Winter flounder settlement dynamics and the modification of settlement patterns by post-settlement processes in a NW Atlantic estuary

Winter flounder settlement dynamics and the modification of settlement patterns by post-settlement processes in a NW Atlantic estuary

For fishes with bipartite life cycles, locations of high quality nursery grounds are determined by processes controlling larval supply as well as those affecting early juvenile mortality and emigration. From April through June 2000, distributions of settling and early juvenile winter flounderPseudop...

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Bibliographic Details
Published in:Marine ecology. Progress series (Halstenbek) Vol. 253; pp. 253 - 267
Main Authors: Manderson, J. P., Pessutti, J., Meise, C., Johnson, D., Shaheen, P.
Format: Journal Article
Language:English
Published: Oldendorf Inter-Research 15-05-2003
Subjects:
Agnatha. Pisces
Anadromous fishes
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Biological and medical sciences
Demecology
Estuaries
Fish trapping
Fish trawling
Freshwater fishes
Fundamental and applied biological sciences. Psychology
Larvae
Marine
Marine fishes
Mortality
Pseudopleuronectes americanus
Settlement patterns
Vertebrata
Young animals
West Atlantic
Atlantic Ocean
North Atlantic
ANW, USA, New Jersey, Navesink Estuary
ANW, USA, New Jersey, Sandy Hook Bay
Modification
Pseudopleuronectes americanus
Supply side processes
Nursery (animal)
Estuaries
Nursery
Marine environment
Vertebrata
Pisces
Post-settlement processes
Population recruitment
Habitat
Dynamic habitat
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Summary:For fishes with bipartite life cycles, locations of high quality nursery grounds are determined by processes controlling larval supply as well as those affecting early juvenile mortality and emigration. From April through June 2000, distributions of settling and early juvenile winter flounderPseudopleuronectes americanuswere measured to examine how pre- and post-settlement processes determine the location of the primary nursery ground in the Navesink River/Sandy Hook Bay estuarine system (NSBES), New Jersey. The settlement pattern, measured with fine mesh (3 mm) traps that captured flounder ≤8 d into the post-metamorphic age but excluded predators and prevented emigration, was spatially dynamic. Fish settled on organically rich substrata (organic content = 5 to 12% by weight) 2 wk earlier in the Navesink River (mid-April through mid-May) than on similar substrata just 15 km downstream in Sandy Hook Bay (May through mid-June). Local retention mechanisms combined with spatial variation in spring warming, which probably affected larval-stage durations, appeared to be responsible for the dynamic settlement pattern. To determine whether spatial patterns of flounder settlement were dramatically altered by post-settlement processes, we compared settler supply (measured using traps) with juvenile distributions (measured using beam trawls, which do not prevent post-settlement mortality and emigration). The index of settler supply explained 95% of the variation in juvenile abundance patterns in the Navesink River (p < 0.001) where larger juveniles >20 mm standard length were commonly trawled. However, larger juveniles were nearly absent in Sandy Hook Bay, where juvenile distributions were not related to settlement (r² = 0.15, p = 0.31). Thus, the upstream distribution of juvenile winter flounder in the NSBES, which is similar to that observed in other estuarine nurseries, appeared to be produced by the rapid modification of settlement patterns by post-settlement processes. However, pre-settlement processes that produce spatial variation in the timing of settlement could affect the ways in which settlement patterns are modified by age, time and/or size dependent post-settlement processes.
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ISSN:0171-8630
1616-1599
DOI:10.3354/meps253253