翁莉萍
2019-05-23
姓名:翁莉萍
出生日期:1965.01
性别:女
政治面貌:群众
学历:博士研究生
职务:高层次人才
职称:研究员
任现职时间:2016年3月
联系电话:022-23611021
邮箱:wengliping@caas.cn
个人简历
翁莉萍,研究员,农田有机污染生物消减创新团队高层次人才。
1982.09-1986.07于南开大学植物生理学专业获理学学士(BSc)学位;
1986.09-1989.07于南开大学植物营养学专业获理学硕士(MSc)学位;
1996.09-1998.01于荷兰瓦格宁根大学环境科学专业获理学硕士(MSc)学位;
1998.02-2002.01于荷兰瓦格宁根大学环境科学专业获理学博士(DSc)学位;
1989.07-1996.09在天津农业科学院任助理研究员;
2002.01-2006.12在荷兰瓦格宁根大学做博士后(Post Doctor)研究;
2007.01-2011.05在任荷兰瓦格宁根大学研究员(Researcher,博导);
2011.06-2014.03任荷兰瓦格宁根大学助理教授(Assistant Professor,博导);
2014.04-至回国工作任荷兰瓦格宁根大学副教授(Associated Professor,博导)。
研究方向
土壤元素化学形态与微界面过程
主要贡献
建立与发展了先进的化学计算模型,取得了系统的创新性成果。先后主持和参与了多个欧盟、荷兰国家科学基金、荷兰应用科学基金、国家自然科学海外合作基金等项目,目前担任国家科技部十三五重点专项项目首席。擅长用基础的、机理的研究方法解决复杂的土壤系统问题。在Environmental Science & Technology、Water Research、Analytical Chemistry等TOP期刊发表论文80余篇,其中SCI论文被引用2700余次,单篇最高引用278次,H-指数32。先后获得荷兰自然科学基金委(NWO)优秀女性科学家(ASPASIA)奖励基金(2011)、荷兰瓦格宁根大学青年人才(Young Talent)奖励基金(2007)。得到国际同行专家高度评价:她是当今国际最优秀的土壤化学家之一。取得主要成果如下:
(1)创建了土壤养分与重金属离子吸附的多表面模型:申请人针对土壤的多组分、异质特性,提出了机理模型的复合理念,创建了多表面模型,克服了常用的经验性模型缺乏通用性和预测性的弊端。该模型被同行广泛采用, 并列入荷兰废弃物环评的计算软件,模型参数的方法获得ISO认证,推动了化学机理模型在自然环境样品研究和环境风险评估中的应用。
(2)发展了土壤颗粒交互作用的配体与电荷分配(LCD)模型:原有相关模型存在着忽略土壤有机物和矿物颗粒间的交互作用,不能准确预测养分与污染元素在土壤中的形态的问题。申请人提出了不同有机物质的界面空间分配参数,发现并修正了初始模型的基本错误,使模型符合热动力学原理,更接近土壤的真实状态。LCD模型被认为是预测土壤中离子化学行为最先进的模型。该模型的发展推进了元素的化学形态机理模型向环境中真实样品的靠拢与应用。一法国农业咨询公司有意将该模型方法用于农业测土施肥应用中。
(3)建立了测定土壤自由态离子的杜南膜(DMT)技术:在元素化学形态分析方法发展方面,原有技术仅用于合成溶液和严重污染样品,灵敏度低,不能满足环境样品测定要求。申请人发展了杜南膜分析中离子传递动力学理论,建立了多种自由态离子的杜南膜测定方法,灵敏度高、测量范围宽。并撰写了DMT应用指南,为这一独特方法的发展和推广做出了重要贡献。目前,该方法被国际上许多实验室采用,填补了这一分析方法的空白。
(4)揭示了养分与污染元素的化学分布特征与生物有效性:a. 针对金属阳离子类元素:原有模型手段导致对离子分布规律缺乏深入认识,不能定量预测修复措施效果。申请人采用先进的模型和分析手段,揭示了土壤和河流中重金属元素的形态分布规律,阐述了土壤各组分对重金属吸附的贡献,明确了常规提取法中重金属的主要来源。 b. 针对含氧阴离子类元素:原有关于影响离子分布因素的研究只考虑pH值,忽略了钙浓度和有机质水平的影响,导致一些严重错误的结论。申请人的研究得出了钙的协同吸附引发了磷和砷在中性pH下溶解度最低这一全新结论,阐明了小分子有机质比大分子有机质对磷和砷的吸附抑制更强的根源。相关研究成果获得同行广泛引用和高度评价。
在研课题
1. 国家重点研发计划项目,2016YFD0800300,农田和农产品重金属源解析与污染特征研究,2016/1-2020/12,2709万元,主持
2. 国家自然科学基金面上项目(41771277),基于LCD模型的土壤砷动态平衡分布多因子耦合机理,2018/01-2021/12,63万元,主持
获奖成果和荣誉称号
1. 2017年荣获天津市“三八红旗手”称号
2. 2017年荣获天津市“最美惠农女性”称号
3. 2011年荷兰自然科学基金委(NWO)优秀女性科学家奖励基金(ASPASIA)
4. 2011荷兰Wageningen 大学土壤化学组出色研究奖励
5. 2007年荷兰Wageningen 大学青年人才(Young Talent) 奖励基金
6. 2005年荷兰Wageningen 大学土壤化学组出色研究奖励
7. 1998年荷兰Wageningen 大学优秀硕士毕业生(Cum Laude)
8. 1996年荷兰政府国际合作组织(NUFFIC)奖学金
9. 1995年日本国际合作署(JICA)奖学金
代表性论文
1.Yingxuan Deng; Liping Weng*; Yongtao Li; Jie Ma; Yali Chen, Understanding major NOM properties controlling its interactions with phosphorus and arsenic at goethite-water interface. Water Research 2019, 157, 372-380.
2.Long Wang, Yongtao Li, Liping Weng*, Jie Ma; Yali Chen. Using chromatographic and spectroscopic parameters to characterize preference and kinetics in the adsorption of humic and fulvic acid to goethite. Science of the Total Environment, 2019(10): 423-435.
