姓名:杨雨萍
所在系室:生物与资源环境学院资源与环境系
研究方向:污染物的生物地球化学循环过程;土壤污染控制
邮箱:ypyang@bua.edu.cn
教育经历:
2010.08−2014.06:黑龙江大学,农业资源与环境专业,农学学士
2014.09−2020.07:中国科学院大学(培养单位:生态环境研究中心),环境科学专业,理学博士(硕博连读)
工作经历:
2020.07−2025.06:北京农学院,生物与资源环境学院,资源与环境系,讲师
2025.06−至今:北京农学院,生物与资源环境学院,资源与环境系,副教授,硕士生导师
招生专业及方向:生物工程(生物资源与环境工程方向);资源利用与植物保护(资源利用方向)
主要研究成果:
[1] Yang YP, Zhang HM, Yuan HY, Duan GL, Jin DC, Zhao FJ, Zhu YG. Microbe mediated arsenic release from iron minerals and arsenic methylation in rhizosphere controls arsenic fate in soil-rice system after straw incorporation. Environmental Pollution, 2018, 236: 598-608.
[2] Yang YP, Wang P, Yan HJ, Zhang HM, Cheng WD, Duan GL, Zhu YG. NH4H2PO4-extractable arsenic provides a reliable predictor for arsenic accumulation and speciation in pepper fruits (Capsicum annumL.). Environmental Pollution, 2019, 251: 651-658.
[3] Yang YP, Tang XJ, Zhang HM, Cheng WD, Duan GL, Zhu YG. The characterization of arsenic biotransformation microbes in paddy soil after straw and biochar amendments. Journal of Hazardous Materials, 2020, 391: 122200.
[4] Li HQ, Lv JP, Jia YH, Liu J, Liang Q, Zhou J, Yang AZ, Yan T, Yang YP, Duan GL. Conventional and biodegradable microplastics affected arsenic mobility and methylation in paddy soils through distinct chemical-microbial pathways. Journal of Hazardous Materials, 2025, 481: 136533.
[5] Duan GL, Shao GS, Tang Z, Chen HP, Wang BX, Tang Z, Yang YP, Liu YC, Zhao FJ. Genotypic and environmental variations in grain cadmium and arsenic concentrations among a panel of high yielding rice cultivars. Rice, 2017, 10: 9-21.
[6] Yi XY, Yang YP, Yuan HY, Chen Z, Duan GL, Zhu YG. Coupling metabolisms of arsenic and iron with humic substances through microorganisms in paddy soil. Journal of Hazardous Materials, 2019, 373: 591-599.
[7] Yan HJ, Wang XD, Yang YP, Duan GL, Zhang HM, Cheng WD. The effect of straw-returning on antimony and arsenic volatilization from paddy soil and accumulation in rice grains. Environmental Pollution, 2020, 263: 114581.
[8] Liu L, Yang YP, Duan GL, Wang J, Tang XJ, Zhu YG. The chemical-microbial release and transformation of arsenic induced by citric acid in paddy soil. Journal of Hazardous Materials, 2022, 421: 126731.
[9] Liu L, Shen RL, Zhao ZQ, Ding LJ, Cui HL, Li G, Yang YP, Duan GL, Zhu YG. How different nitrogen fertilizers affect arsenic mobility in paddy soil after straw incorporation? Journal of Hazardous Materials, 2022, 436: 129135.
[10] Liu YQ, Lv WX, Zhao ZQ, Yang YP, Zhang LX, Wang LY, Jing CY, Duan GL, Zhu YG. Aluminum adsorption and antimonite oxidation dominantly regulate antimony solubility in soils. Chemosphere, 2022, 309: 136651.
[11] Zhao ZB, Zhang HZ, Jia TS, Wang LB, Yang YP, Wu YF. Investigation on the applicability of lime amendments in the paddy soils polluted by e‑waste dismantling for reducing the content of Cd and As in rice grains. Journal of Soils and Sediments, 2025, 25(1): 263-276.
[12]高宇,李思人,潘悦,刘杰,周建,杨爱珍,杨雨萍,贾月慧.设施土壤真菌的团聚体分异特征.北京农学院学报, 2024, 39 (3): 16-22.
[13]潘悦,孙宁,亢玉昆,熊如鑫,胡钰钊,李海倩,周建,刘杰,杨雨萍,张卫东.有机肥对潮土团聚体微生物碳代谢功能的影响.北京农学院学报, 2024, 39 (4): 13-20.
