人才详细信息

姓名:丁 林
性别:
学历:博士
专家类别:院士/研究员/杰青
电话:
传真:010-8409 7079
电子邮箱:dinglin@itpcas.ac.cn
职称:研究员
通讯地址:北京市朝阳区林萃路16号院3号楼

简介

简介
丁林,男,1965年生,籍贯安徽萧县,研究员,2006年杰青,2017年当选中国科学院院士,2022年美国地质学会(GSA)荣誉会士。丁林院士从事青藏高原及其周边地区地质学研究已30年有余。他的研究领域是大陆构造,构造地质学,地球化学和地球年代学。研究兴趣包括大洋板块汇聚和大陆碰撞过程,青藏高原隆升及其对亚洲气候的影响。截至2022年在Science,PNAS,SA,NG,NC,NREE,Geology,EPSL等期刊发表论文280多篇,论文引用22000多次,单篇最高引用超900次,TOP1%论文10篇,H指数75,是国际地球科学前1%的高引用科学家。

目前任职
中国科学院青藏高原研究所(学术副所长,中国科学院院士,研究员)
青藏高原地球系统与资源环境全国重点实验室(主任)

主要学术贡献
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的重大科学问题,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、喜马拉雅山和中央分水岭山的隆升历史。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,5600万年研究地区高度达到~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。

教育经历
1999 博士 中科院地质与地球物理研究所
1991 硕士 中科院地质与地球物理研究所
1988 学士 北京大学

工作经历
2018 中科院青藏高原研究所学术副所长
2004 中科院大陆碰撞与高原隆升重点实验室主任
2003 中科院青藏高原研究所研究员

研究方向

构造地质学,陆陆碰撞,青藏高原隆升及资源环境效应

职务

社会任职

社会任职
2020 中国科学院大学国际学院教学委员会主任
2018 兰州大学地质科学与矿产资源学院双聘院士和学术院长
2018 中国科学院青藏高原地球科学卓越创新中心副主任
2018 自然资源部深地动力学重点实验室学术委员会委员
2018 第四届西藏自治区发展咨询委员会委员
2018 中国地质大学(武汉)兼职教授
2015 地质学会构造地质与地球动力学委员会副主任
2014 中国科学院大学教授
2012 亚利桑那大学兼职教授
2010 中国地质学会理事会理事
2010 中国地质大学(北京)兼职教授
2008 西藏大学兼职教授
2005 中国青藏高原研究会副秘书长

学术期刊任职
2021 基金委Fundamental Research 编委
2018 大地构造与成矿学 副主编
2018 地质学报(英文版) 编委
2012 Chinese Science Bulletin 编委
2012 中国科学:地球科学和Science China Earth Sciences 编委
2009 岩石矿物学 编委
2008 地质科学 编委

承担项目

1.科技部第二次青藏高原综合科学考察研究:“高原生长与演化”任务,2019-2024

2.基础科学中心项目“青藏高原地球系统基础科学中心-大陆碰撞-俯冲与高原生长影响”,2020-2024

3.中国科学院A类战略性先导科技专项“泛第三极环境变化与绿色丝绸之路建设”之“地质演化及环境资源效应”项目,2018-2023

4.中德合作项目“青藏高原南部正断层及盆地形成,古高度变化与高原演化”,2019-2022

5.重点国际合作基金课题“古近纪及新近纪早期植被和生物多样性演变”,2017-2020

6.国家重点研发计划专项课题“青藏高原碰撞造山过程与成矿构造背景”,2016-2020

7.国家自然科学基金重大项目:东西构造结碰撞变形过程及大陆俯冲机制研究,2015-2019

8.中国电建集团成都勘测设计研究院有限公司项目“雅鲁藏布江下游地区断裂发育特征研究”,2015-2017

9.中科院战略先导专项B“青藏高原多层圈相互作用及其资源环境效应”之“岩石圈深部圈层相互作用”项目之“印度与欧亚大陆碰撞时限、方式与过程”课题,中科院,2012-2017

10.973(专题)“青藏高原南部大陆聚合过程与成矿地质背景”,2011-2015

11.院地合作项目“青藏高原隆升三维动漫关键技术集成与示范前期研究”,2011-2013

12.国际合作重点基金项目“帕米尔高原构造变形及环境变化研究”,2010-2013

13.863课题“青藏高原形成演化、环境变化研究及高清3D立体可视化动画视频制作”, 2010-2012

14.知识创新项目“三江岩浆作用与壳幔交换成矿制约”,2008-2013

15.知识创新工程重要方向性项目“青藏高原古海拔高度的定量估算”,2008-2011

16.所创新项目“主碰撞带活动裂谷系形成演化与成矿作用”,2008-2010

17.杰出青年基金“青藏高原中部造山带构造变形研究”,2007-2010

18.知识创新工程重要方向性项目“青藏高原陆内俯冲与造山作用”,2005-2008

19.联通通信公司横向课题“可可西里科学考察”,2005-2007

20.973课题“主碰撞带活动裂谷系的形成演化与成矿作用”,2003-2008

获奖及荣誉

2022 获2022年美国地质学会(GSA)荣誉会士
2021 获全国五一劳动奖章
2020 获中国科学院杰出科技成就奖(突出贡献者,排名第一)
2020 获人力资源社会保障部先进工作者
2019 获“中国科学院朱李月华优秀教师奖”
2018-2020 入选“地球和行星科学”领域高被引学者
2017 当选为中国科学院院士
2012 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
2010 获国土资源部科学技术一等奖
2009 获国务院政府特殊津贴
1995 获首届“青藏高原青年科技奖”

代表论著

286 Ding, L., Kapp, P., Cai, F.L., Garzione, C.N., Xiong, Z.Y., Wang, H.Q., Wang, C., 2022. Timing and mechanisms of Tibetan Plateau uplift. Nature Reviews Earth and Environment. https://doi.org/10.1038/s43017-022-00318-4.

