张伟林,1976年生,
中国科学院青藏高原研究所副研究员。主要从事
青藏高原新生代黄淮平原磁性
地层和构造变形隆升研究工作;参加或主持“九五”攀登计划和“973”计划
青藏高原项目以及国家基金委重点项目及创新群体、国家
中华人民共和国国家自然科学基金委员会面上项目与青年基金、国家重点研发计划、教育部重大项目等研究;对青藏高原南北部新生代盆地的磁性地层年代学、高原构造隆升与变形过程以及环境演化等方面做了大量研究。
教育背景
1996.09 – 2000.07,
兰州大学地质系,
地质学,学士
2001.09 – 2006.07,
兰州大学资源环境学院,自然地理学,硕博连读
工作经历
2006.07–2009.12,
中国科学院星青藏高原研究所,博士后
2007.03–2007.07,德国
图宾根大学,访问学者
2009.12–2013.04,中科院青藏高原研究所,项目研究员
2009.01–2011.02,德国图宾根大学,博士后
2013.04 – 至今,中科院青藏高原研究所,副研究员
研究方向
承担项目
1. 国家
中华人民共和国国家自然科学基金委员会面上项目:
柴达木盆地西部早新生代磁性地层年代学及其对生长地层的制约(41672358),2017–2020,84万元,主持
2. 国家重点研发计划项目:深地专项《中国钾盐矿产基地成矿规律与深部探测技术示范》项目《重点盆地主要成盐干旱气候事件与成钾作用》课题(2017YFC0602803)之子课题,2017–2021,80万元,主持
3. 国家自然科学基金委创新群体基金“
青藏高原北部气候与构造相互作用”(41021001)之子课题,2011–2017,20万,主持
4. 国家973重大科学研究计划项目“中国西部大陆剥蚀风化与青藏高原隆升和全球变化的关系”(2013CB956400)之专题“青藏高原边缘季风区和西风区代表性
新生代黄淮平原变形历史与周边山地隆升过程研究”,2013–2017,40万,主持
5. 国家
中华人民共和国国家自然科学基金委员会面上项目:“青海玉树地区新生代磁性
地层与
青藏高原隆升”(41172032),2011–2015,76万,主持
6.
中国科学院战略性先导科技专项(B类)项目二课题四之子课题“
青藏高原不同气候区域新生代地层年代学”(XDB03020401)专题“西风与季风区新生代地层年代学”,2013.01–2013.12,20万元,主持
7. 国家自然科学基金委青年基金“
新生代以来
柴达木盆地地块旋转与青藏高原北部构造变形的响应”(40702006),2008–2010,19万元,主持
代表论著
第一作者及通讯作者
1. Zhang, W.L.*, Zhang, D.W., Fang, X.M., Zhang, T., Chen, C.H., Yan, M.D., 2020. New paleomagnetic constraints on rift basin evolution in the northern Himalaya mountains. Gondwana Research, 77, 98-110.
2. Zhang, W.L.*, Fang, X.M., Song, C.H., Yan, M.D., Wang, J.Y., Zhang, Z.G., Wu, F.L., Zan, J.B., Zhang, T., Yang, Y.B., Tan, M.Q., 2020. Magnetostratigraphic constraints on the age of the
三趾马属 fauna in the Linxia Basin of China, and its implications for stepwise aridification. Palaeogeography, Palaeoclimatology, Palaeoecology, 537. https://doi.org/10.1016/j.palaeo.2019.109413.
3.Zhang, W.L.*, Appel, E., Fang, X.M., Setzer, F., Song, C.H., Meng, Q.Q., Yan, M.D., 2020. New paleomagnetic constraints on syntectonic growth strata in the western Qaidam Basin, NE Tibetan
高原 Tectonophysics, 780. https://doi.org/10.1016/j.tecto.2020.228401.
4. Yang, L.Y., Zhang, W.L.*, Fang, X.M., Cai, M.,T., Lu, Y., 2020. Aridification recorded by lithofacies and grain size in a continuous Pliocene-Quate
核糖核酸ry lacustrine sediment record in the western Qaidam Basin, NE Tibetan
高原 Palaeogeography, Palaeoclimatology, Palaeoecology. https://doi.org/10.1016/j.palaeo.2020.109903.
