut Storrs Connecticut USA
Francine H. Mejia: U.S. Geological Survey Forest and Rangeland Ecosystem Science Center Seattle Washington USA
Lluís Gómez‐Gener: Centre for Research on Ecology and Forestry Applications Universitat Autònoma de Barcelona Barcelona Spain
Christopher L. Dutton: Department of Biology University of Florida Gainesville Florida USA
Alice M. Carter: Department of Biology Duke University Durham North Carolina USA
Nancy B. Grimm: School of Life Sciences Arizona State University Tempe Arizona USA
Judson W. Harvey: U.S. Geological Survey Earth System Processes Division Reston Virginia USA
Ashley M. Helton: Department of Natural Resources and the Environment and the Center for Environmental Sciences and Engineering University of Connecticut Storrs Connecticut USA
Matthew J. Cohen: School of Forest, Fisheries, and Geomatics Sciences University of Florida Gainesville Florida USA

DOI: https://doi.org/10.1002/lol2.10297
Journal volume & issue: Vol. 8, no. 3
pp. 453 – 463

Abstract

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Abstract Hypoxia in coastal waters and lakes is widely recognized as a detrimental environmental issue, yet we lack a comparable understanding of hypoxia in rivers. We investigated controls on hypoxia using 118 million paired observations of dissolved oxygen (DO) concentration and water temperature in over 125,000 locations in rivers from 93 countries. We found hypoxia (DO < 2 mg L−1) in 12.6% of all river sites across 53 countries, but no consistent trend in prevalence since 1950. High‐frequency data reveal a 3‐h median duration of hypoxic events which are most likely to initiate at night. River attributes were better predictors of riverine hypoxia occurrence than watershed land cover, topography, and climate characteristics. Hypoxia was more likely to occur in warmer, smaller, and lower‐gradient rivers, particularly those draining urban or wetland land cover. Our findings suggest that riverine hypoxia and the resulting impacts on ecosystems may be more pervasive than previously assumed.

Published in Limnology and Oceanography Letters

ISSN: 2378-2242 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Geography. Anthropology. Recreation: Oceanography
Website: https://aslopubs.onlinelibrary.wiley.com/journal/23782242

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