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人才详细信息

姓名:杨一博
性别:
学历:博士
专家类别:研究员/优青
电话:
传真:
电子邮箱:yangyibo@tpestations.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

杨一博,1985年生,中国科学院青藏高原研究所研究员。主要从事青藏高原隆升与大陆风化和碳循环研究。基于青藏高原新生代盆地河湖沉积物,开展 “高原隆升-剥蚀风化-干旱化与风尘循环-全球变化”的关联性研究,在揭示关键时期青藏高原隆升通过驱动亚洲气候环境变化影响全球碳循环和气候方面取得了创新性成果和认识:1)方法上,建立了河湖沉积物中示踪亚洲风尘演化的新指标体系,提出了把粘土矿物定性示踪的硅酸盐风化强度转换为定量CO2消耗的新方法。2)记录上,重建了五千多万年以来高原北部风尘物源变化和东亚季风区硅酸盐风化演化历史,揭示晚渐新世和~8 Ma这两个关键时期亚洲风尘活动和东亚季风区风化均显著加强。3)环境影响和机制认识上,定量计算了晚渐新世和~8 Ma东亚季风增强北进导致的硅酸盐风化和大气CO2消耗通量,提出了干旱区风尘跨区域传输增强湿润区化学风化进而加强碳消耗的新机制,揭示晚渐新世和~8 Ma风尘-风化耦合转型可能加速了大气CO2含量下降并导致全球变冷。以第一或通讯作者在EPSL、GCA和GPL等SCI期刊发表论文30篇。2015年获中国科学院优秀博士学位论文,2018年入选中国科学院青年创新促进会。

教育背景:

2004.09-2008.07,兰州大学资源环境学院地球化学专业,学士 

2008.09- 2014.01,中国科学院青藏高原研究所自然地理学,博士 

工作经历: 

2014.01-2017.09,中国科学院青藏高原研究所,博士后

2015.12-2016.12,法国国家科学研究中心岩石学和地球化学研究中心(CRPG-CNRS),博士后

2017.09-2023.12,中国科学院青藏高原研究所,副研究员

2023.12-今       中国科学院青藏高原研究所,研究员

研究方向

青藏高原隆升的剥蚀风化过程及其气候环境效应

职务

社会任职

承担项目

  1. 国家自然科学基金优秀青年科学基金项目:青藏高原隆升的气候效应(2024.01-2026.12),主持
  2. 国家自然科学基金面上项目:柴达木盆地沉积物Sr-Nd同位素记录的新生代祁连山隆升剥露历史(2022.01-2025.12),主持
  3. 国家自然科学基金面上项目:柴达木盆地西部深钻记录的晚中新世到早更新世的化学风化过程及控制(2018.01-2021.12),主持
  4. 国家自然科学基金青年科学基金项目:柴达木盆地西部千米深钻记录的晚上新世以来化学风化过程(2015.01-2017.12),主持
  5. 博士后科学基金特等资助:柴达木盆地深钻记录的7.3-1.6Ma的化学风化及气候变化(2016.9-2017.9),主持
  6. 博士后科学基金面上一等资助:柴达木盆地西部晚上新世以来的化学风化历史(2014.9-2017.9),主持

获奖及荣誉

代表论著

第一作者及通讯作者:

1. Yan, Z., Yang, R., Yang, Y.*, Liu, Y., Galy, A., Fang, X., 2024. Late Miocene drainage reorganization on the NE Tibetan Plateau linked to growth of the Qilian Shan revealed by coupled carbonate Sr-silicate Nd isotopic tracers. Palaeogeography, Palaeoclimatology, Palaeoecology, 638, 112038.

2. Yang, Y.*, Galy, A., Zhang, J.*, Lambert, F., Zhang, M., Zhang, F., Fang, X., 2023. Dust transport enhanced land surface weatherability in a cooling world. Geochemical Perspective Letters, 2023, 26, 36–39.

3. Yang, Y., Galy, A., Yang, R., Liu, Y., Zhang, W.*, Ruan, X., Fang, X., Jin, Z., Song, B., Yan, M., Zhang, G., Cao, K., Shen, T., Mao, Z., Wu, F., Zhang, F., 2023. Intense metamorphism-generated radiogenic Sr regulated Cenozoic water Sr isotope evolution on the NE Tibetan Plateau: A perspective on Qilian orogen denudation and Asian eolian transport. Geological Society of America Bulletin, 135, 2237–2254.