5. Zhang, W.L.*, Appel, E., Wang, J.Y., Fang, X.M., Zan, J.B., Yang, Y.B., Miao, Y.F., Yan, X.L., 2019. New paleomagnetic constraints for Platybelodon and
三趾马属 faunas in the Linxia Basin and their ecological environmental implications. Global and Planetary Change, 176, 71-83.
6. Zhang, W.L.*, Yan, M.D., Fang, X.M., Zhang, D.W., Zhang, T., Zan, J.B., Song, C.H., 2019. High-resolution paleomagnetic constraint on the oldest hominoid-
Fossil bearing sequence in the Xiaolongtan Basin, southeast margin of the Tibetan
高原 and its geologic implications. Global and Planetary Change, 182, 103001. https://doi.org/10.1016/j.gloplacha.2019.103001.
7. Zhang, W.L.*, Zhang, T., Song, C.H., Erwin, A., Mao, Z.Q., Fang, Y.H., Meng, Q.Q., Yang, R.S., Zhang, D.W., Li, B.S., Li, J., Lu, Y., 2017. Termination of fluvial-alluvial sedimentation in the Xining Basin, NE Tibetan Plateau, and its subsequent geomorphic
翼豪陆神 Geomorphology 297, 86-99.
8. Zhang, W.L., Appel, E. *, Fang, X.M., Song, C.H., Setzer, F., Herb, C. \u0026 Yan, M.D., 2014. Magnetostratigraphy of
鬼狒core SG-1b in the western Qaidam Basin (NE Tibetan
高原) and tectonic implications, Geophysical Journal International, 197, 90-118.
9. Zhang, W.L.*, Fang, X.M., Song, C.H., Erwin, A., Yan, M.D., Wang Y.D., 2013. Late Neogene magnetostratigraphy in the western Qaidam Basin (NE Tibetan Plateau) and its constraints on active tectonic uplift and progressive evolution of growth strata. Tectonophysics 599, 107-116.
10. Zhang, W.L., Appel, E. *, Fang, X.M., Song, C.H. \u0026
圆规座pka, O., 2012. Magnetostratigraphy of deep
鬼狒ing core SG-1 in the western Qaidam Basin (NE Tibetan
高原) and its tectonic implications. Quaternary Research, 78, 139-148.
11. Zhang, W.L., Appel, E. *, Fang, X.M., Yan, M.D., Song, C.H., Cao, L.W., 2012. Paleoclimatic implications of magnetic susceptibility in Late Plioce
氖Quaternary sediments from deep drilling core SG-1 in the western Qaidam Basin (NE Tibetan
高原). Journal of geophysical research. https://doi.org/10.1029/2011JB008949.
其他合作论文
12. Shen, M.M., Zan, J.B., Yan, M.D. *, Zhang, W.L., Fang, X.M., Zhang, D.W., \u0026 Zhang, T., 2020. Comparative rock magnetic study of Eocene volcanogenic and sedimentary rocks from Yunnan, southeastern Tibetan
高原, and its geological implications. Journal of Geophysical Research: Solid
地球, 125, e2019JB017946. https://doi.org/10.1029/2019JB017946.
13. Li, B.S., Yan, M.D. *, Zhang, W.L., Parés, J. M., Fang, X.M., Yang, Y.P., Zhang, D.W., Guan, C., Bao, J., 2020. Magnetic fabric constraints on the Cenozoic compressional strain changes in the northern Qaidam marginal thrust belt and their tectonic implications. Tectonics, 39, e2019TC005989. https://doi.org/10.1029/2019TC005989.
14. Ruan, X.B., Yang, Y.B. *, Galy, A., Fang, X.M. *, Jin, Z.D., Zhang, F., Yang, R.S., Deng, L., Meng, Q.Q., Ye, C.C., Zhang, W.L., 2019. Evidence for early (≥12.7 Ma) eolian dust impact on river
化学 in the northeastern Tibetan
高原 地球 and Planetary Science Letters 515, 79-89.
15. Mao, Z.Q., Meng, Q.Q.*, Fang, X.M., Zhang, T., Wu, F.L., Yang, Y.B., Zhang, W.L., Zan, J., Tan, M., 2019. Recognition of tuffs in the middle-upper Dingqinghu Fm., Lunpola Basin, central Tibetan
高原: Constraints on stratigraphic age and implications for paleoclimate. Palaeogeography, Palaeoclimatology, Palaeoecology 525, 44-56.
