王先彦

发布者:庞宝鑫发布时间:2017-05-10浏览次数:1379


个人简介

王先彦博士教授国家优秀青年科学基金获得者. 2008年于中国科学院地球环境研究所,获第四纪地质学博士学位(与荷兰皇家科学院联合培养). 2014年获荷兰自由大学地球与生命科学学院地貌学博士学位。2008年进入南京大学地理与海洋科学学院任教,从事地貌学和古气候变化的研究与教学工作主要开展了青藏高原东北部地貌演化、风尘沉积记录的长尺度气候变化过程的研究。


联系方式E-mail: xianyanwang@nju.edu.cn; phone: 025-89681063 (O)


研究方向

河流沉积与地貌过程、构造地貌、长尺度古气候变化


讲授课程

地貌学、地貌与第四纪地质、地貌过程


在研项目

2016-2018,主持国家自然科学基金优秀青年科学基金“地貌学”;

2016-2021,参加国家重点研发计划项目“过去全球变化定量重建方法和我国区域气候重建”;

2010-2014,参加科技部全球变化重大科学研究计划项目“北方沙地演化的自然和人为因素”;

2016-2018. 参加中荷国际合作项目“Natural environmental conditions for Paleolithic hominids in central China”.


结题项目

2013-2016, 主持国家自然科学基金项目“晚第四纪黄河上游中部地貌与气候变化及青藏高原东北部构造活动的联系”;

2010-2012, 主持国家自然科学基金项目“更新世以来高原河流沉积/侵蚀过程对气候变化的响应:以大通河为例”;

2010-2012, 主持教育部博士点新教师基金项目“大渡河被袭夺时代的磁性地层研究”;

2009-2012, 参加中荷国际合作项目“Impact of external forcing(climate change, land movement and human activity) on dust and water transport in China”.


发表论文(按时间顺序)

  1. Xianyan Wang, Junfei Ma, Shuangwen Yi, Jef, Vandenberghe, Yan Dai, Huayu Lu, Interaction of fluvial and aeolian sedimentation process and response to climate change since the last glacial in a semi-arid environment along the Yellow River. Quaternary Research, accepted.

  2. Jef Vandenberghe, Youbin Sun, Xianyan Wang, H.A. Abels, Xingxing Liu, 2018. Grain-size characterization of reworked fine-grained aeolian deposits. Earth-Science Reviews 177, 43-52.

  3. Xianyan Wang, Jef Vandenberghe, Huayu Lu, Ronald Van Balen, 2017. Climatic and tectonic controls on the fluvial morphology of the Northeastern Tibetan Plateau (China). Journal of Geographical Sciences, 27 (11): 1325-1340.

  4. LU Huayu, ZHUO Haixin,ZHANG Wenchao,WANG Shejiang, ZHANG Hongyan, SUN Xuefeng, JIA Xin, XU Zhiwei,WANG Xianyan. 2017. Earth surface processes and their effects on human behavior in monsoonal China during the Pleistocene-Holocene epochs. Journal of Geographical Sciences 27, 1311-1324. .

  5. Jef Vandenberghe, Xianyan Wang, Dimitri Vandenberghe, 2017. Comment on ‘Very Large Cryoturbation Structures of Last Permafrost Maximum Age at the Foot of Qilian Mountains (NE Tibet Plateau, China): a Discussion’ by Stuart A. Harris, Huijun Jin and Ruixia He in PPP. Permafrost and Periglacial Processes, DOI: 10.1002/ppp.1947. (SCI,影响因子,2.815).

  6. Xuefeng Sun, Xin Jia, Huayu Lu, Xianyan Wang, Shuangwen, Yi,Xiaoyong Wang, Zhiwei Xu, Fang Lei and Zhiyong Han, 2017. A modified depositionalhypothesis of the HanjiangLoess in the southern Qinling Mountains, central China. Progress in Physical Geography, 2017, (1), Doi:030913331773871.