285  Xiong, Z., Liu, X., Ding, L.*, Farnsworth, A., Spicer, R.A., Xu, Q., Valdes, P., He, S., Zeng, D., Wang, C., Li, Z.Y., Guo, X.D., Su, T., Zhao, C.Y., Wang, H.Q., Yue, Y.H., 2022. The rise and demise of the Paleogene Central Tibetan Valley. Science advances 8 (6), eabj0944.

284 Ding, L., Goswami, T., Cai, F.L., Baral, U., Sarmah, R.K., Bezbaruah, D., 2022. Detrital zircon U-Pb ages of Tertiary sequences (Palaeocene?Miocene): Inner Fold Belt and Belt of Schuppen, Indo-Myanmar Ranges, India. Geological Journal. https://doi.org/10.1002/gj.4446.

283 Baral, U., Ding, L., Dhital, M.R., Kumar, K.C., Li, S., 2022. Paleozoic? Mesozoic dispersal of Gondwana: Insights from detrital zircon geochronology of Lesser Himalaya strata, eastern Nepal. GSA Bulletin. https://doi.org/10.1130/B36216.1

282 Baral, U., Ding, L., Goswami,T.K., Sarma, M., Jan, M.Q., Wang, C., Aminov, J., Muhammad Q., Devojit B., 2022. Geochemical and geochronological studies of Abor volcanic rocks of eastern Himalaya. Geological Journal 57 (2), 482-502

281 Guo, X.D., Ding, L., Laskowski, A.K., Wang, H.Q., Baral, U., Zeng, D., Ding, X.L., Yue, Y.H., Xie, J., Cai, F.L., 2022. Provenance of Late Cretaceous accretionary complex within the Yarlung–Zangpo suture zone, Bainang, southern Tibet: Implications for the subduction–accretion of the Neo-Tethyan ocean. Gondwana Research, 106, 78-91.

280 Khan, M.S.S., Umar, M., Pan, B., Sun, X.J., Jadoon, I.A.K., Ding, L., Zhu, M.Y., 2022. A newly discovered Neoproterozoic diamictite-cap carbonate couplet from the Western Himalaya: The expansion of the Marinoan snowball Earth glaciation to the northwestern margin of the Indian Plate in North Pakistan. Precambrian Research. https://doi.org/10.1016/j.precamres.2022.106759.

279 Klemperer, S.L., Zhao, P., Whyte, C.J., Darrah, T.H., Crossey, L.J., Karlstrom, K.E., Liu, T.Z., Winn, C., Hilton, D.R., Ding, L., 2022. Limited underthrusting of India below Tibet: 3He/4He analysis of thermal springs locates the mantle suture in continental collision. Proceedings of the National Academy of Sciences 119 (12), e2113877119

278 Li, G., Zhou, Y., Ding, L., Gao, Y., Bai, L., Zhang, H., Hu, L., Pan, Z., Ju, C., Zhang, D., 2022. A Partial Molten Low-Velocity Layer Atop the Mantle Transition Zone Beneath the Western Junggar: Implication for the Formation of Subduction-Induced Sub-Slab Mantle Plume. Geochemistry, Geophysics, Geosystems 23 (2), e2021GC010150

277 Li, Z.Y., Ding, L., Laskowski, A.K., Burke, W.B., Chen, Y.F., Song, P.P., Yue, Y.H., Xie, J., 2022. New Paleomagnetic Constraints on the Early Cretaceous Paleolatitude of the Lhasa Terrane (Tibet). Frontiers in Earth Science 10, 785726.

276 Li, Z.Y., Ding, L., Van Hinsbergen, D., Lippert, P.C., Yue, Y.H., Xie, J., Chen, Y.F., Guo, X.D., Zhang, D., Zhao, T.G., Wu, B.L., Li, H.J., He, S.L., 2022. Jurassic true polar wander recorded by the Lhasa terrane on its northward journey from Gondwana to Eurasia. Earth and Planetary Science Letters 592, 117609.

275 Qasim, M., Tabassum, K., Ding, L., Tanoli, J.I., Awais, M., Baral, U., 2022. Provenance of the Late Cretaceous Pab Formation, Sulaiman fold-thrust belt, Pakistan: Insight from the detrital zircon U-Pb geochronology and sandstone petrography. Geological Journal. https://doi.org/10.1002/gj.4546.

274 Qasim, M., Tanoli, J.I., Ahmad, L., Ding, L., Rehman, Q.U., Umber, U., 2022. First U-Pb Detrital Zircon Ages from Kamlial Formation (Kashmir, Pakistan): Tectonic Implications for Himalayan Exhumation. Minerals 12 (3), 298.

273 Wang,C., Ding, L., Cai, F., Zhang, L., Li, Z., Yue, Y., 2022. Rifting of the Indian passive continental margin: Insights from the Langjiexue basalts in the central Tethyan Himalaya, southern Tibet. GSA Bulletin, https://doi.org/10.1130/B36204.1.

272 Wang,C., Ding, L., Cai, F., Wang, H.Q., Zhang, L., Yue, Y., 2022. Evolution of the Sumdo Paleo-Tethyan Ocean: Constraints from Permian Luobadui Formation in Lhasa terrane, South Tibet. Palaeogeography, Palaeoclimatology, Palaeoecology, Accepted.

271 Wang, L.C., Ding, L., Garzione, E., Shen, L.J., Nulay, P., Siritongkham, N., 2022. Mid-Cretaceous drainage reorganization and exorheic to endorheic transition in Southeast Tibet. Sedimentary Geology 439, 106221.

