簡 介
蔣漢朝�����,理學博士�����,研究員����,博士生導師。主要從事新生代湖相沉積物的氣候與環(huán)境事件研究工作��,概括起來有以下三方面:
1)建立了寧夏固原寺口子長序列的湖相沉積剖面的新近紀磁性地層年代框架,通過孢粉�、粒度、碳含量��、色度等指標的大量樣品分析���,揭示了新生代近2/3時間的古氣候和古環(huán)境演化受全球溫度變化的主宰����,將東亞冬季風和夏季風演化歷史較早地由8-7 Ma向前延伸到20 Ma���;2)識別并分別探討了東亞四次(~12 Ma�, 8-7 Ma,~4 Ma和~1 Ma)顯著的古環(huán)境事件與極地冰量增加����、青藏高原隆升����、中美地峽關閉等重大全球變化之間的關聯����;3)針對青藏高原東緣連續(xù)湖相沉積����,從高分辨率沉積指標變化機理�����、軟沉積物變形機制���、樹輪和孢粉植物群變化對歷史地震事件的響應等角度出發(fā)��,結合物源和年代學工作����,證明構造活躍地區(qū)的湖相沉積有連續(xù)記錄中強地震事件的潛力。
已取得的部分成果發(fā)表在Geophysical Research Letter����、GSA Bulletin、Quaternary Science Reviews�、Science of the Total Environment�����、Journal of Geophysical Research����、Geomorphology等國際地學主流期刊上�。研究課題包括國家自然科學基金課題��、地震動力學國家重點實驗室自選課題、所長基金等����。
教育背景:(本科開始����,按時間倒序排序)
2000-2004年 中科院地質與地球物理所,第四紀地質學專業(yè),博士
1997-2000年 山東科技大學地球科學系����,礦產普查與勘探專業(yè)�,碩士
1993-1997年 山東礦業(yè)學院地球科學系,地質工程專業(yè)����,本科
工作經歷:(按時間倒序排序)
2014-至 今 中國地震局地質研究所�����,研究員
2008-2014年 中國地震局地質研究所�,副研究員
2004-2008年 中科院地質與地球物理所地球物理學博士后流動站���,博士后
2021年5月至2025年3月 中國地震局地質研究所 科研處 處長
2020年5月-2021年4月 中國地震局科技與國際合作司司長助理(掛職)
2016年10月至2020年4月 中國地震局地質研究所 科研處 處長
2015年4月至2016年9月 中國地震局地質研究所 科技應用處 負責人/處長
研究方向
新生代地質環(huán)境與孢粉植物群演化��;湖沼地震學
學術任職
(任職時間�����,學術組織或期刊名稱�,職務,均按時間倒序排序)
2017-至今 中國間冰期氣候與環(huán)境專業(yè)委員會�����,委員
2017-至今 中國礦物巖石地球化學學會����,會員
2016-至今 中國地震學會構造地貌專業(yè)委員會�����,委員
2012-至今 中國第四紀科學研究會�,會員
2019-至今 國際地質災害減災協會(ICGDR)終身會員
2021-至今 中國地質學會環(huán)境地質專業(yè)委員會委員
2021-至今 中國地震學會地震災害鏈專業(yè)委員會委員
2024-至今 中國地質學會第41屆理事會副秘書長
國際合作與交流
2009.12-2010.1月:美國加州理工大學����,學術交流與訪問
2008.12-2009.1月:美國加州理工大學�����,學術交流與訪問
承擔科研項目(精選20項以內)
(項目名稱��,來源�,編號�����,起止時間�����,本人角色�����,按時間倒序排序)
1. 新疆艾比湖地區(qū)全新世地震事件研究�,所長基金重點項目(編號: IGCEA1906)�,2019.01-2022.12��,項目負責人
2. 湖北習家店古新世河湖相沉積記錄的高熱事件研究��,國家自然科學基金面上項目(編號: 41572346)����,2016.01-2020.12��,項目負責人
3. 快速湖相沉積對歷史地震的響應研究-以岷江上游地區(qū)和銀川盆地為例���,地震動力學國家重點實驗室自主課題 (編號: LED2013A03) �,2013.05-2016.12,項目負責人
4. 湖北習家店剖面磁性-生物地層記錄對始新世全球降溫的指示�,國家自然科學面上項目����,國家自然科學基金委員會重大項目(編號: 40972117),2010.01-2012.12�����,項目負責 人
5. PETM氣候-環(huán)境事件及生態(tài)效應的陸相高分辨率記錄���,國家自然科學基金重點項目(編號: 40730208),2008.01-2011.12����,項目骨干
6. 固原剖面晚新生代孢粉與地化指標對構造尺度季風演化的指示(編號: 40502017),國家自然科學青年基金�����,2006.1-2008.12���,項目負責人
代表論著(*表示通訊作者)
(按時間倒序排序,本人姓名重點加粗�����,分第一/通訊作者和非第一/通訊作者)
