Spatial and temporal habitat use patterns for salt marsh nekton: implications for ecological functions |
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Authors: | Rodney A Rountree Kenneth W Able |
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Institution: | (1) School for Marine Science and Technology, University of Massachusetts at Dartmouth, 706 S. Rodney French Blvd., New Bedford, MA 02744-1221, USA;(2) Marine Field Station, Institute of Marine and Coastal Sciences, Rutgers University, 800 c/o 132 Great Bay Boulevard, Tuckerton, NJ 08087-2004, USA;(3) (RAR) Marine Ecology and Technology Applications, Inc., 23 Joshua Ln, Waquoit, MA 02536, USA |
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Abstract: | We synthesized information on temporal and spatial patterns of salt marsh habitat use by nekton in order to infer the importance
of five main types of marsh function: reproduction, foraging, refuge from predation, refuge from stressful environmental conditions
and environmental enhancement of physiology. We then extended the concept that intertidal gradients regulate habitat use patterns
of nekton to a more universal concept that applies to all salt marsh habitats. We contend that all marsh habitats are linked
to each other and to adjacent estuarine habitats along a depth gradient that mediates gradients in abiotic and biotic conditions.
Tidal, diel and seasonal shifts in the magnitude and direction of these gradients result in gradients in tidal, diel and seasonal
variation in biotic and abiotic conditions within the salt marsh. Collectively these gradients form the `marsh gradient'.
We propose that patterns of marsh use and ecological function for nekton result primarily from physiological and behavioral
responses to this marsh gradient. A comparison of habitat use patterns in the context of the marsh gradient is an important
– and underutilized – method to study marsh function and essential fish habitat. We note that our limited insight into the
function of the marsh habitat results from a significant lack of information on the occurrence and causes of tidal, diel and
ontogenetic marsh use patterns by nekton; this is particularly relevant with respect to data on the variation in environmental
conditions along marsh gradients over tidal, diel and seasonal cycles and on how environmental variation on these scales influences
nekton behavior, growth and survival. |
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Keywords: | Environmental gradients Habitat requirements Nekton Salt marsh function Spatial zonation |
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