Citizen scientists document long-term streamflow declines in intermittent rivers of the desert southwest, USA

Intermittent rivers are spatially dynamic, expanding and contracting in response to changes in water availability, but studies that explicitly examine spatial drying patterns are scarce. We used long-term data produced by citizen scientists to map wet and dry reaches of 3 different river systems to...

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Bibliographic Details
Published inFreshwater science Vol. 38; no. 2; pp. 244 - 256
Main Authors Allen, Daniel C., Kopp, Darin A., Costigan, Katie H., Datry, Thibault, Hugueny, Bernard, Turner, Dale S., Bodner, Gita S., Flood, Timothy J.
Format Journal Article
LanguageEnglish
Published Lawrence The University of Chicago Press 01.06.2019
University of Chicago Press
Subjects
Animal biology
Arid climates
Aridity
Biodiversity and Ecology
Carrying capacity
Coastal inlets
Drought
Drying
Environmental Sciences
Fish
Fish populations
Habitats
Intermittent rivers
Length
Life Sciences
Metapopulations
Multivariate statistical analysis
Population number
River systems
Rivers
Scientists
Stream discharge
Stream flow
Surveying
Temporal variations
Water availability
United States > US
Agua Fria River
habitat connectivity
drought
fish
river drying
citizen science
intermittent river
streamflow
climate change
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Summary:Intermittent rivers are spatially dynamic, expanding and contracting in response to changes in water availability, but studies that explicitly examine spatial drying patterns are scarce. We used long-term data produced by citizen scientists to map wet and dry reaches of 3 different river systems to investigate mechanisms producing temporal variation in drying patterns. We quantified the total wetted river length in each survey, and calculated ecologically scaled landscape indices that indicate the carrying capacity (population size) and habitat connectivity of large and small fish metapopulations in these systems. We found that the spatial extent of perennial water decreased over the study period in 2 of the 3 study rivers: ∼26% in the Agua Fria River from 2008 to 2016, and ∼14% in Cienega Creek from 2006 to 2016. We also observed an ∼8% decline in habitat connectivity for large fish in the Agua Fria River. We used multivariate structural equation models to infer causal relationships between spatial drying patterns and temperature, precipitation, streamflow, and drought conditions. These models explained 85% of year-to-year variation in the total length of wet reaches, and 63 and 55% of year-to-year variation in habitat connectivity for large and small fish, respectively. With the US Southwest shifting to an even more arid climate, our results suggest that this may reduce habitat connectivity of fish populations in this region.
ISSN:2161-9549
2161-9565
DOI:10.1086/701483