Using climate reanalysis and remote sensing-derived data to create the basis for predicting the occurrence of algal blooms, harmful algal blooms and toxic events in Santa Catarina, Brazil

Using climate reanalysis and remote sensing-derived data to create the basis for predicting the occurrence of algal blooms, harmful algal blooms and toxic events in Santa Catarina, Brazil

This study aimed to form a basis for future predictive modeling efforts in support of the harmful algal blooms (HAB) surveillance program currently in force in the Brazilian State of Santa Catarina (SC). Data from monitoring toxin-producing algae were merged with both meteorological and oceanographi...

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Bibliographic Details
Published in:The Science of the total environment Vol. 880; p. 163086
Main Authors: Vianna, Luiz F.N., de Souza, Robson V., Schramm, Mathias A., Alves, Thiago P.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-07-2023
Subjects:
Brazil
Chlorophyll
Dinoflagellida
Harmful Algal Bloom
Meteorology
Microalgae
Phytoplankton
Remote Sensing Technology
Satellite
Shellfish aquaculture
Brazil
Chlorophyll
Satellite
Microalgae
Shellfish aquaculture
Meteorology
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Summary:This study aimed to form a basis for future predictive modeling efforts in support of the harmful algal blooms (HAB) surveillance program currently in force in the Brazilian State of Santa Catarina (SC). Data from monitoring toxin-producing algae were merged with both meteorological and oceanographic data and analyzed. Data from four sources were used in this study: climate reanalysis (air temperature, pressure, cloud cover, precipitation, radiation, U and V winds); remote sensing (chlorophyll concentration and sea surface temperature); Oceanic Niño Index; and HAB monitoring data (phytoplankton counts and toxin levels in shellfish samples obtained from 39 points located in shellfish farms distributed along the SC coastline). This study analyzed the period from 2007-01-01 to 2019-12-31 (7035 records in the HAB database) and used descriptive, bivariate and multivariate analyses to draw correlations among environmental parameters and the occurrence of algal blooms (AB), HAB and toxic events. Dinophysis spp. AB were the most registered type of event and tended to occur during the late autumn and winter months. These events were associated with high atmospheric pressure, predominance of westerly and southerly winds, low solar radiation and low sea and air temperature. An inverted pattern was observed for Pseudo-nitzschia spp. AB, which were mostly registered during the summer and early autumn months. These results give evidence that the patterns of occurrence of highly prevalent toxin-producing microalgae reported worldwide, such as the Dinophysis AB during the summer, differ along the coast of SC. Our findings also show that meteorological data, such as wind direction and speed, atmospheric pressure, solar radiation and air temperature, might all be key predictive modeling input parameters, whereas remote sensing estimates of chlorophyll, which are currently used as a proxy for the occurrence of AB, seem to be a poor predictor of HAB in this geographic area. [Display omitted] •Dinophysis and Pseudo-nitzschia blooms are the most common in southern Brazil.•Dinophysis spp. blooms tend to occur during late fall and winter.•Dinophysis spp. blooms coincided with low solar radiation.•Pseudo-nitzschia spp. blooms tend to occur during summer and early fall.•Phytoplankton abundance is a bad predictor of HAB occurrence in SC.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.163086