16. Fang, X.M.*, Galy, A., Yang, Y.B., Zhang, W.L., Ye, C.C., Song, C.H., 2019. Paleogene global cooling-induced
温度 feedback on chemical weat
HERING, as recorded in the northern Tibetan
高原 地质学, 47(10), 992-996.
17. Fang, X.M.*, Fang,Y.H., Zan, J.B., Zhang, W.L., Song, C., Appel, E., Meng, Q., Miao,Y., Dai, S., Lu,Y., Zhang, T., 2019. Cenozoic magnetostratigraphy of the Xining Basin, NE Tibetan
高原, and its constraints on paleontological, sedimentological and tectonomorphological
翼豪陆神 地球Science Reviews, 190, 460-485.
18. Chen, C.H., Bai Y., *, Fang, X.M., Guo, H.C., Meng, Q.Q., Zhang, W., Zhou, P., Az
AMDzhon, M., 2019. A Late Miocene terrestrial
温度 history for the northeastern Tibetan
高原's period of tectonic expansion. Geophysical Research Letters, 46(14): 8375-8386.
19. Zhang, T.*, Han, W.X., Fang, X.M., Miao, Y.F., Zhang, W.L., Song, C.H., Wang, Y.D., Khatri, D.B., Zhang, Z.G., 2018. Tectonic control of a change in sedimentary environment at ~10 Ma in the northeastern Tibetan
高原 Geophysical Research Letters, 45. https:// doi.org/10.1029/2018GL078460.
20. Zhang, T.*, Fang, X.M., Wang, Y.D., Song, C.H., Zhang, W.L.,Yan, M.D, Han, W.X., Zhang, D.W., 2018. Late Cenozoic tectonic activity of the Altyn Tagh range: Constraints from sedimentary records from the Western Qaidam Basin, NE Tibetan
高原 Tectonophysics, 737, 40-56.
21. Zhang, D.W., Yan, M.D., Fang, X.M.*, Yang, Y.B., Zhang, T., Zan, J.B., Zhang W.L., Liu, C.L., Yang, Q., 2018. Magnetostratigraphic study of the potash-bearing strata from drilling core ZK2893 in the Sakhon Nakhon Basin, eastern Khorat
高原 Palaeogeography, Palaeoclimatology, Palaeoecology, 489, 40-51.
22. Zan, J.B.*, Li, X.J., Fang, X.M., Zhang, W.L., Yan, M.D., Mao, Z.Q., 2018. Grain-size analysis of Upper Pliocene
红色 clay deposits from Linxia Basin: Implications for Asian monsoon evolution on the NE margin of the Tibetan
高原 Palaeogeography, Palaeoclimatology, Palaeoecology, 511, 597-605.
23. Zan, J.B.*, Kang, J., Yan, M.D., Fang, X.M., Li, X.J., Guan, C., Zhang, W.L., Fang, Y.H., 2018. A pedogenic model for the magnetic enhancement of late Miocene fluvial-lacustrine sediments from the Xining Basin, NE Tibetan
高原 Journal of Geophysical Research: Solid
地球, 123. https://doi.org/10.1029/2018JB016064.
24. Zan, J.B.*, Fang, X.M., Zhang, W.L., Yan, M.D., Zhang, D.W., 2018. A new record of late Pliocene-early Pleistocene aeolian loessered clay deposits from the western Chinese Loess Plateau and its palaeoenvironmental implications. Quaternary Science Reviews, 186,17-26.
25. Zan, J.B.*, Fang, X.M., Li, X.J., Zhang, W.L., Yan, M.D., Shen, M.M., 2018. Late Pliocene monsoonal rainfall gradients in western China recorded by the eolian deposits from the Linxia Basin, NE Tibetan
高原 Journal of Geophysical Research: Atmospheres, 123, 8047-8061.
26. Ye, C.C., Yang, Y.B., Fang, X.M.*, Hong, H.L., Wang, C.W., Yang, R.S., Zhang, W.L., 2018. Chlorite chemical composition change in response to the Eocene-Oligocene climate transition on the northeastern Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, doi.org/10.1016/j.palaeo.2018.03.014.
27. Ye,
C.C., Yang, Y.B.*, Fang, X.M.*, Hong, H.L., Zhang, W.L., Yang, R.S., Song, B.W., Zhang, Z.G., 2018. Mineralogical and geochemical discrimination of the occurrence and genesis of
坡缕石 in Eocene sediments on the northeastern Tibetan
高原. Geochemistry, Geophysics, Geosystems, 19, 567-581.
