Estuarine fish behavior around slotted water control structures in a managed salt marsh

Estuarine fish behavior around slotted water control structures in a managed salt marsh

Estuaries are composed of multiple interconnected habitat types used by transient fish species during their period of estuarine residency. Structural marsh management restricts habitat connectivity and impedes the movement of fishes among these habitat types by limiting access via water control stru...

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Bibliographic Details
Published in:Wetlands ecology and management Vol. 25; no. 3; pp. 299 - 312
Main Authors: Kimball, Matthew E., Boswell, Kevin M., Rozas, Lawrence P.
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-06-2017
Springer Nature B.V
Subjects:
Access control
Antenna arrays
Arrays
Biomedical and Life Sciences
Brackishwater environment
Brackishwater fishes
Conservation Biology/Ecology
Diel activity
Environmental Law/Policy/Ecojustice
Environmental management
Estuaries
Estuarine dynamics
Estuarine environments
Estuarine fisheries
Fish
Fish behavior
Fish ladders
Fishways
Freshwater & Marine Ecology
Habitat connectivity
Habitats
Hydrology/Water Resources
Lakes
Life Sciences
Marine & Freshwater Sciences
Marine fishes
Marsh management
Original Paper
Salt marshes
Saltmarshes
Species
Structures
Swimming
Tagging
Transponders
Water
Water control
Water Quality/Water Pollution
Wetlands
USA, Louisiana, Calcasieu Estuary
Salt marsh
PIT tags
Passage
Fish behavior
Water control structure
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Description
Summary:Estuaries are composed of multiple interconnected habitat types used by transient fish species during their period of estuarine residency. Structural marsh management restricts habitat connectivity and impedes the movement of fishes among these habitat types by limiting access via water control structures (WCSs) between the managed area and the rest of the estuary. While some general information on fish passage rates is available, species-specific information on passage through WCSs is lacking for salt marsh fishes. We monitored tagged fishes from March 2012 through November 2013 using passive integrated transponder antenna arrays at two identical WCSs in the Calcasieu Lake estuary, Louisiana, USA, to assess the effect of slotted WCSs on fish behavior. A total of 420 individuals of 15 species was tagged and released at the WCSs; of these, 145 individuals representing 11 species were later detected at the WCSs. Five species comprised most (93%) of the detected individuals: Elops saurus (n = 60), Mugil cephalus (n = 43), Sciaenops ocellatus (n = 20), Pogonias cromis (n = 7), and Ariopsis felis (n = 5). Passage rates were low, with most of the observed fishes (n = 80) passing only once through the structures. Other than E. saurus , which was only observed migrating out of the managed marsh, no clear pattern in swimming direction was observed for the other species. Detected species were all present primarily during the summer and fall, however, diel activity at the structures varied by species. The WCSs in our study area appeared to attract and congregate fishes, functioning more like ecological hotspots, rather than simply facilitating fish passage.
ISSN:0923-4861
1572-9834
DOI:10.1007/s11273-016-9517-8