Multispecies mass mortality of marine fauna linked to a toxic dinoflagellate bloom

Michel Starr,Michael Scarratt,Michel Robert,Pierre Béland,Michael Quilliam,Stéphane Lair,Gilbert Sauvé,Nadia Ménard,Sonia Michaud,Andrew Wotherspoon,Robert Michaud,Denis Lefaivre,Sylvie Lessard,Lena Measures,Hans G Dam

doi:10.1371/journal.pone.0176299

Abstract

Following heavy precipitation, we observed an intense algal bloom in the St. Lawrence Estuary (SLE) that coincided with an unusually high mortality of several species of marine fish, birds and mammals, including species designated at risk. The algal species was identified as Alexandrium tamarense and was determined to contain a potent mixture of paralytic shellfish toxins (PST). Significant levels of PST were found in the liver and/or gastrointestinal contents of several carcasses tested as well as in live planktivorous fish, molluscs and plankton samples collected during the bloom. This provided strong evidence for the trophic transfer of PST resulting in mortalities of multiple wildlife species. This conclusion was strengthened by the sequence of mortalities, which followed the drift of the bloom along the coast of the St. Lawrence Estuary. No other cause of mortality was identified in the majority of animals examined at necropsy. Reports of marine fauna presenting signs of neurological dysfunction were also supportive of exposure to these neurotoxins. The event reported here represents the first well-documented case of multispecies mass mortality of marine fish, birds and mammals linked to a PST-producing algal bloom.

Highlights

The paralytic shellfish toxins (PST) associated with paralytic shellfish poisoning (PSP) are potent neurotoxins produced by natural, environmentally-driven populations of some marine dinoflagellates, mainly by Alexandrium spp [1]
Mass mortality of marine fauna linked to a PST-producing algal bloom in mammals, birds and fish—with a toxic potency up to 100-fold greater than sodium cyanide [1]
Mass mortality of marine fauna linked to a PST-producing algal bloom tamarense cell abundances at Tadoussac and Saguenay River runoff (m3 s–1). (D) Mollusc toxicity near Bic Island

Summary

Introduction

The paralytic shellfish toxins (PST) associated with paralytic shellfish poisoning (PSP) are potent neurotoxins produced by natural, environmentally-driven populations of some marine dinoflagellates, mainly by Alexandrium spp [1]. Mass mortality of marine fauna linked to a PST-producing algal bloom in mammals, birds and fish—with a toxic potency up to 100-fold greater than sodium cyanide [1].

Results

Conclusion