4. Liu, Y., Yang, Y.*, Yang, R., Galy, A., Jin, Z., Fang, X., Song, B., 2023. Deciphering source-to-sink history from a solute perspective: A Sr isotope approach in the Qaidam Basin, NE Tibet. Gondwana Research, 118, 76–91.

5. Yang, Y.*, Han, W.*, Ye, C., Galy, A., Fang, X., 2022. Trends and transitions in silicate weathering in the Asian interior (NE Tibet) since 53 Ma. Frontiers in Earth Science, 10, 824404.

6. Yang, Y., Fang, X.*, Han, W., Wang, Y., Galy, A., 2022. Terrestrial carbonate oxygen isotopes constraints on the interplay between westerlies and monsoonal rains modulating the Cenozoic climate on the northeastern Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 608, 111289.

7. Ye, C., Yang, Y.*, Fang, X.*, Guo, Z., Zhang, W., Liu, Y., 2022. Evolution of Paleogene weathering intensity in the Qaidam Basin, northeastern Tibetan Plateau: Insights from clay geochemistry. Catena, 213, 106162.

8. Liu, Y., Yang, Y.*, Song, B., Galy, A., Zhang, F., Jin, Z., Zhang, G., Ye, C., Fang, X., 2022. Hydrothermal systems with radiogenic Sr in the North Qaidam ultrahigh-pressure metamorphic belt, NE Tibetan Plateau and implications for regional dissolved Sr budget. Applied Geochemistry, 138, 105214.

9. Huang, H., Liu, Y., Yang, Y.*, Yang, R., Ye, C., Appel, E., Fang, X., Liu, X., 2022. Diverse manifestations of silicate weathering responses to late Neogene cooling within a tectonically active setting. Sedimentary Geology, 439, 106232.

10. Yang, Y.*, Galy, A., Fang, X., France-Lanord, C., Wan, S., Yang, R., Zhang, J., Zhang, R., Yang, S., Miao, Y., Liu, Y., Ye, C., 2021. East Asian monsoon intensification promoted weathering of the magnesium-rich southern China upper crust and its global significance. Science China Earth Sciences, 64(7), 1155-1170.[杨一博, Galy A, 方小敏, France-Lanord C, 万世明, 杨戎生, 张健, 张冉, 杨松, 苗运法, 刘玉东, 叶程程. 2021. 东亚季风增强加剧中国南部富Mg上地壳化学风化及其全球意义. 中国科学: 地球科学, 51(8): 1289–1305]

11. Yang, Y.*, Galy, A., Fang, X.*, Yang, R., Zhang, W., Song, B., Liu, Y., Han, W., Zhang, W., Yang, S., 2021. Neodymium isotopic constraints on Cenozoic Asian dust provenance changes linked to the exhumation history of the northern Tibetan Plateau and the Central Asian Orogenic Belt. Geochimica et Cosmochimica Acta, 296, 38–55. [Chosen to be featured in Research Highlights of Nature Reviews Earth & Environment, “Dust records mountain growth”, https://doi.org/10.1038/s43017-021-00141-3]

12. Yang, Y.*, Ye, C., Galy, A., Fang, X.*, Xue, Y., Liu, Y., Yang, R., Zhang, R., Han, W., Zhang, W., Ruan, X., 2021. Monsoon Enhanced Silicate Weathering as a New Atmospheric CO2 Consumption Mechanism Contributing to Fast Late Miocene Global Cooling. Paleoceanography and Paleoclimatology, 36, e2020PA004008.

13. Yang, Y.*, Ye, C., Yang, R., Fang, X.*, 2021. Revisiting clay-sized mineral and elemental records of the silicate weathering history in the northern Tibetan Plateau during the late Cenozoic: The role of aeolian dust. Terra Nova, 33, 252–261. [Cover image of Terra Nova volume 33, number 3]

14. Liu, Y., Yang, Y.*, Ye, C., Yang, R., Appel, E., Fang, X., 2021. Global change modulated Asian inland climate since 7.3 Ma: carbonate manganese records in the western Qaidam Basin. Frontiers in Earth Science, 9, 813727.

