人物經歷
2012.05- ,中國地質學會青年工作委員會,副主任委員
2016.05- ,中國地震學會構造地貌專業委員會,秘書長
2016年國家自然科學基金委員會優秀青年基金“構造地貌學”獲得者
2014年中組部“萬人計畫”青年拔尖人才計畫入選者
2016.1-2019.12 美國地球物理學會《Tectonics》期刊副主編
2006-2014年:中國地震局地質研究所,助理研究員、副研究員
2015年-現在:中國地震局地質研究所,研究員
1996-2000年:遼寧工程技術大學, 地質工程專業,本科
2000-2003年:中國地質科學院地質力學研究所,構造地質學專業,碩士
2003-2006年:中國地質大學(北京),地學信息工程專業,博士
2007-2012年:中國地震局地質研究所地質學博士後流動站,博士後,合作導師:張培震研究員
2008-2009年:University of Colorado at Boulder,訪問學者,構造地貌及宇宙成因核素年代學,合作導師:Peter Molnar教授,Robert S Anderson教授
2013.03-05月:University of California at Davis,訪問學者,冰川地貌,合作導師:Michael Oskin教授
2014-2015年:University of California at Davis,訪問學者,河流地貌及年代學,合作導師:Michael Oskin教授
2015.03-05月:University of Arizona,訪問學者,宇宙成因核素年代學,合作導師:Warren Beck教授
研究方向
主要從事構造地貌、河流地貌及其年代學等方面的研究。
科研項目
2017.01-2019.12. 國家自然科學基金委員會優秀青年科學基金項目. 構造地貌學. 項目負責人.
2016.01-2018.12. 2014年“萬人計畫”青年拔尖人才計畫項目. 項目負責人.
2016.01-2020.12.青藏高原東北緣新生代構造變形幾何結構、運動圖像完善與演化過程恢復. 國家自然科學基金委員會重大項目(編號: 41590861). 項目骨幹.
2013.01-2016.12. 青藏高原東北緣大夏河流域瞬時地貌發育特徵及其控制因素研究. 國家自然科學基金委員會面上項目(編號: 41272196). 項目負責人.
2012.07-2017.06. 青藏高原東北緣祁連山、六盤山構造變形歷史. 中國科學院戰略性先導科技專項(B類)(編號: XDB03020201). 項目骨幹.
2011.11-2013.12. 利用雷射雷達(LiDAR: Light Detection And Ranging)探測活動斷裂的實驗研究—以海原斷裂帶為例. 中國地震局地質研究所中央級公益性科研院所基本科研業務專項(編號: IGCEA1125). 項目負責人.
2011.01-2014.12. 祁連山晚新生代構造變形及其地貌演化. 國家自然科學基金委員會重點項目(編號: 41030317). 項目骨幹.
2011.01-2013.12. 祁連山北麓-河西走廊盆山交接區洪水壩河第四紀下切及其控制因素. 中國地震局地質研究所中央級公益性科研院所基本科研業務專項(編號: IGCEA1115). 項目負責人.
2010.6-2013.6. 南北地震帶中北段中長期強震危險性評價. 地震行業科研專項經費項目(編號:201008003). 項目骨幹.
2010.12-2012.12. 青藏高原東北緣大夏河流域晚新生代侵蝕下切控制因素研究.人力資源和社會保障部留學人員科技活動項目擇優資助項目. 項目負責人
2008.1-2010.12. 積石山(峽)地區黃河第四紀侵蝕下切速率研究-10Be原地宇宙成因核素年代學約束. 國家自然科學基金委青年基金項目(編號: 40702028), 項目負責人.
2007.6-2009.6. 南北地震帶中段水系形態及其與地震構造的關係研究. 中國博士後科學基金面上項目(編號: 20070420415) , 項目負責人
代表論著
1.Zhang, H., Oskin, M.E., Liu-Zeng, J., Zhang, P., Reiners, P.W. and Xiao, P., 2016. Pulsed exhumation of interior eastern Tibet: Implications for relief generation mechanisms and the origin of high-elevation planation surfaces. Earth and Planetary Science Letters, 449: 176-185.
2.Zhang, H., Yi, G., Zhang, P., Kirby, E., 2015. On the evolution of seismogenic faults in the Longmen Shan, eastern Tibet. Journal of Asian Earth Sciences111, 624-631.
