研究队伍
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姓    名:
丁 林 
性    别:
男 
学    历:
博士 
专家类别:
院士/研究员  
电    话:
010-8409 7104 
传    真:
010-8409 7079 
电子邮件:
 dinglin@itpcas.ac.cn
个人主页:
 
通讯地址:
北京市朝阳区林萃路16号院3号楼    100101

简历:

    丁林,男,1965年生,籍贯安徽萧县,研究员,2017年当选中国科学院院士。
    1988年于北京大学获构造与地质力学专业学士学位。1991年于中科院地质所获构造地质学专业硕士学位。1999年于中科院地质所获构造地质学专业理学博士学位。1995年在中科院地质所任副研究员,2003年在中科院青藏所任研究员。现任中科院青藏所研究员,中国科学院大学教授,中国科学院青藏高原研究所学位委员会副主任,中国科学院大陆碰撞与高原隆升重点实验室主任。西藏大学兼职教授,美国亚利桑那大学地质系Adjunct Professor。中国地质学会理事会理事,青藏高原研究会副秘书长,地质学会构造地质与地球动力学委员会副主任。曾获首届(1995年)青藏高原青年科技奖,2006年获国家杰出青年科学基金,2010年获国土资源部科学技术一等奖,2012年获国土资源部“青藏高原地质理论创新与找矿重大突破先进个人”称号。中科院“百人工程”获得者,入选“百千万”人才工程国家级专家(2007),享受政府特殊津贴(2009)。截至2017年发表相关论文190篇,SCI他引5500次。中国科学,岩石学报,地质科学、岩石与矿物学杂志编委。曾经承担了国家973、863、国家重点研发计划,国家自然科学基金重大项目(2015年)及中科院战略性先导科技专项(B类)等多项科研项目。
    研究方向为构造地质学,主要从事青藏高原研究,在大陆碰撞、大陆俯冲、高原隆升领域做出了系统的创新成果。
发现了雅鲁藏布江缝合带碰撞前陆盆地系统,提出了印度大陆与欧亚大陆碰撞时间和方式的新认识。印度与欧亚大陆的碰撞时间是青藏高原研究重大科学问题,普遍认为碰撞时间为5000万年,但一直没有发现周缘前陆盆地这一关键碰撞证据。丁林与其团队通过近20年的综合研究,率先发现了雅鲁藏布江缝合带大型碰撞周缘前陆盆地的存在;确定了欧亚大陆物质搬运到印度大陆之上及碰撞构造变形的最早时间为6500-6300万年;通过巴基斯坦及东侧印缅地区碰撞时间的横向对比研究,提出了印度与欧亚大陆于6500万年首先在中部发生初始碰撞,随后新特提斯洋向两侧逐渐封闭,于5000万年前全面碰撞的新模式。
    揭示了碰撞后高原深部由大洋岩石圈俯冲向大陆岩石圈俯冲的转换,建立了高原大陆岩石圈双向俯冲的岩石大地构造模型。大陆岩石圈深俯冲是碰撞后继大洋岩石圈俯冲发生在地球碰撞造山带的重大事件。丁林与其团队提出碰撞后高原下部发生了从大洋岩石圈到大陆岩石圈俯冲的转换,藏南钾质火山岩是印度大陆岩石圈俯冲相关产物,而不是国际上普遍认为的与大陆岩石圈俯冲无关,是古老富集岩石圈拆沉后熔融的产物。提出高原核心地带发育一个同时期钠质钙碱性火山岩带,分隔上述南北2个钾质火山岩带,它没有受到大陆岩石圈俯冲的影响,由此建立了印度与欧亚大陆岩石圈在高原南北双向俯冲的岩石大地构造模型。
    定量恢复了冈底斯山和喜马拉雅山的隆升历史。青藏高原隆升历史是国际地学界关注的热点和难题。丁林与其团队提出介形虫原位氧同位素检验成岩作用的新技术方案,揭示了冈底斯山于5600万年已隆升到4500m以上,而不是前人认为的1500万年。综合利用植物化石热焓、氧同位素等方法,构建了喜马拉雅山隆升的基本过程:喜马拉雅山地区在6500万年还处于海平面之下,此后缓慢隆升,5600万年研究地区达到~1000m,这与棕榈、桉树、榕树植物化石所反映的低海拔环境一致,2400-2200万年高度为2300m,此后快速抬升,于1500万年超过5000m。2400万年以来高原变得越来越干旱寒冷,而喜马拉雅以南的降水量自5600万年以来变化不明显。


研究方向:

构造地质学


职务:

社会任职:

地质学会构造地质与地球动力学专业委员会副主任;中国青藏高原研究会理事,副秘书长


承担项目:

获奖及荣誉:

曾获首届(95年)青藏高原青年科技奖,2006年获构造地质学国家杰出青年科学基金。
2007年入选“千百万”人才工程国家级专家,2009年获政府特殊津贴,2017年入选中国科学院院士。


代表论著:
  1. Xu, Q., Ding, L, Spicer, R.A., Liu, X., Li, S., Wang, H. 2018. Stable isotopes reveal southward growth of the Himalayan-Tibetan Plateau since the Paleocene. Gondwana Research, 54:50-61.
