人才详细信息

姓名:冯金良
性别:
学历:博士
专家类别:研究员
电话:010-84097095
传真:010-84097079
电子邮箱:fengjl@itpcas.ac.cn
职称:研究员
通讯地址:北京市朝阳区林萃路16号院3号楼

简介

  1. 2004--至今. 中科院青藏高原所。
  2. 2002--2004. 中科院地理与资源所
  3. 1991--2002.河北地理研究所。
  4. 1999.8–2002.7: 北京大学, 博士。
  5. 1988.8–1991.7: 成都地质学院, 硕士。
  6. 1982—1988. 河北省地矿局水文队。
  7. 1980.8–1982.7: 长春地质学校。

研究方向

地貌学与第四纪地质学;表生地球化学

职务

社会任职

 

承担项目

获奖及荣誉

代表论著

1.Feng, J.-L., Li, C.-F., 2019. Chromium speciation and its stable isotopic signature in the dolomite–terra rossa weathering system. Geoderma 339, 106–114.
2.Feng, J.-L., Pei, L.-L., Zhu, X.-K., Ju, J.-T., Gao, S.-P., 2018. Absolute accumulation and isotope fractionation of Si and Fe during dolomite weathering and terra rossa formation. Chemical Geology 496, 43–56.
3.Hu, H.-P., Feng, J.-L., Chen, F., 2018. Sedimentary records of a palaeo-lake in the middle Yarlung Tsangpo: Implications for terrace genesis and outburst flooding. Quaternary Science Reviews 192, 135-148.
4.Feng, J.-L., Chen, F., Hu, H.-P., 2017. Isotopic study of the source and cycle of sulfur in the Yamdrok Tso basin, Southern Tibet, China. Applied Geochemistry 85, 61-72.
5.Hu, H.-P., Feng, J.-L., Chen, F., 2017. δ18O and δ13C in the fossil shells Radix sp. from the sediment succession of a dammed palaeo-lake in the Yarlung Tsangpo valley, Tibet, China. Boreas 46, 412–427.
6.Chen, F., Feng, J.-L., Hu, H.-P., Zhang, J.-F., Gao, S.-P., Liu, X., -M., 2017. Potential forcing mechanisms of Holocene lake level changes at Nam Co, Tibetan Plateau: inferred from the stable isotopic composition of shells of the gastropod Radix. The Holocene 27, 594-604.
7.Chen, F., Feng, J.-L., Hu, H.-P., 2016. Relationship between the shell geochemistry of the modern aquatic gastropod Radix and water chemistry of lakes of the Tibetan Plateau. Hydrobiologia 771, 239-254.
8.Feng, J.-L., Ju J.-T., Chen, F., Hu, Z.-G., Zhao, X., Gao, S.-P., 2016. Identification of a late Quaternary alluvial-aeolian sedimentary sequence in the Sichuan Basin, China. Quaternary Research 85, 279-289.
9.Feng, J.-L., Hu, H.-P., Chen, F., 2016. An eolian deposit–buried soil sequence in an alpine soil on the northern Tibetan Plateau: Implications for climate change and carbon sequestration. Geoderma 266, 14-24.
10.Lin, Y.-C., Feng, J.-L., 2015. Aeolian dust contribution to the formation of alpine soils at Amdo (Northern Tibetan Plateau). Geoderma 259/260, 104-115.
11.Zhang, J., Feng, J. -L., Hu, G., Wang, J., Yang, Y., Lin, Y., Jiang, T., Zhu, L., 2015. Holocene proglacial loess in the Ranwu valley, southeastern Tibet, and its paleoclimatic implications. Quaternary International 372, 9-22.
12.Feng, J.-L., Zhao, Z.-H., Chen, F., Hu, H.-P., 2014. Rare earth elements in sinters from the geothermal waters (hot springs) on the Tibetan Plateau, China. Journal of Volcanology and Geothermal Research 287, 1-11.
13.Feng, J.-L., Hu, Z.-G., Ju, J.-T., Lin, Y,-C., 2014. The dust provenance and transport mechanism for the Chengdu Clay in the Sichuan Basin, China. Catena 121, 68-80.
14.Ju, J.-T., Zhu, L.-P., Feng, J.-L., Wang, J.-B., Wang, Y., Xie, M.-P., Peng, P., Zhen, X.-L., Lu, X.-M., 2012. Hydrodynamic process of Tibetan Plateau lake revealed by grain size: Case study of Pumayum Co. Chinese Science Bulletin 57, 2433-2441.
