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中国科学院亚热带农业生态研究所导师教师师资介绍简介-聂云鹏

本站小编 Free考研考试/2021-09-02


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研究员
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博士
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nyp@isa.ac.cn
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研究员
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湖南省长沙市芙蓉区远大二路644号
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  1984年12月出生,河南罗山人,博士,研究员,中科院青年创新促进会会员,中科院“西部青年****”A类项目获得者。主要从事稳定同位素生态学与生态水文学方面研究,并重点围绕 “喀斯特植被与岩土环境水分相互作用机制”的科学问题,在岩土环境水分特征刻画、植物对水分及其变化的适应与响应,以及方法论拓展方面取得重要研究进展。
  2006年7月毕业于沈阳农业大学水利学院,获水土保持与荒漠化防治专业学士学位,同年考入中国科学院亚热带农业生态研究所攻读硕士学位,2008年7月转为硕博连读,2011年7月毕业,获生态学博士学位,随后留所工作,被聘为助理研究员,2014年晋升为副研究员。曾于2015年以访问****身份赴美国Texas State University-San Marcos交流访问1年。曾获2016年度中国水土保持学会科学技术奖一等奖(排名第4),2014年度中国科学院科技促进发展奖一等奖(排名第9),2011年度中国科学院中国生态网络(CERN)十佳青年优秀学术论文奖和中国科学院朱李月华优秀博士生奖。