  2. Qasim, M., Ding, L, Khan, M.A., Umar, M., Jadoon, I.A.K., Haneef, M., Baral, U. 2017. Late Neoproterozoic–Early Palaeozoic stratigraphic succession, Western Himalaya, North Pakistan: Detrital zircon provenance and tectonic implications. Geological Journal, DOI: 10.1002/gj.3063.
  3. Satybaev, M., Ding, L, Takasu, A., Bakirov, A., Sakiev, K., Cai, F., Orozbaev, R. 2017. Petrology of metamorphic rocks from the Atbashy Complex, southern Tien-Shan, Kyrgyzstan. Geoscience Frontiers, doi.org/10.1016/j.gsf.2017.11.005.
  4. Fan, S., Ding, L, Murphy, M.A., Yao, W., Yin, A. 2017. Late Paleozoic and Mesozoic evolution of the Lhasa Terrane in the Xainza area of southern Tibet. Tectonophysics, 721: 415-434.
  5. Yao, W., Ding, L, Cai, F., Wang, H., Xu, Q., Zaw, T. 2017. Origin and tectonic evolution of upper Triassic Turbidites in the Indo-Burman ranges, West Myanmar. Tectonophysics, 721: 90-105.
  6. Liu, D.L., Shi, R.D., Ding, L, Zou, H.B. 2017. Late Cretaceous transition from subduction to collision along the Bangong-Nujiang Tethys: New volcanic constraints from central Tibet. Lithos, 296-299: 452-470.
  7. Laskowski, A.K., Ding, L, Cai, F., Chen, Y., He, S. 2017. Field Report: Research along the Yarlung Suture Zone in Southern Tibet, a persistent geological frontier. Geoscience Frontiers, doi.org/10.1016/j.gsf.2017.11.002.
  8. Aminov, J., Ding, L, Mamadjonov, Y., Dupont-Nivet, G., Aminov, J., Zhang, L.Y. 2017. Pamir Plateau formation and crustal thickening before the India-Asia collision inferred from dating and petrology of the 110–92 Ma Southern Pamir volcanic sequence. Gondwana Research, 51: 310-326.
  9. Li, S., Guilmette, C., Ding, L, Xu, Q., Fu, J.J., Yue, Y.H. 2017. Provenance of Mesozoic clastic rocks within the Bangong-Nujiang suture zone, central Tibet: Implications for the age of the initial Lhasa-Qiangtang collision. Journal of Asian Earth Sciences 147: 469-484.
  10. Song, P., Ding, L, Li, Z., Lippert, P.C., Yue, Y. 2017. An early bird from Gondwana: Paleomagnetism of Lower Permian lavas from northern Qiangtang (Tibet) and the geography of the Paleo-Tethys. Earth and Planetary Science Letters, 475: 119-133.
  11. Spicer, R., Yang, J., Herman, A., Kodrul, T., Aleksandrova, G., Maslova, N., Spicer, T., Ding, L, Xu, Q., Shukla, A., Srivastava, G., Mehrotra, R., Liu, X., Jin, J. 2017. Paleogene monsoons across India and South China: Drivers of biotic change. Gondwana Research, 49: 350-363.
  12. Zhang, Q., Wendler, I., Xu, X., Willems, H., Ding, L 2017. Structure and magnitude of the carbon isotope excursion during the Paleocene-Eocene thermal maximum. Gondwana Research, 46: 114-123.
  13. Li, S., Ding, L, Guilmette, C., Fu, J., Xu, Q., Yue, Y., Henrique-Pinto, R. 2017. The subduction-accretion history of the Bangong-Nujiang Ocean: Constraints from provenance and geochronology of the Mesozoic strata near Gaize, central Tibet. Tectonophysics, 702: 42-60.
  14. Ding, L, Spicer, R.A., Yang, J., Xu, Q., Cai, F., Li, S., Lai, Q., Wang, H., Spicer, T.E.V., Yue, Y., Shukla, A., Srivastava, G., Khan, A., Bera, S., Mehrotra, R. 2017. Quantifying the rise of the Himalaya orogen and implications for the South Asian monsoon. Geology, 45: 215-218.
  15. Ding, L, Satybaev, M., Cai, F., Wang, H., Song, P., Ji, W., Xu, Q., Zhang, L., Muhammad, Q. 2017. Processes of initial collision and suturing between India and Asia. Science China Earth Sciences, doi: 10.1007/s11430-016-5244-x.