第一/通訊作者
1. Wei, X.T., Jiang, H.C.*, Bai, Y.L., Shi, W., Xu, H.Y., Ma, X.L., Zhong, N., Li, S.L., Yin, Q.Z., 2025. MIS 3 climate transitions revealed by high-resolution loess records from the eastern margin of the Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology 667, 112874.
2. Zhong, N.*, Bai, Y.L., Xu, H.Y., Shi, W., Fan, J.W., Wei, X.T., Liang, L.J., Jiang, H.C.*, 2024. A continuous 18.6-10 ka record of seismic events revealed by Xinmocun lacustrine sediments at Diexi, eastern Tibetan Plateau. J. Asian Earth Sci. 267, 106152.
3. Wei, X.T., Jiang, H.C.*, Shi, W., Fan, J.W., Xu, H.Y., Hu, W.H., Chang, X.D., Huang, S.T., Guo, Q.Q., Zhang, S.Q., Yang, Y.M., Wang, Y.W., 2024. Earthquake supercycles and fault interaction over the past 32 ka in the Lake Ebinur area, Xinjiang, China. Sci. Total Environ. 927, 172052.
4. Shi, W., Xu, H.Y., Jiang, H.C.*, Fan, J.W., Zhong, N., Zhang, S.Q., 2024. Millennial-scale climate change recorded by clay minerals during the last deglaciation on the Eastern Tibetan Plateau. Quat. Int. 693, 18-26.
5. Shi, W., Jiang, H.C.*, Ian Alsop, G., 2024. Tectonic signals documented in gravel and silt beds: A comprehensive review of the eastern Tibetan Plateau. J. Struct. Geol. 180, 105067.
6. Wei, X.T., Jiang, H.C.*, Xu, H.Y., Li, Y.M., Shi, W., Guo, Q.Q., Zhang, S.Q., 2023. Climate transition over the past two centuries revealed by lake Ebinur in Xinjiang, northwest China. J. Arid Environ. 216, 105025.
7. Jiang, H.C.*, Yin, Q.Z.*, Berger, A., Wei, L.H., Wu, Z.P., Wei, X.T., Shi, W., 2023. Orbitally and galactic cosmic forced abrupt climate events during the last glacial period. Quat. Sci. Rev. 301, 107921. https://doi.org/10.1016/j.quascirev.2022.107921.
8. Shi, W., Jiang, H.C. *, Liang, L.J., Xu, H.Y., Fan, J.W., 2023. Factors controlling the spatiotemporal variability of dust magnetic susceptibility across the Chinese Loess Plateau and eastern Tibetan Plateau. Quat. Int. 661, 1-9.
9. Jiang, H.C. *, Xu, C., Adhikari, B.R., Liu, X.Q., Tan, X.B. and Yuan, R.M., 2022. Editorial: Environmental change driven by climatic change, tectonism and landslide. Front. Earth Sci. 10:1076801. Doi:10.3389/feart.2022.1076801.
