Local-scale characteristics of high-marsh communities next to developed and undeveloped shorelines in an ocean-dominated estuary, Murrells Inlet, SC |
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Authors: | Keith Walters John J Hutchens Jr Eric T Koepfler James O Luken |
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Institution: | (1) Department of Marine Science, Coastal Carolina University, Conway, SC 29528-6054, USA;(2) Department of Biology, Coastal Carolina University, Conway, SC 29528-6054, USA |
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Abstract: | Anthropogenic alteration of terrestrial shorelines can have pronounced effects on marine environments at the upland-marsh
boundary. Possible terrestrial development effects on several physical and biological variables of high-marsh habitats were
examined along developed and undeveloped shorelines in an ocean-dominated, southeastern US estuary. Analyses of sediment characteristics
suggested development of the upland boundary affected physical conditions within the high-marsh. For example, pore water salinities
were greater along undeveloped shorelines during a non-drought period even after rain events. Significant floral and faunal
differences also existed between shoreline treatments. Black needle rush stems were significantly taller and marsh periwinkle
densities significantly greater, but eastern coffee bean snail densities were significantly reduced along developed shorelines.
Benthic infaunal community abundance and composition also were significantly different between shoreline treatments with sand
fly larvae, human pest precursors, either only present or present in greater densities along developed shorelines. Sediment
respirometry experiments indicated significant differences in heterotrophic and autotrophic processes occurring between shoreline
treatments. Greater sediment surface temperatures along developed shorelines provided one possible mechanism driving high-marsh
responses to boundary alteration. The history and extent of shoreline development along with a tendency in ocean-dominated
southeastern marshes to resist change likely influenced current ecological conditions within our high-marsh study areas. A
greater understanding of the driving mechanisms producing localized effects on salt marshes and recognizing regional differences
in marsh resistance to change will facilitate predictions of shoreline development consequences and help in proposing effective
management strategies for coastal boundaries. |
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