利用双碳模型，对巴基斯坦小喜马拉雅地区的水位和包含黑碳的有机氯泥沙-水分配情况进行核算。

Accounting for water levels and black carbon-inclusive sediment-water partitioning of organochlorines in Lesser Himalaya, Pakistan using two-carbon model.

机构信息

Department of Environmental Sciences, Faculty of Biological Sciences, Quaid-i-Azam University, Islamabad, 45320, Pakistan.

Centre for Chemicals Management, Lancaster Environment Centre, Lancaster University, Bailrigg, Lancaster, LA1 4YQ, UK.

出版信息

Environ Sci Pollut Res Int. 2018 Sep;25(25):24653-24667. doi: 10.1007/s11356-018-1940-3. Epub 2018 Jun 18.

DOI:10.1007/s11356-018-1940-3

PMID:29916147

Abstract

This study was designed to monitor organochlorine pesticides (OCPs) and polychlorinated biphenyls (PCBs) in riverine water of Lesser Himalaya along the altitude. Further, the sediment-water partitioning employing organic carbon and black carbon models were assessed. Results revealed higher water levels of organochlorine pesticides (0.07-41.4 ng L) and polychlorinated biphenyls (0.671-84.5 ng L) in Lesser Himalayan Region (LHR) of Pakistan. Spatially, elevated levels were observed in the altitudinal zone (737-975 masl) which is influenced by anthropogenic and industrial activities. Sediment-water partitioning of OCPs and PCBs were deduced using field data by employing one-carbon (fK) and two-carbon Freundlich models (fK + fKC). Results suggested improved measured vs predicted model concentrations when black carbon was induced in the model and suggested adsorption to be the dominant mechanism in phase partitioning of organochlorines in LHR.

摘要

本研究旨在监测沿海拔高度的小喜马拉雅地区河流水体中的有机氯农药（OCPs）和多氯联苯（PCBs）。此外，还评估了利用有机碳和黑碳模型进行的固-水分配。结果表明，巴基斯坦小喜马拉雅地区（LHR）的水体中有机氯农药（0.07-41.4ng/L）和多氯联苯（0.671-84.5ng/L）的含量较高。在受人为和工业活动影响的海拔高度带（737-975 米），观察到含量升高的情况。通过使用单碳（fK）和双碳弗伦德利希模型（fK+fKC），利用现场数据推导出 OCPs 和 PCBs 的固-水分配。结果表明，当在模型中引入黑碳时，实测值与预测值的模型浓度得到改善，表明在 LHR 中，有机氯的相分配以吸附为主导机制。

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利用双碳模型，对巴基斯坦小喜马拉雅地区的水位和包含黑碳的有机氯泥沙-水分配情况进行核算。

Accounting for water levels and black carbon-inclusive sediment-water partitioning of organochlorines in Lesser Himalaya, Pakistan using two-carbon model.

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