15.Feng, J. -L., Lin, Y.-C., Gao, S.-P., Zhang, J.-F., 2012. Enrichment of trace elements in ferromanganese concretions from terra rossa and their potential desorption. Geochemical Journal 46, 151-161.
16.Feng, J. -L., Gao, S.-P., Zhang, J.-F., 2011. Lanthanide tetrad effect in ferromanganese concretions and terra rossa overlying dolomite during weathering. Chemie der Erde - Geochemistry 71, 349-362.
17.Feng, J. -L., 2011. Trace elements in ferromanganese concretions, gibbsite spots, and the surrounding terra rossa overlying dolomite: Their mobilization, redistribution and fractionation. Journal of Geochemical Exploration 108, 99-111.
18.Feng, J. -L., Hu, Z.-G., Ju, J.-T., Zhu, L.-P., 2011. Variation of trace element (including rare earth element) composition with grain size in loess and its implications for tracing eolian deposit provenance. Quaternary International 236, 116-126.
19.Feng, J. -L., Hu, Z.-G., Cui, J.-Y., Zhu, L.-P., 2010. Distributions of lead isotopes with grain sizes in eolian deposits. Terra Nova 22, 257–263.
20.Feng, J. -L., 2010. Behaviour of rare earth elements and yttrium in ferromanganese concretions, gibbsite spots, and the surrounding terra rossa over dolomite during chemical weathering. Chemical Geology 271, 112–132.
21.Feng, J. -L., Zhu, L.-P., Cui, Z.-J., 2009. Quartz features constrain the origin of terra rossa over dolomite on the Yunnan-Guizhou Plateau, China. Journal of Asian Earth Sciences 36, 156–167.
22.Feng, J. -L., Cui, Z.-J., Zhu, L.-P., 2009. Origin of terra rossa over dolomite on the Yunnan-Guizhou Plateau, China. Geochemical Journal 43, 151-166.
23.Feng, J. -L., Zhu, L.-P., 2009. Origin of terra rossa on Amdo North Mountain on the Tibetan plateau, China: Evidence from quartz. Soil Science and Plant Nutrition 55, 407-420.
24.Feng, J. -L., Zhu, L.-P., Zhen, X.-L, Hu, Z.-G., 2009. Grain size effect on Sr and Nd isotopic compositions in eolian dust: implications for tracing dust provenance and Nd model age. Geochemical Journal 43, 123-131.
25.Feng, J. -L., Zhu, L.-P., Ju, J.-T., Zhou, L.-P., Zhen, X.-L., Zhang, W., Gao, S.-P., 2008. Heavy dust fall in Beijing, on April 16-17, 2006: geochemical properties and indications of the dust provenance. Geochemical Journal 42, 221-236.
26.Feng, J. -L., Cui, Z.-J., 2002. The reconstruction of fossil planation surface in China. Chinese Science Bulletin 47, 434-440.
27.Cui, Z. -J., Li, D.-W., Feng, J.-L., Liu, G. -N., 2002. Comments on the planation surface once more. Chinese Science Bulletin 47, 793-797.
28.Cui, Z. -J., Li, D.-W., Feng, J.-L., Liu, G.-N., Li, H.-J., 2002. The covered karst, weathering crust and karst (double-level) planation surface. Science in China (Ser. D) 49, 366-379.
29.Cui, Z.-J., Li, D.-W., Liu, G.-N., Feng, J.-L., Zhang, W., 2001. Characteristics and planation surface formation environment of the red weathering crust in Hunan, Guangxi, Yunnan, Guizhou and Tibet. Science in China (D) 44(supplement), 162-175.
30.Feng, J. -L., Zhang, W., 1998. The evolution of the modern Luanhe River delta, North China. Geomorphology 25, 269-278.