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刘建国: 化学品环境暴露、影响与政策研究组

北京大学环境大楼511室,010-62759075,jgliu@ pku.edu.cn

刘建国:化学品环境风险评估、风险管理与全球治理研究组
  • 团队介绍(Group Introduction)
    • 导师(PI, Supervisor)
      • 刘建国 Jianguo Liu
    • 在读学生
      • 陈安娜 Anna Chen
      • 张少轩 Shaoxuan Zhang
      • 陈嘉喆 Jiazhe Chen
      • 陆蓉静 RONGJING LU
      • 章志淳 Zhichun Zhang
    • 已毕业学生
  • 项目与成果(Projects&Publications)
    • 科研项目(Research Projects)
    • 期刊论文(Journal Publications)
    • 学术专著(Books)
  • 课程(Courses)
  • 新闻(News)
    • 照片墙(Photos)
      • 照片展示
    首页 / 项目与成果(PROJECTS&PUBLICATIONS) / 期刊论文(JOURNAL PUBLICATIONS) /

    科研成果 by Year: 2017

    2017
    Li* L, Liu*. J. The degradation of fluorotelomer-based polymers contributes to the global occurrence of fluorotelomer alcohol and perfluoroalkyl carboxylates: A combined dynamic substance flow and environmental fate modelling analysis. Environmental Sciences & Technology (ES&T) [Internet]. 2017. 访问链接
    Jie Wang, Li Li JL* BT. Distribution mode and environmental risk of POP pesticides such as endosulfan under the agricultural practice of straw incorporating. Environmental Pollution [Internet]. 2017. 访问链接

    成果类型

    • 期刊论文 (34)

    成果概览

    • 2024 (4)
    • 2023 (3)
    • 2022 (3)
    • 2021 (1)
    • 2020 (1)
    • 2019 (3)
    • 2018 (1)
    • 2017 (2)
    • 2016 (4)
    • 2015 (5)
    •  
    • 1 of 2
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    最新科研成果

    王亚韡,张秋瑞,于南洋,王媛,韦斯,方明亮,田思诺,史亚利,史建波,曲广波,朱樱,朱玉敏,朱楚泓,乔敏,华江环,刘美,刘国瑞,刘建国,等. 新污染物. 化学进展 [Internet]. 2024;36(11):1607-1784. 访问链接Abstract
    随着当今社会经济的快速发展以及工业化、城镇化进程的加速推进,环境污染问题的复杂性和严重性日益凸显。除传统污染物外,全球范围内不断出现的新污染物给环境与公众健康带来了新的挑战。我国“十四五”及中长期规划中提出“新污染物治理”,党的二十大报告也明确“开展新污染物治理”的要求。2022年,国务院办公厅印发了《新污染物治理行动方案》,生态环境部及各省、自治区、直辖市相继出台了相应的实施方案,我国生态环境保护进入了常规污染物与新污染物治理并重的新阶段。然而,新污染物治理是一项长期、动态且复杂的系统工程,亟需加强顶层设计和科技支撑。开展新污染物系统性研究,不仅为其管控提供有效的科学指引,提升环境质量管理水平,还能助力我国履行国际公约,增强全球环境治理中的话语权,确保我国环境安全、食品安全、国际贸易安全等,对实现可持续发展具有重要意义。
    Chen C, Li L, Zhang S, Liu* J, Wania* F. Modeling Global Environmental Fate and Quantifying Global Source–Receptor Relationships of Short-, Medium-, and Long-Chain Chlorinated Paraffins. Environmental Science & Technology Letters [Internet]. 2024;11(6):626-633. 访问链接
    Chen J, Zhang S, Xu W, Chen C, Chen A, Lu R, Jing Q, Liu* J. Exploring long-term global environmental impacts of chlorinated paraffins (CPs) in waste: Implications for the Stockholm and Basel Conventions and the global plastic treaty. Environment International [Internet]. 2024;185:108527. 访问链接Abstract
    Chlorinated paraffins (CPs), mainly short-chain CPs (SCCPs) and medium-chain CPs (MCCPs), are currently the most produced and used industrial chemicals related to persistent organic pollutants (POPs) globally. These chemicals are widely detected in the environment and in the human body. As the release of SCCPs and MCCPs from products represents only a small fraction of their stock in products, the potential long-term release of CPs from a large variety of products at the waste stage has become an issue of great concern. The results of this study showed that, by 2050, SCCPs and MCCPs used between 2000 and 2021 will cumulatively generate 226.49 Mt of CP-containing wastes, comprising 8610.13 kt of SCCPs and MCCPs. Approximately 79.72 Mt of CP-containing wastes is predicted to be generated abroad through the international trade of products using SCCPs and MCCPs. The magnitude, distribution, and growth of CP-containing wastes subject to environmentally sound disposal will depend largely on the relevant provisions of the Stockholm and Basel Conventions and the forthcoming global plastic treaty. According to multiple scenarios synthesizing the provisions of the three conventions, 26.6–101.1 Mt of CP-containing wastes will be subject to environmentally sound disposal as POP wastes, which would pose a great challenge to the waste disposal capacity of China, as well as for countries importing CP-containing products. The additional 5-year exemption period for MCCPs is expected to see an additional 10 Mt of CP-containing wastes subject to environmentally sound disposal. Thus, there is an urgent need to strengthen the Stockholm and Basel Conventions and the global plastic treaty.
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