15. Ye, C., Yang, Y.*, Fang, X.*, Zhang, W., Song, C., Yang, R., 2020. Paleolake salinity evolution in the Qaidam Basin (NE Tibetan Plateau) between~ 42 and 29 Ma: Links to global cooling and Paratethys sea incursions. Sedimentary Geology, 409, 105778.

16. Liu, X., Dong, S.*, Yue, Y.*, Guan, Q., Sun, Y., Chen, S., Zhang, J., Yang, Y.*, 2020. 87Sr/86Sr isotope ratios in rocks determined using inductively coupled plasma tandem mass spectrometry in O2 mode without prior Sr purification. Rapid Communications in Mass Spectrometry, 34(8), e8690.

17. Ye, C., Yang, Y.*, Fang, X.*, Zan, J., Tan, M., Yang, R., 2020. Chlorite weathering linked to magnetic enhancement in Red Clay on the Chinese Loess Plateau. Palaeogeography Palaeoclimatology Palaeoecology, 538, 109446.

18. Song, B., Yang, Y.*, Yang, R.*, Galy, A., Zhang, K., Ji, J., Liu, Y., Ai, C., Wang, C., Hou, Y., 2020. Miocene 87Sr/86Sr ratios of ostracods in the northern Qaidam Basin, NE Tibetan Plateau, and links with regional provenance, weathering and eolian input. Palaeogeography Palaeoclimatology Palaeoecology, 552, 109775.

19. Ruan, X., Yang, Y.*, Galy, A., Fang, X.*, Jin, Z., Zhang, F., Yang, R., Deng, L., Meng, Q., Ye, C., Zhang, W., 2019. Evidence for early (12.7 Ma) eolian dust impact on river chemistry in the northeastern Tibetan Plateau. Earth and Planetary Science Letters, 515, 79–89.

20. Ye, C., Yang. Y.*, Fang, X.*, Hong, H., Wang, C., Yang, R., Zhang, W., 2018. Chlorite chemical composition change in response to the Eocene-Oligocene climate transition on the northeastern Tibetan Plateau. Palaeogeography Palaeoclimatology Palaeoecology, 512, 23–32.

21. 杨一博, 方小敏, Albert Galy, 杨戎生,2018. 柴达木盆地西部第四纪气候变化和流域风化. 第四纪研究, 38(1): 76–85.

22. 阮笑白, 杨一博*, 方小敏, 杨戎生, 叶程程, 2018. 醋酸提取沉积物非碳酸盐来源Mg的实验探究—以西宁盆地中中新世-上新世沉积地层为例. 第四纪研究, 38(1): 118–129.

23. Yang, Y.*, Yang, R., Li, X., Han, W., Fang, X., Appel, E., Galy, A., Wu, F., Song Yang, Zan, J., Zhang, Z., Zhang, W., Ye, C., 2017. Glacial–interglacial climate change on the northeastern Tibetan Plateau over the last 600 kyr. Palaeogeography Palaeoclimatology Palaeoecology, 476, 181–191.

24. Yang, Y.*, Galy, A., Fang, X.*, Yang, R., Zhang, W., Zan, J., 2017. Eolian dust forcing of river chemistry on the northeastern Tibetan Plateau since 8 Ma. Earth and Planetary Science Letters, 464, 200–210.

25. Ye, C., Yang, Y.*, Fang, X., Zhang, W., 2016. Late Eocene clay boron–derived paleosalinity in the Qaidam Basin and its implications for regional tectonics and climate. Sedimentary Geology, 346, 49–59.

26. Yang, Y.*, Fang, X., Galy, A., Jin, Z., Wu, F., Yang, R., Zhang, W., Zan, J., Liu, X., Gao, S., 2016. Plateau uplift forcing climate change around 8.6 Ma on the northeastern Tibetan Plateau: evidence from an integrated sedimentary Sr record. Palaeogeography Palaeoclimatology Palaeoecology, 461, 418–431.

27. Yang Y.*, Fang, X., Koutsodendris, A., Ye, C., Yang, R., Zhang, W., Liu, X., Gao, S., 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.

28. Yang, Y.*, Fang, X., Galy, A., Zhang, G, Liu, S., Zan, J., Wu, F., Meng, Q., Ye, C., Yang, R., Liu, X., 2015. Carbonate composition and its impact on fluvial geochemistry in the NE Tibetan Plateau region. Chemical Geology, 410, 138–148.