270 Wang, L.C., Yuan, Q., Shen, L.J., Ding, L., 2022. Middle Eocene Paleoenvironmental Reconstruction in the Gonjo Basin, Eastern Tibetan Plateau: Evidence From Palynological and Evaporite Records. Frontiers in Earth Science. https://doi.org/10.3389/feart.2022.818418.

269 Wu, C., Li, J., Zuza, A.V., Haproff, P.J., Yin, A., Ding, L., 2022. Paleoproterozoic?Paleozoic tectonic evolution of the Longshou Shan, western North China craton. Geosphere. https://doi.org/10.1130/GES02491.1.

268 Zhang, D., Ding, L., Chen, Y., Schertl, H.P., Qasim, M., Jadoon, U.K., Wang, H., Li, J., Zhang, L., Yue, Y., Xie, J., 2022. Two Contrasting Exhumation Scenarios of Deeply Subducted Continental Crust in North Pakistan. Geochemistry, Geophysics, Geosystems 23 (2), e2021GC010193

267  Zhang, L., Fan, W., Ding, L., Pullen, A., Ducea, M.N., Li, J., Wang, C., Xu, X., Sein, K., 2022. Forced subduction initiation within the Neotethys: An example from the mid-Cretaceous Wuntho-Popa arc in Myanmar. GSA Bulletin 134 (3-4), 849-870.

266  Zhu, W.L., Ding, L., Ji, Y.F., Q, R., Zhu, Y., Xie, C.D., Zeng, D., 2022. Subduction Evolution Controlled Himalayan Orogenesis: Implications from 3-D Subduction Modeling. Applied Sciences 12 (15), 7413.

265  Awais, M., Qasim, M., Tanoli, J.I., Ding, L., Sattar, M., Baig, M.S., Pervaiz, S., 2021. Detrital Zircon Provenance of the Cenozoic Sequence, Kotli, Northwestern Himalaya, Pakistan; Implications for India–Asia Collision. Minerals 11 (12), 1399

264  Burke, W.B., Laskowski, A.K., Orme, D.A., Sundell, K.E., Taylor, M.H., Guo, X., Ding, L., 2021. Record of crustal thickening and synconvergent extension from the Dajiamang Tso Rift, Southern Tibet. Geosciences 11 (5), 209

263  Chen, F.H., Ding, L., Piao, S.L., Zhou, T., Xu, B., Yao, T., Li, X., 2021. The Tibetan Plateau as the engine for Asian environmental change: the Tibetan Plateau Earth system research into a new era. Chinese Science Bulletin 66, 1263-1266

262  Cai, F.L., Ding, L., Wang, H., Laskowski, A.K., Zhang, L., Zhang, B., Mohammadi, A., Li, J.X., Song, P.P., Li, Z.Y., Zhang, Q.H., 2021. Configuration and timing of collision between Arabia and Eurasia in the Zagros collision zone, Fars, southern Iran. Tectonics 40 (8), e2021TC006762

261  Farnsworth, A., Valdes, P.J., Spicer, R.A., Ding, L., Witkowski, C., Lauretano, V., Su, T., Li, S.F., Li, S.H., Zhou, Z.K., 2021. Paleoclimate model-derived thermal lapse rates: Towards increasing precision in paleoaltimetry studies, Earth and Planetary Science Letters 564, 116903

260  Jadoon, I.A.K., Ding, L., Saif-ur-Rehman, K.J., Bhatti, Z.I., Shah, S.T.H., Qasim, M. 2021. Lithospheric Deformation and Active Tectonics of the NW Himalayas, Hindukush, and Tibet. Lithosphere (1) 7866954

259  Qasim, M., Ahmad, J., Ding, L., Tanoli, J.I., Sattar, M., Rehman, Q.U., Awais, M., Muhammad U., Baral, U., Khan, H., 2021. Integrated provenance and tectonic implications of the Cretaceous–Palaeocene clastic sequence, Changla Gali, Lesser Himalaya, Pakistan. Geological Journal 56 (9), 4747-4759

258  Wang, L., Shen, L., Liu, C., Chen, K., Ding, L., Wang, C., 2021. The Late Cretaceous source-to-sink system at the eastern margin of the Tibetan Plateau: Insights from the provenance of the Lanping Basin. Geoscience Frontiers 12 (3), 101102

257  Wang, L., Zhong, Y., Xi, D., Hu, J., Shen, L., Dong, H., Liu, C., Ding, L., 2021. The Middle to Late Cretaceous marine incursion of the Proto-Paratethys sea and Asian aridification: a case study from the Simao-Khorat salt giant, southeast Asia Palaeogeography, Palaeoclimatology, Palaeoecology 567, 110300

256  Wu, C., Zuza, A.V., Yin, A., Chen, X., Haproff, P.J., Li, J., Li, B., Ding, L., 2021. Punctuated orogeny during the assembly of Asia: Tectonostratigraphic evolution of the North China Craton and the Qilian Shan from the Paleoproterozoic to Early Paleozoic. Tectonics 40 (4), e2020TC006503

255  Wu, C., Li, J., Ding, L., 2021. Low-temperature thermochronology constraints on the evolution of the Eastern Kunlun Range, northern Tibetan Plateau. Geosphere 17 (4), 1193-1213

254  Wu, C., Zuza, A.V., Li, J., Haproff, P.J., Yin, A., Chen, X., Ding, L., Li, B., 2021. Late Mesozoic–Cenozoic cooling history of the northeastern Tibetan Plateau and its foreland derived from low-temperature thermochronology. GSA Bulletin 133 (11-12), 2393-2417