  个人主页:https://www.researchgate.net/profile/Yun-peng_Nie

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  已在New Phytologist, Plant and Soil, Journal of Hydrology, Journal of Vegetation Sciences, Frontiers in Plant Science, Plant ecology, Geoderma, Agriculture Water Management, Catena, 植物生态学报,应用生态学报等期刊发表文章30余篇,单篇最高被引用140余次(微软学术)。*为通讯作者,#为共同第一作者。
  [1]Wenna Liu, Hongsong Chen, Qiaoyun Zou, Yunpeng Nie*, 2021. Divergent root water uptake depth and coordinated hydraulic traits among typical karst plantations of subtropical China: Implication for plant water adaptation under precipitation changes. Agriculture Water Management, 249, 106798.
  [2]Yali Ding, Yunpeng Nie*, Hongsong Chen*, Kelin Wang, José I. Querejeta, 2021. Water uptake depth is coordinated with leaf water potential, water use efficiency and drought vulnerability in karst vegetation. New Phytologist, 229, 1339-1353
  [3]Xingyu Ma, Hongsong Chen, Yunpeng Nie*, 2020. Common Species Maintain a Large Root Radial Extent and a Stable Resource Use Status in Soil-Limited Environments: A Case Study in Subtropical China. Frontiers in Plant Science, 11, 1260.
  [4]Teng Feng, Hongsong Chen*, Kelin Wang, Yunpeng Nie, Xinbao Zhang, Hongwei Mo, 2020. Assessment of underground soil loss via the tapering grikes on limestone hillslopes. Agriculture, Ecosystems & Environment, 297, 106935.
  [5]Sheng Wang, Zhiyong Fu*, Hongsong Chen*, Yunpeng Nie, Qinxue Xu, 2020. Mechanisms of surface and subsurface runoff generation in subtropical soil-epikarst systems: Implications of rainfall simulation experiments on karst slope. Journal of Hydrology, 580, 124370.
  [6]Yunpeng Nie, Hongsong Chen*, Yali Ding, Qiaoyun Zou, Xingyu Ma, Kelin Wang, 2019. Qualitative identification of hydrologically different water sources used by plants in rock-dominated environments. Journal of Hydrology, 573, 386-394.
  [7]Yunpeng Nie#, Yali Ding#, Huilin Zhang, Hongsong Chen*, 2019. Comparison in woody species composition between rocky outcrop and nearby matrix vegetation on degraded karst hillslope of Southwest China. Journal of Forestry Research, 30: 911-920.
  [8]Jing Yang, Hongsong Chen*, Yunpeng Nie, Kelin Wang, 2019. Dynamic variations in profile soil water on karst hillslopes in Southwest China. Catena, 172, 655-663.
  [9]Yunpeng Nie, Hongsong Chen*, Yali Ding, Kelin Wang, 2018. Water source segregation along successional stages in a degraded karst region in subtropical China. Journal of Vegetation Science, 29, 933-942.
  [10]Yali Ding#, Yunpeng Nie #, Susanne Schwinning, Hongsong Chen*, Jing Yang, Wei Zhang, Kelin Wang, 2018. A novel approach for estimating groundwater use by plants in rock-dominated habitats. Journal of Hydrology, 565, 760-769.
  [11]Yunpeng Nie, Hongsong Chen*, Yali Ding, Jing Yang, Kelin Wang, 2017. Comparison of rooting strategies to explore rock fractures for shallow soil-adapted tree species with contrasting aboveground growth rates: A greenhouse microcosm experiment. Frontiers in Plant Science, 8: 1651 doi: 10.3389/fpls.2017.01651
  [12]Hongsong Chen*, Ke Hu, Yunpeng Nie, Kelin Wang, 2017. Analysis of soil water movement inside a footslope and a depression in a karst catchment, Southwest China. Scientific Reports, 7: 2544 doi:10.1038/s41598-017-02619-x
  [13]Jing Yang#, Yunpeng Nie#, Hongsong Chen*, Sheng Wang, Ke-lin Wang, 2016. Hydraulic properties of karst fractures filled with soils and regolith materials: Implication for their ecohydrological functions. Geoderma, 276: 93-101.
  [14]Jing Yang, Hong-song Chen*, Yun-peng Nie, Wei Zhang, Ke-lin Wang, 2016. Spatial variability of shallow soil moisture and its stable isotope values on a karst hillslope. Geoderma, 264: 61-70.