10. Shi, W., Jiang, H.C.*, Xu, H.Y., Ma, S.Y., Fan, J.W., Zhang, S.Q., Guo, Q.Q., and Wei, X.T., 2022. Response of modern fluvial sediments to regional tectonic activity along the upper Min River, eastern Tibet. Earth Surf. Dynam. 10, 1195-1209.
11. Guo, Q.Q., Jiang, H.C.*, Fan, J.W., Li, Y.M., Shi, W., Zhang, S.Q., Wei, X.T., 2022. Strongest chemical weathering in response to the coldest period in Guyuan, Ningxia, China, during 14-11 Ma. PLoS ONE 17(5): e0268195. https://doi.org/10.1371/journal.pone.0268195.
12. Shi, W., Jiang, H.C.*, Alsop, G.I., and Wu, G., 2022. A continuous 13.3-ka paleoseismic record constrains major earthquake recurrence in the Longmen Shan Collision Zone. Front. Earth Sci. 10:838299. doi:10.3389/feart.2022.838299.
13. Jiang, H.*, Zhang, J., Zhang, S., Zhong, N., Wan, S., Alsop, G.I., Xu, H., Guo, Q., Yan, Z., 2022. Tectonic and climatic impacts on environmental evolution in East Asia during the Palaeogene. Geophys. Res. Lett. 49, e2021GL096832. https://doi.org/10.1029/2021GL096832.
14. Zhang, S.Q., Jiang, H.C. *, Fan, J.W., Xu, H.Y., Shi, W., Guo, Q.Q. and Wei, X.T., 2021. Accumulation of a last deglacial gravel layer at Diexi, eastern Tibetan Plateau and its possible seismic significance. Front. Earth Sci. 9:797732. doi:10.3389/feart.2021.797732.
15. Liang, L.J., Qiao, X.F., Zhong, N., Jiang, H.C.*, 2021. Seismically triggered soft-sediment deformation structures in Tashkorgan lacustrine sediments, northeastern Pamir, China. Quat. Int. 604, 82-92.
16. Wei, X.T., Jiang, H.C.*, Xu, H.Y., Fan, J.W., Shi, W., Guo, Q.Q., Zhang, S.Q., 2021. Response of sedimentary and pollen records to the 1933 Diexi earthquake on the eastern Tibetan Plateau. Ecological Indicators 129, 107887.
17. Shi, W., Jiang, H.C.*, Mao, X., Xu, H.Y., 2020. Pollen record of climate change during the last deglaciation from the eastern Tibetan Plateau. PLoS ONE 15(5): e0232803. https://doi.org/10.1371/journal.pone.0232803.
18. Fan, J.W.*, Wei, X.T., Shi, W., Guo, Q.Q., Zhang, S.Q., Xu, H.Y., Song, H.M., Xu, C.X., An, W.L., Jiang, H.C.*, 2020. Response of tree rings to earthquakes during the past 350 years at Jiuzhaigou in the eastern Tibet. Sci. total Environ. 731:138714.
19. Zhong, N., Jiang, H.C.*, Li, H.B., Xu, H.Y., Shi, W., Zhang, S.Q., and Wei, X.T., 2019. Last deglacial soft-sediment deformation at Shawan on the eastern Tibetan Plateau and implications for deformation processes and seismic magnitudes. Acta Geologica Sinica 93, 430-450.
20. Jiang, H.C.*, Zhong, N., Li, Y.H., Ma, X.L., Xu, H.Y., Shi, W., Zhang, S.Q., Nie, G.Z., 2017. A continuous 13.3-ka record of seismogenic dust events in lacustrine sediments in the eastern Tibetan Plateau. Sci. Rep. 7:15686, doi:10.1038/s41598-017-16027-8.