  7. Zhiyong Han, Xusheng Li, Nairui Wang, Xianyan Wang, Huayu Lu, 2017. Application of River Longitudinal Profile Morphometrics to Reveal the Uplift of Lushan Mountain. Acta Geologica Sinica (English Edition) 91(5), 1644-1652.

  8. 马俊飞,王先彦,弋双文,戴岩,刘全玉,鹿化煜,2017. 末次冰期晚期半干旱环境下黄河阶地上的河流与风沙沉积交互过程. 高校地质学, 2017, 23(4), 750-758.

  9. Hu, Z. , Wang, X., Pan, B., Bridgland, D., & Vandenberghe, J, 2017. The Quaternary of the upper Yellow River and its environs: Field Guide. In QRA, Fluvial Archives Group and Geologists' Association meeting: 'Late Cenozoic evolution of the Yellow River and its environs' (pp. 1-84). London: Quaternary Research Association.

  10. 夏文婷, 王社江, 夏楠, 鹿化煜, 王先彦, 孙雪峰, 张红艳, 张文超, 卓海昕, 邢路达, 于青瑶, 冯武明, 2017. 汉中盆地龙岗寺遗址第 3 地点出土的石制品.人类学学报, DOI: 10.16359/j.cnki.cn11-1963/q.2017.0078

  11. 戴岩, 王先彦,王胜利,李一泉,鹿化煜. 2016. 地貌形态指数反映的青藏高原东北部宛川河流域新构造活动. 地理学报, 71, 412-421.

  12. J. Vandenberghe, X. Wang, D. Vandenberghe, 2016. Very Large Cryoturbation Structures of Last Permafrost Maximum Age at the Foot of the Qilian Mountains (NE Tibet Plateau, China). Permafrost and Periglacial Processes 27, 138-143.

  13. Haixin Zhuo, Huayu Lu, Shejiang Wang, Khobaib Ahmad, Wenfeng Sun, Hongyan Zhang, Shuangwen Yi, Yongxiang Li, Xianyan Wang. 2016. Chronology of newly-discovered Paleolithic artifact assemblages in Lantian (Shaanxi province), central China. Quaternary Research 86, 316-325.

  14. Zhiyong Han, Xusheng Li, Yong Wang, Xianyan Wang, Shuangwen Yi, Huayu Lu, 2016. Tectonically-controlled infilling of the eastern Nihewan Basin, North China, since the middle Pleistocene. Science China Earth Sciences 59(7), 1378-1389.

  15. Wang Xianyan, S. Yi, H. Lu, J. Vandenberghe, and Z. Han. 2015. Aeolian process and climatic changes in loess records from the northeastern Tibetan Plateau: Response to global temperature forcing since 30 ka, Paleoceanography, 30, doi:10.1002/2014PA002731

  16. Xianyan Wang, Jef Vandenberghe, Shuangwen Yi, Ronald Van Balen, Huayu Lu. 2015. Climate-dependent fluvial architecture and processes on a suborbital timescale in areas of rapid tectonic uplift: An example from the NE Tibetan Plateau. Global and Planetary Change 133, 318-329.

  17. Zhiwei Xu, Huayu Lu, Shuangwen Yi, Jef Vandenberghe, Joseph A. Mason, Yali Zhou, Xianyan Wang, 2015. Climate-driven changes to dune activity during the Last Glacial Maximum and deglaciation in the Mu Us dune field, north-central China, Earth and Planetary Science Letters 427, 149-159.

  18. 王乃瑞, 韩志勇, 李徐生, 陈刚, 王先彦, 鹿化煜,2015. 河流纵剖面陡峭指数对庐山构造抬升的指示. 地理学报 70 (9), 1516-1525.

  19. Xianyan Wang, Ronald van Balen, Shuangwen Yi, Jef Vandenberghe, Huayu Lu, 2014.  Differential tectonic movements in the confluence area of the Huang Shui and Huang He rivers (Yellow River), NE Tibetan Plateau, as inferred from fluvial terrace positions. Boreas 43, 469-484.

