• 姓名: 郑德文
  • 性别: 男
  • 职务: 
  • 职称: 正高级工程师
  • 学历: 博士研究生
  • 电话: 020-85291790
  • 传真: 
  • 电子邮件: zhengdewen@gig.ac.cn
  • 通讯地址: 广州市天河区五山科华街511号
    简  历:
  • 郑德文,男,博士,1971年生于山西省文水县,2001年毕业于中国地震局地质研究所构造地质学专业,获博士学位。同年入职中国地震局地质研究所新构造与年代学实验室,一直从事构造热年代学的学习和研究工作(Ar/Ar、裂变径迹、U-Th/He21Ne宇宙成因核素年代学)以及仪器设备的升级改造,2008年评为研究员。期间,在张培震院士带领下,从事青藏高原东北缘新生代构造活动的低温热年代学研究,获得了青藏高原东北缘新生代隆升和扩展的过程,这一成果是国家自然科学奖(二等奖)的主要内容之一;与研究生们一起,改进了裂变径迹测试技术,建立了基于LA-ICP-MS的裂变径迹测试流程;建立了硫酸盐风化矿物(黄钾铁矾、斜钾铁矾)的39Ar/40Ar法测试流程;建立了磷灰石和锆石的U-Th/He实验流程;建立了21Ne宇宙成因核素测年的实验流程;改进了地貌参数的提取方法,探索了构造、气候对地貌的影响。20189月,进入中国科学院广州地球化学研究所工作,负责 Ar/Ar实验室和U-Th/He实验室工作。

    学习经历:

    1998~200110月,于中国地震局地质研究所攻读博士研究生学位,专业为构造地质学,研究方向为构造热年代学,导师张培震研究员、陈文寄研究员、李大明研究员。

    1995~1998,于中国地质大学(北京)攻读地球化学专业硕士研究生学位,专业为地球化学,导师杨忠芳教授。

    1989~1992,于沈阳黄金学院地质矿产系学习,专业为矿山地质。

    工作经历:

    200110月至今,中国地震局地质研究所新构造年代学实验室。

    1992~1995年,于山西省义兴寨金矿,从事生产技术工作。

    2007年,访问密歇根大学和加州理工学院,学习U-Th/He测试技术

    社会任职:
    研究方向:
  • 1. 低温热年代学研究(Ar/ArFTU-Th/He

    2. 3He21Ne宇宙成因核素年代学研究

    3. 青藏高原东北缘新生代隆升的热年代学研究

    4. 构造、气候对地貌的控制作用(或影响)

    获奖及荣誉:
  • 国家自然科学二等奖,2017,青藏高原及东北缘晚新生代构造变形与形成过
    代表论著:
  • Yizhou Wang, Dewen Zheng, Huiping Zhang, Jianzhang Pang, Jingxing Yu, Chaopeng Li, and Yuqi Hao. The model of knickpoint retreat along river longitudinal profiles. JGR (Earth surface), Review

    Jingxing Yu, Dewen Zheng, Jianzhang Pang, Yizhou Wang, Matthew Fox, Pieter Vermeesch, Chaopeng Li, Lin Xiao, Yuqi Hao, and Ying Wang. Miocene range growth along the Altyn Tagh fault: Insights from apatite fission-track and (U-Th)/He thermochronometry in the western Danghenan Shan, China. JGR (Inpress)

    Jianzhang Pang , Jingxing Yu , Dewen Zheng, Weitao Wang , Yan Ma,Yizhou Wang, Chaopeng Li, Youjuan Li, and Ying Wang. Neogene Expansion of the Qilian Shan, North Tibet: Implications for the Dynamic Evolution of the Tibetan Plateau. Tectonics, 2019, doi.org/10.1029/2018TC005258

