Balancing the edge effects budget: bay scallop settlement and loss along a seagrass edge

Edge effects are a dominant subject in landscape ecology literature, yet they are highly variable and poorly understood. Often, the literature suggests simple models for edge effects-positive (enhancement at the edge), negative (enhancement at the interior), or no effect (neutral)-on a variety of me...

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Veröffentlicht in:	Ecology (Durham) 2012-07, Vol.93 (7), p.1637-1647
Hauptverfasser:	Carroll, John M, Furman, Bradley T, Tettelbach, Stephen T, Peterson, Bradley J
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Sprache:	eng
Schlagworte:	Abundance Animal and plant ecology Animal, plant and microbial ecology Animals Aquatic habitats Aquatic plants Argopecten irradians bay scallops Biological and medical sciences Coastal ecology collectors Crabs Ecological effects ecological trap ecological traps Ecosystem Edge effect Edge effects Fundamental and applied biological sciences. Psychology General aspects Habitats Invertebrates landscape Landscape ecology Larva - physiology Larvae Long Island, New York, USA Marine Marine ecology Mollusca Mollusks mortality Pectinidae - physiology Population Dynamics Population ecology Predation Predators Recruitment Scallops seagrass seagrasses Settlers Survival Survival analysis
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creator	Carroll, John M Furman, Bradley T Tettelbach, Stephen T Peterson, Bradley J
description	Edge effects are a dominant subject in landscape ecology literature, yet they are highly variable and poorly understood. Often, the literature suggests simple models for edge effects-positive (enhancement at the edge), negative (enhancement at the interior), or no effect (neutral)-on a variety of metrics, including abundance, diversity, and mortality. In the marine realm, much of this work has focused on fragmented seagrass habitats due to their importance for a variety of commercially important species. In this study, the settlement, recruitment, and survival of bay scallops was investigated across a variety of seagrass patch treatments. By simultaneously collecting settlers (those viable larvae available to settle and metamorphose) and recruits (those settlers that survive some period of time, in this case, 6 weeks) on the same collectors, we were able to demonstrate a "balance" between positive and negative edge effects, resulting in a net neutral effect. Scallop settlement was significantly enhanced along seagrass edges, regardless of patch type while survival was elevated within patch interiors. However, recruitment (the net result of settlement and post-settlement loss) did not vary significantly from edge to center, representing a neutral effect. Further, results suggest that post-settlement loss, most likely due to predation, appears to be the dominant mechanism structuring scallop abundance, not patterns in settlement. These data illustrate the complexity of edge effects, and suggest that the metric used to investigate the effect (be it abundance, survival, or other metrics) can often influence the magnitude and direction of the perceived effect. Traditionally, high predation along a habitat edge would have indicated an "ecological trap" for the species in question; however, this study demonstrates that, at the population level, an ecological trap may not exist.
doi_str_mv	10.1890/11-1904.1
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However, recruitment (the net result of settlement and post-settlement loss) did not vary significantly from edge to center, representing a neutral effect. Further, results suggest that post-settlement loss, most likely due to predation, appears to be the dominant mechanism structuring scallop abundance, not patterns in settlement. These data illustrate the complexity of edge effects, and suggest that the metric used to investigate the effect (be it abundance, survival, or other metrics) can often influence the magnitude and direction of the perceived effect. 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However, recruitment (the net result of settlement and post-settlement loss) did not vary significantly from edge to center, representing a neutral effect. Further, results suggest that post-settlement loss, most likely due to predation, appears to be the dominant mechanism structuring scallop abundance, not patterns in settlement. These data illustrate the complexity of edge effects, and suggest that the metric used to investigate the effect (be it abundance, survival, or other metrics) can often influence the magnitude and direction of the perceived effect. Traditionally, high predation along a habitat edge would have indicated an "ecological trap" for the species in question; however, this study demonstrates that, at the population level, an ecological trap may not exist.</abstract><cop>Washington, DC</cop><pub>Ecological Society of America</pub><pmid>22919910</pmid><doi>10.1890/11-1904.1</doi><tpages>11</tpages></addata></record>
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subjects	Abundance Animal and plant ecology Animal, plant and microbial ecology Animals Aquatic habitats Aquatic plants Argopecten irradians bay scallops Biological and medical sciences Coastal ecology collectors Crabs Ecological effects ecological trap ecological traps Ecosystem Edge effect Edge effects Fundamental and applied biological sciences. Psychology General aspects Habitats Invertebrates landscape Landscape ecology Larva - physiology Larvae Long Island, New York, USA Marine Marine ecology Mollusca Mollusks mortality Pectinidae - physiology Population Dynamics Population ecology Predation Predators Recruitment Scallops seagrass seagrasses Settlers Survival Survival analysis
title	Balancing the edge effects budget: bay scallop settlement and loss along a seagrass edge
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