Satellite Remote Sensing of Harmful Algal Blooms: A New Multi-algorithm Method for Detecting the Florida Red Tide (Karenia Brevis)

Overview

Journal Harmful Algae

Publisher Elsevier

Specialties Biology
Environmental Health
Microbiology
Toxicology

Date 2010 Nov 2

PMID 21037979

Citations 6

Authors

Gustavo A Carvalho

Peter J Minnett

Lora E Fleming

Viva F Banzon

Warner Baringer

Affiliations

Soon will be listed here.

Abstract

In a continuing effort to develop suitable methods for the surveillance of Harmful Algal Blooms (HABs) of Karenia brevis using satellite radiometers, a new multi-algorithm method was developed to explore whether improvements in the remote sensing detection of the Florida Red Tide was possible. A Hybrid Scheme was introduced that sequentially applies the optimized versions of two pre-existing satellite-based algorithms: an Empirical Approach (using water-leaving radiance as a function of chlorophyll concentration) and a Bio-optical Technique (using particulate backscatter along with chlorophyll concentration). The long-term evaluation of the new multi-algorithm method was performed using a multi-year MODIS dataset (2002 to 2006; during the boreal Summer-Fall periods - July to December) along the Central West Florida Shelf between 25.75°N and 28.25°N. Algorithm validation was done with in situ measurements of the abundances of K. brevis; cell counts ≥1.5×10(4) cells l(-1) defined a detectable HAB. Encouraging statistical results were derived when either or both algorithms correctly flagged known samples. The majority of the valid match-ups were correctly identified (~80% of both HABs and non-blooming conditions) and few false negatives or false positives were produced (~20% of each). Additionally, most of the HAB-positive identifications in the satellite data were indeed HAB samples (positive predictive value: ~70%) and those classified as HAB-negative were almost all non-bloom cases (negative predictive value: ~86%). These results demonstrate an excellent detection capability, on average ~10% more accurate than the individual algorithms used separately. Thus, the new Hybrid Scheme could become a powerful tool for environmental monitoring of K. brevis blooms, with valuable consequences including leading to the more rapid and efficient use of ships to make in situ measurements of HABs.

Citing Articles

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Brand L, Campbell L, Bresnan E Harmful Algae. 2023; 14:156-178.

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Data mashups: potential contribution to decision support on climate change and health.

Fleming L, Haines A, Golding B, Kessel A, Cichowska A, Sabel C Int J Environ Res Public Health. 2014; 11(2):1725-46.

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Long-term evaluation of three satellite ocean color algorithms for identifying harmful algal blooms (Karenia brevis) along the west coast of Florida: A matchup assessment.

Carvalho G, Minnett P, Banzon V, Baringer W, Heil C Remote Sens Environ. 2011; 115(1):1-18.

PMID: 22180667 PMC: 3238914. DOI: 10.1016/j.rse.2010.07.007.

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