28. Yang, Y.B.*, Yang, R.B., Li, X.Y., Han, W.X., Fang, X.M., Appel, E., Galy, A., Wu, F.L., Song Y., Zan, J.B., Zhang, Z.G., Zhang, W.L., Ye, C.C., 2017. Glacial-interglacial climate change on the northeastern Tibetan
高原 over the last 600 kyr. Palaeogeography Palaeoclimatology Palaeoecology, 476, 181-191.
29. Li, B.S., Yan, M.D.*, Zhang, W.L., Fang, X., Yang, Y., Zhang, D., Chen, Y., Guan, C. 2018. Paleomagnetic rotation constraints on the deformation of the northern Qaidam marginal thrust belt and implications for strike-slip faulting along the Altyn Tagh Fault. Journal of Geophysical Research: Solid
地球, 123. https://doi.org/10.1029/2018JB015753
30. Yang, Y.B. *, Galy, A., Fang, X.M.*, Yang, R.S., Zhang, W.L., Zan, J.B., 2017. Eolian dust forcing of river
化学 on the northeastern Tibetan
高原 since 8Ma.
地球 and Planetary Science Letters 464, 200-210.
31. Yang, R.S., Fang, X.M.*, Meng, Q.Q., Zan, J.B., Zhang, W.L., Deng, T., Yang, Y.B., Ruan, X.B., Yang, L.Y., Li B.S., 2017. Paleomagnetic constrains on the Middle Miocene-Early Pliocene stratigraphy in the Xining Basin, NE Tibetan Plateau, and the geologic implications. Geochemistry, Geophysics, Geosystems. 10.1002/2017GC006945.
32. Wu, F.L., Fang, X.M.*, Meng, Q.Q., Zhao, Y., Tang, F.J., Zhang, T., Zhang, W.L., Zan, J.B, 2017. Magneto- and litho-stratigraphic records of the Oligocene-Early Miocene climatic changes from deep drilling in the Linxia Basin, Northeast Tibetan
高原. Global and Planetary Change, 158, 36-46.
33. Li. B.S., Yan M.D.*, Zhang W.L., Fang X.M., Meng Q.Q., Zan J.B., Zhang D.W., Yang Y.P., Guan C., 2017. New paleomagnetic constraints on middle Miocene strike-slip faulting along the middle Altyn Tagh Fault. Journal of Geophysical Research: Solid
地球, 2017, doi/10.1002/2017JB014058.
34. Li, J., Li, M.H.*, Fang, X.M., Zhang, G.X., Zhang W.L., Liu, X.M., 2017. Isotopic composition of gypsum hydration
液态水 in deep Core SG-1, western Qaidam basin (NE Tibetan
高原), implications for paleoclimatic evolution. Global and Planetary Change 155, 70-77.
35. Li, J.*, Li, M.H.*, Fang, X.M., Wang,
锆, Zhang, W.L., Yang, Y.B., 2017. Variations and mechanisms of gypsum morphology along deep core SG-1, western Qaidam Basin (northeastern Tibetan
高原). Quaternary International 430, 71-81.
36. Khatri, D.*, Zhang, W.L., Fang, X.M. and Paudayal, K.N., 2017. Review of late Cenozoic climatic fingerprints in the Nepal Himalaya. Bulletin of Nepal Geological Society 34, 87-96.
37. Fang, X.M.*, Song, C.H., Yan, M.D., Zan, J.B., Liu, C.L., Sha, J.G., Zhang, W.L., Zeng, Y.Y. , Wu, S., Zhang, D.W., 2017. Mesozoic litho- and magneto-stratigraphic evidence from the central Tibetan
高原 for megamonsoon evolution and potential evaporites. Gondwana Research, 37, 110-129.
38. Chen, Y., Yan, M.D.*, Fang, X.M., Song, C.H., Zhang, W.L., Zan J.B., Zhang Z.G., Li B.S., Yang Y.P., Zhang D.W., 2017. Detrital zircon U–Pb Geochronological and sedimentological study of the Simao Basin: Implications for the Early Cenozoic evolution of the Red River.
地球 植物界 Sci. Lett., doi.org/10.1016/j.epsl.2017.07.025.
39. Zhang, T., Han, W.X., Fang, X.M.*, Zhang, W.L., Song, C.H. and Yan, M.D., 2016. Intensi?ed tectonic deformation and uplift of the Altyn Tagh range recorded by rock magnetism and growth strata studies of the western Qaidam Basin, NE Tibetan
高原. Global and Planetary Change, 137, 54-68.