21. Jiang, H.C.*, Wan, S.M., Ma, X.L., Zhong, N., and Zhao, D.B., 2017. End-member modeling of the grain-size record of Sikouzi fine sediments in Ningxia (China) and implications for temperature control of Neogene evolution of East Asian winter monsoon. PLoS ONE 12(10): e0186153. https://doi.org/10.1371/journal.pone.0186153
22. Zhong, N., Song, X.S., Xu, H.Y., Jiang, H.C.*, 2017. Influence of a tectonically active mountain belt on its foreland basin: Evidence from detrital zircon dating of bedrocks and sediments from the eastern Tibetan Plateau and Sichuan Basin, SW China. J. Asian Earth Sci. 146, 251-264.
23. Liang, L.J. and Jiang, H.C.*, 2017. Geochemical composition of the last deglacial lacustrine sediments in East Tibet and implications for provenance, weathering and earthquake events. Quat. Int. 430, 41-51.
24. Jiang, H.C.*, Zhong, N., Li, Y.H., Xu, H.Y., Yang, H.L., Peng, X.P., 2016. Soft sediment deformation structures in the Lixian lacustrine sediments, Eastern Tibetan Plateau and implications for postglacial seismic activity. Sediment. Geol. 344, 123-134.
25. Jiang, H.C.*, Guo, G.X., Cai, X.M., Thompson, J.A., Xu, H.Y., Zhong, N., 2016. Geochemical evidence of windblown origin of the Late Cenozoic lacustrine sediments in Beijing and implications for weathering and climate change. Palaeogeogr. Palaeoclimatol. Palaeoecol. 446, 32-43.
26. Jiang, H.C., Shevenell, A.*, Yu, S., Xu, H.Y., Mao, X., 2015. Decadal- to centennial-scale East Asian summer monsoon variability during the Medieval Climate Anomaly reconstructed from an eastern Tibet lacustrine sequence. J. Paleolimnol. 54, 205-222.
27. Xu, H.Y., Jiang, H.C.*, Yu, S., Yang, H.L., Chen, J., 2015. OSL and pollen concentrate 14C dating of dammed lake sediments at Maoxian, east Tibet, and implications for two historical earthquakes in AD 638 and 952. Quat. Int. 371, 290-299.
28. Jiang, H.C.*, Zhong, N., Li, Y.H., Xu, H.Y., Ma, X.L., Meng, Y.F., Mao, X., 2014. Magnetostratigraphy and grain size record of the Xijiadian fluviolacustrine sediments in East China and its implied stepwise enhancement of the westerly circulation during the Eocene period. J. Geophys. Res.-Solid Earth 119, 7442-7457.
29. Jiang, H.C.*, Mao, X., Xu, H.Y., Yang, H.L., Ma, X.L., Zhong, N., Li, Y.H., 2014. Provenance and earthquake signature of the last deglacial Xinmocun lacustrine sediments at Diexi, East Tibet. Geomorphology 204, 518-531.
30. Jiang, H.C.*, Guo, G.X., Cai, X.M., Xu, H.Y., Ma, X.L., Zhong, N. and Li, Y.H., 2013. A pollen record of the Mid-Pleistocene Transition from Beijing, North China. J. Quat. Sci. 28, 720-728.
31. Xu, H.Y., Jiang, H.C.*, Mai, X.S., Ma, X.L., 2013. A new processing method for the pollen samples from Palaeogene red beds in the Liguanqiao Basin, Hubei Province, and Pleistocene loess from the Chinese Loess Plateau. Quat. Int. 286, 45-55.
32. Ma, X.L., Jiang, H.C.*, Cheng, J., Xu, H.Y., 2012. Spatiotemporal evolution of Paleogene palynoflora in China and its implications for development of the extensional basins in East China. Rev. Palaeobot. Palynol. 184, 24-35.
33. Jiang, H.C.*, Mao, X., Xu, H.Y., Thompson, J., Wang, P., Ma, X.L., 2011. Last glacial pollen record from Lanzhou (Northwestern China) and possible forcing mechanisms for the MIS 3 climate change in Middle to East Asia. Quat. Sci. Rev. 30, 769-781.
