Regulation of body dimethylsulfoniopropionate (DMSP) content by the copepod Temora longicornis : a test of four mechanisms

Abstract

Copepods contain dimethylsulfoniopropionate (DMSP) in their tissues in addition to the DMSP in their gut contents and therefore constitute an additional pool of DMSP in the ocean. In the estuarine copepod Temora longicornis Muller, this dynamic pool of DMSP is reduced when external salinity decreases. In the present study the mechanism(s) used by T. longicornis to adjust its DMSP content were examined. Four possible mechanisms were tested in experiments conducted between July 1997 and May 1999: (1) DMSP cleavage, (2) demethylation, (3) conversion to methionine, and (4) release from the body. Tissue extracts of T. longicornis did not exhibit the ability to cleave or demethylate DMSP. In incubation experiments, when external salinity decreased, T. longicornis individuals reduced their DMSP content without increasing their methionine content. The total amount of DMSP in the incubation vials was conserved regardless of salinity. The copepods retained most of the DMSP in their tissues in 30‰ water, but when salinity was reduced to 20‰, the copepods released 41 to 55% of their body DMSP to the surrounding medium; 89 to 91% of the total DMSP was recovered. This suggests that estuarine copepods represent a reservoir of DMSP, which is released as dissolved DMSP upon salinity decline. Therefore, while osmoregulation by these copepods may have little impact on the chemical properties of DMSP, it will affect the partitioning of DMSP between particulate and dissolved phases in the water column.