253  Wu, C., Li, J., Zuza, A.V., Haproff, P.J., Chen, X., Ding, L., 2021. Proterozoic? Phanerozoic tectonic evolution of the Qilian Shan and Eastern Kunlun Range, northern Tibet. GSA Bulletin. https://doi.org/10.1130/B36306.1

252  Taylor, M., Forte, A., Laskowski, A., Ding, L., 2021. Active uplift of southern Tibet revealed GSA Today 31

251  Xu, H., Aung, K.P., Zhang, Y., Shi, G.R., Cai, F., Zaw, T., Ding, L., Sein, K., Shen, S., 2021. A late Cisuralian (early Permian) brachiopod fauna from the Taungnyo Group in the Zwekabin Range, eastern Myanmar and its biostratigraphic, paleobiogeographic, and tectonic implications. Journal of Paleontology 95 (6), 1158-1188

250  Yuan, J., Yang, Z.Y., Deng, C.L., Krijgsman, W., Hu, X.M., Li, S.H., Shen, Z.S., Qin, H.F., An, W., He, H.Y., Ding, L., Guo, Z.T., Zhu, R.X., 2021. Rapid drift of the Tethyan Himalaya terrane before two-stage India-Asia collision. National Science Review: nwaa173. DOI: 10.1093/nsr/nwaa173

249  赵腾格, 侯泉林, 石梦岩, 丁林, 2021. 北京云蒙山变质核杂岩大水峪韧性剪切带的应变特征及构造意义. 岩石学报, 37(8), 2483-2501

248  次仁拉姆, 李金祥, 岳雅慧, 谢静, 张利云, 丁林, 2021. 西藏洛巴堆矽卡岩型铁多金属矿床石榴子石和锆石U-Pb测年及地质意义. 矿床地质, 40(1), 82-98.

247  Zheng, T. He Y., Ding, L., Jiang, M., Ai, Y., Chit Thet Mon, Hou. G., Kyaing Sein and Myo Thant, 2020. Direct structural evidence of Indian continental subduction beneath Myanmar, Nature Communications, 11, 1944. doi: 10.1038/s41467-020-15746-3.

246  Su, T., Robert A. Spicer, Wu, F.X., Farnsworth, A., Huang, J., Ce?dric Del Rio, Deng, T., Ding, L., Wei-Yu-Dong Deng, Yong-Jiang Huang, Alice Hughes, Lin- Bo Jia, et al., 2020. A middle Eocene lowland humid subtropical ‘Shangri-La’ ecosystem in central Tibet. Proceedings of The National Academy of Sciences of The United States of America, 117 (52), 32989-32995.

245  Cai, F., Ding, L., Zhang, Q., Orme, D.A., Wei, H., Li, J., Zhang, J.e., Zaw, T., Sein, K., 2020. Initiation and evolution of forearc basins in the Central Myanmar Depression. GSA Bulletin, 132(5-6), 1066-1082.

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154  Deng, T., and Ding, L. 2015. Paleoaltimetry reconstructions of the Tibetan Plateau: progress and contractions. National Science Review, 2: 417-437.

153  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.

152  Rades, E.F., Hetzel, R., Strobl, M., Xu, Q., Ding, L. 2015. Defining rates of landscape evolution in a south Tibetan graben with in situproduced cosmogenic 10Be. Earth Surface Processes And Landforms, 40(14): 1862-1876.

151  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.

150  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.

149  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.

148  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.

147  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.

146  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.

145  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.

144  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.

143  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.

142  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.

141  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.

140  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.

139  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.

138  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.

137  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.

136  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.

135  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.

134  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.

133  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.

132  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.

131  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.

130  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.

129  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.

128  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.

127  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.

126  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.

125  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.

124  Sundell, K. E., Taylor, M. H., Styron, R. H., Stockli, D. F., Kapp, P., Hager, C., Liu, D., Ding, L. 2013. Evidence for constriction and Pliocene acceleration of east-west extension in the North Lunggar rift region of west central Tibet. Tectonics, 32 (5): 1454-1479.

123  Wang, X., He, J., Ding, L., Gao, R. 2013. A possible mechanism for the initiation of the Yinggehai Basin: A visco-elasto-plastic model. Journal of Asian Earth Sciences, 74: 25-36.

122  Wei, H., Meng, Q., Ding, L., Li, Z. 2013. Tertiary evolution of the western Tarim basin, northwest China: A tectono-sedimentary response to northward indentation of the Pamir salient. Tectonics, 32(3): 558-575.

121  Xu, Q., Ding, L., Zhang, L., Cai, F., Lai, Q., Yang, Di, Liu-Zeng, J. 2013. Paleogene high elevations in the Qiangtang Terrane, central Tibetan Plateau. Earth and Planetary Science Letters, 362: 31-42.

120  Zhang, Q., Willems, H., Ding, L. 2013. Evolution of the Paleocene-Early Eocene larger benthic foraminifera in the Tethyan Himalaya of Tibet, China. International Journal of Earth Sciences, 102 (5): 1427-1445.

119  蔡福龙, 丁林, 王厚起, 岳雅慧, 来庆洲. 2013.特提斯喜马拉雅带江孜地区古近纪地层源区分析—对造山带早期地壳加厚的制约. 地质科学, 48(2): 435-448.

118  丁林, 钟大赉. 2013. 印度与欧亚板块碰撞以来东喜马拉雅构造结的演化. 地质科学, 48(2): 317-333.

117  李羿芃, 丁林, 刘德亮, Oimahmadov Ilhomjon, Mustafo Gadoev, Negmat Rajabov, 李顺. 2013. 帕米尔高原沙克达拉穹窿变质作用及新生代下地壳演化. 地质科学, 48(2): 468-483.