  16. Bai, L., Li, G., Khan, N.G., Zhao, J. and Ding, L 2017. Focal depths and mechanisms of shallow earthquakes in the Himalayan–Tibetan region. Gondwana Research, 41: 390-399.
  17. Baral, U., Ding, L, and Chamlagain, D. 2017. Detrital zircon ages and provenance of Neogene foreland basin sediments of the Karnali River section, Western Nepal Himalaya. Journal of Asian Earth Sciences, http://dx.doi.org/10.1016/j.jseaes. 2017.02.003.
  18. Cai, F.L., Ding, L, Yao, W., Laskosiki, A.K., Xu, Q., Zhang, J. Kyaing Sein. 2017. Provenance and tectonic evolution of Lower Paleozoic–Upper Mesozoic strata from Sibumasu terrane, Myanmar. Gondwana Research, 41: 325-336.
  19. Montomoli, C., Salvatore, I., Borja, A., Appel, E., Rodolfo, C., Dunkl, I., Ding, L, Dario, V. 2017. Tectono-metamorphic evolution of the Tethyan Sedimentary Sequence (Himalayas, SE Tibet). Ital. J. Geosci., 136: 73-88.
  20. Laskowski, A. K., Kapp, P., Ding, L, Campbell, Clay., Liu, X. 2017. Tectonic Evolution of the Yarlung Suture Zone, Lopu Range Region, Southern Tibet. Tectonics, 10.1002/2016TC004334.
  21. Li, S., Ding, L, Xu, Q., Wang, H., Yue, Y., Baral, U. 2017. The evolution of Yarlung Tsangpo River: Constraints from the age and provenance of the Gangdese Conglomerates, southern Tibet. Gondwana Research, 41: 249-226.
  22. Li, Z., Ding, L, Song, P., Fu, J., Yue, Y. 2017. Paleomagnetic constraints on the paleolatitude of the Lhasa block during the Early Cretaceous: Implications for the onset of India–Asia collision and latitudinal shortening estimates across Tibet and stable Asia. Gondwana Research, 41: 352-372.
  23. Liu, D., Shi, R., Ding, L, Huang, Q., Zhang, X., Yue, Y., Zhang, L. 2017. Zircon U–Pb age and Hf isotopic compositions of Mesozoic granitoids in southern Qiangtang, Tibet: Implications for the subduction of the Bangong–Nujiang Tethyan Ocean. Gondwana Research, 41: 157-172.
  24. Wang, C., Ding, L, Liu, Z., Zhang, L., Yue, Y. 2017. Early Cretaceous bimodal volcanic rocks in the southern Lhasa terrane, south Tibet: Age, petrogenesis and tectonic implications. Lithos, 268: 260-273.
  25. Wang, H. Q., Ding, L, Cai, F. L., Xu, Q., Li, S., Fu, J. J., Lai, Q. Z., Yue, Y. H., Li, X. 2017. Early Tertiary deformation of the Zhongba–Gyangze Thrust in central southern Tibet. Gondwana Research, 41: 235-248.
  26. Cai, F.L., Ding, L, Laskosiki, A.K., Kapp, P., Wang, H., Xu, Q., Zhang, L. 2016. Late Triassic paleogeographic reconstruction along the Neo–Tethyan Ocean margins, southern Tibet. Earth And Planetary Science Letters, 435: 105-114.
  27. Ding, L, Qasim, M., Ishtiaq, J., Xu, Q., Cai, F., Wang, H., Upendra, B., Yue, Y., Lai, Q. 2016. The India-Asia Collision in North Pakistan: Sedimentary record from the Tertiary Foreland Basin. Earth And Planetary Science Letters, 455: 49-61.
  28. Laskowski, A.K., Kapp, P., Vervoort, J.D., Ding, L 2016. High-pressure Tethyan Himalaya rocks along the India-Asia suture zone in southern Tibet. Lithosphere, 8: 574-582.
  29. Li, Z.Y., Ding, L*., Lippert, P.C., Song, P.P., Yue, Y.H., van Hinsbergen, D.J.J. 2016. Paleomagnetic constraints on the Mesozoic drift of the Lhasa terrane (Tibet) from Gondwana to Eurasia. Geology, 44: 727-730.
  30. Liu, X.H., Xu, Q., Ding, L 2016. Differential surface uplift: Cenozoic paleoelevation history of the Tibetan Plateau. Science China Earth Sciences, 59 (11): 2105–2120.
  31. Liu, Z.C., Wu, F.Y., Ding, L, Liu, X.C., Wang, J.G, Ji, W.Q. 2016. Highly fractionated Late Eocene (~ 35Ma) leucogranite in the Xiaru Dome, Tethyan Himalaya, South Tibet. Lithos, 240: 337-354.
  32. Wang, C., Ding, L, Zhang, L.Y., Kapp, P., Pullen, A., Yue, Y. H. 2016. Petrogenesis of Middle–Late Triassic volcanic rocks from the Gangdese belt, southern Lhasa terrane: Implications for early subduction of Neo-Tethyan oceanic lithosphere. Lithos, 262: 320-333.