    Jianzhang Pang, Jingxing Yu, Dewen Zheng, Yizhou Wang, Huiping Zhang, Chaopeng Li, Weitao Wang, Yuqi Hao. Constraints of new apatite fission-track ages on the tectonic pattern and geomorphic development of the northern margin of the Tibetan Plateau. 2019 (181), doi.org/10.1016/j.jseaes.2019.103909

    Yizhou Wang, Dewen Zheng, Huiping Zhang, Chaopeng Li, Lin Xiao, Youjuan Li, Yuqi Hao. The distribution of active rock uplift in the interior of the western Qilian Shan, NE Tibetan Plateau: Inference from bedrock channel proles. Tectonophysics, 2019, 759: 15-29

    Jingxing Yu, Jianzhang Pang, Yizhou Wang, Dewen Zheng, Caicai Liu, Weitao Wang.  Mid-Miocene uplift of the northern Qilian Shan as a result of the northward growth of the northern Tibetan Plateau. Geosphere, 2019, 15(2): 1–10, doi .org /10 .1130 /GES01520.1.

    Youjuan Li, Huaiyu He, Chenglong Deng, Yongxin Pan, Qiang Ji, Chengshan Wang, Dewen Zheng, Rixiang Zhu. 40Ar/39Ar dating results from the Shijiatun Formation, Jiaolai Basin: New age constraints on the Cretaceous terrestrial volcanicsedimentary sequence of China. Cretaceous Research,2018 (86) :251-260

    Yan Ma, Weitao Wang, Dewen Zheng, Huiping Zhang, Jianzhang Pang, Ying Wu, Finlay M. Stuart, Sheng Xu. Mid-Miocene cosmogenic upper limit for 10Be/21Ne burial age. Quaternary Geochronology, 48 (2018): 72–79

    Wang Y, Zheng D, Pang J, et al. Using slope-area and apatite fission track analysis to decipher the rock uplift pattern of the Yumu Shan: New insights into the growth of the NE Tibetan Plateau[J]. Geomorphology, 2018, 308:118-128.

    Pang Jianzhang, Dewen Zheng, Yan Ma, Ying Wang, Ying Wu, Jinglin Wan, Jingxing Yu, Youjuan Li a, Yizhou Wang2017. Combined apatite fission-track dating, chlorine and REE content analysis by LA-ICPMS. Science Bulletin,doi.org/10.1016/ j.scib.2017.10.009

    Li, Y., Zheng, D., Wu, Y., Wang, Y., He, H., & Pang, J., et al. (2017). A potential (uth)/he zircon reference material from penglai zircon megacrysts. Geostandards & Geoanalytical Research413):359-365

    Youjuan LiHuaiyu He, Alexei V. Ivanov, Elena I. Demonterova, Yongxin Pan, Chenglong DengDewen Zhengand Rixia ng Zhu. 40Ar/39Ar age of the onset of high-Ti phase of the Emeishan volcanismstrengthens the link with the end-Guadalupian mass extinction. INTERNATIONAL GEOLOGY REVIEW, 2017.doi.org/10.1080/00206814.2017.1405748

    Wang YizhouZhang HuipingZheng Dewen et al.2017. How a stationary knickpoint is sustained: New insights into the formation of the deep Yarlung Tsangpo Gorge. Geomorphology28528~43

    Wang YizhouZhang HuipingZheng Dewenet al., 2017. Coupling slope–area analysis, integral approach andstatistic tests to steady-state bedrock river profile analysisEarth Surface Dynamics5145~160

    Zheng D, Wang W, Wan J, et al. Progressive northward growth of the northern Qilian Shan-Hexi Corridor (northeastern Tibet) during the Cenozoic[J]. Lithoshere, 2017, 9(3):L587.1.

    Wang Weitao, Zheng Wenjun, Zhang Peizhen, Li Qiang, Kirby Eric, Yuan Daoyang, Zheng Dewen, LiuCaicai, Wang Zhicai, Zhang Huiping, Pang Jianzhang. Expansion of the Tibetan Plateau during the Neogene. Nature Communications, 2017.6.21, 8: 1-12. 2.

