摘要
内分泌干扰物(EDCs)在地下环境中的环境行为受纳米颗粒(NPs)影响显著,研究二者共存条件下的迁移转化与生态效应更具有现实意义。本文综述了地下环境中主要NPs对EDCs迁移、吸附与降解/转化过程所起到的调控作用,系统总结了EDCs单独存在及其与NPs共存时对土壤微生态环境因子的影响。最后,针对目前EDCs与NPs在地下环境中的交互作用相关研究工作基础,对未来的研究热点进行了展望。
The environmental behavior of endocrine disrupting chemicals(EDCs) in underground environment is significantly affected by nanoparticles(NPs).It is ofp ractical significance to study the migration,transformation and ecological effects oft he two coexisting conditions.In this paper,the regulatory effects of NPs on the migration,adsorption and degradation/transformation of EDCs in subsurface environment were reviewed.The effects of EDCs alone and co-existing with NPs on soil microecological environmental factors were systematically summarized.Finally,according to the current research basis of the interaction between EDCs and NPs in underground environment,the future research hotspots are prospected.
作者
董祎
李佳欣
陈泽宇
张起超
杨悦锁
宋晓明
Dong Yi;Li Jiaxin;Chen Zeyu;Zhang Qichao;Yang Yuesuo;Song Xiaoming(Key Laboratory of Regional Environment and Eco-restoration,Ministry of Education,Shenyang University,Liaoning,110044;College of New Energy and Environment,Jilin University,Jilin,130021)
出处
《当代化工研究》
2023年第3期9-12,共4页
Modern Chemical Research
基金
2019年国家重点研发计划“典型地下水污染场地应用与验证”(项目编号:2019YFC1804805)
2020年国家自然科学基金面上项目“农业活动驱动下地下水中雌激素与胶体的界面相互作用与协同迁移机制”(项目编号:42172284)
2019年辽宁省重点研发计划项目“基于Nano-CaO_(2)复合材料的土壤-地下水污染协同修复技术研究”(项目编号:2020JH2-10300083)。
关键词
内分泌干扰物
纳米颗粒
土壤与地下水
迁移转化
土壤微生态
endocrine disrupting chemicals
nanoparticles
soil and groundwater
fate and transport
soil mircoecology