34. Jiang, H.C.*, Mao, X., Xu, H.Y., Thompson, J., Ma, X.L., 2010. ~4 Ma coarsening of sediments from Baikal, Chinese Loess Plateau and South China Sea and implications for the onset of NH glaciation. Palaeogeogr. Palaeoclimatol. Palaeoecol. 298, 201-209.
35. Jiang, H.C.* and Ding, Z.L., 2010. Eolian grain-size signature of the Sikouzi lacustrine sediments (Chinese Loess Plateau): Implications for Neogene evolution of the East Asian winter monsoon. GSA Bulletin 122, 843-854.
36. Jiang, H.C.*, Wang, P., Thompson, J., Ding, Z.L., Lu, Y.C., 2009. Last glacial climate instability documented by coarse-grained sediments within the loess sequence, at Fanjiaping, Lanzhou, China. Quat. Res. 72, 91-102.
37. Jiang, H.C.*, Ding, Z.L., 2009. Spatial and temporal characteristics of Neogene palynoflora in China and its implication for the spread of steppe vegetation. J. Arid Environ. 73, 765-772.
38. Jiang, H.C.*, Ji, J.L., Gao, L., Tang, Z.H., Ding, Z.L., 2008. Cooling-driven climate change at 12-11 Ma: multiproxy records from a long fluviolacustrine sequence at Guyuan, Ningxia, China. Palaeogeogr. Palaeoclimatol. Palaeoecol. 265, 148-158.
39. Jiang, H.C.*, Ding, Z.L., 2008. A 20 Ma pollen record of East-Asian summer monsoon evolution from Guyuan, Ningxia, China. Palaeogeogr. Palaeoclimatol. Palaeoecol. 265, 30-38.
40. Jiang, H.C.*, Ding, Z.L., Xiong, S.F., 2007. Magnetostratigraphy of the Neogene Sikouzi section at Guyuan, Ningxia, China. Palaeogeogr. Palaeoclimatol. Palaeoecol. 243, 223-234.
41. Jiang, H.C.*, Ding, Z.L., 2005. Temporal and spatial changes of vegetation cover on the Chinese Loess Plateau through the last glacial cycle: evidence from spore-pollen records. Rev. Palaeobot. Palynol. 133, 23-37.
42. 蔣漢朝����,2018. 結合青藏高原東緣湖沼地震學研究進展淺議“震積巖”一詞之去留. 中國科技術語 20(6), 44-46.
43. 鐘寧��,蔣漢朝*�����,梁蓮姬���,徐紅艷�,彭小平�����,2017. 軟沉積物變形中負載�����、球-枕構造的古地震研究綜述. 地質論評 63(3), 719-738.
44. 李艷豪���,蔣漢朝*��,徐紅艷,梁蓮姬�,2015. 四川岷江上游滑坡觸發(fā)因素分析. 地震地質 37(4), 1147-1161.
45. 白友良�,蔣漢朝*�����,陳劍杰�,袁革新���,鄭楊琳��,徐紅艷,王華偉���,2013. 新疆孔雀河北緣中更新世湖相沉積物的孢粉植物群初步研究. 第四紀研究 33(5), 856-865.
46. 郭高軒,蔣漢朝*����,蔡向民�����,劉久榮,徐紅艷���,2013. 北京新5孔第四紀孢粉記錄及其對更新世氣候變化的響應. 第四紀研究 33(6), 1160-1170.
47. 蔣漢朝��,王明鎮(zhèn)�����,張錫麒�,李增學, 2002. 山東濟寧煤田(東區(qū))晚古生代孢粉組合. 地質科學 37(1), 47-61.
48. 蔣漢朝���,張錫麒��,王明鎮(zhèn)�,李增學, 2002. 山東濟寧煤田(東區(qū))本溪組和太原組牙形刺生物地層. 地層學雜志 26(1), 27-38.
49. 蔣漢朝�,王明鎮(zhèn),張錫麒���,李增學, 2001. 山東濟寧煤田(東區(qū))太原組小有孔蟲生物地層. 地層學雜志 25(3), 174-181.