[14]段桂兰,王芳,岑况,杨雨萍,程旺大,张红梅.秸秆及生物炭添加对猪粪沼渣施肥水稻重金属积累的影响.环境科学学报, 2017, 37 (11): 4287-4295.
[15]颜惠君,王伯勋,唐仲,杨雨萍,王学东,段桂兰,赵方杰.田间水肥管理措施及石灰施用对水稻Cd、As积累的影响.农业环境科学学报, 2018, 37 (7): 1448-1455.
[16]段桂兰,崔慧灵,杨雨萍,扆幸运,朱冬,朱永官.重金属污染土壤中生物间相互作用及其协同修复应用.生物工程学报, 2020, 36 (3): 455-470.
[17] Duan GL, Yang YP, Yi XY, Zhu YG. The application of organics promotes arsenic methylation in paddy soils[M]//Environmental Arsenic in a Changing World. CRC Press, 2019: 247-248.
[18] Duan GL, Yang YP, Yi XY, Zhu YG. The association of the biogeochemical processes between arsenic and organic substances in paddy soils[M]//Arsenic in the Environment: Bridging Science to Practice for Sustainable Development As2021. CRC Press, 2023: 173-174.
[19]贾月慧,刘杰,杨雨萍,郭迎节.一种用于田间植物叶面肥喷施的装置: ZL202120654043.7[P].国家知识产权局, 2021-12-07.
[20]段桂兰,王泽文,朱永官,李曼,袁雨珍,刘文菊,赵斌,李芳柏,杨雨萍,段增强,陈美军,侯月丽,陈世宝,崔兆杰,李曼,陈鹏,姚保民,金春晓,方利平,杨浩瑜.农产品产地土壤有效态砷的测定方法(GB/T 44741-2024), 2024-10-26.
主讲课程:《土壤改良与修复》《土壤肥料学》《农业资源与环境研究进展》等
科研项目:
[1]国家自然科学基金青年项目,“红壤性水稻土中砷与溶解性有机质共转化的微生物学机制”,主持;
[2]北京市教育委员会科技计划一般项目,“设施土壤复合污染物与有机质的互作过程及植物富集特征”,主持;
[3]北京农学院青年教师科研创新能力提升计划,“华北潮土区设施菜地土壤团聚体微生物组功能特征及调控机制”,主持;
[4]北京农学院青年科学基金,“典型农业废弃生物质炭对土壤中甲基砷迁移转化的影响机理”,主持。
获奖荣誉:
第八届北京市大学生生物学竞赛(实验设计类),三等奖(第一指导教师),2022第九届北京市大学生生物学竞赛(实验设计类),二等奖(第一指导教师),2023
第八届全国大学生生命科学竞赛(科学探究类),三等奖(第一指导教师),2023
北京高校第十三届青年教师教学基本功比赛,论文二等奖,2023
第三届全国大学生生态环境保护竞赛,优秀指导老师奖,2023
第十届北京市大学生生物学竞赛(实验设计类),三等奖(第一指导教师),2024
第四届全国农业资源与环境专业大学生实践技能竞赛,优胜奖(第一指导教师),2024
第六届北京市大学生节能节水低碳减排社会实践与科技竞赛,优秀奖(第一指导教师),2024
北京市第三届暨清华大学第五届平安校园−实验室安全知识大赛优秀指导老师奖,2024
北京农学院本科生毕业论文优秀指导教师奖,2024、2025
Curriculum Vitae
I.Personal information
Yu-Ping Yang, PhD in Environmental Science, master supervisor. Associate professor of Department of Resources and Environment in College of Bioscience and Resources Environment, Beijing University of Agriculture (BUA).
II.Research interests
Soil environmental science; Soil pollution prevention and remediation; Environmental microbiology; Microbial ecology.
III.ResearchProjects
She has presided and participated in many national, provincial and ministerial projects, among which the most important are:
1. Youth Program of the National Natural Science Foundation of China (42107436).
2. General Program of the National Natural Science Foundation of China (21677157; 41371458; 41977323).
3. Major Program of the National Natural Science Foundation of China (41991332).
4. National Key Research and Development Program of China (2016YFD0800402; 2018YFD0800202).
5. Special Fund for Agro-scientific Research in the Public Interest (201403015).
IV.Major Achievements
She has published more than 20 articles, won 8 provincial and ministerial awards, and also participated as the main drafter in the formulation of a national standard.
(Ⅰ) Major prize-winning achievements
1. Second Prize in Paper Category, the 13th Beijing University Young Teachers' Basic Teaching Skills Competition, 2023.
2. Third Prize, the 8th China Undergraduate Life Sciences Contest (Scientific Inquiry Category) (first supervisor), 2023.