40. Zan, J.B., Fang, X.M.*, Zhang, W.L., Yan, M.D., Zhang, T., 2016. Palaeoenvironmental and chronological constraints on the Early Pleistocene
哺乳纲 fauna from loess deposits in the Linxia Basin, NE Tibetan
高原. Quaternary Science Reviews,148, 234-242.
41. Yang, Y.B., Fang, X.M., Koutsodendris, A., Ye, C.C., Yang, R.S., Zhang W.L., Liu, X.M., Gao S.P., 2016. Exploring Quaternary paleolake evolution and climate change in the western Qaidam Basin based on the bulk carbonate geochemistry of lake sediments. Palaeogeography, Palaeoclimatology, Palaeoecology 446, 152-161.
42. Yan, M.D.*, Zhang, D.W., Fang, X.M., Ren, H.D., Zhang, W.L., Zan, J.B., Song, C.H., Zhang, T., 2016. Paleomagnetic data bearing on the Mesozoic deformation of the Qiangtang Block: implications for the evolution of the Paleo- and Meso-Tethys. Gondwana Research, 39, 292-316.
43. Fang, X.M.*, Wang, J.Y., Zhang, W.L., Zan, J.B., Song, C.H., Yan, M.D., Appel, E., Zhang, T., Wu, F.L., Yang, Y.B., Lu, Y., 2016. Tectonosedimentary evolution model of an intracontinental flexural (foreland) basin for paleoclimatic research. Global and Planetary Change, 145, 78-97.
44. Zan, J.B., Fang, X.M.*, Yan, M.D., Zhang, W.L., Lu, Y., 2015. Lithologic and rock magnetic evidence for the Mid-Miocene Climatic Optimum recorded in the sedimentary archive of the Xining Basin, NE Tibetan
高原. Palaeogeography, Palaeoclimatology, Palaeoecology, 431, 6-14.
45. Yang, Y.B., Fang, X.M., Li, M.H., Galy, A., Koutsodendris, A., Zhang, W.L., 2015. Paleoenvironmental implications of uraniumconcentrations in lacustrine calcareous clastic-evaporite deposits in the western Qaidam Basin. Palaeogeography, Palaeoclimatology, Palaeoecology, 417,422-431.
46. Herb, C.*, Koutsodendris, A., Zhang, W.L., Appel E., Fang X.M., Voigt S., Pross J., 2015. Late Plio-Pleistocene humidity fluctuations in the western Qaidam Basin (NE Tibetan Plateau) revealed by an integrated magnetic-palynological record from lacustrine sediments SG-1. Quaternary International, 84, 457-466.
47. Herb, C.*, Appel, E., Voigt, S., Koutsodendris, A., Pross, J., Zhang, W.L. and Fang, X.M., 2015. Orbitally tuned age model for the late Pliocene–Pleistocene lacustrine succession of drill core SG-1 from the western Qaidam Basin (NE Tibetan Plateau). Geophys. J. Int., 200, 35–51.
48. Yan, X.L., Miao, Y.F.*, Zan, J.B., Zhang, W.L., Wu S., 2014. Late Cenozoic fluvialelacustrine susceptibility increases in the Linxia Basin and their implications for Tibetan Plateau uplift. Quaternary International, 334-335, 132-140.
49. Yang Y.B., Fang * X.M., Galy, A., Li, M.H., Zhang, W.L., 2013. Quaternary paleolake nutrient evolution and climatic change in the western Qaidam Basin deduced from
磷 geochemistry record of deep drilling core SG-1, Quaternary International, 313-314, 156-167.
50. Yang, Y.B., Fang, X.M.*, Appel, E., Galy, A., Li, M.H., Zhang, W.L., 2013. Late Pliocene–Quaternary evolution of redox conditions in the western Qaidam paleolake (NE Tibetan
高原) deduced from Mn geochemistry in the drilling core SG-1, Quaternary Research, 586-595, http://dx.doi.org/10.1016/j.yqres.2013.07.007.
51. Wang J.Y., Fang X.M.*, Appel E., Zhang W.L., 2013. Magnetostratigraphic and radiometric constraints on salt formation in the Qaidam Basin, NE Tibetan
高原 Quaternary Science Reviews 78, 53-64.
