陈孟立 讲师(高校)
环境科学与工程学院
+
- Benthic Fauna Enhance Biodegradation of Microplastics in Riparian Sediments: Reactive Oxygen, Keystone Microbes, and Metabolites,chen mengli et al..Environmental Science & Technology,2025
- Microplastics Affect Sediment Phosphorus Transformation: Based on the Interplay of Bioturbation and Microbial Regulation,Chen mengli et al..ECOSYSTEM HEALTH AND SUSTAINABILITY,2025
- Microplastics and benthic animals reshape the geochemical characteristics of dissolved organic matter by inducing changes in keystone microbes in riparian sediments,Chen mengli* et al..Environmental Research,2024
- Nitrogen removal efficiency and pathways of the simultaneous nitrification and denitrification process under ultra-low oxygen conditions,Chen mengli* et al..Environmental Technology,2025
- Dissolved organic matter derived by microplastic: The release patterns, structure properties, composition, and the impact on rice,Chen mengli et al..Journal of Environmental Chemical Engineering,2025
- Microplastics affect organic nitrogen in sediment: The response of organic nitrogen mineralization to microbes and benthic animals,Chen mengli* et al..Journal of Hazardous Materials,2025
- Biodegradable and traditional microplastics affect sediment DOM: Chemical properties, keystone microbes, functional genes,Chen mengli* et al..Process Safety and Environmental Protection,2025
- New insights into the impact of microplastics on nitrogen transformation in urban rivers based on field experiments,Chen mengli* et al..Journal of Environmental Chemical Engineering,2025
- Multi-trophic communities in river ecosystems: Insights into environmental drivers and assembly mechanisms for ecological management— a case study in the Minjiang River,Chen mengli* et al..Environmental Research,2025
- Integration of PMF and explainable machine learning for source apportionment and ecological risk of microplastics in urban greenspaces,Chen mengli* et al..Journal of Hazardous Materials,2025