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发明专利:
(1)用于降低冬小麦镉污染的钝化拮抗调控剂及其制备方法(ZL201710749888.2)
(2)一种评价城市雨水可利用潜力的方法(ZL201811128526.2)
(3)土壤重金属累积过程时空模拟模型构建方法(ZL.202111553651.X)
(4)基于环境容量及自然消减模型的土壤环境承载力计算方法(ZL.202111413629.5)
(5)一种降低农作物中重金属累积值的方法及系统(ZL.20211153609.7)
(6)一种农作物重金属富集风险量化方法、系统及可存储介质(ZL202310125004.1)
(7)用于深翻耕措施的区域土壤最优翻耕深度确定方法及系统(ZL202310249676.3)
(8)基于贝叶斯理论的农作物重金属富集风险预测方法及系统(ZL202211410742.2)
(9)不同轮作模式下土壤-农作物系统重金属富集过程模拟方法(ZL202310116252.X)
(10)基于特定源分析的人体重金属暴露风险动态模拟方法(ZL202211317367.7)
软件著作:
(1)Soil Trace Model (Profile Distribution)V1.0(2014SR019954)
(2)Soil Trace Element Modle(Single Layer)(2014SR019954)
(3)城市化区域不透水地表生态安全基准值制定系统[简称:城市化安全基准系统](2021SR0159922)
(4)基于典型生态系统调节服务的城市不透水地表扩张生态风险预测系统[简称:不透水地表扩张生态风险预测系统](2021SR0487981)
(5)污染场地可持续风险管控评价系统((2022SR0549733)
(6)场地可持续风险管控价值核算平台(2023SR0112820)
(7)重金属污染土壤生态风险评估系统V2.0(2024SR0344631)
(8)土壤环境承载力核算系统V1.0(2024SR0495241)
(9)土壤污染物包气带垂直淋溶因子计算系统V1.0(2024SR0635104)
(10)土壤净化功能定量评价系统V1.0(2024SR0635088)
参与编写著作:
(1)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.
(2)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.
重要科技成果:
(1)广东省环境科学学会环境保护科学技术奖,二等奖(2024)
(2)环境保护科学技术奖,一等奖(2022)
(3)环境保护科学技术奖,二等(2018)
(4)广东省农业技术推广奖,二等奖(2020)
(5)广东省环境保护科学技术奖,一等奖(2018)
(6)广东省环境技术进步奖,一等奖(2020)
(7)北京水利学会科学技术奖,一等奖(2018)
(8)俄罗斯自科院国际生态奖一等奖(2021)
代表性论文:
(1)Yang Yang, Chen Weiping*, et al.. Assessing cadmium exposure risks of vegetables with plant uptake factor and soil property. Environ Pollut 2018, 238:263-269
(2)Changfeng Liu, Weiping Chen*, et al. Ma. A new risk probability calculation method for urban ecological risk assessment. Environ. Res Lett, 2020, 15: 024016
(3)Yimin Cai, Weiping Chen*, et al.. Effects of external Mn2+ activities on OsNRAMP5 expression level and Cd accumulation in indica rice. Environ. Pollut. 2020, 260: 113941
(4)Yang Y, Li Y L, Wang M, Chen W P*, Dai Y T. Limestone dosage response of cadmium phytoavailability minimization in rice: A trade-off relationship between soil pH and amorphous manganese content . Journal of Hazardous Materials, 2021, 403:123664.
(5)Xiaonuo Li, Shiyi Yi, Andrew B. Cundy, Weiping Chen*. 2022. Sustainable decision-making for contaminated site risk management: a decision tree model using machine learning algorithms. Journal of Cleaner Production, 371, 133612
(6)Yang Yang, Wang Tianqi, Li Yanling, Wang Meie, Chen Weiping*, Dai Yating. Mitigating cadmium contamination of rice soils supporting tobacco–rice rotation in southern China: win-win or lose-lose? Journal of Hazardous Materials, 2022, 425: 128052;
(7)Yang Y, Niu S, Wang T, Wang M, Chen W P*, et al. Source-soil-rice-human multi-objective optimization to minimize the cadmium intake risk to consumers of field planting rice. Journal of Hazardous Materials. 2023, 441: 129984.
(8)Ying Hou, Wenhao Ding, Tian Xie, Weiping Chen*. 2024. Prediction of soil heavy metal contents in urban residential areas and the strength of deep learning: a case study of Beijing. Science of the Total Environment, 950: 175133
(9)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): 261-272.
(10)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. | 