29. Yang, Y.*, Fang, X., Li, M., Galy, A., Koutsodendris, A., Zhang, W., 2015. Paleoenvironmental implications of uranium concentrations in lacustrine calcareous clastic–evaporite deposits in the western Qaidam Basin. Palaeogeography Palaeoclimatology Palaeoecology, 417, 422–431.

30. Yang, Y.*, Fang, X., Galy, A., Li, M., Appel, E., Liu, X., 2014. Paleoclimatic significance of rare earth element record of the calcareous lacustrine sediments from a long core (SG–1) in the western Qaidam Basin, NE Tibetan Plateau. Journal of Geochemical Exploration, 145, 223–232.

31. Yang, Y., Fang, X.*, Galy, A., Appel, E., Li, M., 2013. Quaternary paleolake nutrient evolution and climatic change in the western Qaidam Basin deduced from phosphorus geochemistry record of deep drilling core SG–1. Quaternary International, 313–314, 156–167.

32. Yang, Y., Fang, X.*, Appel, E., Galy, A., Li, M., Zhang, W., 2013. Late Pliocene–Quaternary evolution of redox conditions in the western Qaidam paleolake (NE Tibetan Plateau) deduced from Mn geochemistry in the drilling core SG–1. Quaternary Research, 80, 586–595.

其他合著论文:

33. Guo, Z., Wu, F.*, Fang, X., Ye, C., Yang, Y., Zan, J., Mao, Z., Shen, M., 2024. Late Oligocene monsoonal climate in the Lunpola Basin, central Tibetan Plateau: evidence from palaeosol records. Journal of the Geological Society, 181(1), jgs2023-045.

34. Han, W.*, Ye, C., Lü, S., Zhang, T., Fang, X., Zhang, W., Yang, Y., Yan, M., 2023. Middle-Late Miocene paleoenvironmental evolution and its implications for hominoid distribution in the southeastern Tibetan Plateau. Catena, 220, 106676.

35. Mao, Z., Fang, X.*, Yang, Y., Ye, C., Zhang, W., Zhang, T., Christidis, G. E., 2023. Identification and origin of the Late Oligocene to Miocene pyroclastic rocks in the Lunpola Basin and link with deep geodynamics in the Lhasa terrane, Tibetan Plateau. Journal of Asian Earth Sciences, 247, 105575.

36. Niu, B., Lei, T., Chen, Q., Shao, M., Yang, X., Jiao, H., Yang, Y., Guggenberger, G., Zhang, G.*, 2023. pH: A core node of interaction networks among soil organo-mineral fractions. Environment International, 178, 108058.

37. Niu, B., Chen, Q., Jiao, H., Yang, X., Shao, M., Wang, J., Si, G., Lei, T., Yang, Y., Zhang, G.*, Guggenberger, G., 2023. Networks of mineral-associated organic matter fractions in forest ecosystems. Science of The Total Environment, 898, 165555.

38. Gou, L.F., Jin, Z.*, Galy, A., Xu, Y., Xiao, J., Yang, Y., Bouchez, J., Pogge von Strandmann, P.A.E., Jin, C., Yang, S., Zhao, Z.Q., 2023. Seasonal Mg isotopic variation in the middle Yellow River: Sources and fractionation. Chemical Geology, 619, 121314.

39. Zhang, R.*, Jiang, D., Zhang, J., Zhang, C., Yang, Y., Jia, Y., Wang, N., 2023. Impact of the uplift of the Central Asian Orogenic Belt and NE Tibetan Plateau on the East Asian climate since the late Miocene. Palaeogeography, Palaeoclimatology, Palaeoecology, 615, 111451.

40. Wu, F., Fang, X.*, Yang, Y., Dupont-Nivet, G., Nie, J., Fluteau, F., Zhang, T., Han, W., 2022. Reorganization of Asian climate in relation to Tibetan Plateau uplift. Nature Reviews Earth & Environment, 3(10), 684–700.

41. Song, B.*, Zhang, K., Farnsworth, A., Ji, J., Algeo, T. J., Li, X., Xu, Y., Yang, Y., 2022. Application of ostracod-based carbonate clumped-isotope thermometry to paleo-elevation reconstruction in a hydrologically complex setting: A case study from the northern Tibetan Plateau. Gondwana Research, 107, 73–83.