116  杨迪, 丁林. 2013. 青藏高原北部白榴碧玄岩年代学及地球化学研究. 地质科学, 48(2):  449-467

115  Ader, T., Avouac, J., Liu-Zeng, J., Lyon-Caen, H., Bollinger, L., Galetzka, J., Genrich, J., Thomas, M., Chanard, K., Sapkota, S. N., Rajaure, S., Shrestha, P., Ding, L., Flouzat, M. 2012. Convergence rate across the Nepal Himalaya and interseismic coupling on the Main Himalayan Thrust: Implications for seismic hazard. Journal of Geophysical Research-Solid Earth, 117: B04403. DOI: 10.1029/2011JB009071

114  Cai, F., Ding, L., Leary, R. J., Wang, H., Xu, Q., Zhang, L., Yue, Y. 2012. Tectonostratigraphy and provenance of an accretionary complex within the Yarlung-Zangpo suture zone, southern Tibet: Insights into subduction-accretion processes in the Neo-Tethys. Tectonophysics, 574: 181-192.

113  Crouzet, C., Appel, E., El Bay, R., Ding, L., Dunkl, I., Montomoli, C., Carosi, R., Zhang, Q. H., Wauschkuhn, B. 2012. Kinematics of the crust around the Ama Drime Massif (southern Tibet) - Constraints from paleomagnetic results. Journal of Asian Earth Sciences, 58: 119-131.

112  Guynn, J., Kapp, P., Gehrels, G. E., Ding, L. 2012. U-Pb geochronology of basement rocks in central Tibet and paleogeographic implications. Journal of Asian Earth Sciences, 43: 23-50.

111  Huang, Q., Shi, R., Liu, D., Zhang, X., Fan, S., Ding, L. 2013. Os isotopic evidence for a carbonaceous chondritic mantle source for the Nagqu ophiolite from Tibet and its implications. Chinese Science Bulletin, 58 (1): 92-98. (黄启帅,史仁灯,刘德亮,张晓冉,樊帅权,丁林. 2012. 西藏那曲蛇绿岩地幔源区的碳质球粒陨石型Os同位素特征及其意义.科学通报, 33:3154-3161).

110  Liebke, U., Appel, E., Neumann, U., Ding, L. 2012. Dual polarity directions in basaltic-andesitic dykes - reversal record or self-reversed magnetization? Geophysical Journal International, 190 (2): 887-899.

109  Rohrmann, A., Kapp, P., Carrapa, B., Reiners, P. W., Guynn, J., Ding, L., Heizler, M. 2012. Thermochronologic evidence for plateau formation in central Tibet by 45 Ma. Geology, 40: 187-190.

108  Shi, R., Griffin, W. L., O'Reilly, S. Y., Zhou, M., Zhao, G., Huang, Q., Zhang, X., Ding, B., Ding, L.  2012. Archean mantle contributes to the genesis of chromitite in the Palaeozoic Sartohay ophiolite, Asiatic Orogenic Belt, northwestern China. Precambrian Research, 216: 87-94.

107  Shi, R., Griffin, W. L., O'Reilly, S. Y., Huang, Q., Zhang, X., Liu, D., Zhi, X., Xia, Q., Ding, L. 2012. Melt/mantle mixing produces podiform chromite deposits in ophiolites: Implications of Re-Os systematics in the Dongqiao Neo-tethyan ophiolite, northern Tibet. Gondwana Research, 21: 194-206.

106  Strobl, M., Hetzel, R., Niedermann, S., Ding, L., Zhang, L. 2012. Landscape evolution of a bedrock peneplain on the southern Tibetan Plateau revealed by in situ-produced cosmogenic Be-10 and Ne-21. Geomorphology, 153: 192-204.

105  Zhang, J. Y., Yin, A., Liu, W. C., Wu, F. Y., Ding, L., Grove, M. 2012. Coupled U-Pb dating and Hf isotopic analysis of detrital zircon of modern river sand from the Yalu River (Yarlung Tsangpo) drainage system in southern Tibet: Constraints on the transport processes and evolution of Himalayan rivers. Geological Society Of America Bulletin, 124 (9-10): 1449-1473..

104  Zhang, L., Ding, L*., Yang, D., Xu, Q., Cai, F., Liu, D. 2012. Origin of middle Miocene leucogranites and rhyolites on the Tibetan Plateau: Constraints on the timing of crustal thickening and uplift of its northern boundary. Chinese Science Bulletin, 57 (5): 511-524. (张利云,丁林,杨迪,许强,蔡福龙,刘德亮.藏北中中新世淡色花岗岩及流纹岩的成因:对高原北部边界地壳加厚过程和隆升时代的制约.科学通报, 57(Z1):153-168.)

103  Zhang, Q., Willems, H., Ding, L., Graefe, K., Appel, E. 2012. Initial India-Asia Continental Collision and Foreland Basin Evolution in the Tethyan Himalaya of Tibet: Evidence from Stratigraphy and Paleontology. Journal of Geology, 120 (2): 175-189.

102  史仁灯, 黄启帅, 刘德亮, 樊帅权, 张晓冉, 丁林, Griffin William L, O'Reilly Suzanne Y. 2012. 古老大陆岩石圈地幔再循环与蛇绿岩中铬铁矿床成因. 地质论评, 58(4): 643-652.

101  Gehrels, G., Kapp, P., DeCelles, P., Pullen, A., Blakey, R., Weislogel, A., Ding, L., Guynn, J., Martin, A., McQuarrie, N., Yin, A. 2011. Detrital zircon geochronology of pre-Tertiary strata in the Tibetan-Himalayan orogen. Tectonics, 30: TC5016. DOI: 10.1029/2011TC002868.