3.Zhang, H., Zhang, P., Champagnac, J.-D., Molnar, P., Anderson, R.S., Kirby, E., Craddock, W.H., Liu, S., 2014. Pleistocene drainage reorganization driven by the isostatic response to deep incision into the northeastern Tibetan Plateau. Geology, 42(4), 303-306.
4.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.
5.Zhang, H., Lv Y. 2014. Geomorphometric features of the alluvial fans around the Chaka-Qinghai Lake in the northeastern Tibetan Plateau. Journal of Earth Science, 25(1): 109-116.
6.Zhang, H., William H. Craddock, Richard O. Lease, et al. 2012. Magnetostratigraphy of the Neogene Chaka basin and its implications for mountain building processes in the north-eastern Tibetan Plateau. Basin Research. 24, 31-50.
7.Zhang, H., Zhang Peizhen, Fan Qicheng. 2011. Initiation and recession of the fluvial knickpoints: a case study from the Yalu River-Wangtian'e volcanic region, northeastern China.Science China (Series D: Earth Science). 54: 1746-1753.
8.Zhang, H., Zhang Pei-zhen, Eric Kirby, et al. 2011. Along-strike topographic variation of the Longmen Shan and its significance for landscape evolution along the eastern Tibetan Plateau.Journal of Asian Earth Sciences. 40(4) : 855-864.
9.Zhang, H., Liu Shaofeng, Yang Nong, et al. 2006. Geomorphic characteristics of the Minjiang drainage basin (eastern Tibetan Plateau) and its tectonic implications: new insights from a DEM study. Island Arc.15(2):239-250.
10.Wang, W., Zhang, P., Yu, J., Wang, Y., Zheng, D., Zheng, W., Zhang, H.and Pang, J., 2016. Constraints on mountain building in the northeastern Tibet: Detrital zircon records from synorogenic deposits in the Yumen Basin. Scientific Reports, 6: 27604.
11.Wang, W., Zhang, P., Pang, J., Garzione, C., Zhang, H.,Liu, C., Zheng, D., Zheng, W. and Yu, J., 2016. 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, 121(4): 2235-2257
12.Feng, S.-y., Zhang, P.-z., Liu, B.-j., Wang, M., Zhu, S.-b., Ran, Y.-k., Wang, W.-t., Zhang, Z.-q., Zheng, W.-j., Zheng, D.-w., Zhang, H.-p., Tian, X.-f., 2016. Deep crustal deformation of the Longmen Shan, eastern margin of the Tibetan Plateau, from seismic reflection and Finite Element modeling. Journal of Geophysical Research: Solid Earth 121, 767-787.
13.Ren, Z., Zhang, Z., Chen, T., Yan, S., Yin, J., Zhang, P., Zheng, W., Zhang, H., Li, C., 2016. Clustering of offsets on the Haiyuan fault and their relationship to paleoearthquakes. Geol Soc Am Bull128, 3-18.
14.Ma, Y., Wu, Y., Li, D., Zheng, D., Zheng, W., Zhang, H., Pang, J., Wang, Y., 2016. Erosion rate in the Shapotou area, northwestern China, constrained by in situ-produced cosmogenic 21Ne in long-exposed erosional surfaces. Quaternary Geochronology31, 3-11.
15.Craddock, W.H., Kirby, E., Zhang, H., Clark, M.K., Champagnac, J.-D. and Yuan, D., 2014. Rates and style of Cenozoic deformation around the Gonghe Basin, northeastern Tibetan Plateau. Geosphere, 10(6): 1255-1282.
16.Wang, Y., Zhang, H., Zheng, D., Zheng, W., Zhang, Z., Wang, W. and Yu, J., 2014. Controls on decadal erosion rates in Qilian Shan: Re-evaluation and new insights into landscape evolution in north-east Tibet. Geomorphology, 223: 117-128.
17.Ren, Z., Zhang, Z., Dai, F., Yin, J. and Zhang, H., 2014. Topographic changes due to the 2008 Mw7.9 Wenchuan earthquake as revealed by the differential DEM method. Geomorphology, 217: 122-130.
18Liu C-R, Yin G-M, Zhang H-P, Zheng W-J, Voinchet P, et al. 2013. ESR geochronology of the Minjiang River terraces at Wenchuan, eastern margin of Tibetan Plateau, China. Geochronometria40: 360-367.
