1. Xuzhi Li, Meie Wang*, Weiping Chen*, Rong Jiang. Evaluation of combined toxicity of Siduron and cadmium on earthworm (Eisenia fetida) using Biomarker Response Index. Science of the Total Environment. 2019. 646: 893-901.
2. Li Xiaonuo, Andrew B. Cundy, Chen Weiping*. Fuzzy synthetic evaluation of contaminated site management policy from the perspective of stakeholders: a case study from China. Journal of Cleaner Production.2018, 198: 1593-1601.
3. Xie T, Wang M, Chen W*, Uwizeyimana H. Impacts of Urbanization Patterns on the earthworm communities in residential areas in Beijing. Science of the Total Environment , 2018. 626:1261-1269.
4. Xie T, Wang M, Su C, Chen W*. Evaluation of the natural attenuation capacity of urban residential soils with ecosystem-service performance index (EPX) and entropy-weight methods. Environmental Pollution, 2018, 238: 222-229.
5. Yang Yang, Andrew C. Chang, WangMeie, Chen Weiping*, Peng Chi. Assessing cadmium exposure risks of vegetables with plant uptake factor and soil property. Environmental Pollution. 2018, 238:263-269
6. Herman U wizeyimana, Meie Wang, Weiping Chena, Kifayatullah Khan. Ecotoxicological effects of binary mixtures of siduron and Cd on mRNA expression in the earthworm Eisenia fetida. Science of the Total Environment. 2018. 610–611: 657–665.
7. Peng Kang,Weiping Chen a, Ying Houa, Yuanzheng Li. Linking ecosystem services and ecosystem health to ecological risk assessment: A case study of the Beijing-Tianjin-Hebei urban agglomeration. Science of the Total Environment. 2018.636: 1442-1454.
8. Jiang Rong, Wang Meie*, Chen Weiping. Ecological risk evaluation of combined pollution of herbicide siduron and heavy metals in soils. Science of The Total Environment. 2018, 626: 1047-1056.
9. Hou Ying, Li Bo*, Müller Felix, Fu Qi, Chen Weiping. A conservation decision-making framework based on ecosystem service hotspot and interaction analyses on multiple scales. Science of the Total Environment. 2018, 643: 277-291
10. Jiang Rong, Wang Meie*, Chen Weiping, Li Xuzhi. Characterization of adsorption and desorption of lawn herbicide siduron in heavy metal contaminated soils. Chemosphere.2018, 204: 483-491.
11. Yang Yang, Wang meie, Li yanling, Peng Chi, Chen weiping*. Evaluating the potential health risk of toxic trace elements in vegetables: Accounting for variations in soil factors. Science of The Total Environment. 2017. 58: 942-949.
12. Li, Xiaonuo, Jiao Wentao, Xiao Rongbo. Contaminated sites in China: Countermeasures of provincial governments. Journal of cleaner production. 2017. 147: 485-496.
13. Wen Liu, Andrew Chang, Weiping Chen*, Weiqi Zhou, Qi Feng. A framework for the urban eco-metabolism model-Linking metabolic processes to spatial patterns. Journal of Cleaner Production. 2017. 165:168-176
14. Xian Yu, Wang Meie, Chen Weiping*. Quantitative assessment on soil enzyme activities of heavy metal contaminated soils with various soil properties[J]. Chemosphere, 2015. 139: 604-608
15. Wang Meie, Chen Weiping*, Peng Chi. Risk assessment of Cd polluted paddy soils in the industrial and township areas in Hunan;Southern China[J].Chemosphere. 2016.144: 346-351.
16. Liu Rui, Wang Meie, Chen Weiping*, Peng Chi. Spatial pattern of heavy metals accumulation risk in urban soils of Beijing and its influencing factors[J]. Environmental Pollution.2016. 210: 174-181.
17. Peng Chi, Wang Meie, Chen Weiping *. Modeling cadmium contamination in paddy soils under long-term remediation measures: model development and stochastic simulations; Environmental Pollution.2016. 216: 146-155.
18. Yang Yang, Chen Weiping*, Wang Meie, Peng Chi. Regional accumulation characteristics of cadmium in vegetables: Influencing factors; transfer model and indication of soil threshold content[J]. Environmental Pollution. 2016. 219:1036-1043.
19. Chen Weiping*, Lu Sidan, Pan Neng, et al. Impact of reclaimed water irrigation on soil health in urban green areas[J]. Chemosphere, 2015. 119: 654-661.
20. Peng Chi, Wang Meie, Chen Weiping*, Andrew C. Chang. Mass balance-based regression modeling of PAHs accumulation in urban soils, role of urban development[J]. Environmental Pollution, 2015, 197: 21-27.
21. 谢武双,李贵杰,陈卫平*, 韶关市翁源县铁龙林场土壤重金属修复,环境工程学报,2018,12(9):2690-2698
23. 陈卫平*,杨阳,谢天,王美娥, 彭驰,王若丹, 中国农田土壤重金属污染防治挑战与对策.,土壤学报,2018,55(2):1-9
24. 陈卫平*,谢天,李笑诺,王若丹,欧美发达国家场地土壤污染防治技术体系概述,土壤学报,2018,55(3):527-542
陈卫平*, 谢天,李笑诺,王若丹,中国土壤污染防治技术体系建设思考,土壤学报,2018,55(3): 558-569.
25. 陈卫平*, 杨阳,谢天, 王美娥,彭驰,王若丹, 我国农田土壤重金属污染防治挑战与对策,土壤学报, 2018,55(2):261-272
软件著作:
陈卫平,彭驰,Soil Trace Element Model(Profile Distribution),2014.02.19,中国,2014SR019954
陈卫平,彭驰,Soil Trace Element Model(Single Layer),2014.02.19,中国,2014SR019712
参与编写著作:
Peter S. Hooda, Trace Elements in soils (Assessing long-term fate of trace elements in biosolids amendment soils, in “Trace elements in soils”), A John Wiley and Sons, Ltd, Publication, 2010
Wesley W.Wallender,Ph.D.,P.E.,and Kenneth.K. Tanji, Sc.D., Agricultural Salinity Assessment and Management,Second Edition (Deficiencies and toxicities of trace elements) ,Amercian Society of Civil Engineers, 2015
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