  20. Wang Xianyan, 2014. Climatic and tectonic controls on the fluvial morphology of the Northeastern Tibetan Plateau (China). Geo. brief 7, 11-13.

  21. 鹿化煜, 王先彦, Jef Vandenberghe, 2014. 青藏高原东北部地貌演化与隆升,自然杂志36 (3), 176-181.

  22. Xianyan Wang, Dimitri Vandenberghe, Shuangwen Yi, Jef Vandenberghe, Huayu Lu, Ronald Van Balen, Peter Van den Haute, 2013. Late Quaternary paleoclimatic and geomorphological evolution at the interface between the Menyuan basin and the Qilian Mountains, northeastern Tibetan Plateau. Quaternary Research 80, 534-544.

  23. 周亚利, 鹿化煜, 弋双文, 王先彦, 2013. 晚第四纪中国北方沙地风沙沉积的Zr/Rb比值特征及意义. 中国沙漠, 33(6), 1-9.

  24. 东丽娜, 鹿化煜, 王晓勇, 弋双文, 王先彦, 赵存法, 徐志伟,曾琳, 朱芳莹, 2013. 末次盛冰期和全新世大暖期新疆地区沙漠边界移动初探, 第四纪研究, 33, 388-340.

  25. 弋双文, 鹿化煜,  周亚利, 王先彦, 刘全玉, 2013. 晚第四纪科尔沁黄土堆积的Rb-Sr地球化学特征及古气候变化.海洋地质与第四纪地质, 33(2), 129-136.

  26. 冷疏影, 郑袁明, 赵小蓉, 刘志刚, 王先彦, 张正栋, 姜丽丽, 张少良, 林文鹏, 王力,2013. 2013年度地理学基金项目评审与成果分析. 地球科学研究进展地球科学进展28( 12) , 1 357-1 369

  27. Wang Xianyan, Lu Huayu, Vandenberghe Jef, Shaohua Zheng, Ronald van Balen , 2012. Late Miocene uplift of the NE Tibetan Plateau inferred from basin filling,planation and fluvial terraces in the Huang Shui catchment. Global and Planetary Change 88-89, 10-19. (SCI,影响因子,3.915

  28. H.Y. Lu, Xianyan Wang, Xiaoyong Wang, X.F. Sun, S.W. Yi, Y.L. Zhou, Q.Y. Liu, J. Swinehart, J. Vandenberghe, 2012. Palaeoclimatic changes in northeastern Qinghai-Tibetan Plateau revealed by magnetostratigraphy and magnetic susceptibility analysis of thick loess deposits. Netherlands Journal of Geosciences 91, 189-198.

  29. Yao Zhengquan, Guo Zhengtang, Xiao Guoqiao, Wang Qiang, Shi Xuefa, Wang Xianyan, 2012. Sedimentary history of the western Bohai coastal plain since the late Pliocene: Implications on tectonic, climatic and sea-level changes. Journal of Asian Earth Sciences, 54-55, 192-202.

  30. 鹿化煜, 张红艳, 孙雪峰, 王社江, Richard Cosgrove, Chen Shen, 张文超, 张小兵, 王先彦, 弋双文, 马萧林, Ming Wei , 2012. 中国中部南洛河流域地貌、黄土堆积与更新世古人类生存环境. 第四纪研究32 (2), 167-177.

  31. Vandenberghe, J., Wang, xianyan, Lu, H. Y. 2011: The impact of differential tectonic movement on fluvial morphology and sedimentology along the northeastern Tibetan Plateau. Geomorphology 134, 171–185.

  32. Lu Huayu, Wang xianyan, Li langping, 2010. Aeolian sediment evidence that global cooling has driven late Cenozoic stepwise aridification in central Asia. Geological Society London, Special Publications, 342, 29-44.

  33. Wang Xianyan, Lu Huayu, Jef Vandenberghe, Chen Zhongyan, Li Langping, 2010. Distribution and Forming Model of Fluvial Terrace in the Huangshui Catchment and its Tectonic Indication. Acta Geologica Sinic, 84(2), 415-423.

