Abstract

Algae serves as a food source for a wide range of aquatic species; however, a high concentration of inorganic nutrients under favorable conditions can result in the development of harmful algal blooms (HABs). Many studies have addressed HAB detection and monitoring; however, no global scale meta-analysis has specifically explored remote sensing-based HAB monitoring. Therefore, this manuscript elucidates and visualizes spatiotemporal trends in HAB detection and monitoring using remote sensing methods and discusses future insights through a meta-analysis of 420 journal articles. The results indicate an increase in the quantity of published articles which have facilitated the analysis of sensors, software, and HAB proxy estimation methods. The comparison across multiple studies highlighted the need for a standardized reporting method for HAB proxy estimation. Research gaps include: (1) atmospheric correction methods, particularly for turbid waters, (2) the use of analytical-based models, (3) the application of machine learning algorithms, (4) the generation of harmonized virtual constellation and data fusion for increased spatial and temporal resolutions, and (5) the use of cloud-computing platforms for large scale HAB detection and monitoring. The planned hyperspectral satellites will aid in filling these gaps to some extent. Overall, this review provides a snapshot of spatiotemporal trends in HAB monitoring to assist in decision making for future studies.

Highlights

  • Algae serves as a food source for a wide range of aquatic species; nutrient abundance under favorable conditions can result in the development of harmful algal blooms (HABs) [1,2,3,4,5]

  • This review aims to help researchers in this field make informed decisions regarding the selection of a suitable method for detecting and monitoring HABs according to their specific objectives

  • We start with outlining the trends in the general publication characteristics such as the number of articles published, journals included and the keywords, and the review focuses on trends in HABs’ proxy, sensor characteristics, processing and software used

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Summary

Introduction

Algae serves as a food source for a wide range of aquatic species; nutrient abundance under favorable conditions can result in the development of harmful algal blooms (HABs) [1,2,3,4,5]. HAB development, are mostly associated with the effects of human disturbance [3,6,7]. These include chemicals from agriculture, sewage, and urban run-off [8,9,10,11]. HABs are classified as toxic or nontoxic [18], though both have the potential to cause harm; dinoflagellates account for 75%

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