    Zhang, H., Zhang, P., Prush, V., Zheng, D., Zheng, W., Wang, W., Liu, C., Ren, Z., 2017. Tectonic geomorphology of the Qilian Shan in the northeastern Tibetan Plateau: Insights into the plateau formation processes. Tectonophysics 706-707, 103-115.

    Weitao Wang, Peizhen Zhang, Caicai Liu, Dewen Zheng, Jingxing Yu, Wenjun Zheng, Yizhou Wang, Huiping Zhang, Xiuyan Chen. Pulsed growth of the west Qinling at ~30 Ma in the northeastern Tibet:Evidence from Lanzhou Basin magnetostratigraphy and provenance. Journal of Geophysical Research: Solid Earth, 2016.11.18, 121(11): 7754-7774.

    Wang Weitao, Zhang Peizhen, Pang Jianzhang, Garzione Carmala, Zhang Huiping, Liu Caicai, Zheng Dewen, Zheng Wenjun, Yu Jingxing. The Cenozoic growth of the Qilian Shan in the northeastern Tibetan Plateau: A sedimentary archive from the Jiuxi Basin. Journal of Geophysical Research: Solid Earth, 2016.4, 121(4): 2235-2257.

    Wang Weitao, Zhang Peizhen, Yu Jingxing, Wang Yizhou, Zheng Dewen, Zheng, Wenjun, Zhang Huiping, Pang Jianzhang. Constraints on mountain building in the northeastern Tibet: Detrital zircon records from synorogenic deposits in the Yumen Basin. , Scientific Reports, 2016.6.9, 6: 1~8.

    Wang Weitao, Zhang Peizhen, Zheng Wenjun, Zheng Dewen, Liu Caicai, Xu Hongyan, Zhang Huiping, Yu Jingxing, Pang Jianzhang. Uplift-driven sediment redness decrease at similar to 16.5 Ma in the Yumen Basin along the northeastern Tibetan Plateau. Scientific Reports, 2016.7.14, 6: 1-7.

    Yan MaYing WuDaming LiDewen Zhenget al., 2016. Erosion rate in the Shapotou area, northwestern China, constrained by in situ-produced cosmogenic 21Ne in long-exposed erosional surfaces. Quaternary Geochronology2016.2.01313-11

    Jing YangDe-Wen ZhengWen Chen et al.2016. 40Ar/39Ar geochronology of supergene K-bearing sulfate minerals: Cenozoic continental weathering and its paleoclimatic significance in the Tu–Ha Basin, northwestern ChinaPalaeogeography, Palaeoclimatology, Palaeoecology44583~96

    郑德文,武颖,庞建章等,2016. U-TH/He热年代学原理、测试及应用. 第四纪研究,365):1027-1036

    Lin Xu, Zheng DewenSun Jiminet al., 2015. Detrital apatite fission track evidence for provenance change in the Subei Basin and implications for the tectonic uplift of the Danghe Nan Shan (NW China) since the mid-Miocene. Journal of Asian Earth Sciences111302~311

    Yan MaYing WuDaming LiDewen Zheng2015. Analytical procedure of neon measurements on GV 5400 noble gas mass spectrometer and its evaluation by quartz standard CREU-1. International Journal of Mass Spectrometry38026-33

    Wang YizhouZhang HuipingZheng Dewenet al.,2014. Controls on decadal erosion rates in Qilian Shan: Re-evaluation and new insights into landscape evolution in north-east Tibet. Geomorphology223117~128

    Zhang, H., Zhang P-z, Zheng D-W, et al. 2014. Transforming the Miocene Altyn Tagh fault slip into shortening of the northwestern Qilian Shan: insights from the drainage basin geometry. Terra Nova, 26(3), 216-221.

    马严, 武颖, 庞建章, 张会平, 俞晶星, & 郑德文. (2014). 宇宙成因~(21)ne暴露测年方法的初步建立及检验. 科学通报(27), 2707-2713.