50. 蔣漢朝, 2001. 我國部分地區(qū)E13~E21孢粉屬種演變的古氣候意義. 微體古生物學報 18(4), 412-418.
51. 蔣漢朝,王明鎮(zhèn)���,張錫麒����,李增學, 2001. 山東濟寧煤田東區(qū)太原組蜓類動物群. 古生物學報 40(4), 514-522.
52. 蔣漢朝�����,王明鎮(zhèn),張錫麒, 2000. 山東肥城煤田晚石炭世-早二疊世小有孔蟲動物群. 山東科技大學學報 19(2), 89-96.
53. 蔣漢朝���,張錫麒�,王明鎮(zhèn), 1999. 濟寧唐陽井田晚古生代含煤巖系孢粉組合及其地質時代. 山東礦業(yè)學院學報18(4), 79-85.
非第一/通訊作者
54. Zhang, F.M., Fan, J.W., Xu, H.Y., Shi, W., Wei, X.T., Jiang, H.C., Zhang, W., Xiao, J.L., 2024. Carbon sequestration in a typical mountain lake associated with earthquakes, floods, droughts, and human activities in southern Altay during the late Holocene. Palaeogeogr. Palaeoclimatol. Palaeoecol. 655, 112554.
55. Liang, L.J., Lu, Z.H., Zhang, Q.T., Tian, H.S., Dai, F.C., Jiang, H.C., Zhong, N., 2024. Shaking table simulation of soft sediment deformation structures in lacustrine sediments. Sedimentary Geology 472, 106756.
56. Zhong, N., Jiang, H.C., Li, H.B., Zhang, X.B., Yang, Z., Yu, H., 2023. A continuous 18-10.2 ka paleo-earthquake events revealed by the Luobozhai lacustrine sediments, eastern Tibetan Plateau. Quat. Int. 673, 40-52.
57. Jing, S.W., Wang, F.D., Capezzuoli, E., Huang, G.Q., Li, J.H., Jiang, H.C., Zhou, Z.J., Zhao, X.Q., Dong, F.Q. and Brogi, A., 2023. Characteristics of seismogenic dust particles from a mountain and their significance for paleoseismic records in a tufa section: A case study of Jiuzhaigou, China. Minerals 2023, 13, 981. https://doi.org/10.3390/min13070981
58. Xu, H.Y., Fan, J.W., Jiang, H.C., Wei, X.T., Yang, Y.M., Shi, W., Guo, Q.Q., Zhang, S.Q., 2023. Late Holocene environmental changes inferred from pollen records of Yileimu Lake sediments, southern Altai Mountains, Northwest China. Catena 228, 107181.
59. Fan, J.W., Zhai, D.Y., Xu, H.Y., Wei, X.T., Jin, C.F., Jiang, H.C., Shi, W., Liu, X.Q., 2023. Distinct lake sedimentary imprints of earthquakes, floods and human activities in the Xiaojiang Fault zone: Towards a quantitative paleoseismograph in the southeastern Tibetan Plateau. Science of the Total Environment 868, 161662.
60. Fan, J.W., Xu, H.Y., Jiang, H.C., Wei, X.T., Shi, W., Guo, Q.Q. Zhang, S.Q., Bai, X.Z., Liu, X.Q. and Xiao, J.L., 2023. Millennial- to centennial-scale anti-phase relationship between the Westerlies and the East Asian summer monsoon and its cultural response along the Silk Roads after a great earthquake in southern Altay ~3500 cal a BP. J. Quat. Sci. 38, 123-137.
61. Fan, J.W., Jiang, H.C., Xu, H.Y., Zhang, W., 2022. Impacts of seismic activity and climatic change on Chinese history in the recent millennium. J. Geogr. Sci. 32, 2328-2348.