42. Tian, Q.*, Fang, X., Zhang, W., Yang, Y., Zhang, T., 2022. Paleoecological and paleohydrological changes during the Eocene/Oligocene transition in the Qaidam Basin, NE Tibetan Plateau. Journal of Asian Earth Sciences, 228, 105130.

43. Yang, X., Li, Y., Niu, B., Chen, Q., Hu, Y., Yang, Y., Song, L., Wang, J.*, Zhang, G.*, 2022. Temperature and precipitation drive elevational patterns of microbial beta diversity in alpine grasslands. Microbial Ecology, 84, 1141–1153.

44. Zhang, X., Song, B.*, Yang, T., Hou,Y., Yang, Y., Ai, K., Wang, J., Zhang, K., 2022. Source-to-sink relationships between the Qaidam Basin (North Tibet) and its surrounding mountain ranges: New insights from detrital zircon U–Pb ages in modern river sediments. Journal of Earth Science. doi: 10.1007/s12583-022-1666-5

45. Zhao, Y.*, Yang, Y. B. Guo, Y., Ren, G. Y., Zhang, F. C., 2022. Stable carbon isotope composition of bone hydroxylapatite: significance in paleodietary analysis, Palaeoworld, 31, 169–184.

46. Zhang, W.*, Li, T., Fang, X., Zhang, T., Yan, M., Zan, J., Yang, Y., Khatri, D. B., 2021. Chronological and rock magnetic constraints on the transition of the Quaternary paleoclimate in the western Qaidam Basin, NE Tibetan Plateau. Quaternary Research, 104, 170–181.

47. Lü, S., Ye, C., Fang, X., Appel, E., Han, F., Yan, M., Zhang, W., Zhang, T., Yang Y., Han, W.*, 2021. Middle to late Eocene chemical weathering history in the southeastern Tibetan Plateau and its response to global cooling. Palaeogeography Palaeoclimatology Palaeoecology, 562, 110136.

48. Song, B.*, Spicer, R. A., Zhang, K.*, Ji, J., Farnsworth, A., Hughes, A. C., Yang Y., Han, F., Xu, Y., Spicer, T., Shen, T., Lunt, D.J., Shi, G.*, 2020. Qaidam Basin leaf fossils show northeastern Tibet was high, wet and cool in the early Oligocene. Earth and Planetary Science Letters, 537, 116175.

49. Fang, X., Galy, A., Yang, Y., Zhang, W., Ye, C., Song, C., 2019. Paleogene global cooling–induced temperature feedback on chemical weathering, as recorded in the northern Tibetan Plateau. Geology, 47(10), 992–996.

50. Song, B.*, Zhang, K.*, Hou, Y., Ji, J., Wang, J., Yang, Y., Yang, T., Wang, C., Shen, T., 2019. New insights into the provenance of Cenozoic strata in the Qaidam Basin, northern Tibet: Constraints from combined U-Pb dating of detrital zircons in recent and ancient fluvial sediments. Palaeogeography Palaeoclimatology Palaeoecology, 533, 109254.

51. Zhang, J*., Wang, Y., Fang, X., Wang, C., Yang, Y., 2019. Large dry-humid fluctuations in Asia during the Late Cretaceous due to orbital forcing: A modeling study. Palaeogeography Palaeoclimatology Palaeoecology, 533, 109230.

52. Yang, R., Yang, Y., Fang, X.*, Ruan, X., Galy, A., Ye, C., Meng Q., Han, W., 2019. Late Miocene intensified tectonic uplift and climatic aridification on the northeastern Tibetan Plateau: Evidence from clay mineralogical and geochemical records in the Xining Basin. Geochemistry Geophysics Geosystems, 20, 829–851.

53. Han W.*, Lü, S., Appel, E., Berger, A., Madsen, D., Vandenberghe, J., Yu, L., Han, Y., Yang, Y., Zhang, T., Teng, X., Fang, X., 2019. Dust storm outbreak in central Asia after ~3.5 kyr BP. Geophysical Research Letters, 46, 7624–7633.