3. Merit Award, the 4th National College Students' Practical Skills Competition in Agricultural Resources and Environment (first supervisor), 2024.
4. Merit Award, the 6th Beijing Social Practice and Science and Technology Competition for College Students on Energy Conservation, Water Conservation and Carbon Emissions Reduction (first supervisor), 2024.
(Ⅱ) Representative works
1. National Standard, GB/T 44741-2024, Determination methods of soil bioavailable arsenic at the origin of agricultural products, 2024-10-26 (9/20).
2. Duan GL, Yang YP, Yi XY, Zhu YG. The application of organics promotes arsenic methylation in paddy soils[M]//Environmental Arsenic in a Changing World. CRC Press, 2019: 247-248.
3. Duan GL, Yang YP, Yi XY, Zhu YG. The association of the biogeochemical processes between arsenic and organic substances in paddy soils[M]//Arsenic in the Environment: Bridging Science to Practice for Sustainable Development As2021. CRC Press, 2023: 173-174.
(Ⅲ) Representative papers
1. Yang YP, Zhang HM, Yuan HY, Duan GL, Jin DC, Zhao FJ, Zhu YG. Microbe mediated arsenic release from iron minerals and arsenic methylation in rhizosphere controls arsenic fate in soil-rice system after straw incorporation. Environmental Pollution, 2018, 236: 598-608.
2. Yang YP, Wang P, Yan HJ, Zhang HM, Cheng WD, Duan GL, Zhu YG. NH4H2PO4-extractable arsenic provides a reliable predictor for arsenic accumulation and speciation in pepper fruits (Capsicum annumL.). Environmental Pollution, 2019, 251: 651-658.
3. Yang YP, Tang XJ, Zhang HM, Cheng WD, Duan GL, Zhu YG. The characterization of arsenic biotransformation microbes in paddy soil after straw and biochar amendments. Journal of Hazardous Materials, 2020, 391: 122200.
4. Li HQ, Lv JP, Jia YH, Liu J, Liang Q, Zhou J, Yang AZ, Yan T, Yang YP, Duan GL. Conventional and biodegradable microplastics affected arsenic mobility and methylation in paddy soils through distinct chemical-microbial pathways. Journal of Hazardous Materials, 2025, 481: 136533.
5. Yi XY, Yang YP, Yuan HY, Chen Z, Duan GL, Zhu YG. Coupling metabolisms of arsenic and iron with humic substances through microorganisms in paddy soil. Journal of Hazardous Materials, 2019, 373: 591-599.
6. Yan HJ, Wang XD, Yang YP, Duan GL, Zhang HM, Cheng WD. The effect of straw-returning on antimony and arsenic volatilization from paddy soil and accumulation in rice grains. Environmental Pollution, 2020, 263: 114581.
7. Liu L, Yang YP, Duan GL, Wang J, Tang XJ, Zhu YG. The chemical-microbial release and transformation of arsenic induced by citric acid in paddy soil. Journal of Hazardous Materials, 2022, 421: 126731.
8. Zhao ZB, Zhang HZ, Jia TS, Wang LB, Yang YP, Wu YF. Investigation on the applicability of lime amendments in the paddy soils polluted by e‑waste dismantling for reducing the content of Cd and As in rice grains. Journal of Soils and Sediments, 2024, 1-14.
9. Gao Y, Li SR, Pan Y, Liu J, Zhou J, Yang AZ, Yang YP, Jia YH. Distribution characteristics of fungi in soil aggregates of greenhouse soil. Journal of Beijing University of Agriculture, 2024, 39 (3): 16-22. (In Chinese)
10. Pan Y, Sun N, Kang YK, Xiong RX, Hu YZ, Li HQ, Zhou J, Liu J, Yang YP, Zhang WD. Effect of organic fertilizer application on microbial carbon metabolism function in aggregates of fluvo-aquic soil. Journal of Beijing University of Agriculture, 2024, 39 (4): 13-20. (In Chinese)
11. Duan GL, Cui HL, Yang YP, Yi XY, Zhu D, Zhu YG. Interactions among soil biota and their applications in synergistic bioremediation of heavy-metal contaminated soils. Chinese Journal of Biotechnology, 2020, 36 (3): 455-470. (In Chinese)
V.Contact information
Postal address: College of Bioscience and Resources Environment, Beijing University of Agriculture, No.7, Beinong Road, Shigezhuang Street, Changping District, Beijing, 102206.
E-mail: ypyang@bua.edu.cn