  33. Wu, C., Yin, A., Zuza, A. V., Zhang, J., Liu, W., Ding, L 2016. Pre-Cenozoic geologic history of the central and northern Tibetan Plateau and the role of Wilson cycles in constructing the Tethyan orogenic system. Lithosphere, 8(3), 254-292.
  34. Xu, Q., Liu, X.H., Ding, L 2016. Miocene high-elevation landscape of the eastern Tibetan Plateau. Geochmistry, Geophysics, Geosystem, 17: 4254-4267.
  35. 陈贝贝, 丁林, 许强, 岳雅慧, 谢静, 2016. 西藏林周盆地林子宗火山岩的精细年代框架. 第四纪研究, 36(5):1036-1054.
  36. Baral, U., Ding, L, Chamlagain, D. 2015. Detrital zircon U–Pb geochronology of the Siwalik Group of the Nepal Himalaya: implications for provenance analysis. International Journal Of Earth Sciences, 105 (3): 921-939.
  37. Deng, T., and Ding, L 2015. Paleoaltimetry reconstructions of the Tibetan Plateau: progress and contractions. National Science Review, 2: 417-437.
  38. Maffione, M., Van Hinsbergen, D.J., Koornneef, L.M., Guilmette, C., Hodges, K., Borneman, N., Huang, W., Ding, L, Kapp, P. 2015. Forearc hyperextension dismembered the south Tibetan ophiolites. Geology, 43(6): 475-478.
  39. Rades, E.F., Hetzel, R., Strobl, M., Xu, Q., Ding, L 2015. Defining rates of landscape evolution in a south Tibetan graben with in situ‐produced cosmogenic 10Be. Earth Surface Processes And Landforms, 40(14): 1862-1876.
  40. Song, P., Ding, L, Li, Z., Lippert, P. C., Yang, T., Zhao, X., Fu, J., Yue, Y. 2015. Late Triassic paleolatitude of the Qiangtang block: Implications for the closure of the Paleo-Tethys Ocean. Earth And Planetary Science Letters, 424: 69-83.
  41. Xu, Q., Ding, L, Hetzel, R., Yue, Y., Rades, E.F. 2015. Low elevation of the northern Lhasa terrane in the Eocene: Implications for relief development in south Tibet. Terra Nova, 27: 458-466.
  42. Yao, T., Wu, F., Ding, L, Sun, J., Zhu, L., Piao, S., Deng, T., Ni, X., Zheng, H., Ouyang, H. 2015. Multispherical interactions and their effects on the Tibetan Plateau's earth system: a review of the recent researches. National Science Review, 2(4): 468-488.
  43. 付佳俊, 丁林, 许强, 蔡福龙, 岳雅慧, 郭钰. 2015. 西藏改则洞错地区白垩纪火山岩锆石 U-Pb 年代学, Hf 同位素组成及对班公—怒江洋俯冲闭合的制约. 地质科学, 50: 182-202.
  44. 刘德亮, 黄启帅, 史仁灯, 岳雅慧, 丁林. 2015. 锆石Ge含量和年龄对云南临沧锗矿床物质来源的约束. 矿床地质, 34(1):139-148.
  45. 许强, 丁林. 2015. 冈底斯山的隆升过程与青藏高原古高度. 中国科学基金, 1: 54-59.
  46. DeCelles P. G., Kapp P., Gehrels G. E., Ding, L 2014. Paleocene-Eocene foreland basin evolution in the Himalaya of southern Tibet and Nepal: Implications for the age of initial India-Asia collision. Tectonics, 33 (5): 824-849.
  47. Ding, L, Xu, Q., Yue, Y., Wang, H., Cai, F., Li, S. 2014. The Andean-type Gangdese Mountains: Paleoelevation record from the Paleocene-Eocene Linzhou Basin. Earth And Planetary Science Letters, 392: 250-264.
  48. Kornfeld D., Eckert, S., Appel, E., Ratschbacher, L., Sonntag, B., Pfaender, J.A., Ding, L, Liu, D. 2014. Cenozoic clockwise rotation of the Tengchong block, southeastern Tibetan Plateau: A paleomagnetic and geochronologic study. Tectonophysics, 628: 105-122.
  49. Kornfeld, D., Eckert, S., Appel, E., Ratschbacher, L., Pfaender, J., Liu, D., Ding, L 2014. Clockwise rotation of the Baoshan Block due to southeastward tectonic escape of Tibetan crust since the Oligocene. Geophysical Journal International, 197 (1): 149-163.
  50. Kornfeld, D., Sonntag, B.L., Gast, S., Matthes, J., Ratschbacher, L., Pf?nder, J.A., Eckert, S., Liu, D. Appel, E., Ding, L 2014. Apparent paleomagnetic rotations reveal Pliocene–Holocene internal deformation of the Tengchong Block, southeastern Tibetan Plateau. Journal of Asian Earth Sciences, 96: 1-16.
