TitlePassive sampling of DDT, DDE and DDD in sediments: accounting for degradation processes with reaction-diffusion modeling.
Publication TypeJournal Article
AuthorsA Tcaciuc P, Borrelli R, Zaninetta LM, Gschwend PM
JournalEnviron Sci Process Impacts
Date2018 Jan 24

Passive sampling is becoming a widely used tool for assessing freely dissolved concentrations of hydrophobic organic contaminants in environmental media. For certain media and target analytes, the time to reach equilibrium exceeds the deployment time, and in such cases, the loss of performance reference compounds (PRCs), loaded in the sampler before deployment, is one of the common ways used to assess the fractional equilibration of target analytes. The key assumption behind the use of PRCs is that their release is solely diffusion driven. But in this work, we show that PRC transformations in the sediment can have a measurable impact on the PRC releases and even allow estimation of that compound's transformation rate in the environment of interest. We found that in both field and lab incubations, the loss of theC 2,4'-DDT PRC from a polyethylene (PE) passive sampler deployed at the sediment-water interface was accelerated compared to the loss of other PRCs (C-labeled PCBs,C-labeled DDE and DDD). The DDT PRC loss was also accompanied by accumulation in the PE of its degradation product,C 2,4'-DDD. Using a 1D reaction-diffusion model, we deduced the in situ degradation rates of DDT from the measured PRC loss. The in situ degradation rates increased with depth into the sediment bed (0.14 dat 0-10 cm and 1.4 dat 30-40 cm) and although they could not be independently validated, these rates compared favorably with literature values. This work shows that passive sampling users should be cautious when choosing PRCs, as degradation processes can affect some PRC's releases from the passive sampler. More importantly, this work opens up the opportunity for novel applications of passive samplers, particularly with regard to investigating in situ degradation rates, pathways, and products for both legacy and emerging contaminants. However, further work is needed to confirm that the rates deduced from model fitting of PRC loss are a true reflection of DDT transformation rates in sediments.

Alternate JournalEnviron Sci Process Impacts
PubMed ID29264604
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Gschwend Lab
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    <p>Professor Philip Gschwend<br>Ralph M. Parsons Laboratory for Environmental Science and Engineering<br>Massachusetts Institute of Technology<br>15 Vassar Street<br>Cambridge, MA 02139</p>
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