100  Hetzel, R., Dunkl, I., Haider, V., Strobl, M., von Eynatten, H., Ding, L., Frei, D. 2011. Peneplain formation in southern Tibet predates the India-Asia collision and plateau uplift. Geology, 39: 983-986.

99  Pullen, A., Kapp, P., DeCelles, P. G., Gehrels, G. E., Ding, L. 2011. Cenozoic anatexis and exhumation of Tethyan Sequence rocks in the Xiao Curia Range, Southwest Tibet. Tectonophysics, 501: 28-40.

98  Pullen, A., Kapp, P., McCallister, A. T., Chang, H., Gehrels, G. E., Garzione, C. N., Heermance, R. V., Ding, L. 2011. Qaidam Basin and northern Tibetan Plateau as dust sources for the Chinese Loess Plateau and paleoclimatic implications. Geology, 39: 1031-1034.

97   樊帅权, 史仁灯, 丁林, 张国凯. 2011. 碎屑锆石对班公湖地区晚侏罗世—早白垩世沉积物源的制约. 地质科学, 46(3) (2011), 847-864.

96   陆诗阔, 丁林, 刘金朝. 2011. GPS资料对青藏高原现今下地壳粘性特征的约束. 地学前缘, 18(3) (2011), 22-32.

95  Cai, F., Ding, L*., Yue, Y. 2011. Provenance analysis of upper Cretaceous strata in the Tethys Himalaya, southern Tibet: Implications for timing of India-Asia collision. Earth And Planetary Science Letters, 305 (1-2): 195-206.

94  Pullen, A., Kapp, P., Gehrels, G. E., Ding, L., Zhang, Q. 2011. Metamorphic rocks in central Tibet: Lateral variations and implications for crustal structure. Geological Society Of America Bulletin, 123: 585-600.

93  Wendler, I., Willems, H., Graefe, K., Ding, L., Luo, H. 2011. Upper Cretaceous inter-hemispheric correlation between the Southern Tethys and the Boreal: chemo- and biostratigraphy and paleoclimatic reconstructions from a new section in the Tethys Himalaya, S-Tibet. Newsletters On Stratigraphy, 44: 137-171.

92  Antolin, B., Appel, E., Gloaguen, R., Dunkl, I., Ding, L., Montomoli, C., Liebke, U., Xu, Q. 2010. Paleomagnetic evidence for clockwise rotation and tilting in the eastern Tethyan Himalaya (SE Tibet): Implications for the Miocene tectonic evolution of the NE Himalaya. Tectonophysics, 493: 172-186.

91  Kong, P., Ding, L., Lai, Q., Huang, F. 2010. Cosmogenic 21Ne concentrations and exposure ages of summit bedrocks in the Grove Mountains, Antarctica. Science China-Earth Sciences, 53 (4): 518-521.(孔屏,丁林,来庆州,黄费新.南极格罗夫山地表岩石样品中宇宙成因(21)Ne的含量及暴露年龄.中国科学:地球科学, 2010,(01):45-49.)

90  Kong, P., Huang, F., Liu, X., Fink, D., Ding, L., Lai, Q. 2010. Late Miocene ice sheet elevation in the Grove Mountains, East Antarctica, inferred from cosmogenic Ne-21-Be-10-Al-26. Global And Planetary Change, 72: 50-54.

89  Liebke, U., Appel, E., Ding, L., Neumann, U., Antolin, B., Xu, Q. 2010. Position of the Lhasa terrane prior to India-Asia collision derived from palaeomagnetic inclinations of 53 Ma old dykes of the Linzhou Basin: constraints on the age of collision and post-collisional shortening within the Tibetan Plateau. Geophysical Journal International, 182: 1199-1215.

88  Sanchez, V. I., Murphy, M. A., Dupre, W. R., Ding, L., Zhang, R. 2010. Structural evolution of the Neogene Gar Basin, western Tibet: Implications for releasing bend development and drainage patterns. Geological Society Of America Bulletin, 122: 926-945.

87  Strobl, M., Hetzel, R., Ding, L., Zhang, L., Hampel, A. 2010. Preservation of a large-scale bedrock peneplain suggests long-term landscape stability in southern Tibet. Zeitschrift Fur Geomorphologie, 54: 453-466.

86  Zhang, X., Shi, R., Huang, Q., Liu, D., Cidan, S., Yang, J., Ding, L. 2010. Finding of high-pressure mafic granulites in the Amdo basement, central Tibet. Chinese Science Bulletin, 55: 3694-3702.

85  Zhao, J., Yuan, X., Liu, H., Kumar, P., Pei, S., Kind, R., Zhang, Z., Teng, J., Ding, L., Gao, X., Xu, Q., Wang, W. 2010. The boundary between the Indian and Asian tectonic plates below Tibet. Proceedings of The National Academy of Sciences of The United States of America, 107: 11229-11233.

84  樊帅权, 史仁灯, 丁林, 刘德亮, 黄启帅, 王厚起. 2010. 西藏改则蛇绿岩中斜长花岗岩地球化学特征、锆石U-Pb年龄及构造意义. 岩石矿物学杂志, 29(5): 467-478.

83  Liu-Zeng, J., Zhang, Z., Wen, L., Tapponnier, P., Sun, J., Xing, X., Hu, G., Xu, Q., Zeng, L., Ding, L., Ji, C., Hudnut, K. W., van der Woerd, J. 2009. Co-seismic ruptures of the 12 May 2008, M-s 8.0 Wenchuan earthquake, Sichuan: East-west crustal shortening on oblique, parallel thrusts along the eastern edge of Tibet. Earth And Planetary Science Letters, 286: 355-370.

82  Murphy, M. A., Saylor, J. E., Ding, L. 2009. Late Miocene topographic inversion in southwest Tibet based on integrated paleoelevation reconstructions and structural history. Earth and Planetary Science Letters, 282: 1-9.