  51. Lei, Y., Tian, L., Bird, B. W., Hou, J., Ding, L, Oimahmadov, I., Gadoev, M. 2014. A 2540-year record of moisture variations derived from lacustrine sediment (Sasikul Lake) on the Pamir Plateau. Holocene, 24 (7): 761-770.
  52. Liu, D., Huang, Q., Fan, S., Zhang, L., Shi, R., Ding, L 2014. Subduction of the Bangong-Nujiang Ocean: constraints from granites in the Bangong Co area, Tibet. Geological Journal, 49 (2): 188-206.
  53. Volkmer, J. E., Kapp, P., Horton, B. K., Gehrels, G. E., Minervini, J. M., Ding, L 2014. Northern Lhasa thrust belt of central Tibet: Evidence of Cretaceous–early Cenozoic shortening within a passive roof thrust system Geological Society of America Special Papers, 507: 59-70.
  54. Xu, Q., Hoke, G.D., Liu-Zeng, J., Ding, L, Wang, W., Yang, Y. 2014. Stable isotopes of surface water across the Longmenshan margin of the eastern Tibetan Plateau. Geochemistry Geophysics Geosystems, 15 (8): 3416-3429.
  55. Zhang, X., Shi, R., Huang, Q., Liu, D,, Gong, X., Chen, S., Wu, K., Yi, G., Sun, Y., Ding, L 2014. Early Jurassic high-pressure metamorphism of the Amdo terrane, Tibet: Constraints from zircon U-Pb geochronology of mafic granulites. Gondwana Research, 26 (3-4): 975-985.
  56. Zhang, L.Y., Ding, L, Pullen, A., Kapp, P. 2014. Reply to comment by W. Liu and B. Xia on “Age and geochemistry of western Hoh-Xil-Songpan-Ganzi granitoids, northern Tibet: Implications for the Mesozoic closure of the Paleo-Tethys ocean”. Lithos, 212–215.
  57. Zhang, L., Ding, L, Pullen, A., Xu, Q., Liu, D., Cai, F., Yue, Y., Lai, Q., Shi, R., Ducea, M. N., Kapp, P., Chapman, A. 2014. Age and geochemistry of western Hoh-Xil-Songpan-Ganzi granitoids, northern Tibet: Implications for the Mesozoic closure of the Paleo-Tethys ocean. Lithos, 190: 328-348.
  58. Ding, L, Yang, D., Cai, F. L., Pullen, A., Kapp, P., Gehrels, G. E., Zhang, L. Y., Zhang, Q. H., Lai, Q. Z., Yue, Y. H., Shi, R. D. 2013. Provenance analysis of the Mesozoic Hoh-Xil-Songpan-Ganzi turbidites in northern Tibet: Implications for the tectonic evolution of the eastern Paleo-Tethys Ocean. Tectonics, 32 (1): 34-48.
  59. Haider, V. L., Dunkl, I., von Eynatten, H., Ding, L, Frei, D., Zhang, L. 2013. Cretaceous to Cenozoic evolution of the northern Lhasa Terrane and the Early Paleogene development of peneplains at Nam Co, Tibetan Plateau. Journal Of Asian Earth Sciences, 70-71: 79-98.
  60. Heermance, R. V., Pullen, A., Kapp, P., Garzione, C. N., Bogue, S., Ding, L, Song, P. 2013. Climatic and tectonic controls on sedimentation and erosion during the Pliocene-Quaternary in the Qaidam Basin (China). Geological Society Of America Bulletin, 125 (5-6): 833-856.
  61. Hetzel, R., Dunkl, I., Haider, V., Strobl, M., von Eynatten, H., Ding, L, Frei, D. 2013. Peneplain formation in southern Tibet predates the India-Asia collision and plateau uplift Reply. Geology, 41 (9): E297-E298.
  62. Karatson, D., Telbisz, T., Harangi, S., Magyari, E., Dunkl, I., Kiss, B., Janosi, C., Veres, D., Braun, M., Fodor, E., Biro, T., Kosik, S., von Eynatten, H., Ding, L 2013. Morphometrical and geochronological constraints on the youngest eruptive activity in East-Central Europe at the Ciomadul (Csomad) lava dome complex, East Carpathians. Journal of Volcanology And Geothermal Research, 255: 43-56.
  63. Li, Z., Ding, L, Lippert, P. C., Wei, H. 2013. Paleomagnetic constraints on the Cenozoic kinematic evolution of the Pamir plateau from the Western Kunlun Shan foreland. Tectonophysics, 603: 257-271.
  64. Liebke, U., Appel, E., Ding, L, Zhang, Q. 2013. Age constraints on the India-Asia collision derived from secondary remanences of Tethyan Himalayan sediments from the Tingri area. Journal Of Asian Earth Sciences, 62: 329-340.