19.Chen Zheng-Wei, Zhang Hui-Ping, Yang Pan-Xin. 2013. Northward spreading of the North Tian Shan since middle Pleistocene. Chinese Journal Geophysics, 56(12): 4142-4152,doi: 10.6038/cjg20131218. 陳正位, 張會平, 楊攀新.中更新世以來北天山的向北擴展. 地球物理學報, 2013,56(12): 4142-4152.
20.Yuan D.-Y., Ge W.-P., Chen Z.-W., Li C.-Y., Wang Z.-C., Zhang H.-P., Zhang P.-Z., Zheng D.-W., Zheng W.-J., Craddock W.H., Dayem K.E., Duvall A.R., Hough B.G., Lease R.O., Champagnac J.-D., Burbank D.W., Clark M.K., Farley K.A., Garzione C.N., Kirby E., Molnar P., Roe G.H. 2013. The growth of northeastern Tibet and its relevance to large-scale continental geodynamics: A review of recent studies. Tectonics 32, 1358-1370.
21.Zheng, W.-J., Zhang, P.-Z., Ge, W.-P., Molnar, P., Zhang, H.-P., Yuan, D.-Y., and Liu, J.-H. 2013. Late Quaternary slip rate of the South Heli Shan Fault (northern Hexi Corridor, NW China) and its implications for northeastward growth of the Tibetan Plateau. Tectonics32: 271-293.
22.Zheng W-J, Zhang H-P, Zhang P-Z, Molnar P, Liu X-W, Yuan D-Y. 2013. Late Quaternary slip rates of the thrust faults in western Hexi Corridor (Northern Qilian Shan, China) and their implications for northeastward growth of the Tibetan Plateau. Geosphere9: 342-354.
23.Liu, J., Zhang, P., Lease, R.O., Zheng, D., Wan, J., Wang, W.,Zhang, H., 2013. Eocene onset and late Miocene acceleration of Cenozoic intracontinental extension in the North Qinling range–Weihe graben: Insights from apatite fission track thermochronology. Tectonophysics 584, 281-296.
24.Liu, S., Zhang, G., Pan, F., Zhang, H., Wang, P., Wang, K. and Wang, Y., 2013. Timing of Xunhua and Guide basin development and growth of the northeastern Tibetan Plateau, China. Basin Research, 25(1): 74-96.
25.Lease, R.O., Burbank, D.W.,Zhang, H., Liu, J., Yuan, D., 2012. Cenozoic shortening budget for the northeastern edge of the Tibetan Plateau: Is lower crustal flow necessary? Tectonics31, TC3011.
26.Wang W, Kirby E, Zhang P, Zheng D, Zhang G, Zhang H, et al. 2012. Tertiary basin evolution along the northeastern margin of the Tibetan Plateau: Evidence for basin formation during Oligocene transtension. Geological Society of America Bulletin,125: 377-400
27.William Craddock, Eric Kirby, Huiping Zhang. 2012. Late Miocene-Pliocene range growth in the interior of the northeastern Tibetan Plateau. Lithosphere, v. 3; no. 6; p. 420-438;doi: 10.1130/L159.1.
28.Dao-Yang Yuan, Jean-Daniel Champagnac, Wei-Peng Ge, Peter Molnar, Pei-Zhen Zhang, Wen-Jun Zheng, Hui-Ping Zhang, Xing-Wang Liu. 2011. Late Quaternary right-lateral slip rates of faults adjacent to the lake Qinghai, northeastern margin of the Tibetan Plateau. Geological Society of America Bulletin. v. 123; no. 9/10: 2016-2030.
29.Richard O. Lease, Douglas W. Burbank, Marin K. Clark, Kenneth A. Farley, Dewen Zheng, and Huiping Zhang. Middle Miocene reorganization of deformation along the northeastern Tibetan Plateau. Geology, 2011, 39(4): 359-362..
30.Craddock W.H., Kirby E., Harkins N.W., Zhang H., Shi X., Liu J. 2010. Rapid fluvial incision along the Yellow River during headward basin integration across the northeastern Tibetan Plateau. Nature Geoscience. 3, 209-213.
