Do dissipation and transformation of γ-HCH and p,p’-DDT in soil respond to a proxy for climate change? Insights from a field study on the eastern Tibetan Plateau
编号:2001 稿件编号:1677 访问权限:仅限参会人 更新:2021-07-04 16:44:28 浏览:631次 口头报告

报告开始:2021年07月11日 14:10 (Asia/Shanghai)

报告时间:10min

所在会议:[S20] 20、地球关键带与全球变化 » [S20-4/6] S20-4/6 20、地球关键带与全球变化

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摘要
While the influence of climate change on the fate of persistent organic pollutants (POPs) is becoming a topic of global concern, it has yet to be demonstrated how POPs and their transformation products in soil respond to a changing climate at the local scale. We conducted a year-long field experiment with spiked soils to investigate the impact of climate on the dissipation of γ-hexachlorocyclohexane (γ-HCH) and p,p’-dichlorodiphenyltrichloroethane (p,p’-DDT) as well as the formation of their products. Four sites along an elevational gradient on the eastern Tibetan Plateau were selected to represent four scenarios ranging from a dry and cold to a warm and humid climate. Based on the measured concentrations of the two pesticides and their transformation products, we calculated the dissipation rates of γ-HCH and p,p’-DDT in soil using two biphasic kinetic models, and the formation rates of transformation products using a mid-point rectangular approximation method. The spiked γ-HCH generally showed the expected decrease in dissipation from soils with increasing altitudes, and therefore decreasing temperature and precipitation, whereas dissipation of p,p’-DDT was influenced more by photolysis and sequestration in soil. The formation rates of the primary products of γ-HCH (i.e. γ-HCH→PeCCH and γ-HCH→TeCCH) and p,p’-DDT (i.e. p,p’-DDT→p,p’-DDE and p,p’-DDT→p,p’-DDD) indicate that a warmer and wetter climate favors dechloroelimination (anaerobic biodegradation) over dehydrochlorination (aerobic biodegradation). The significantly longer dissipation half-lives of γ-HCH at the coldest site suggests that the fate of POPs in frozen regions (e.g. polar regions) needs more attention. Overall, the fate of more volatile chemicals (e.g. γ-HCH) might be more responsive to the climate change.
关键字
Pesticides,Environmental fate,Transformation products,climate change
报告人
丁洋
中国地质大学(武汉)

稿件作者
丁洋 中国地质大学(武汉)
LiLi University of Nevada; Reno
FrankWania University of Toronto Scarborough
HuangHuanfang Chinese Academy of Sciences;Guangzhou Institute of geochemistry
ZhangYuan China University of Geosciences
QiShihua China University of Geosciences
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