62. Fan, J.W., Jiang, H.C., Shi, W., Guo, Q.Q., Zhang, S.Q., Wei, X.T., Xu, H.Y., Liu, Y.H., Xue, D.S., Zhong, N., Huang, S.T., Chang, X.D., Shi, X.J., Yasen, O., Bahetihan, Y., Xiao, J.L., 2021. A 450-year warming and wettin climate in southern Altay inferred from a Yileimu Lake sediment core. Quaternary International 592, 37-50.
63. Li, Y.M., Zhao, L., Jiang, H.C., Zhang, Y. and Kong, Z.C., 2021. New biological records of paleoecological changes inferred from pollen since 2500 cal. a B.P. in the Ebinur Lake area, North Xinjiang. Acta Geologica Sinica 95, 1413-1414.
64. Fan, J.W., Jiang, H.C., Shi, W., Guo, Q.Q., Zhang, S.Q., Wei, X.T., Xu, H.Y., Zhong, N., Huang, S.T., Chang, X.D., Xiao, J.L., 2020. A 450-year lacustrine record of recurrent seismic activities around the Fuyun fault, Altay Mountains, Northwest China. Quaternary International 558, 75-88.
65. Xu, H.Y., Jiang, H.C., Liu, K., Zhong, N., 2020. Potential pollen evidence for the 1933 M7.5 Diexi earthquake and implications for post-seismic landscape recovery. Environmental Research Letters 15:094043.
66. Zhong, N., Li, H.B., Jiang, H.C., Lu, H.J., Zheng, Y., Han, S., Ye, J.C., 2020. Typical soft-sediment deformation structures induced by freeze/thaw cycles: a case study of Quaternary alluvial deposits in the northern Qiangtang Basin, Tibetan Plateau. Acta Geologica Sinica 94, 176-188.
67. Liang, L.J., Dai, F.C., Jiang, H.C., Zhong, N., 2018. A preliminary study on the soft-sediment deformation structures in the late Quaternary lacustrine sediments at Tashkorgan, northeastern Pamir, China. Acta Geologica Sinica 92, 1574-1591.
68. Ma, X.L. and Jiang, H.C., 2015. Combined tectonics and climate forcing for the widespread aeolian dust accumulation in the Chinese Loess Plateau since the early late Miocene. International Geology Review 57, 1861-1876.
69. Ji, J.L., Luo, P., White, P., Jiang, H.C., Gao, L., Ding, Z.L., 2008. Episodic uplift of the Tianshan Mountains since the late Oligocene constrained by magnetostratigraphy of the Jingou River section, in the southern margin of the Junggar Basin, China. Journal of Geophysical Research 113, B05102, doi: 10.1029/2007JB005064.
70. Zhao, D.B., Wan, S.M., Toucanne, S., Clift, P.D., Tada, R., Revillon, S., Kubota, Y., Zheng, X.F., Yu, Z.J., Huang, J., Jiang, H.C., Xu, Z.K., Shi,X.F., and Li, A.C., 2017. Distinct control meachanism of fine-grained sediments from Yellow River and Kyushu supply in the northern Okinawa Trough since the last glacial. Geochem. Geophys. Geosys. 18(8), 2949-2969.
71. Tang, Z.H., Ding, Z.L., White, P.D., Dong, X.X., Ji, J.L., Jiang, H.C., Luo, P., and Wang, X., 2011. Late Cenozoic central Asian drying inferred from a palynological record from the northern Tian Shan. Earth and Planetary Science Letters 302(3/4), 439-447.
72. Zhu, M., Ding, Z.L., Wang, X., Chen, Z.L., Jiang, H.C., Dong, X.X., Ji, J.L., Tang, Z.H., Luo, P., 2010. High-resolution carbon isotope record for the Paleocene-Eocene thermal maximum from the Nanyang Basin, Central China. Chinese Science Bulletin 55(31), 3606-3611.
73. Wang, P., Jiang, H.C., Yuan, D.Y., Liu, X.W., Zhang, B., 2010. Optically stimulated luminescence dating of sediments from the Yellow River terraces in Lanzhou: tectonic and climatic implications. Quaternary Geochronology 5, 181-186.
