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姓 名: |
高霄鹏 |
性 别: |
男 |
职 称: |
研究员 |
学 历: |
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电 话: |
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传 真: |
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电子邮件: |
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个人主页: |
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通讯地址: |
新疆乌鲁木齐市北京南路818号 830011 |
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简历: |
教育经历: 本科BA 199509-199907 中国 山西农业大学 土壤化学 硕士Msc 200009-200306 中国 中国农业大学 植物营养 博士Ph.D 200209-200607 中国 中国农业大学 植物营养 工作经历: 销售 199907-200009 中国 北京北农绿亨科技发展有限公司 博士后 200607-200710 中国 中国农业大学资环学院 |
承担项目: |
2002-2007 | 中荷合作: Zinc Bioavailability to aerobic rice | 25万欧元 | 5 | 主持,包括项目申请、具体实施、论文、项目报告的撰写等 | 2006-2007 | 中国博士后基金:根际化学变化对于植物养分生物有效性的影响 | 5万 | 4 | 主持,包括项目申请、具体实施、论文、项目报告的撰写、以及经费使用等 | 2003-2005 | 国家自然科员基金:硅提高植物水分利用效率的机理研究 | 25万 | 5 | 主研,包括试验具体实施、数据处理、论文、项目报告的撰写等 | 2006-2007 | 国家自然科员基金:旱稻铁锌营养的根际调控机制 | 30万 | 6 | 主研,包括试验具体实施、数据处理、论文的撰写等 | 2007-2009 | 加拿大NSERC项目:Impact of Fertilization and Management Practices on Trace Element Dynamics in Crops And Soils | 60万加元 | 4 | 主研,包括试验具体实施、数据处理、论文及项目报告的撰写等 | 2009-2013 | 加拿大AAFC项目:Understanding nitrogen dynamics in Canadian cropping systems to reduce environmental losses | 400万加元 | 5 | 项目协调员,包括协调试验人员配置、协调项目人员交流、处理项目日常事务、组织电话或定期项目会议、数据处理,组织完成年度报告等 | 2010-2015 | 加拿大AGGP项目:Beneficial Management Practices (BMPs) for Greenhouse Gas (GHG) Mitigation from Agroecosystems in Western Canada | 300万加元 | 6 | 主研,包括试验具体实施、数据处理、论文及项目进展报告的撰写等 | |
获奖及荣誉: |
了解土壤生态、土壤化学、植物营养、农业养分管理、农业生态环境等相关研究领域的发展趋势和前沿。硕博士毕业于中国及荷兰的重点大学,发表近二十篇SCI论文,相关工作被国际同行引用近200次,国际上在作物微量元素营养及作物重金属累积机理方面有一定影响力,为相关领域十余个国际顶尖学术杂志的审稿人,多次在国际学术会议做口头发言。在管理项目方面有一定基础和经验,曾主持和参与多项国内与国际合作项目,既有团队合作精神,亦具有独立思考和解决实际问题的能力。 |
代表论著: |
2013 | Effect of nitrogen fertilizer rate on nitrous oxide emission from irrigated potato on a clay loam soil in Manitoba, Canada. | Canadian Journal of Soil Science. 93: 1-11 | Gao, X., Tenuta, M.*, Nelson, A., Sparling, B., Tomasiewicz, D., Mohr M., and Bizimungu, B. | 2012 | Grain concentrations of protein, iron and zinc and bread making quality in spring wheat as affected by seeding date and nitrogen fertilizer management. | Journal of Geochemical Exploration. 121: 36-44 | Gao, X., Lukow, O.M., and Grant, C.A.* | 2012 | Cadmium and zinc concentration in grain of durum wheat in relation to phosphorus fertilization, crop sequence and tillage management. | Applied and Environmental Soil Science. doi:10.1155/2012/817107 | Gao, X., and Grant, C.A.* | 2012 | Improving zinc bioavailability in transition from flooded to aerobic rice. A review. | Agronomy for Sustainable Development. 32:465-478 | Gao, X.*, Hoffland, E., Stomph, T., Grant, C.A., Zou, C., and Zhang, F. | 2012 | Growth and iron uptake of lowland and aerobic rice genotypes under flooded and aerobic cultivation. | Communication in Soil Science and Plant Analysis. 43: 1811-1822 | Fan, X., Rezaul K., Chen, X., Zhang, Y., Gao, X., Zhang, F., and Zou, C.* | 2011 | Interactive effect of N fertilization and tillage management on Zn biofortification in durum wheat (Triticum durum). | Canadian Journal of Plant Science. 