    杨静,郑德文,邱华宁等,2014. 吐哈地区表生黄钾铁矾40Ar/39Ar定年及其对晚中新世风化前锋拓展速率的限定,科学通报,302956~2964

    王伟涛, 张培震, 郑德文, 庞健章. 青藏高原东北缘海原断裂带晚新生代构造变形. 地学前缘, 2014.4.10, 21(4): 266-274.

    王伟涛, 张培震, 郑德文, 庞建章. 青藏高原东北缘寺口子剖面碎屑锆石示踪及其构造意义. 地质学报, 2013.10, 87(10): 1551-1569.

    Jianhui LiuPeizhen ZhangDewen Zheng et al., 2013. Cenozoic exhumation and uplift of the North Qinling Range, Central China, in response to intracontinent range-parallel extension: results (constraints or insights) from apatite fission track thermochronology. Tectonophics584:281-296

    Wang Weitao, Kirby Eric, Zhang Peizhen, Zheng Dewen, Zhang Guangliang, Zhang Huiping, Zheng Wenjun, Chai Chizhang. Tertiary basin evolution along the northeastern margin of the Tibetan Plateau: Evidence for basin formation during Oligocene transtension. GEOLOGICAL SOCIETY OF AMERICA BULLETIN, 2013.4, 125(3-4): 377-400.

    Dao-Yang Yuan, Wei-Peng Ge, Zhen-Wei Chen, Chuan-You Li, Zhi-Cai Wang, Hui-Ping Zhang, Pei-Zhen Zhang, De-Wen Zheng, Wen-Jun Zheng, William H. Craddock,  Katherine E. Dayem,  Alison R. Duvall, Brian G. Hough,  Richard O. Lease,  Jean-Daniel Champagnac, Douglas W. Burbank, Marin K. Clark, Kenneth A. Farley,  Carmala N. Garzione,  Eric Kirby,  Peter Molnar, Gerard H. Roe (2013). The growth of northeastern tibet and its relevance to large-scale continental geodynamics: a review of recent studies. Tectonics, 32(5), 1358-1370.

    杨静, 郑德文, 李大明等,2013. 风化矿物斜钾铁矾40Ar/39Ar定年与Ar封闭温度. 中国科学:地球科学, 2:295-303.

    Pang, J. Z., Zheng, D. W., Wan, J. L.,et al., 2013. Insufficient thermalization effects on determining fission-track ages. Science China Earth Sciences, 56(7):1233-1241.

    庞建章, 郑德文 万景林等, 2012. 中子热化不充分对裂变径迹年龄测定影响的初步研究。 中国科学(D),101559~1567

    Yang JingZheng Dewen, Li Daming et al.,2012. The Preliminary Investigation of Diffusion Kinetics of Supergene Yavapaiite and Its Significance. Scince in China, (D), 55(12): 1996-2004.

    Zhang, H.P., W. H. Craddock, R. O. Lease, W.t. Wang, D.Y. Yuan, P.Z. Zhang, P. Molnar, D.W. Zheng, and W.J. Zheng (2012), Magnetostratigraphy of the Neogene Chaka basin and its implications for mountain building processes in the northeastern Tibetan Plateau, Basin Res., 24, 31–50

    Craddock W. H., E. Kirby, Zh. Dewen, and Liu. Jianhui (2012), Tectonic setting of Cretaceous basins on the NE Tibetan Plateau: Insights from the Jungong basin, Basin Res., 24, 51–69.

    Wang Z., Zhang P., Garzione C. N., Lease R. O., Zhang G., & Zheng D., et al. (2012). Magnetostratigraphy and depositional history of the miocene wushan basin on the ne tibetan plateau, china: implications for middle miocene tectonics of the west qinling fault zone. Journal of Asian Earth Sciences, 44(1), 189-202.

