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« Previous AbstractEvaluating the fate and behaviour of cyclic volatile methyl siloxanes in two contrasting North American lakes using a multi-media model    Next AbstractLetter: Odour-blindness to musk: simple recessive inheritance »

Integr Environ Assess Manag


Title:"Application of multimedia models for understanding the environmental behavior of volatile methylsiloxanes: Fate, transport, and bioaccumulation"
Author(s):Whelan MJ; Kim J;
Address:"Centre for Landscape and Climate Research, School of Geography, Geology and the Environment, University of Leicester, Leicester, UK. Toxicology and Environmental Research and Consulting, The Dow Chemical Company, Midland, Michigan, USA"
Journal Title:Integr Environ Assess Manag
Year:2022
Volume:20210916
Issue:3
Page Number:599 - 621
DOI: 10.1002/ieam.4507
ISSN/ISBN:1551-3793 (Electronic) 1551-3777 (Print) 1551-3777 (Linking)
Abstract:"Multimedia fate and transport models (MFTMs) describe how chemicals behave in the environment based on their inherent properties and the characteristics of receiving systems. We critically review the use of MFTMs for understanding the behavior of volatile methylsiloxanes (VMS). MFTMs have been used to predict the fate of VMS in wastewater treatment, rivers, lakes, marine systems, and the atmosphere, and to assess bioaccumulation and trophic transfers. More widely, they have been used to assess the overall persistence, long-range transport potential (LRTP), and the propensity for atmosphere-surface exchange. The application of MFTMs for VMS requires particularly careful selection of model inputs because the properties of VMS differ from those of most organic compounds. For example, although n-octanol/water partition coefficient (K(OW) ) values are high, air:water partition coefficient (K(AW) ) values are also high and n-octanol/air partition coefficient (K(OA) ) values are relatively low. In addition, organic carbon/water partition coefficient (K(OC) ) values are substantially lower than expectations based on K(OW) . This means that most empirical relationships between K(OC) and K(OW) are not appropriate. Good agreement between modeled and measured concentrations in air, sediment, and biota indicates that our understanding of environmental fate is reasonable. VMS compounds are 'fliers' that principally partition to the atmosphere, implying high LRTP, although they have low redeposition potential. They are degraded in air (half-lives 3-10 days) and, thus, have low overall persistence. In water, exposure can be limited by hydrolysis, volatilization, and partitioning to sediments (where degradation half-lives are likely to be high). In food webs, they are influenced by metabolism in biota, which tends to drive trophic dilution (i.e., trophic magnification factors are often but not always <1). Key remaining uncertainties include the following: (i) the strength and direction of the temperature dependence for K(OC) ; (ii) the fate of atmospheric reaction products; and (iii) the magnitude of emissions to wastewater. Integr Environ Assess Manag 2022;18:599-621. (c) 2021 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC)"
Keywords:1-Octanol Bioaccumulation Environmental Monitoring *Multimedia *Rivers Water/chemistry Environmental fate Long-range transport potential Multimedia fate and transport models Persistence Volatile methylsiloxane;
Notes:"MedlineWhelan, Michael J Kim, Jaeshin eng NA/Silicones Europe/ Review 2021/08/11 Integr Environ Assess Manag. 2022 May; 18(3):599-621. doi: 10.1002/ieam.4507. Epub 2021 Sep 16"

 
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