| 土壤中微塑料的来源、生态环境危害及治理技术 |
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| 引用本文: | 延雨宸,杨忠芳,余涛.土壤中微塑料的来源、生态环境危害及治理技术[J].中国地质,2022,49(3):770-788. |
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| 作者姓名: | 延雨宸 杨忠芳 余涛 |
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| 作者单位: | 中国地质大学(北京)地球科学与资源学院, 北京 100083;中国地质大学(北京)数理学院, 北京 100083 |
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| 基金项目: | 中国地质大学(北京)地调成果转化基金及中国地质调查局项目"西安城市群周边健康地质调查试点"(DD20211574)联合资助。 |
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| 摘 要: | 【研究目的】近年来,由微塑料造成的生态环境污染问题引起了广泛关注。【研究方法】本文通过查阅大量土壤微塑料方向的文献,综述了国内外关于土壤中微塑料的来源、危害及检测治理技术最新研究进展。【研究结果】主要包括:(1)土壤中微塑料的主要来源是没有高效回收的农用地膜的裂解,此外还有农业生产活动中使用含有微塑料的污水污泥、空气中的微塑料沉降到地表等;(2)土壤中的微塑料能吸附重金属、抗生素等污染物,改变土壤pH、容重等理化性质,影响蚯蚓等土壤动物的发育,降低参与土壤养分循环过程中关键微生物的活性,对土壤环境造成危害;(3)目前还没有统一的微塑料分离检测技术标准,目检法、光谱法和热分析技术是微塑料主要的分析方法。【结论】土壤中的微塑料会给环境及动植物健康带来不同程度的风险,进一步通过食物链威胁人类健康。未来的研究重点包括阻隔土壤微塑料的来源、 土壤微塑料与重金属的复合污染机制和新兴的土壤微塑料检测技术。创新点:(1)目前关于土壤微塑料方面的研究刚刚起步,本文综述了土壤微塑料对农作物、土壤环境的影响及在食物链中传播的风险,对今后有关环境污染和人体健康方向的研究有一定的帮助; (2)本文较为全面地整理了以农业生产活动为主的土壤微塑料来源,由于已被微塑料污染的土壤治理难度较高,笔者提出关于土壤微塑料源的阻断建议,希望能有效降低未来土壤中微塑料的输入量。
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| 关 键 词: | 土壤 微塑料 来源 生态风险 检测方法 治理技术 环境地质调查工程 |
| 收稿时间: | 2022/1/8 0:00:00 |
| 修稿时间: | 2022/5/9 0:00:00 |
Sources, ecological hazards and treatment technologies of microplastics in soil |
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| YAN Yuchen,YANG Zhongfang,YU Tao.Sources, ecological hazards and treatment technologies of microplastics in soil[J].Chinese Geology,2022,49(3):770-788. |
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| Authors: | YAN Yuchen YANG Zhongfang YU Tao |
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| Institution: | School of Earth Sciences and Resources, China University of Geosciences, Beijing 100083, China; School of Science, China University of Geosciences, Beijing 100083, China |
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| Abstract: | This paper is the result of environmental geological survey engineering.Objective]In recent years, ecological and environmental pollution caused by microplastics has attracted widespread interest.Methods]This paper reviews recent progress in research on the sources and hazards of microplastics and detection and treatment technologies investigated in a large number of studies.Results](1) The primary sources of microplastics in soil are the cracking of agricultural land film without efficient recycling, use of sewage sludge containing microplastics in agricultural production activities, and settling of microplastics from air to surfaces; (2) Microplastics in soil can adsorb heavy metals, antibiotics, and other pollutants, which can change the pH, bulk density, and physical and chemical properties of soil, affect the development of earthworms and other soil animals, and reduce the activities of crucial microorganisms involved in the soil nutrient cycle, thereby harming the soil environment; (3) No unified technical standard for microplastic separation and detection is currently available. Visual inspection and spectroscopic and thermal analysis techniques are the main methods for detecting microplastics.Conclusions] Microplastics in soil prese nt varied levels of risk to the environment and health of animals and plants and threaten human health through the food chain. Future research can focus on blocking the sources of soil microplastics, the pollution mechanism of soil microplastics and heavy metal compound pollution, and innovations in soil microplastic detection technologies.Highlights: (1) Research on soil microplastics is at its initial stage. This paper summarizes the impact of soil microplastics on crops and soil environment and the risk of their spreading to the food chain, providing useful reference for future research on environmental pollution and human health. (2) This paper elucidates the sources of soil microplastics on the basis of agricultural production activities. Owing to challenges in the remediation of soil polluted by microplastics, authors propose strategies for blocking the sources of microplastics in soil, with the primary aim of effectively reducing microplastic inputs in soil. |
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| Keywords: | soil microplastic source ecological risk detection method treatment technology environmental geological survey engineering |
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