    Lease R. O., Burbank D. W., Clark M. K., Farley K. A., Zheng D.W., and Zhang H.P. (2011), Middle Miocene reorganization of deformation al ong the northeastern Tibetan Plateau, Geology, 39, 359–362, doi:10.1130/G31356.1.

    Wang Wei-tao, Zhang Pei-Zhen, Kirby Eric, Wang Li-Hua, Zhang Guang-Liang, Zheng, De-Wen, Chai Chi-Zhang. A revised chronology for Tertiary sedimentation in the Sikouzi basin: Implications for the tectonic evolution of the northeastern corner of the Tibetan Plateau. Tectonophysics, 2011.6.3, 505 (1-4): 100-114.

    Zheng Dewen, Clark M., Zhang Peizhen et al., Erosion, fault initiation and topographic growth of the North Qilian Shan (northernTibetan Plateau), Geosphere,2010, 6(6):937–941; doi: 10.1130

    刘建辉, 张培震, 郑德文等。贺兰山晚新生代隆升的剥露特征及其隆升模式。中国科学(D),201040 1:50-60

    LIU JianHui1, ZHANG PeiZhen, ZHENG DeWen, et al., 2010. Pattern and timing of late Cenozoic rapid exhumation and uplift of the Helan Mountain, China. Scince in China, (D),  53.3: 345–355, doi: 10.1007/s11430-010-0016-0

    刘建辉,张培震,郑德文等。秦岭太白山新生代隆升冷却历史的磷灰石裂变径迹分析。地球物理学报,2010,5310):2405-2414.

    Clark, M. K., Farley, K. A., Zheng, D., Wang, Z., & Duvall, A. R. (2010). Early cenozoic faulting of the northern tibetan plateau margin from apatite (U–Th)/He ages. Earth & Planetary Science Letters, 296(1), 78-88.

    Dewen Zheng, Pei-Zhen Zhang, Jinlin Wan et al. Rapid exhumation at ~8 Ma on the Liupan Shan thrust fault from apatite fission-track thermochronology: Implications for growth of the northeastern Tibetan Plateau margin. Earth and Planetary Science Letters, 2006, (248) : 183–193

    郑德文,张培震,万景林等, 2005. 六盘山盆地热历史的裂变径迹证据, 地球物理学报,48(1):157-164

    Zheng Dewen, Zhang Peizhen, Wan Jinglin et.al., 2005. Apatite fission track evidence for thermal history of Liupanshan basin. Chinese Journal of Geoghysics, 48(1):170-178

    郑德文,张培震,万景林等。西秦岭北缘中生代构造活动的40Ar/39ArFT热年代学证据。岩石学报,20042003):697-706

    郑德文,张培震, 万景林等,2003. 青藏高原东北边缘晚新生代构造变形的时序——临夏盆地碎屑颗粒磷灰石裂变径迹记录. 中国科学, 33(增刊): 190-198

    Zheng D., Zhang P., Wan J. et al., 2003. Late Cenozoic deformation subsequence in northeastern margin of Tibet_Detrital AFT records from Linxia Basin, Science in China (Series D), 46(Sup.), 266-275

    承担科研项目情况:
  • 1. 国家自然科学基金面上项目,41972221,东昆仑山新生代构造活动的低温热年代学研究

    2. 国家自然科学基金面上项目,41772198,秦岭中段(陕西段)新生代构造地貌研究。

    3. 国家自然科学基金面上项目,41272215,祁连山南缘-柴达木盆地北缘新生代构造活动与剥露特征的热年代学制约

    4. 国家自然科学基金面上项目,40672134,祁连山新生代构造演化的热年代学制约

    5. 国家自然科学基金(青年)项目,40202020,青藏高原东北边缘新生代构造活动的裂变径迹热年代学研究

    6. MM1200质谱仪气体萃取系统升级改造,科技部技改项目,2005JG100080

    7. Low-temperature thermochronology: applications and inter-laboratory calibrationIGCPCo-Leader