91:951‐960 | Gao, X., and Grant, C.A.* | 2011 | Grain cadmium and zinc concentrations in wheat as affected by genotypic variation and potassium chloride fertilization. | Field Crops Research. 122:95‐103 | Gao, X.*, Mohr, R.M., McLaren, D.L., and Grant, C.A. | 2011 | Cadmium concentration in flax colonized by mycorrhizal fungi depends on soil phosphorus and cadmium concentrations. | Communication in Soil Science and Plant Analysis. 42: 1882‐1897 | Gao, X., Tenuta, M., Flaten, D.N., and Grant, C.A.* | 2011 | Soil solution dynamics and plant uptake of cadmium and zinc by durum wheat following phosphate fertilization. | Plant and Soil. 338:423‐434. | Gao, X., Flaten, D.N., Tenuta, M., Grimmett, M.G., Gawalko, E.J., and Grant, C.A.* | 2010 | Concentration of cadmium in durum wheat as affected by time, source and placement of nitrogen fertilization under reduced and conventional‐tillage management. | Plant and Soil. 337:341‐354. | Gao, X., Brown K.R., Racz G.J., and Grant, C.A.* | 2010 | Mycorrhizal colonization and grain Cd concentration of field‐grown durum wheat in response to tillage, preceding crop and phosphorus fertilization. | Journal of the Science of Food and Agriculture. 90:750‐758. | Gao, X., Akhter, F., Tenuta, M., Flaten D.N., Gawalko, E.J., and Grant, C.A.* | 2010 | Geochemical Modeling of Zinc Bioavailability for Rice. | Soil Science Society of American Journal. 74:301‐309. | Gao, X., Schr?der, T.J., Hoffland, E., Zou, C., Zhang, F., and van der Zee, S.E.A.T.M.* | 2009 | Malate exudation by six aerobic rice genotypes varying in zinc uptake efficiency. | Journal of Environmental Quality. 38:2315‐2321. | Gao, X., Zhang, F., and Hoffland, E. | 2007 | Mycorrhizal responsiveness of aerobic rice genotypes is negatively correlated with their zinc uptake when nonmycorrhizal. | Plant and Soil. 290:283‐291. | Gao, X.*, Kuyper, T.M., Zou, C., Zhang, F., and Hoffland, E. | 2006 | From flooded to aerobic conditions in rice cultivation: consequences for zinc uptake | Plant and Soil. 280:41‐47. | Gao, X., Zou, C., Fan, X., Zhang, F., and Hoffland, E.* | 2006 | Silicon decreases transpiration rate and conductance from stomata of maize plants. | Journal of Plant Nutrition. 29:1637‐1647. | Gao, X., Zou, C.*, Wang, L.J., and Zhang, F. | 2005 | Tolerance to zinc deficiency in rice correlates with zinc uptake and translocation. | Plant and Soil. 278:253‐261. | Gao, X., Zou, C., Zhang, F., van der Zee, S.E.A.T.M., and Hoffland, E.* | 2004 | Silicon improves water use efficiency of maize plants. | Journal of Plant Nutrition. 27:1457‐1470. | Gao, X., Zou, C*, Wang L. and Zhang, F. | 2008 | How does aerobic rice take up zinc from low zinc soil? Mechanisms, trade-offs, and implications for breeding. | Development and Uses of Biofortified Agricultural Products. Eds. Banuelos G S and Lin Z Q. CRC Press. Boca Raton. p 153‐170 | Gao, X.*, Kuyper, T.W., Zhang, F., Zou, C., and Hoffland, E. | 2007 | Micronutrient deficiencies in crop production in China. | Micronutrient Deficiencies in Global Crop Production. ed. Alloway B J. Springer. Verlag. p 127‐148 | Zou, C., Gao, X., Shi, R., Fan, X., and Zhang, F.* | |
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