81  Sassier, C., Leloup, P. H., Rubatto, D., Galland, O., Yue, Y., Ding, L. 2009. Direct measurement of strain rates in ductile shear zones: A new method based on syntectonic dikes. Journal of Geophysical Research-Solid Earth, 114: B01406. DOI: 10.1029/2008JB005597.

80  Saylor, J. E., Quade, J., Dellman, D. L., DeCelles, P. G., Kapp, P. A., Ding, L. 2009. The Late Miocene Through Present Paleoelevation History Of Southwestern Tibet. American Journal of Science. 309: 1-42.

79  Xu, Q., Ding, L*., Zhang, L., Yang, D., Cai, F., Lai, Q., Liu, J., Shi, R. 2010. Stable isotopes of modern herbivore tooth enamel in the Tibetan Plateau: Implications for paleoelevation reconstructions. Chinese Science Bulletin, 55 (1): 45-54. (许强,丁林,张利云,杨迪,蔡福龙,来庆洲,刘静,史仁灯.2009. 青藏高原现代食草动物牙齿珐琅质稳定同位素特征及古高度重建意义.科学通报, 15:2160-2168.)

78  丁林, 蔡福龙, 张清海, 张利云, 许强, 杨迪, 刘德亮, 钟大赉. 2009. 冈底斯-喜马拉雅碰撞造山带前陆盆地系统及构造演化. 地质科学, 44(4), 1289-1311.

77  丁林, 许强, 张利云, 杨迪, 来庆洲, 黄费新, 史仁灯. 2009. 青藏高原河流氧同位素区域变化特征与高度预测模型建立. 第四纪研究, 29(1): 1-12.

76   江东辉, 刘嘉麒, 郭正府, 丁林. 2009. 藏北可可西里中新世钾质火山岩矿物化学及温压计算. 地质科学, 44(3): 1001-1011.

75   刘静, 曾令森, 丁林, Tapponnier P, Gaudemer Y, 文力, 谢克家. 2009.青藏高原东南缘构造地貌、活动构造和下地壳流动假说. 地质科学, 44(4): 1227-1255.

74   徐晓霞, 丁林, 许强, 蔡福龙, 张清海, 张利云, 来庆洲. 2009. 藏东南超镁铁质岩墙及其地质意义. 地质科学, 44(3) : 1012-1024.

73  Aikman, A. B., Harrison, T. M., Ding, L. 2008. Evidence for Early (> 44 Ma) Himalayan Crustal Thickening, Tethyan Himalaya, southeastern Tibet. Earth and Planetary Science Letters, 274: 14-23.

72   蔡福龙,丁林,张清海,徐晓霞,岳雅慧,张利云,许强. 2008. 雅鲁藏布江周缘前陆盆地物源分析及构造演化,岩石学报, 24(3), 430-446.

71  Jiang, D., Liu, J., Ding, L. 2008. Geochemistry and petrogenesis of Cenozoic potassic volcanic rocks in the Hoh Xil area, northern Tibet plateau. Acta Petrologica Sinica, 24 (2): 279-290. (江东辉,刘嘉麒,丁林.2008. 青藏高原北部可可西里地区新生代钾质火山岩地球化学特征及成因.岩石学报, 02:279-290.)

70  Kapp, P., Taylor, M., Stockli, D., Ding, L. 2008. Development of active low-angle normal fault systems during orogenic collapse: Insight from Tibet. Geology, 36 (1): 7-10.

69  Liu-Zeng, J., Tapponnier, P., Gaudemer, Y., Ding, L. 2008. Quantifying landscape differences across the Tibetan plateau: Implications for topographic relief evolution. Journal of Geophysical Research-Earth Surface. 113: F04018. DOI: 10.1029/2007JF000897.

68  Pullen, A., Kapp, P., Gehrels, G. E., DeCelles, P. G., Brown, E. H., Fabijanic, J. M., Ding, L. 2008. Gangdese retroarc thrust belt and foreland basin deposits in the Damxung area, southern Tibet. Journal of Asian Earth Sciences, 33: 323-336.

67  Pullen, A., Kapp, P., Gehrels, G. E., Vervoort, J. D., Ding, L. 2008. Triassic continental subduction in central Tibet and Mediterranean-style closure of the Paleo-Tethys Ocean. Geology, 36 (5): 351-354.

66  Yang, T., Hyodo, M., Yang, Z., Ding, L., Li, H., Fu, J., Wang, S., Wang, H., Mishima, T. 2008. Latest Olduvai short-lived reversal episodes recorded in Chinese loess. Journal of Geophysical Research-Solid Earth, 113: B05103. DOI: 10.1029/2007JB005264.

65   刘静, 张智慧, 文力, 孙杰, 邢秀臣, 胡古月, 许强, Paul TAPPONNIER, 曾令森, 丁林, 刘延乐. 2008. 汶川8级大地震同震破裂的特殊性及构造意义——多条平行断裂同时活动的反序型逆冲地震事件. 地质学报, 82(12): 1707-1722.

64  DeCelles, P. G., Kapp, P., Ding, L., Gehrels, G. E. 2007. Late Cretaceous to middle Tertiary basin evolution in the central Tibetan Plateau: Changing environments in response to tectonic partitioning, aridification, and regional elevation gain. Geological Society of America Bulletin, 119 (5-6): 654-680.

63  DeCelles, P. G., Quade, J., Kapp, P., Fan, M., Dettman, D. L., Ding, L. 2007. High and dry in central Tibet during the Late Oligocene. Earth and Planetary Science Letters, 253 (3-4): 389-401.