3.Peng, Hao.; Chen, Yali*; Liping Weng*; Ma, Jie; Ma Yuling; Li Yongtao; Islam, M. S., Comparisons of heavy metal input inventory in agricultural soils in North and South China: A review. Science of the Total Environment 2019, 660, 776-786.
4.Yingxuan Deng; Yongtao Li; Xiaojing Li; Yang Sun; Jie Ma; Mei Lei; Liping Weng*, Influence of calcium and phosphate on pH dependency of arsenite and arsenate adsorption to goethite. Chemosphere 2018, 199, 617-624.
5.Yanshan Cui and Liping Weng*, Interpretation of heavy metal speciation in sequential extraction using geochemical modelling, Environmental Chemistry, 2015, 12(2): 163-173
6.Inge C. Regelink, Cathelijne R. Stoof, Svetla Rousseva, Liping Weng*, Georg J. Lair, Pavel Kram, Nikolaos P. Nikolaidis, Milena Kercheva, Steve Banwart and Rob N. J. Comans, Linkages between aggregate formation, porosity and soil chemical properties, Geoderma, 2015, s 247-248: 24-37
7.Supriatin Supriatin, Cristian Adolfo Terrones, Wim Bussink and Liping Weng*, Drying effects on selenium and copper in 0.01 M calcium chloride soil extractions, Geoderma, 2015, s 255-256: 104-114
8.Supriatin Supriatin, Liping Weng* and Rob N. J. Comans, Selenium speciation and extractability in Dutch agricultural soils, Science of the Total Environment, 2015, 532: 368
9.Inge C. Regelink, Andreas Voegelin, Liping Weng*, Gerwin F. Koopmans and Rob N. J. Comans, Characterization of Colloidal Fe from Soils Using Field-Flow Fractionation and Fe K-Edge X-ray Absorption Spectroscopy, Environmental Science & Technology, 2014, 48(8): 4307-16
10.Yanshan Cui and Liping Weng*, Arsenate and Phosphate Adsorption in Relation to Oxides Composition in Soils: LCD Modeling, Environmental Science & Technology, 2013, 47(13): 7269
11.Flora Alonso Vega and Liping Weng*, Speciation of heavy metals in River Rhine, Water Research, 2013, 47(1): 363
12.Flora Alonso Vega, Liping Weng*, Erwin J. Temminghoff and Willem H. Van Riemsdijk, Donnan membrane technique (DMT) for anion measurement, Analytical Chemistry, 2010, 82(7): 2932-2939
13.Liping Weng, Willem H. Van Riemsdijk and Tjisse Hiemstra, Factors controlling phosphate interaction with iron oxides, Journal of Environmental Quality, 2012, 41(3): 628
14.Liping Weng, Flora Alonso Vega, Supriatin Supriatin, Wim Bussink and Willem H. Van Riemsdijk, Speciation of Se and DOC in soil solution and their relation to Se bioavailability, Environmental Science & Technology, 2011, 45(1): 262-267
15.Liping Weng, Flora Alonso Vega and Willem H. Van Riemsdijk, Competitive and Synergistic Effects in pH Dependent Phosphate Adsorption in Soils: LCD Modeling, Environmental Science & Technology, 2011, 45(19): 8420-8428
