Prymnesium parvum Population Dynamics During Bloom Development: A Role Assessment of Grazers and Virus1 |
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| Authors: | Leslie Schwierzke Daniel L Roelke Bryan W Brooks James P Grover Theodore W Valenti Jr Mieke Lahousse Carrie J Miller James L Pinckney |
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| Institution: | 1. Respectively, Research Associates (Schwierzke and Miller), Department of Wildlife and Fisheries Sciences, Texas A&M University, College Station, Texas 77843-2258;2. Associate Professor (Roelke), Department of Wildlife and Fisheries Sciences and Oceanography, Texas A&M University, College Station, Texas 77843-2258;3. Associate Professor (Brooks), Research Associates (Valenti and Lahousse), Department of Environmental Science, and Center for Reservoir and Aquatic Systems Research, Baylor University, Waco, Texas;4. Professor (Grover), Department of Biology, and Program in Environmental and Earth Sciences, University of Texas at Arlington, Arlington, Texas;5. Associate Professor (Pinckney), Marine Science Program and Department of Biological Sciences, University of South Carolina, Columbia, South Carolina. |
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| Abstract: | Schwierzke, Leslie, Daniel L. Roelke, Bryan W. Brooks, James P. Grover, Theodore W. Valenti, Jr., Mieke Lahousse, Carrie J. Miller, and James L. Pinckney, 2010. Prymnesium parvum Population Dynamics During Bloom Development: A Role Assessment of Grazers and Virus. Journal of the American Water Resources Association (JAWRA) 46(1):63-75. DOI: 10.1111/j.1752-1688.2009.00391.x Abstract: The toxic haptophyte Prymnesium parvum is a harmful alga known to cause fish-killing blooms that occur worldwide. In Texas (United States), P. parvum blooms occur in inland brackish water bodies and have increased in frequency and magnitude in recent years. In this study we conducted three consecutive field experiments (Lake Whitney) to investigate the influence of zooplankton and viruses on P. parvum bloom dynamics during the time of year when blooms are still typically active in Texas (early spring). A localized P. parvum bloom developed during our study that involved increasing levels of toxicity (based on Pimephales promelas and Daphnia magna bioassays). Only in our last experiment, during later stages of bloom development and under highly toxic conditions, did the presence of grazers show a statistically significant, negative effect on P. parvum population dynamics. During this experiment, a rotifer-dominated zooplankton community emerged, composed mostly of Notholca laurentiae, suggesting that this species was less sensitive than other grazers to toxins produced by P. parvum. Microzooplankton may have also been important at this time. Similarly, only our final experiment demonstrated a statistically significant, negative effect of viruses on P. parvum. This exploratory study, resulting in observed impacts on P. parvum populations by both grazers and virus, enhances our understanding of P. parvum ecology and highlights direction for future studies on resistance of zooplankton to prymnesin toxins and algal-virus interactions. |
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| Keywords: | aquatic ecology lakes harmful algal blooms toxicology grazing pathogens phytoplankton zooplankton allelopathy prymnesins |
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