Dynamics of microcystins and saxitoxin in the Indian River Lagoon, Florida
•The presence of diatoms, dinoflagellates, and cyanobacteria matched observed patterns in microcystins.•The presence of diatoms and dinoflagellates matched observed patterns in saxitoxin.•Observed patterns in toxin concentrations were highly related to dissolved nutrients.•High concentrations of sax...
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Veröffentlicht in: | Harmful algae 2021-03, Vol.103, p.102012-102012, Article 102012 |
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Sprache: | eng |
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Zusammenfassung: | •The presence of diatoms, dinoflagellates, and cyanobacteria matched observed patterns in microcystins.•The presence of diatoms and dinoflagellates matched observed patterns in saxitoxin.•Observed patterns in toxin concentrations were highly related to dissolved nutrients.•High concentrations of saxitoxin were identified in high N:P environments.•Toxicities to some mammalian cell lines suggest unidentified toxins in the IRL.
Harmful algal blooms that can produce toxins are common in the Indian River Lagoon (IRL), which covers ~250 km of Florida's east coast. The current study assessed the dynamics of microcystins and saxitoxin in six segments of the IRL: Banana River Lagoon (BRL), Mosquito Lagoon (ML), Northern IRL (NIRL), Central IRL (CIRL), Southern IRL (SIRL), and the St. Lucie Estuary (SLE). Surface water samples (n = 40) collected during the 2018 wet and 2019 dry season were analyzed to determine associations between toxins and temperature, salinity, pH, oxygen saturation, concentrations of dissolved nutrients and chlorophyll-a, presence of biosynthetic genes for toxins, relative abundance of planktonic species, and composition of the microbial community. The potential toxicity of samples was assessed using multiple mammalian cell lines. Enzyme-Linked Immunosorbent Assays were used to determine concentrations of microcystins and saxitoxin. Overall, the microcystins concentration ranged between 0.01-85.70 µg/L, and saxitoxin concentrations ranged between 0.01-2.43 µg/L across the IRL. Microcystins concentrations were 65% below the limit of quantification (0.05 µg/L), and saxitoxin concentrations were 85% below the limit of detection (0.02 µg/L). Microcystins concentrations were higher in the SLE, while saxitoxin was elevated in the NIRL and BRL. Cytotoxicity related to the presence of microcystins was seen in the SLE during the wet season. No significant patterns between cytotoxicity and saxitoxin were identified. Dissolved nutrients were identified as the most highly related parameters, explaining 53% of microcystin and 47% of saxitoxin variability. Multivariate models suggested cyanobacteria, flagellates, ciliates, and diatoms as the subset of microorganisms whose abundances were maximally correlated with saxitoxin and microcystins concentrations. Lastly, biosynthetic genes for microcystins were detected in the SLE and for saxitoxin in the BRL and NIRL. These results highlight the synergistic roles environmental and biological parameters play in infl |
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ISSN: | 1568-9883 1878-1470 |
DOI: | 10.1016/j.hal.2021.102012 |