  65. Rades, E., Hetzel, R., Xu, Q., Ding, L 2013. Constraining Holocene lake-level highstands on the Tibetan Plateau by Be-10 exposure dating: a case study at Tangra Yumco, southern Tibet. Quaternary Science Reviews, 82: 68-77.
  66. Styron, R. H., Taylor, M. H., Sundell, K. E., Stockli, D. F., Oalmann, J. A. G., Moeller, A., McCallister, A. T., Liu, D., Ding, L 2013. Miocene initiation and acceleration of extension in the South Lunggar rift, western Tibet: Evolution of an active detachment system from structural mapping and (U-Th)/He thermochronology. Tectonics, 32 (4): 880-907.
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  144. 侯增谦, 潘桂棠, 王安建, 莫宣学, 田世洪, 孙晓明, 丁林, 王二七, 高永丰, 谢玉玲, 曾普胜, 秦克章, 许继峰, 曲晓明, 杨志明, 杨竹森, 费红彩, 孟祥金, 李振清. 2006.青藏高原碰撞造山带:Ⅱ.晚碰撞转换成矿作用. 矿床地质, 25(5): 521-543.
  145. 侯增谦, 杨竹森, 徐文艺, 莫宣学, 丁林, 高永丰, 董方浏, 李光明, 曲晓明, 李光明, 赵志丹, 江思宏, 孟祥金, 李振清, 秦克章, 杨志明. 2006. 青藏高原碰撞造山带:Ⅰ.主碰撞造山成矿作用. 矿床地质, 25(4), 337-358.
  146. 刘静, 丁林, 曾令森, Paul TAPPONNIER, Yves GAUDEMER. 2006. 青藏高原典型地区的地貌量化分析——兼对高原"夷平面"的讨论. 地学前缘, 13(5): 285-289.
  147. 陆诗阔, 蔡永恩, 丁林, 刘金朝. 2006. 碰撞带倾角和摩擦系数对陆-陆碰撞变形的影响. 地学前缘, 13(3): 44-53.
  148. Ding, L, Kapp, P., Wan, X.Q. 2005. Paleocene-Eocene record of ophiolite obduction and initial India-Asia collision, south central Tibet. Tectonics, 24 (3): TC3001. DOI: 10.1029/2004TC001729.
  149. Kapp, J.L.D., Harrison, T.M., Kapp, P., Grove, M., Lovera, O.M., Ding, L 2005. Nyainqentanglha Shan: A window into the tectonic, thermal, and geochemical evolution of the Lhasa block, southern Tibet. Journal of Geophysical Research-Solid Earth, 110 (B8): B08413. DOI: 10.1029/2004JB003330.
  150. Kapp, P., Yin, A., Harrison, T.M., Ding, L 2005. Cretaceous-Tertiary shortening, basin development, and volcanism in central Tibet. Geological Society of America Bulletin, 117 (7-8): 865-878.
  151. Lal, D., Harris, N.B.W., Sharma, K.K., Gu, Z.Y., Ding, L, Liu, T.S., Dongal, W.Q., Caffee, M.W., Jull, A.J.T. 2004. Erosion history of the Tibetan Plateau since the last interglacial: constraints from the first studies of cosmogenic Be-10 from Tibetan bedrock. Earth and Planetary Science Letters, 217 (1-2): 33-42.
  152. Zhang, J.J., Ji, J.Q., Zhong, D.L., Ding, L, He, S.D. 2004. Structural pattern of eastern Himalayan syntaxis in Namjagbarwa and its formation process. Science in China Series D-Earth Sciences, 47 (2): 138-150. (张进江, 季建清, 钟大赉, 丁林, 何顺东. 2003. 东喜马拉雅南迦巴瓦构造结的构造格局及形成过程探讨.中国科学(D辑:地球科学), 04:373-383.)
  153. 李国彪, 万晓樵, 丁林, 刘文灿, 高莲凤. 2004. 藏南古近纪前陆盆地演化过程及其沉积响应. 沉积学报, 22(3), 455-464.
  154. 桑海清, 丁林, 戴谟. 2004. 用于新生代定年的Ar-Ar法标准样品候选样品初测结果. 矿物岩石地球化学通报, 23(1): 24-27.
  155. Ding, L 2003. Paleocene deep-water sediments and radiolarian faunas: Implications for evolution of Yarlung-Zangbo foreland basin, southern Tibet. Science in China Series D-Earth Sciences, 46 (1): 84-96. (丁林.2003. 西藏雅鲁藏布江缝合带古新世深水沉积和放射虫动物群的发现及对前陆盆地演化的制约.中国科学(D辑:地球科学), 01:47-58.)
  156. Ding, L, Kapp, P., Zhong, D.L., Deng, W.M. 2003. Cenozoic volcanism in Tibet: Evidence for a transition from oceanic to continental subduction. Journal of Petrology, 44 (10): 1833-1865.