  34. Zhiwei Xu, Huayu Lu, Cunfa Zhao, Xianyan Wang, Zhizhu Su, Zhenting Wang, Hongyi Liu, Lixin Wang, Qi Lu, 2010, Composition, origin and weathering process of surface sediment in Kumtagh Desert, Northwest China. Journal of Geographical Sciences 21(6), 1062-1076.

  35. 胡挺,鹿化煜,王先彦,王晓勇,弋双文,孙雪峰. 2010. 轨道调谐建立西宁厚层黄土堆积时间标尺的探索. 第四纪研究, 30(1), 62-68.

  36. 徐志伟, 鹿化煜, 赵存法, 王先彦,苏志珠,王振亭,刘宏宜,王立新,卢琦. 2010. 库姆塔格沙漠地表物质组成、来源和风化过程. 地理学报, 65(1), 53-64.

  37. 鹿化煜,李郎平,弋双文,王先彦, Joseph A.Mason. 2010. 中国北方沙漠-黄土体系的沉积和侵蚀过程与未来趋向探析.地学前, 17(5), 336-344.

  38. 鹿化煜,胡挺,王先彦. 2009. 1100万年以来中国北方风尘堆积与古气候变化的周期及驱动因素分析.高校地质学报, 15(2), 149-158.

  39. 李郎平, 杨达源, 黄典, 葛兆帅, 胥勤勉, 王先彦. 2009. 金沙江巧家-新市镇河段的水系变迁. 第四纪研究, 29(2), 327-333.

  40. 鹿化煜,王先彦,李郎平. 2008. 晚新生代亚洲干旱气候发展与全球变冷联系的风尘沉积证据. 第四纪研究,28(5):949-956.

  41. 鹿化煜,王先彦,孙雪峰,等.2007. 钻探揭示的青藏高原东北部黄土地层与第四纪气候变化. 第四纪研究, 272, 230-241.

  42. Wang Xianyan, Lu Huayu, Ji Junfeg, Wang Xiaoyong, Zhao Jingbo, Huang Baochun, Li Zhen. 2006. Origin of the Red Earthy Deposit at the Northeastern Tibetan Plateau (China) and it’s implication to regional desiccation since the middle Miocene. Science in China (Series D) 49(5), 505-517.

  43. 王先彦,鹿化煜,季峻峰,邓成龙,2006. 青藏高原东北部湟水流域与黄土高原中部新近纪风尘堆积源区差异的证据。沉积学报,24(3): 365-369.

  44. 王先彦, 鹿化煜, 弋双文, 邓成龙,2006. 晚新生代洛川典型风尘堆积序列的延伸.海洋地质与第四纪地质,261):89-92.

  45. Wang Xiao Yong, Lu H Y, Xu H F, Deng C L, Chen T H, Wang Xianyan, 2006. Magnetic properties of loess deposits on the northeastern Qinghai-Tibetan Plateau: palaeoclimatic implications for the Late Pleistocene. Geophysical Journal International, 167, 1138-1147.

  46. Lu H. Y., Wang X. Y., An Z. S., Tan H. B., Zhu R. X., Ma H. Z., Li Z., Miao X. D., Wang Xianyan, 2004. Geomorphologic evidence of phased uplift of the northeastern Qinhai-Tibet Plateau since 14 million years ago. Science in China(series D), 47(9): 822-833.

  47. Xie S. C., Yi Y., Liu Y. Y., Gu Y. S., Ma Z. X., Lin W. J., Wang X. Y., Liu G., Liang B., Zhu Z. M. 2003. The Pleistocene vermicular red earth in South China signaling the global climatic change: The molecular fossil record. Science in China 46,1113-1120.

  48. Xie S. C., Lai X. L., Yi Y., Gu Y. S., Liu Y. Y., Wang X. Y., Liu G., Liang B. 2003. Molecular fossils in a Pleistocene river terrace in southern China related to paleoclimate variation. Organic Geochemistry 34, 789-797.