Marc A. Mills Johanna M. Kraus David M. Walters Polly P. Gibson 2017 <p><span>Changes in analytical methods over time pose problems for assessing long-term trends in environmental contamination by polychlorinated biphenyls (PCBs). Congener-specific analyses vary widely in the number and identity of the 209 distinct PCB chemical configurations (congeners) that are quantified, leading to inconsistencies among summed PCB concentrations (&Sigma;PCB) reported by different studies. Here we present a modeling approach using linear regression to compare &Sigma;PCB concentrations derived from different congener-specific analyses measuring different co-eluting groups. The approach can be used to develop a specific conversion model between any two sets of congener-specific analytical data from similar samples (similar matrix and geographic origin). We demonstrate the method by developing a conversion model for an example data set that includes data from two different analytical methods, a low resolution method quantifying 119 congeners and a high resolution method quantifying all 209 congeners. We used the model to show that the 119-congener set captured most (93%) of the total PCB concentration (i.e., &Sigma;</span>_{<span>209</span>}<span>PCB) in sediment and biological samples. &Sigma;PCB concentrations estimated using the model closely matched measured values (mean relative percent difference&thinsp;=&thinsp;9.6). General applications of the modeling approach include (a) generating comparable &Sigma;PCB concentrations for samples that were analyzed for different congener sets; and (b) estimating the proportional contribution of different congener sets to &Sigma;PCB. This approach may be especially valuable for enabling comparison of long-term remediation monitoring results even as analytical methods change over time.&nbsp;</span></p> application/pdf 10.1002/ieam.1821 en SETAC A modeling approach to compare ΣPCB concentrations between congener-specific analyses article