Precision of dialysis (peeper) sampling of cadmium in marine sediment interstitial water.

Abstract

Isolating and analyzing interstitial water (IW) during sediment toxicity tests enables researchers to relate concentrations of contaminants to responses of organisms, particularly when IW is a primary route of exposure to bioavailable contaminants by benthic dwelling organisms. We evaluate here the precision of sampling IW with the dialysis or 'peeper' method using sediments spiked with five different concentrations of cadmium. This method is one of several that are commonly used for collecting IW. Seven consecutive ten-day toxicity tests were conducted on these sediments and IW samples were collected at the end of each of these tests. Prior to each test initiation and insertion of IW samplers, sediments were allowed to equilibrate for seven days under flow-through conditions with filtered seawater. At the end of each ten-day testing period, peepers were retrieved, and IW cadmium measured. Data sets were organized by treatment and test number. Coefficients of variation (CV) for the six replicates for each sediment and testing period and for each sediment across testing periods (42 replicates) was used as a measure of sampling precision. CVs ranged from 25 to 206% when individual testing periods were considered, but ranged from 39 to 104% when concentrations for all testing periods were combined. However, after removal of outliers using Dixon's Criteria, the CVs improved and ranged from 6 to 88%. These levels of variability are comparable to those reported by others. The variability shown is partially explained by artifacts associated with the dialysis procedure, primarily sample contamination. Further experiments were conducted that support our hypothesis that contamination of the peeper causes much of the variability observed. If method artifacts, especially contamination, are avoided the dialysis procedure can be a more effective means for sampling IW metal.