74. 胡慧文, 王永波, 蔣漢朝, 珍, 李, 胡雪婧, 韓羽佳, 2021. 京津冀地區(qū)歷史地震事件時空特征研究. 古地理學報 23, 435-448.
75. 鐘寧,蔣漢朝��,李海兵���,徐紅艷,黃小龍��,2020. 青藏高原東部河湖相沉積中的軟沉積物變形的主要成因類型及其特征. 地球學報 41(1), 23-36.
76. 鐘寧�����,蔣漢朝���,李海兵��,徐紅艷�,梁蓮姬���,時偉���,2020. 岷江上游新模村湖相沉積物粒度端元反演及其記錄的構造和氣候事件. 地質學報 94(3), 968-981.
77. 史雙雙�,趙強,趙晉泉�����,蔣漢朝��,李自紅�,2016. 臨汾盆地晚第四紀地層劃分與新構造運動分析. 地震工程學報 38(4), 624-631.
78. 衛(wèi)蕾華,何宏林�,蔣漢朝���,徐岳仁�����,魏占玉����,高偉����,鄒俊杰,2015. 黃土地區(qū)粒度與磁化率分層對古地震研究的意義. 地震地質 37(4), 1096-1114.
79. 毛雪�����,蔣漢朝����,楊桂芳�,徐紅艷,2011. 我國末次冰消期古氣候時空演化特征初探. 第四紀研究31(1), 57-65.
80. 朱敏����,丁仲禮����,王旭�,陳祚伶��,蔣漢朝���,董欣欣���,季軍良,唐自華�����,羅攀��,2010. 南陽盆地PETM事件的高分辨率碳同位素記錄. 科學通報 55(24), 2400-2405.
81. 王偉濤�����,張培震�����,張廣良,鄭德文��,鄭文俊��,蔣漢朝����,2010. 青藏高原東北緣寺口子盆地新生代沉積演化及其構造意義. 地質科學 45(2), 440-452.
82. 王萍,馮希杰�,師亞芹��,張斌��,戴王強�����,蔣漢朝����,李曉妮��,2009. 渭河下游咸陽-草灘段河谷沉積對構造活動的響應. 第四紀研究 29(1), 98-107.
83. 王萍����,蔣漢朝�,袁道陽�,劉興旺,2008. 蘭州黃河II和III級階地的地層結構�、年齡及環(huán)境意義. 第四紀研究 28(4), 553-563.
84. 王萍,蔣漢朝���,蘇旭,嚴富華��,2008. 末次間冰期以來西寧市河谷沉積與環(huán)境. 第四紀研究 28(2), 253-263.
85. 王萍����,袁道陽�����,劉興旺���,蔣漢朝,2007. 蘭州盆地黃河三級階地的光釋光年齡.核技術 30(11), 924-930.
獲獎與榮譽
(按時間倒序排序�����,本人獲獎排名)
2014年獲中國地震局防震減災科技成果二等獎(省部級)��,排名第六
研究生培養(yǎng)情況(簡要說明)
1�、合作指導博士后:
梁蓮姬(2015年出站),時偉(2024年出站)��,李玉梅(在站)
2��、培養(yǎng)博士生:
鐘寧(2017年畢業(yè))�����,時偉(2020年畢業(yè)),張斯琪(2022年畢業(yè))��,郭橋橋(2022年畢業(yè))��,衛(wèi)曉彤(在讀)����,楊彥明(在讀)�,李瑞杰(在讀),李盛林(在讀)
3�、培養(yǎng)碩士生:
李艷豪(2015年畢業(yè))����,王艷文(2024年畢業(yè)),衛(wèi)曉彤(2020年轉博)
4���、與中國地質大學(北京)聯合培養(yǎng)碩士生:
毛雪(2011年畢業(yè)),馬小林(2012年畢業(yè))�,鐘寧(2013年畢業(yè)),彭小平(2017年畢業(yè))�,張斯琪(2019年畢業(yè))
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