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尧水红

发布者:管理员发布时间:2019-11-26作者:Admin来源:点击量:

  

  中国农业科学院农业资源与农业区划研究所“耕地质量监测与培育创新团队”骨干

  通讯地址:北京中关村南大街12号,100081

  电话: 010-82106719 (O)

  电子邮箱: yaoshuihong@caas.cn

  研究简介:

  主要研究领域为土壤有机质积累的生物物理机制及土壤肥力调控,重点方向是解析土壤有机质-土壤微生物-土壤结构三者之间的相互关系。综合利用运用野外长期定位观测与室内控制实验、结合化学光谱及现代分子生物学分析方法,从土壤学,地球化学及微生物学等多角度,研究探索土地利用管理和生态系统变化对土壤有机质分解和稳定的影响。

  欢迎有农业资源环境,生态学、生物学或土壤学等专业知识背景的同学联系!

  教育及工作经历:

  2010.06-至今      中国农业科学院农业资源与农业区划研究所 副研究员

  2018.06 - 2018.08 德国明斯特大学 访问学习

  2008.07 - 2010.06 中国农业科学院作物科学研究所/北京草业与环境研究发展中心 博士后/助理研究员

  2005.09 - 2008.07 中国科学院南京土壤研究所,土壤学专业,农学博士;

  2006.01 - 2006.04 苏格兰作物研究所 合作研究

  2002.09 - 2005.07 南京农业大学资源与环境科学学院,恢复生态学专业,  理学硕士;

  1998.09 - 2002.07 南京农业大学资源与环境科学学院, 土壤与农业化学专业,农学学士。

  科研项目:

  l.国家重点研发计划项目“稻田土壤生物肥力演变特征及调控途径研究(子课题,2016YFD0300907-01)”,175万;

  2.国家自然科学基金“外源腐解菌对土壤分解功能稳定性的控制机制研究(青年项目,31400461)”, 24万;

  3.国家自然科学基金“稻田土壤结构变化及其主控因素研究(面上项目,41471187)”,80万;

  4.所优秀青年专项资金项目“黑土剖面有机质分解的激发效应及其调控机制研究”,50万。

  代表性论文:

  1.Zhang Y.L., S.H. Yao, X.Y. Cao, K. Schmidt-Rohr, D.C. Olk, J.D. Mao*, B. Zhang*. 2018. Structural evidence for soil organic matter turnover following glucose addition and microbial controls over soil carbon change at different horizons of a Mollisol. Soil Biology & Biochemistry 119: 63-73.

  2.Liu, Y. L., Yao, S.H., Han, X. Z., Zhang, B., & Banwart, S. A. (2017). Soil mineralogy changes with different agricultural practices during 8-year soil development from the parent material of a mollisol. Advances in Agronomy. http://dx.doi.org/10.1016/bs.agron.2016.10.015

  3.Bi, L., Yao, S., & Zhang, B. (2015). Impacts of long-term chemical and organic fertilization on soil puddlability in subtropical china. Soil & Tillage Research, 152, 94-103.

  4.Yao, S., Teng, X., & Zhang, B. (2015). Effects of rice straw incorporation and tillage depth on soil puddlability and mechanical properties during rice growth period. Soil & Tillage Research, 146, 125-132.

  5.Li, N., Yao, S., Qiao, Y. F., Zou, W. X., You, M. Y., & Han, X. Z., et al. (2015). Separation of soil microbial community structure by aggregate size to a large extent under agricultural practices during early pedogenesis of a mollisol. Applied Soil Ecology, 88, 9-20.

  6.Zhang, Y., Yao, S., Mao, J., Olk, D. C., Cao, X., & Zhang, B. (2015). Chemical composition of organic matter in a deep soil changed with a positive priming effect due to glucose addition as investigated by 13C nmr spectroscopy. Soil Biology & Biochemistry, 85, 137-144.

  7.Li, N., Yao, S., You, M. Y., Zhang, Y. L., Qiao, Y. F., & Zou, W. X., et al. (2014). Contrasting development of soil microbial community structure under no-tilled perennial and tilled cropping during early pedogenesis of a mollisol. Soil Biology & Biochemistry, 77(7), 221-232.

  8.Zhang B., Wang H., Yao* S., L.D. Bi. (2013). Litter quantity confers soil functional resilience through mediating soil biophysical habitat and microbial community structure on an eroded bare land restored with mono Pinus Massoniana. Soil Biology & Biochemistry. 57: 556–567

  9.Yao S., B. Zhang*, F. Hu. (2011). Soil biophysical controls over rice straw decomposition and sequestration in soil: the effects of drying intensity and frequency of drying and wetting cycles. Soil Biology and Biochemistry. 43: 490-499. 10.1016/j.soilbio.2010.11.027.

  10.孙经伟, 尧水红*, 李娜, 尤孟阳, 韩晓增, 张斌, 2016. 农田恢复措施对黑土母质发育的新成土壤团聚体微形态及孔隙结构的影响. 中国土壤与肥料. (4):17-23.


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