  157. Ding, L, Lai, Q.Z. 2003. New geological evidence of crustal thickening in the Gangdese block prior to the Indo-Asian collision. Chinese Science Bulletin, 48 (15): 1604-1610. (丁林,来庆洲. 2003. 冈底斯地壳碰撞前增厚及隆升的地质证据:岛弧拼贴对青藏高原隆升及扩展历史的制约.科学通报, 08:836-842.)
  158. Kapp, P., Murphy, M.A., Yin, A., Harrison, T.M., Ding, L, Guo, J.H. 2003. Mesozoic and Cenozoic tectonic evolution of the Shiquanhe area of western Tibet. Tectonics, 22 (4): 1029. DOI: 10.1029/2001TC001332.
  159. Kapp, P., Yin, A., Manning, C.E., Harrison, T.M., Taylor, M.H., Ding, L 2003. Tectonic evolution of the early Mesozoic blueschist-bearing Qiangtang metamorphic belt, central Tibet. Tectonics, 22 (4): 1043. DOI: 10.1029/2002TC001383.
  160. Taylor, M., Yin, A., Ryerson, F.J., Kapp, P., Ding, L 2003. Conjugate strike-slip faulting along the Bangong-Nujiang suture zone accommodates coeval east-west extension and north-south shortening in the interior of the Tibetan Plateau. Tectonics, 22 (4): 1044. DOI: 10.1029/2002TC001361.
  161. 张进江, 丁林. 2003. 青藏高原东西向伸展及其地质意义. 地质科学, 38(2): 179-189.
  162. Deng, X.G., Ding, L, Liu, X.H., Yin, A., Kapp, P., Murphy, M., Manning, C. 2002. Geochemical characteristics of the blueschists and its tectonic signif icance in the central Qiangtang area, Tibet. Acta Petrologica Sinica, 18(4): 517-525. (邓希光, 丁林, 刘小汉, Paul Kapp,Michael Murphy,Craig Manning. 2002. 青藏高原羌塘中部蓝片岩的地球化学特征及其构造意义.岩石学报, 04:517-525.)
  163. Zhang, J.J., Guo, L., Ding, L 2002. Structural characteristics of middle and southern Xainza-Dinggye Normal Fault System and its relationship to Southern Tibetan Detachment System. Chinese Science Bulletin, 47 (13): 1063-1069.
  164. 何顺东, 丁林, 吴根耀, Taylor M. H. 2002. 藏南格仁错地区孜桂错断裂的第四纪活动及其构造意义. 地质科学, 37(1), 8-12.
  165. 万晓樵, 丁林. 2002. 西藏吉隆白垩纪末期浮游有孔虫的发现及其年代意义. 古生物学报, 41(1), 89-95.
  166. 钟大赉, 丁林, 张进江, 季建清. 2002. 中国造山带研究的回顾和展望. 地质论评, 48(2) :147-152.
  167. Deng, X.G., Ding, L, Liu, X.H., Zhou, Y. 2001. Petrology and Ar-40/Ar-39 isotopic ages of blueschists in Gangmar, central Qiangtang, northern Tibet. Chinese Science Bulletin, 46 (5): 423-427. (邓希光,丁林,刘小汉,周勇, Yin, A., Kapp, P.A., Murphy, M.A., Manning, C.E.. 2000. 青藏高原羌塘中部冈玛日地区蓝闪石片岩及其(40)Ar/(39)Ar年代学. 科学通报, 21:2322-2326.)
  168. Ding, L, Zhong, D.L., Yin, A., Kapp, P., Harrison, T.M. 2001. Cenozoic structural and metamorphic evolution of the eastern Himalayan syntaxis (Namche Barwa). Earth And Planetary Science Letters, 192 (3): 423-438.
  169. 万晓樵, 丁林, 李建国, 蔡华伟. 2001. 西藏仲巴地区白垩纪末期—始新世早期海相地层. 地层学杂志, 25(4), 267-272.
  170. 张进江, 钟大赉, 季建清, 丁林, 桑海清. 2001. 东喜马拉雅构造结大陆碰撞以来构造年代学框架及其与哀牢山红河构造带的对比. 矿物岩石地球化学通报, 20(4): 243-244.
  171. 钟大赉, 丁林, 季建清, 张进江, 刘福田, 刘建华, 闫晓蔚. 2001.中国西部新生代岩石圈汇聚和东部岩石圈离散的耦合关系与古环境格局演变的探讨. 第四纪研究, 21(4): 303-312.
  172. Ding, L, Zhou, Y., Zhang, J.J., Deng, W.M. 2000. Geologic relationships and geochronology of the Cenozoic volcanoes and interbedded weathered mantles of Yulinshan in Qiangtang, North Tibet. Chinese Science Bulletin, 45 (24): 2214-2220. (丁林, 周勇, 张进江, 邓万明. 2000. 藏北鱼鳞山新生代火山岩及风化壳复合堆积物的组成和时代.科学通报, 14:1475-1481.)