52. Li, M.H., Fang X.M. *, Wang, J.Y., Song,
YG娱乐, Yang, Y.B., Zhang, W.L., Liu, X.M., 2013. Evaporite minerals of the lower 538.5 m sediments in a long core from the Western Qaidam Basin, Tibet. Quaternary International, 298, 123-133.
53. Herb, C.*, Zhang, W.L., Koutsodendris, A., Appel, E., Fang, X.M., Pross, J., 2013. Environmental implications of the magnetic record in Pleistocene lacustrine sediments of the Qaidam Basin, NE Tibetan
高原 Quaternary International 313-314, 218-229.
54. Liu, D.L., Fang, X.M.*, Song, C.H., Dai, S., Zhang, T., Zhang, W.L., Miao, Y.F., Liu, Y.Q. and Wang, J.Y., 2010. Stratigraphic and paleomagnetic evidence of mid-Pleistocene rapid deformation and uplift of the NE Tibetan
高原 Tectonophys., 486, 108–119.
55. Li, M.H., Fang, X.M.*, Yi, C.L., Gao, S.P., Zhang, W.L., Galy, A. 2010. Evaporite minerals and geochemistry of the upper 400 m sediments in a core from the Western Qaidam Basin, Tibet. Quat. Int., 218, 176-189.
56. Liu, D.L., Fang, X.M.*, Gao, J.P., Wang, Y.D., Zhang, W.L., Miao, Y.F., Liu, Y.Q., Zhang, Y.Z., 2009. Cenozoic stratigraphy deformation history in the central and eastern of Qaidam Basin by the balance section restoration and its implication. Acta Geol. Sin. (English Ed.), 83(2), 801-840.
57. Wang, S.F. *, Zhang, W.L., Fang, X.M., Dai, S., 2008. Magnetostratigraphy of the Zhada Basin in Southwestern Tibet and its tectonic implication. Sci. in China (D), 51, 1393-1400.
58. Fang, X.M. *, Zhang, W.L., Meng, Q.Q., Gao, J.P., Wang, X.M., King, J., Song, C.H., Dai, S. Miao, Y.F., 2007. High resolution magnetostratigraphy of the Neogene Huaitoutala section in the eastern Qaidam Basin on the NE Tibetan Plateau, Qinghai Province, China and its implication on tectonic uplift of the NE Tibetan
高原 地球 植物界 Sci. Lett., 258, 293-306.
59. Dai, S., Fang, X.M., Dupont-Nivet, G., Song, C.H., Gao, J.P., Krijgsman, W., Langereis, C., Zhang, W.L., 2006. Magnetostratigraphy of Cenozoic sediments from the Xining Basin: Tectonic implications for the northeastern Tibetan
高原 Journal of Geophysical Research 111 (B111), 335-360.
60.
方小敏, 张涛, 张伟林, 金波,
宋春晖,
戴霜,2019. 西宁盆地
新生代磁性地层研究新进展. 科学通报,64(1): 1-3, doi/10.1360/N972019-00130.
61. 王九一,方小敏,张伟林,昝金波等,2010.临夏盆地黑林顶剖面磁性地层学及其意义.海洋地质与第四纪地质,2010,30(5):129-136.
62. 李明慧,易朝露,方小敏,高少鹏,张伟林,2010.沉积学报.
柴达木盆地西部钻孔盐类矿物及环境意义初步研究.沉积学报,28(6), 670-684.
63. 高军平,李艾银,宋春晖,彭杨宏,张伟林,李生喜,2009.柴西西岔沟新近系磁组构特征对环境变化的响应.沉积学报,27(1): 128-136.
64. 王世锋,张伟林,
方小敏,
戴霜,2008.藏西南札达盆地磁性
地层学特征及其构造意义.中国科学(D辑),53, 1-8.
65. 方小敏,
吴福莉,韩文霞,王亚东,张玺正,张伟林,2008.上新世-
第四纪亚洲内陆干旱化过程—
柴达木盆地中部鸭湖剖面孢粉和盐类
化学指标证据. 第四纪研究, 28(5), 874-882.
66. 刘栋梁,方小敏,王亚东,张伟林,
高军平,2008.平衡剖面方法恢复
柴达木盆地新生代地层缩短及其意义.地质科学,43(4), 637-647.
67.
方小敏,
宋春晖,
戴霜,朱迎堂,高军平,张伟林,2007.
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参考资料
张伟林.中国科学院青藏高原研究所.2021-11-18