31.Shaofeng Liu, Guowei Zhang, Bradley D. Ritts, Huiping Zhang, Mingxing Gao, Cunchao Qian. Tracing exhumation of the Dabie Shan ultrahigh-pressure metamorphic complex using the sedimentary record in the Hefei Basin, China. Geological Society of America Bulletin, 2010, 122 (1-2):198-218.
32.張會平,張培震,鄭德文,鄭文俊,陳正位,王偉濤. 祁連山構造地貌特徵:青藏高原東北緣晚新生代構造變形和地貌演化過程的啟示. 第四紀研究. 2012, 32(5), 907-920.
33.張會平, 張培震, 袁道陽, 等. 南北地震帶中段地貌發育差異性及其與西秦嶺構造帶關係初探. 第四紀研究. 2010, 30(4), 803-811.
34.張會平, 劉少峰. 青藏高原東北緣循化-貴德盆地及鄰區更新世時期沉積與後期侵蝕樣式研究. 第四紀研究. 2009,29(4), 806-816.
35.張會平, 張培震, 吳慶龍, 等. 循化-貴德地區黃河水系河流縱剖面形態特徵及其構造意義. 第四紀研究. 2008,28(2), 229-309.
36.張會平, 張培震, 鄭文俊, 等. 活動構造研究中相關速率的原地宇宙成因核素年代學約束. 地震地質. 2007. 29(2): 418-430.
37.張會平, 楊農, 劉少峰, 等. 數字高程模型(DEM)在構造地貌研究中的套用新進展. 地質通報. 2006.6:660-669
38.張會平, 楊農,張岳橋, 等. 岷江水系流域地貌特徵及其構造指示意義. 第四紀研究. 2006,26(1), 126-135.
39.張會平, 劉少峰, 孫亞平, 等. 基於SRTM-DEM區域地形起伏的獲取及其套用. 國土資源遙感. 2006,1, 31-35.
40.張會平, 張平安, 張威, 等. 基於DEM的岷江斷裂帶構造地貌模擬. 遼寧工程技術大學學報. 2004, 23(5): 603-605.
41.張會平, 楊農, 張岳橋, 等. 基於DEM的岷山構造帶構造地貌初步研究. 國土資源遙感. 2004, 4: 54-58.
42.張會平, 張恆兵, 楊農, 等. 基於GIS的岷江上游地貌形態初步分析. 中國地質災害與防治學報. 2004, 15(3): 116-119.
43.張培震, 張會平, 鄭文俊, 鄭德文, 王偉濤, 張竹琪. 東亞大陸新生代構造演化. 地震地質.2014, 36 (3): 574-585.
44.任治坤,陳濤,張會平,鄭文俊,張培震. 2014. LiDAR技術在活動構造研究中的套用. 地質學報88: 1-12.
45.陳濤, 張會平, 王偉濤. 海原斷裂帶中東段地貌差異及其成因探討. 地震地質. 2014, 36(2): 449-463.
46.劉靜, 陳濤, 張培震, 張會平, 鄭文俊, 任治坤, 梁詩明, 盛傳貞, 甘衛軍. 機載雷射雷達掃描揭示海原斷裂帶微地貌的精細結構. 科學通報, 2013, 58: 41-45.
47.王一舟, 張會平, 俞晶星, 張竹琪, 鄭文俊, 鄭德文. 祁連山洪水壩河流域地貌特徵及其構造指示意義. 第四紀研究. 2013,33(4), 737-745.
48.袁兆德, 陳杰, 張會平. 宇宙成因核素埋藏年齡測定及其在地球科學中的套用. 地震地質. 2011, 33(2): 480-489.
49.劉春茹,尹功明,高璐,韓非, 張會平.第四紀沉積物ESR年代學研究進展. 地震地質. 2011, 32(2): 490-498.
50.吳慶龍, 張培震, 張會平, 等. 黃河上游積石峽古地震堰塞潰決事件與喇家遺址異常古洪水災害. 中國科學(D輯: 地球科學). 2009, 39(8 ): 1148 -1159
獲獎記錄
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2015.08. 中央組織部,2014年“萬人計畫”青年拔尖人才計畫
2015.01. 中國地震局,2014年度防震減災科技成果獎,一等獎,5/15
2012.05. 中國地震學會,第八屆李善邦青年優秀地震科技論文獎,三等獎,1/3.