  173. Kapp, P., Yin, A., Manning, C.E., Murphy, M., Harrison, T.M., Spurlin, M., Ding, L, Deng, X.G., Wu, C.M. 2000. Blueschist-bearing metamorphic core complexes in the Qiangtang block reveal deep crustal structure of northern Tibet. Geology, 28 (1): 19-22.
  174. Murphy, M.A., Yin, A., Kapp, P., Harrison, T.M., Ding, L, Guo, J.H. 2000. Southward propagation of the Karakoram fault system, southwest Tibet: Timing and magnitude of slip. Geology, 28 (5): 451-454.
  175. Zhang, J.J., Ding, L, Zhong, D.L., Zhou, Y. 2000. Orogen-parallel extension in Himalaya: Is it the indicator of collapse or the product in process of compressive uplift Chinese Science Bulletin, 45 (2): 114-120.
  176. Zhong, D.L., Ding, L, Liu, F.T., Lu, J.H., Zhang, J.J., Ji, J.Q., Chen, H. 2000. Multi-oriented and layered structures of lithosphere in orogenic Belt and their effects on Cenozoic magmatism - A case study of western Yunnan and Sichuan, China. Science in China Series D-Earth Sciences, 43: 122-133.
  177. 邓希光, 丁林, 刘小汉, Yin, A., Kapp, P., Murphy, M., Manning, C. 2000. 藏北羌塘中部冈玛日:桃形错蓝片岩的发现. 地质科学, 35(2), 227-232.
  178. 周勇, 丁林, 邓万明, 张进江. 2000. 札达盆地构造旋回层及其地质意义. 地质科学, 35(3): 305-315.
  179. Ding, L, Zhong, D.L. 1999. Metamorphic characteristics and geotectonic implications of the high-pressure granulites from Namjagbarwa, eastern Tibet. Science in China Series D-Earth Sciences, 42 (5): 491-505.
  180. Yin, A., Kapp, P., Murphy, M.A., Manning, C.E., Harrison, T.M., Grove, M., Ding, L, Deng, X.G., Wu, C.M. 1999. Significant late Neogene east-west extension in northern Tibet. Geology, 27 (9): 787-790.
  181. Zhong, D.L, Wu, G.Y., Ji, J.Q., Zhang, Q., Ding, L 1999. Discovery of ophiolite in southeast Yunnan, China. Chinese Science Bulletin, 44 (1): 36-41.
  182. 丁林, 张进江, 周勇, 邓万明, 许荣华, 钟大赉. 1999. 青藏高原岩石圈演化的记录: 藏北超钾质及钠质火山岩的岩石学与地球化学特征. 岩石学报, 15(3): 408-421.
  183. 季建清, 钟大赉, 丁林, 张进江, 杨逸畴. 1999. 雅鲁藏布大峡谷地质成因. 地学前缘, 6(4) : 231-235.
  184. Ji, J., Zhong, D., Ding, L, and Han, X. 1998. Study on Metamorphism of Granul ite-facies Metamorphic Rocks Discovered in the Nabang Area on the Border between China and Burma. Acta Petrologica Sinica, 1998, 14(2), 163-175. (季建清, 钟大赉, 丁林, 韩秀玲. 1998. 中缅边界那邦变质基性岩的两期变质作用及其构造意义. 岩石学报, 14(2): 163-175. )
  185. 丁林. 1997. 裂变径迹定年方法的进展及应用. 第四纪研究, 17(3): 272-280.
  186. Ding, L, Zhong, D.L. 1996. Characteristics of rare earth elements and cerium anomalies in cherts from the Paleo-Tethys in Changning-Menglian belt in western Yunnan, China. Science in China Series D-Earth Sciences, 39 (1): 35-45. (丁林, 钟大赉.1995. 滇西昌宁-孟连带古特提斯洋硅质岩稀土元素和铈异常特征.中国科学(B辑), 01:93-100.)
  187. Zhong, D.L., Ding, L 1996. Discovery of high-pressure basic granulite in Namjagbarwa area, Tibet, China. Chinese Science Bulletin, 41 (1): 87-88.
  188. Zhong, D.L., Ding, L 1996. Rising process of the Qinghai-Xizang (Tibet) plateau and its mechanism. Science in China Series D-Earth Sciences, 39 (4): 369-379.
  189. 钟大赉, 丁林. 1996. 东喜马拉雅构造结变形与运动学研究取得重要进展. 中国科学基金, 1 , 52-53.
  190. 丁林, 钟大赉, 潘裕生, 黄萱, 王庆隆. 1995.东喜马拉雅构造结上新世以来快速抬升的裂变径迹证据. 科学通报, 40(16): 1497-1500.
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