Long‐term (37 years) impacts of low‐head dams on freshwater shrimp habitat connectivity in northeastern Puerto Rico

Freshwater migratory shrimp in Puerto Rico depend on watershed connectivity, from stream headwaters to the ocean, to complete their life cycle. Moreover, shrimp populations in different watersheds are known to be connected in an island‐wide metapopulation. However, low‐head dams paired with water in...

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Bibliographic Details
Published inRiver research and applications Vol. 35; no. 7; pp. 1034 - 1043
Main Authors Chappell, Jessica, McKay, S. Kyle, Freeman, Mary C., Pringle, Catherine M.
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.09.2019
Subjects
Animal migration
connectivity index
Dams
Decapoda
Drainage
Drought
Freshwater
Freshwater crustaceans
freshwater shrimp
Habitats
Headwaters
Inland water environment
Life cycle
Life cycles
Locating
long term
Longitude
low‐head dams
Marine crustaceans
metapopulation
Metapopulations
partial barriers
Predators
Refugia
Shellfish
Stream discharge
Stream flow
Streams
Water intakes
Waterfalls
Watersheds
United States > US
Puerto Rico
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Summary:Freshwater migratory shrimp in Puerto Rico depend on watershed connectivity, from stream headwaters to the ocean, to complete their life cycle. Moreover, shrimp populations in different watersheds are known to be connected in an island‐wide metapopulation. However, low‐head dams paired with water intakes on streams draining the El Yunque National Forest (EYNF) reduce streamflow. Here, we examine the cumulative effects of low‐head dams on shrimp habitat connectivity over 37 years across seven EYNF watersheds. We calculate total and refugia habitat connectivity (where refugia habitat is defined as predator‐free upstream reaches above waterfalls >5 m in height) at a monthly time step using a habitat‐weighted index of longitudinal riverine connectivity, which incorporates location and operation of water intakes and streamflow variability. Findings indicate total and refugia habitat connectivity declined over 37 years (by 27% and 16%, respectively) as additional water intakes have been placed in lower reaches of watersheds. On a monthly time step, the proportion of streamflow withdrawn has the largest effect on habitat connectivity, with the result that connectivity is ~17% lower during drought years than in nondrought years and ~7% lower in dry compared with wet seasons. Our analysis of this long‐term dataset highlights how cumulative effects of low‐head dams paired with water intakes have reduced shrimp habitat connectivity. These results underscore the importance of reducing existing withdrawal rates in EYNF, and locating intakes where effects on connectivity are minimal, if conserving shrimp habitat is a management objective.
ISSN:1535-1459
1535-1467
DOI:10.1002/rra.3499