- Kenneth L. Heck Jr.1,
- Tim J. B. Carruthers2,
- Carlos M. Duarte3,
- A. Randall Hughes4,
- Gary Kendrick5,
- Robert J. Orth6 &
- …
- Susan W. Williams4
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Abstract
In many coastal locations, seagrass meadows are part of a greater seascape that includes both marine and terrestrial elements, each linked to the other via the foraging patterns of consumers (both predators and herbivores), and the passive drift of seagrass propagules, leaves, roots and rhizomes, and seagrass-associated macroalgal detritus. With seagrasses declining in many regions, the linkages between seagrass meadows and other habitats are being altered and diminished. Thus, it is timely to summarize what is known about the prevalence and magnitude of cross-habitat exchanges of seagrass-derived energy and materials, and to increase awareness of the importance of seagrasses to adjacent and even distant habitats. To do so we examined the literature on the extent and importance of exchanges of biomass between seagrass meadows and other habitats, both in the form of exported seagrass biomass as well as transfers of animal biomass via migration. Data were most abundant for Caribbean coral reefs and Australian beaches, and organisms for which there were quantitative estimates included Caribbean fishes and North American migratory waterfowl. Overall, data from the studies we reviewed clearly showed that seagrass ecosystems provide a large subsidy to both near and distant locations through the export of particulate organic matter and living plant and animal biomass. The consequences of continuing seagrass decline thus extend far beyond the areas where seagrasses grow.
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Acknowledgments
We thank our colleagues in the Global Seagrass Trajectories Working Group, which is supported by the National Center for Ecological Analysis and Synthesis, a Center funded by NSF (Grant #DEB-00-72909), the University of California at Santa Barbara, and the State of California. We also thank Dr. Just Cebrian, who kindly provided the information contained in Table 1, Dottie Byron whose comments significantly improved the manuscript and Carolyn Wood who prepared the final draft of this manuscript. This is Bodega Marine Laboratory, University of California-Davis Contribution Number 2428, Dauphin Island Sea Lab Contribution Number 394, UMCES Contribution Number 4219, and VIMS Contribution Number 2966.
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Dauphin Island Sea Lab and University of South Alabama, 101 Bienville Boulevard, Dauphin Island, Alabama, 36528, USA
Kenneth L. Heck Jr.
Integration and Application Network, The University of Maryland Center for Environmental Science, Cambridge, Maryland, 21613, USA
Tim J. B. Carruthers
Instituto Mediterraneo de Estudios Avanzados, IMEDEA, CSIC-Univ. Illes Balears, C/ Miquel Marques 21, 07190, Esporles, Islas Baleares, Spain
Carlos M. Duarte
Bodega Marine Laboratory, University of California, 2099 Westside Road, Bodega Bay, California, 94923, USA
A. Randall Hughes & Susan W. Williams
School of Plant Biology, University of Western Australia, 35 Stirling Highway, Crawley, 6009, Western Australia, Australia
Gary Kendrick
Virginia Institute of Marine Science, College of William and Mary, Gloucester Point, Virginia, 23062, USA
Robert J. Orth
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Heck , K., Carruthers, T., Duarte, C.et al. Trophic Transfers from Seagrass Meadows Subsidize Diverse Marine and Terrestrial Consumers.Ecosystems11, 1198–1210 (2008). https://doi.org/10.1007/s10021-008-9155-y
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