  [15]Sheng Wang, Zhiyong Fu*, Hongsong Chen, Yunpeng Nie, Kelin Wang, 2016. Modeling daily reference ET in the karst area of northwest Guangxi (China) using gene expression programming (GEP) and artificial neural network (ANN). Theoretical and Applied Climatology, 126, 493-504.
  [16]Tong-gang Fu, Hong-song Chen*, Wei Zhang, Yun-peng Nie, Peng Gao, Ke-lin Wang, 2015a. Spatial variability of surface soil saturated hydraulic conductivity in a small karst catchment of southwest China. Environmental Earth Science, 74: 2381-2391.
  [17]Tong-gang Fu, Hong-song Chen*, Wei Zhang, Yun-peng Nie, Ke-lin Wang, 2015b. Vertical distribution of soil saturated hydraulic conductivity and its influencing factors in a small karst catchment in southwest China. Environmental Montoring and Assessment, doi: 10.1007/s10661-015-4320-1
  [18]Ke Hu, Hong-song Chen*, Yun-peng Nie, Ke-lin Wang, 2014. Seasonal recharge and mean residence times of soil and epikarst water in a small karst catchment of southwest China. Scientific Reports, 5:10215 doi: 10.1038/srep10215
  [19]Yun-peng Nie, Hong-song Chen*, Kelin Wang, Ya-li Ding, 2014. Rooting characteristics of two widely distributed woody plant species growing in different karst habitats of southwest China. Plant Ecology, 215: 1099-1109.
  [20]Yun-peng Nie, Hong-song Chen*, Kelin Wang, Ya-li Ding, 2014. Seasonal variations in leaf δ13C values: implications for different water-use strategies among species growing on continuous dolomite outcrops in subtropical China. Acta Physiologiae Plantarum, 36: 2571-2579.
  [21]Yun-peng Nie, Hong-song Chen*, Kelin Wang, Jing Yang, 2012. Water source utilization by woody plants growing on dolomite outcrops and nearby soils during dry seasons in karst region of Southwest China. Journal of Hydrology 420-421: 264-274.
  [22]Yun-peng Nie, Hong-song Chen*, Kelin Wang, Wei Tan, Peng-yan Deng, Jing Yang, 2011. Seasonal water use patterns of woody species growing on the continuous dolostone outcrops and nearby thin soils in subtropical China. Plant and Soil, 341: 399-412.
  [23]邹巧云, 陈洪松, 马星宇, 聂云鹏*, 2019. 基于控水试验的喀斯特出露基岩生境植物水分来源分析. 应用生态学报, 30: 759-767.
  [24]聂云鹏, 陈洪松*, 王克林, Schwinning Susanne, 2017. 采用稳定同位素技术判定喀斯特地区植物水分来源的挑战与可能应对方案. 应用生态学报, 28: 3081-3088.
  [25]聂云鹏, 陈洪松*, 王克林, 2011. 石灰岩地区连片出露石丛生境植物水分来源的季节性差异. 植物生态学报, 35: 1029-1037.
  [26]聂云鹏, 陈洪松*, 王克林, 2010. 土层浅薄地区植物水分来源研究方法. 应用生态学报, 21: 2427-2433.
  [27]张慧玲,丁亚丽, 陈洪松, 王克林, 聂云鹏*, 2018. 出露基岩生境典型植物树干液流对自然降水和连续干旱的响应特征. 应用生态学报, 29: 1117-1124.
  [28]张慧玲,丁亚丽, 陈洪松, 王克林, 聂云鹏*, 2017. 喀斯特出露基岩生境两种典型乔木的树干液流特征. 应用生态学报, 28: 2431-2437.
  [29]丁亚丽, 陈洪松, 聂云鹏*, 王升, 张慧玲, 王克林,2016. 基于稳定同位素的喀斯特坡地尾巨桉水分利用特征. 应用生态学报, 27: 2729-2736.
  [30]王升, 陈洪松*, 付智勇, 聂云鹏, 王克林,2015. 基于探地雷达的典型喀斯特坡地土层厚度估测. 土壤学报, 52: 1024-1030.
  [31]丁亚丽, 陈洪松, 聂云鹏*, 杨静,2014. 基于氢氧同位素的不同木材密度植物茎水最短抽提时间分析. 生态学杂志, 33: 1004-1009.
  [32]胡可, 陈洪松*, 聂云鹏, 杨静, 王克林, 2013. 桂西北喀斯特峰丛洼地降水氢氧稳定同位素的季节变化特征. 农业工程学报, 29: 52-62.
  [33]张川, 陈洪松, 聂云鹏*, 张伟, 冯腾, 王克林,2013. 喀斯特地区洼地剖面土壤含水率的动态变化规律. 中国生态农业学报, 21: 1225-1232.
  [34]陈洪松*, 聂云鹏, 王克林, 2013. 岩溶山区水分时空异质性及植物适应机理研究进展. 生态学报, 33: 317-326.
  [35]杨静, 陈洪松*, 聂云鹏, 王克林, 2012. 典型喀斯特峰丛洼地降雨特性及浅层地下水埋深变化特征. 水土保持学报, 26: 239-243.
  [36]邓彭艳, 陈洪松*, 聂云鹏, 谭巍, 2010. 桂西北喀斯特地区菜豆树和红背山麻杆旱、雨季光合特性比较. 生态学杂志, 29(8): 1498-1504.
  [37]谭巍, 陈洪松*, 王克林, 聂云鹏, 邓彭艳, 2010. 桂西北喀斯特坡地典型生境不同植物叶片的碳同位素差异. 生态学杂志, 29: 1709-1714.
  [38]谭巍, 陈洪松*, 王克林, 聂云鹏, 邓彭艳, 2010. 桂西北喀斯特坡地不同演替阶段典型植物碳同位素组成差异. 中国生态农业学报, 2010, 18(6): 1223-1227.
  [39]聂云鹏, 陈洪松, 马星宇, 杜虎, 2020. 一种矩形玻璃容器在筛选适应喀斯特地貌植物的应用及其筛选方法. ZL5.0
  (信息更新至2021年7月1日)

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  主持国家自然科学青年基金,面上项目(2项)、国家重点研发计划专题和中国科学院 “西部青年****”A类、青年创新促进会会员项目等。

社会兼职
  中国土壤学会土壤物理专业委员会委员、湖南省生态学会理事;Frontiers in Plant Science编委;Frontiers in Water客座编辑。
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