Abstract
While many coastal ecosystems previously supported dense meadows of seagrass and dense stocks of bivalves, the impacts of overfishing, eutrophication, harmful algal blooms, and habitat loss have contributed to the decline of these important resources. Anthropogenic nutrient loading and subsequent eutrophication has been identified by some researchers as a primary driver of these losses, but others have described potential positive effects of eutrophication on some estuarine resources. The Peconic Estuary, Long Island, NY, USA, offers a naturally occurring nutrient-loading gradient from eutrophic tidal creeks in its western reaches to mesotrophic bays in the eastern region. Over 2 years, we conducted an experiment across this gradient to examine the effects of eutrophication on the growth of estuarine species, including juvenile bivalves (northern quahogs (Mercenaria mercenaria), eastern oysters, (Crassostrea virginica), and bay scallops (Argopecten irradians)) and slipper limpet (Crepidula fornicata). Water quality and phytoplankton community biomass and composition were concurrently monitored at each site, and the effects of these variables on the growth of estuarine species were analyzed with multiple regression model. Eutrophication seemed to impact shellfish through changes in the quality of food and not the quantity since the growth rates of shellfish were more often correlated with densities of specific cell types or quality of seston rather than bulk measures of phytoplankton and organic seston. Northern quahogs and eastern oysters grew maximally within eutrophic locales, and their growth was positively correlated with high densities of autotrophic nanoflagellates and centric diatoms in these regions (p < 0.001). The growth rates of northern quahogs were also positively correlated with relative water motion, suggesting an important role for tidal currents in delivering seston to suspension feeders. Bay scallops and slipper limpets were negatively impacted by eutrophication, growing at the slowest rate at the most eutrophic sites. Furthermore, bay scallop growth was negatively correlated with densities of dinoflagellates, which were more abundant at the most eutrophic site (p < 0.001). These results suggest that nutrient loading can have significant but complex effects on suspension-feeding molluscs with select species (e.g., oysters and clams) benefiting from eutrophication and other species performing poorly (e.g., scallops and slipper limpets). Future management approaches that seek to restore bivalve populations will need to account for the differential effects of nutrient loading as managers target species and regions to be restored.
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Acknowledgments
Many people provided field and laboratory support for this project, including B. Rodgers, A. Burson C. Blankenship, R. Goodale, M. Marcoval, R. Wallace, T. Hattenrath, S. Ingles, J. Goleski, T. Duffy, J. Carroll, L. Merlo, M. Harke, T. Davis, A. Ehmer, K. Lavelle, T. Behling, K. Montanye, V. Yin, M. Meade, C. MacIntyre, D. Getz, and B. Gagliardi. Juvenile shellfish were provided by G. Rivara and M. Patricio from Cornell Cooperative Extension, Southold, NY. Access to MHC field site was granted by Larry’s Lighthouse Marina, Aquebogue, NY. This manuscript was improved by the suggestions of R. Aller, G. Lopez, and two anonymous reviewers. This project was supported by funding from The Nature Conservancy and The New Tamarind Foundation.
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Wall, C.C., Gobler, C.J., Peterson, B.J. et al. Contrasting Growth Patterns of Suspension-Feeding Molluscs (Mercenaria mercenaria, Crassostrea virginica, Argopecten irradians, and Crepidula fornicata) Across a Eutrophication Gradient in the Peconic Estuary, NY, USA. Estuaries and Coasts 36, 1274–1291 (2013). https://doi.org/10.1007/s12237-013-9632-1
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DOI: https://doi.org/10.1007/s12237-013-9632-1