Project: Chemical Defenses in a Toxic Dinoflagellate: Mechanisms and Constraints

Acronym/Short Name:Chemical Defenses
Project Duration:2011-09 - 2015-08
Geolocation:New England waters from Connecticut to Maine

Description

Description from NSF award abstract:
Species of the dinoflagellate genus Alexandrium occur around the globe, and some species, because of their toxin production, have been hypothesized to be keystone species. Alexandrium produces chemical compounds that appear to target different consumers. Neurotoxins such as PST target metazoan grazers. In preliminary experiments in their laboratory, the investigators also verified the presence of reactive oxygen species that target, at a minimum, protistan grazers. Such compounds reduce grazer fitness, and, at least in the case of PST, have been shown to have profound evolutionary effects on grazers. Grazer adaptation, in turn, can affect Alexandrium population dynamics. A common assumption is that production of toxic compounds in phytoplankton represents an adaptive defense. However, unequivocal experimental evidence in support of this hypothesis is scarce. This project will be a rigorous experimental test of the chemical defense hypothesis. The project's investigators will investigate a series of experimentally falsifiable hypotheses with both metazoan and protistan grazers challenged with Alexandrium. This project will provide novel understanding of, and insight into, the factors that determine grazer-induced toxin production, the relationship between degree of chemical defense and susceptibility to grazing, and the costs and tradeoffs of the purported mechanisms of chemical defense in Alexandrium. Verification or refutation of the chemical defense hypothesis is essential to conceptual models of the formation, control and persistence of toxic algal blooms, and chemically-mediated predator-prey interactions.



People

Principal Investigator: Hans G. Dam
University of Connecticut (UConn)

Co-Principal Investigator: David Avery
University of Connecticut (UConn)

Contact: Hans G. Dam
University of Connecticut (UConn)


Data Management Plan

DMP_Dam_OCE-1130284.pdf (9.62 KB)
02/09/2025