Tracking losses of brevetoxins on exposure to phytoplankton competitors: Mechanistic insights

The increasing frequency of devastating blooms of the harmful dinoflagellate Karenia brevis has motivated investigations into understanding bloom dynamics and the potential for mitigation. Previous findings indicate that waterborne concentrations of the most abundant brevetoxin (brevetoxin B or PbTx-2) associated with these blooms decrease in the presence of other phytoplankton species. The current study explores the mechanism of brevetoxin removal from seawater upon exposure to phytoplankton competitors. Live phytoplankton removed waterborne brevetoxins more rapidly than lysates, but phytoplankton did not need to be in a state of active metabolism. Biomolecules, probably proteins, exuded from phytoplankton appeared to be responsible for the loss of brevetoxins, either by irreversible complexation or by degradation. Selective removal of PbTx-2 and -1, but not PbTx-3, -9 or BTX-B5, by cultured phytoplankton revealed that brevetoxin removal is dependent upon the presence of an alpha,beta-unsaturated aldehyde functionality. The mechanism of biotransformation appears to be common among phytoplankton, since members of various taxonomic groups including diatoms, dinoflagellates, and a cryptophyte each caused 75-90% decrease in PbTx-2 concentration, as did a generic protein (bovine serum albumin) added to seawater at high concentration. These findings support the concept of potentially using competitor phytoplankton species or compounds derived from phytoplankton as biocontrol agents for waterborne toxins associated with red tide. (C) 2010 Published by Elsevier B.V.