Development & Application of Isotopic Techniques to Assess Eutrophication & HABs in Coastal Areas

Harmful Algal Blooms (HABs) represent a growing global issue, particularly in coastal areas where 40% of the world's population resides. These blooms can produce biotoxins accumulating in seafood, posing risks to human health through illnesses like shellfish or fish poisoning. HABs can also damage ecosystems by causing oxygen depletion and habitat destruction, impacting fisheries, tourism, and recreation. The frequency and severity of HABs are closely linked to eutrophication: the excessive accumulation of biomass following the enrichment of water bodies with nutrients from anthropogenic sources. Climate and other global changes may further influence the occurrence and severity of HABs. However, the influence of chemical speciation and ratios of nutrients in comparison to other abiotic and biotic factors on the phenology of HABs remains poorly understood. Addressing this knowledge gap is crucial for managing eutrophication and, consequently, mitigating adverse health, economic and ecological impacts related to HABs.