62  Ding, L., Kapp, P., Yue, Y., Lai, Q. 2007. Postcollisional calc-alkaline lavas and xenoliths from the southern Qiangtang terrane, central Tibet. Earth and Planetary Science Letters, 254 (1-2): 28-38.

61  Kapp, P., DeCelles, P. G., Gehrels, G. E., Heizier, M., Ding, L. 2007. Geological records of the Lhasa-Qiangtang and Indo-Asian collisions in the Nima area of central Tibet. Geological Society of America Bulletin, 119 (7-8): 917-932.

60  Kong, P., Na, C., Fink, D., Ding, L., Huang, F. 2007. Erosion in northwest Tibet from in-situ-produced cosmogenic Be-10 and Al-26 in bedrock. Earth Surface Processes and Landforms, 32 (1): 116-125.

59  Kong, P., Na, C., Fink, D., Huang, F., Ding, L. 2007. Cosmogenic Be-10 inferred lake-level changes in Sumxi Co Basin, Western Tibet. Journal of Asian Earth Sciences, 29 (5-6): 698-703.

58  Lai Q., Ding, L*., Wang, H., Yue, Y., Cai, F. 2007. Constraining the stepwise migration of the eastern Tibetan Plateau margin by apatite fission track thermochronology. Science in China Series D-Earth Sciences, 50 (2): 172-183. (来庆洲,丁林,王宏伟,岳雅慧,蔡福龙.2006.青藏高原东部边界扩展过程的磷灰石裂变径迹热历史制约.中国科学.D:地球科学, 09:785-796.)

57  Leier, A. L., DeCelles, P. G., Kapp, P., Ding, L. 2007. The takena formation of the Lhasa terrane, southern Tibet: The record of a Late Cretaceous retroarc foreland basin. Geological Society of America Bulletin, 119 (1-2): 31-48.

56  Yang, T., Hyodo, M., Yang, Z., Ding, L., Fu, J., Mishima, T. 2007. Early and middle Matuyama geomagnetic excursions recorded in the Chinese loess-paleosol sediments. Earth Planets and Space, 59 (7): 825-840.

55   张海军, 王训练, 丁林, 夏国英, 王雷, 王清山. 2007. 冰川型海平面变化控制下的台地碳酸盐岩成岩作用:以陕西镇安西口石炭-二叠系界线剖面为例. 地球科学, 32(3), 329-338.

54   Bian, Q.T, Ding, L. 2006. Discovery of the Zhegucuo Au (As)-bearing fine granular quartz diorite in the eastern Tethyan Himalayan Belt and its significance. Acta Petrologica Sinica, 22 (4) (2006): 977-988. (边千韬,丁林.特提斯喜马拉雅带东段哲古错含金()细粒石英闪长岩的发现及其意义.岩石学报,2006,(04):977-988.)

53  Guynn, J.H., Kapp, P., Pullen, A., Heizier, M., Gehrels, G., Ding, L. 2006. Tibetan basement rocks near Amdo reveal "missing" Mesozoic tectonism along the Bangong suture, central Tibet. Geology, 34 (6): 505-508.

52  Yue, Y.H, Ding, L. 2006. Ar-40/Ar-39 Geochronology, geochemical characteristics and genesis of the Linzhou basic dikes, Tibet. Acta Petrologica Sinica, 22 (4) (2006): 855-866. (岳雅慧,丁林.西藏林周基性岩脉的(40)Ar/(39)Ar年代学、地球化学及其成因.岩石学报,2006,(04):855-866.)

51  Zhang, H., Ding, L., Wang, X., Wang, L., Wang, Q., Xia, G. 2006. Carbonate diagenesis controlled by glacioeustatic sea-level changires: A case study from the carboni ferous-permian boundary section at Xikou, China. Journal of China University of Geosciences, 17 (2): 103-114.

50  Zhang, H., Wang, X., Ding, L., Xia, G., Wang, L. 2006. The species diversity of fusulinaceans and high-frequency sea-level changes in the Carboniferous-Permian boundary section at Xikou, Zhen'an County, Shaanxi Province, China. Science in China Series D-Earth Sciences, 49 (7): 673-683.

49  丁林, 岳雅慧, 蔡福龙, 徐晓霞, 张清海, 来庆洲. 2006. 藏拉萨地块高镁超钾质火山岩及对南北向裂谷形成时间和切割深度的制约. 地质学报, 80(9) : 1252-1261.

48  侯增谦, 莫宣学, 高永丰, 杨志明, 董国臣, 丁林. 2006. 印度大陆与亚洲大陆早期碰撞过程与动力学模——来自西藏冈底斯新生代火成岩证据. 地质学报, 80(9), 1233-1248.

47   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:.晚碰撞转换成矿作用. 矿床地质, 25(5): 521-543.

46   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:.主碰撞造山成矿作用. 矿床地质, 25(4), 337-358.

45   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.

44   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.

43  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.

42  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.

41  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.

40  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.

39  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:地球科学), 04:373-383.)

38   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.

37   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.

36  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:地球科学), 01:47-58.)

35  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.

34  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.)

33  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.

32  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.

31 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.

30   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.

29  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.)

28 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.

27   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.

26   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.

25   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.

24  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.)

23  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.

22   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.

21   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.

20   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.

19  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.)

18  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.

17  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.

16  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.

15  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.

14   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.

13   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.

12   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.

11   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.

10   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.

9    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.

8    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.

7    Ji, J., Zhong, D., Ding, L., and Han, X. 1998. Study on Metamorphism of Granulite-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. )

6    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.

5   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), 01:93-100.)

4    Zhong, D.L., Ding, L. 1996. Discovery of high-pressure basic granulite in Namjagbarwa area, Tibet, China. Chinese Science Bulletin, 41 (1): 87-88.

3   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.

2    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.

1    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.