Anatomy of a red tide bloom off the southwest coast of Florida |
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Authors: | C.S. Yentsch B.E. Lapointe N. Poulton D.A. Phinney |
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Affiliation: | aBigelow Laboratory for Ocean Sciences, West Boothbay Harbor, ME 04575, USA;bPlankton Research & Instruments, 504 Bahama Street, Key West, FL 33040, USA;cHarbor Branch Oceanographic Institute, Florida Atlantic University, 5600 US Highway One, Fort Pierce, FL 34946, USA |
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Abstract: | A massive outbreak of Karenia brevis that had been ongoing for several months along the southwestern coast of Florida was sampled in early September 2005 off Sanibel Island to assess the utility of bio-optical features and ataxonomic analysis (quantification of eukaryotic and cyanobacterial picoplankton) by flow cytometry in monitoring red tide blooms. Sea-surface sampling followed aircraft visual location of discolored water. Within the most concentrated area of the bloom, chlorophyll a values exceeded 500 μg l−1, and concentrations of nitrate (0.3 μM ± 0.0) and ammonium (<0.2 μM) were depleted compared to high concentrations of total dissolved nitrogen, total dissolved phosphorus, and soluble reactive phosphorus (141 ± 34 μM, 16.5 ± 2.5 μM, and 6.44 ± 0.57 μM, respectively). Low water clarity in the bloom (Secchi depth transparency 0.3 m, Kd estimated at 4.83 m−1) was strongly influenced by attenuation from dinoflagellates as well as chromophoric dissolved organic matter (CDOM). The fact that the K. brevis bloom occurred in lower-salinity (30 psu), high-nutrient waters implicates riverine transport of land-based nutrients as a source of nutrient supplies that fueled or sustained the bloom. Throughout ongoing efforts to advance modeling and technological capabilities that presently lack reliable predictive capability, bio-optical remote sensing via aerial flyovers along with in-water sensor data can continue to provide accurate coverage of relatively large temporal and spatial features. Flow cytometry can provide conservative (because of some cell lysis), rapid, near-real-time validation of bloom components. The concentration and position of the organisms, along with water mass scalars, can also help to diagnose factors promoting K. brevis bloom development and dispersion. |
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Keywords: | Ataxonomic analysis Chromophoric dissolved organic matter Early warning system Eutrophication Flow cytometry Karenia brevis Particle absorbance Visible reflected light |
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