- 教师名称:童银栋
- 教师拼音名称:Tong Yindong
- 出生日期:1986-04-26
- 性别:男
- 职务:英才教授
- 学科:Environmental Science
- 职称:教授
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Shao, B. Impacts of autochthonous dissolved organic matter on the accumulation of methylmercury by phytoplankton and zooplankton in a eutrophic coastal ecosystem. Environmental Pollution. 2023,336
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崔金龙. 基于高通量测序技术的西藏冰湖真核浮游植物群落组成特征分析. 北京师范大学学报(自然科学版),59 (02):218-229.
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童银栋. 全球水体微囊藻毒素分布特征及其潜在环境风险分析, 生态环境学报. 2022,32 (01):129-138
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Tong, YD. Unintended nutrient imbalance induced by wastewater effluent inputs to receiving water and its ecological consequences. Frontiers of Environmental Science & Engineering. 2022,17 (19)
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Lin HM. First observation of mercury species on an important water vapor channel in the southeastern Tibetan Plateau. Atmospheric Chemistry and Physics. 2022,22 (4):2651-2668
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Li ZK. Inhibition of methylmercury uptake by freshwater phytoplankton in presence of algae-derived organic matter. Environmental Pollution. 2022,313
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Wu, ZY. Impact of dissolved organic matter and environmental factors on methylmercury concentration across aquatic ecosystems inferred from a global dataset. Chemosphere. 2022,294
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孙静静. 典型浅水湖泊水温长期变化特征及其与气候因素相关性分析. 环境污染与防治. 2022,44 :979-985+992
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Tong, YD. Exploring dynamics of riverine phosphorus exports under future climate change using a process-based catchment model. Journal of Hydrology. 2022,605
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Tong, YD. Estimation of Unintended Treated Wastewater Contributions to Streams in the Yangtze River Basin and the Potential Human Health and Ecological Risk Analysis. Environmental Science & Technology. 2022,56 (9):5590-5601
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王夕予. DGT技术在测定汞离子及其化合物中的发展与应用. 农业资源与环境学报. 2021,39 (5):913-922
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张奕妍. 噬藻体对蓝藻种群密度的调控及其对水体中物质循环的影响. 湖泊科学. 2021,34 :376-390
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Tong, YD. Lake warming intensifies the seasonal pattern of internal nutrient cycling in eutrophic lake and potential impacts on algal blooms. Water Research. 2021,188
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Tong, YD. Perspectives and challenges of applying the water-food-energy nexus approach to lake eutrophication model. Water Security. 2021,14
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Tong, YD. A potential route for photolytic reduction of HgCl2 and HgBr2 in dry air and analysis about the impacts from Ozone. Atmospheric Research. 2021,249
