Habitat Quality and Salt-Marsh Species Assemblages along an Anthropogenic Estuarine Landscape

Habitat Quality and Salt-Marsh Species Assemblages along an Anthropogenic Estuarine Landscape

We evaluated habitat conditions available to infauna and epifauna across a gradient of shoreline development within the Pascagoula River estuary, Missisippi, to determine whether habitat characteristics and biotic responses were influenced by the degree of surrounding alteration. Three zones were de...

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Bibliographic Details
Published in:Journal of coastal research Vol. 24; no. 6; pp. 1570 - 1581
Main Authors: Partyka, Melissa L., Peterson, Mark S.
Format: Journal Article
Language:English
Published: Fort Lauderdale Coastal Education and Research Foundation (CERF) 01-11-2008
Allen Press Inc
Subjects:
Alterations
Anthropogenic factors
Aquatic habitats
Birds
Brackish
Coastal
Corophium louisianum
Density
Environmental quality
Environmental restoration
Estuaries
Habitat conservation
Habitats
Health
Landscapes
Marshes
Mississippi
Nekton
Pascagoula River estuary
Research methodology
Restoration
Riverine habitats
Salt marshes
Sediments
Shorelines
Shores
Taxa
Water quality
USA, Mississippi, Pascagoula R
ASW, USA, Gulf Coast
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Summary:We evaluated habitat conditions available to infauna and epifauna across a gradient of shoreline development within the Pascagoula River estuary, Missisippi, to determine whether habitat characteristics and biotic responses were influenced by the degree of surrounding alteration. Three zones were defined: (H) severe alteration, (M) intermediate alteration, and (L) natural conditions starting about 5 km upstream. Eleven water-quality and habitat variables were quantified for infaunal and epifaunal nekton as indicators of habitat quality adjacent to both “restricted” and hardened shore and “unrestricted” or marsh-edge shore within each impact zone. Epifaunal nekton richness (S) was consistently greater at unrestricted shore types than restricted ones, highest in zone M and lowest in zone H, whereas infaunal S did not vary among impact zones or between shore types. Cluster analysis showed epifaunal nekton assemblages from unrestricted shores in zones M and L were most similar to each other, whereas restricted shore infaunal assemblages from zones H and M linked at ∼70%. SIMPER analysis indicated infaunal composition was not dissimilar among zones or between shore types. In contrast, epifaunal nekton assemblages were dissimilar from one another because of the presence and density of Corophium louisianum and Hargeria rapax, two major fish prey items. Our data suggest the relative quality of marsh-edge habitat depends upon the surrounding landscape and that the simple presence of marsh habitat is not enough to ensure a high level of ecosystem health. Rather, it is the spatial arrangement of the marsh that markedly affects the system's health. It is apparent that even the smallest patch of marsh habitat supported a larger diversity of fauna than nearby restricted habitats, suggesting that it matters where a salt-marsh habitat patch (including restoration sites) is located along the landscape because it will influence habitat quality and connectivity and thus the composition of infauna and epifauna nekton assemblages.
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ISSN:0749-0208
1551-5036
DOI:10.2112/07-0937.1