Using satellite imagery and national surveys to identify lakes at-risk for toxic cyanobacteria blooms in the U.S.
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Algal blooms caused by toxin-producing cyanobacteria are a threat to global water resources and human health. Water resource managers need tools that identify which lakes are at risk of toxic cyanobacteria blooms. We address this need by using Cyanobacteria Assessment Network satellite imagery and US EPA National Lakes Assessment field surveys to model the probability of large lakes exceeding lower and higher demonstration thresholds of microcystin toxin, cyanobacteria, and chlorophyll a. For every satellite-derived Cyanobacteria Index (CI_cyano) increase of 0.01 (CI_cyano/km2) the odds of exceeding the six thresholds increased by 23–54%. When applied to all 2,192 satellite monitored lakes, the models identified lakes with ≥75% probability of exceeding the lower or higher thresholds as less than 336 and less than 70 lakes, respectively. Our approach identified lakes that are at higher risk of experiencing toxic algal blooms and may require additional monitoring. We compile lake water chemistry, lake morphology, watershed characteristics, and basin climate data to evaluate potential predictors of blooms. In addition, we compare models with and without lake water physical and chemical data to evaluate the necessity of in-lake information for determining which lakes are at higher risk for experiencing blooms. These approaches are a critical advancement in using national datasets to determine which lakes may require additional field monitoring and management priorities.