16.Liping Weng, Willem H. Van Riemsdijk and Erwin J. M. Temminghoff, Effects of Lability of Metal Complex on Free Ion Measurement Using DMT, Environmental Science & Technology, 2010, 44(7): 2529
17.Liping Weng, Willem H. Van Riemsdijk and Tjisse Hiemstra, Effects of Fulvic and Humic Acids on Arsenate Adsorption to Goethite: Experiments and Modeling, Environmental Science & Technology, 2009, 43(19): 7198-7204
18.Liping Weng, Willem H. Van Riemsdijk and Tjisse Hiemstra, Humic nanoparticles at the oxide-water interface: interactions with phosphate ion adsorption, Environmental Science & Technology, 2008, 42(23): 8747
19.Liping Weng, Willem H. Van Riemsdijk, Luuk K. Koopal and Tjisse Hiemstra, Adsorption of humic substances on goethite: comparison between humic acids and fulvic acids, Environmental Science & Technology, 2006, 40(24): 7494-500
20.Liping Weng, Willem H. Van Riemsdijk and Tjisse Hiemstra, Adsorption of humic acids onto goethite: effects of molar mass, pH and ionic strength, Journal of Colloid & Interface Science, 2007, 314(1): 107-118
21.Liping Weng, Willem H. Van Riemsdijk and Tjisse Hiemstra, Adsorption free energy of variable-charge nanoparticles to a charged surface in relation to the change of the average chemical state of the particles,
Langmuir the Acs Journal of Surfaces & Colloids, 2006, 22(1): 389
22.Liping Weng; Koopal, L. K.; Hiemstra, T.; Meeussen, J. C. L.; Van Riemsdijk, W. H., Interactions of calcium and fulvic acid at the goethite-water interface. Geochimica Et Cosmochimica Acta 2005, 69, (2), 325-339.
23.Liping Weng, Theo M. Lexmond, Anke Wolthoorn, Erwin J. M. Temminghoff and Willem H. Van Riemsdijk, Phytotoxicity and bioavailability of nickel: chemical speciation and bioaccumulation, Environmental Toxicology & Chemistry, 2003, 22(9): 2180-2187
24.Liping Weng, Erwin J. M. Temminghoff, Stephen Lofts, Edward Tipping and Willem H. Van Riemsdijk, Complexation with dissolved organic matter and solubility control of heavy metals in sandy soil, Environmental Science & Technology, 2002, 36(22): 4804-10
25.Liping Weng, Erwin J. M. Temminghoff and Willem H. Van Riemsdijk, Contribution of individual sorbents to the control of heavy metal activity in sandy soil, Environmental Science & Technology, 2001, 35(22): 4436-4443
26.Inge. C. Regelink, Liping Weng, G. J. Lair and R. N. J. Comans, Adsorption of phosphate and organic matter on metal (hydr)oxides in arable and forest soil: a mechanistic modelling study, European Journal of Soil Science, 2015, 66(5): 867-875
著作
1. 蔡燕飞,李永涛,翁莉萍,李晓晶,赵丽霞等. 芽孢杆菌生物肥及其研究方法,中国农业出版社,145千字,2017
2. Willem H. Van Riemsdijk, Liping Weng and Tjisse Hiemstra, Colloidal Transport in Porous Media (Ion - Colloid - Colloid Interactions), Springer, 2007