54. Mao, Z., Meng, Q*., Fang, X.*, Zhang, T., Wu, F., Yang, Y., Zhang, W., Zan, J., Tan, M., 2019. Recognition of tuffs in the middle-upper Dingqinghu Fm., Lunpola Basin, central Tibetan Plateau: Constraints on stratigraphic age and implications for paleoclimate. Palaeogeography Palaeoclimatology Palaeoecology, 525, 44–56.

55. Zhang W.*, Appel, E., Wang, J., Fang, X., Zan, J., Yang, Y., Miao, Y., Yan, X., 2019. New paleomagnetic constraints for Platybelodon and Hipparion faunas in the Linxia Basin and their ecological environmental implications. Global and Planetary Change, 176, 71–83.

56. Miao, Y.*, Wu, F.*, Warny, S., Fang, X., Lu, H., Fu, B., Song, C., Yan, X., Escarguel, G., Yang. Y., Meng, Q., Shi, P., 2019. Miocene fire intensification linked to continuous aridification on the Tibetan Plateau. Geology, 47, 303–307.

57. Bao, J., Song, C*., Yang, Y., Fang, X., Meng, Q., Feng, Y., He, P., 2019. Reduced chemical weathering intensity in the Qaidam Basin (NE Tibetan Plateau) during the Late Cenozoic. Journal of Asian Earth Sciences, 170, 155–165.

58. Teng, X., Fang, X.*, Kaufman, A., Liu, C., Wang, J., Zan, J., Yang, Y., Wang, C., Xu, H., Schulte, R., Piatak, N., 2019. Sedimentological and mineralogical records from drill core SKD1 in the Jianghan Basin, Central China, and their implications for late Cretaceous-early Eocene climate change. Journal of Asian Earth Sciences, 182, 103936.

59. Li, X., Jiang, D.*, Tian, Z., Yang, Y., 2018. Mid-Pliocene global land monsoon from PlioMIP1 simulations. Palaeogeography Palaeoclimatology Palaeoecology, 512, 56–70.

60. Ye, C., Yang, Y., Fang, X.*, Hong, H., Zhang, W., Yang, R., Song, B., Zhang, Z., 2018. Mineralogical and geochemical discrimination of the occurrence and genesis of palygorskite in Eocene sediments on the northeastern Tibetan Plateau. Geochemistry Geophysics Geosystems, 19, 567–581.

61. Yang, X., Cai, M.*, Ye, P.*, Yang, Y., Wu, Z., Zhou, Q., Li C., Liu, X., 2018. Late Pleistocene paleolake evolution in the Hetao Basin, Inner Mongolia, China. Quaternary International, 464, 386–396.

62. Yang, R., Fang, X.*, Meng, Q., Zan, J., Zhang, W., Deng, T., Yang, Y., Ruan, X., Yang, L., Li, B., 2017. Paleomagnetic Constraints on the Middle Miocene–Early Pliocene Stratigraphy in the Xining Basin, NE Tibetan Plateau, and the Geologic Implications. Geochemistry Geophysics Geosystems, 18(11), 3741–3757.

63. Zhang, D., Yan, X.*, Fang, X., Yang, Y., Zhang, T., Zan, J., Zhang, W., Liu, C., Yang, Q., 2018. Magnetostratigraphic study of the potash–bearing strata from drilling core ZK2893 in the Sakhon Nakhon Basin, eastern Khorat Plateau. Palaeogeography Palaeoclimatology Palaeoecology, 489, 40–51.

64. Zhao, Y., Wu. F.*, Fang, X., Yang, Y., 2017. Altitudinal variations in the bulk organic carbon isotopic composition of topsoil in the Qilian Mountains area, NE Tibetan Plateau, and its environmental significance. Quaternary International, 454, 45–55.

65. Fang X.*, Wang, J., Zhang, W., Zan, J., Song, C., Yan, M., Appel, E., Zhang, T., Wu, F., Yang, Y., Lu, Y., 2016. Tectonosedimentary evolution model of an intracontinental flexural (foreland) basin for paleoclimatic research. Global and Planetary Change, 145, 78–97.

66. Li, J.*, Li, M.*, Fang, X., Wang, Z., Zhang, W., Yang, Y., 2016. Variation of gypsum morphology along deep core SG–1, western Qaidam Basin (northeastern Tibetan Plateau) and its implication to depositional environments. Quaternary International, 430, 71–81.

67. Zhao, Y., Wu, F.*, Fang, X., Yang, Y., 2015. Topsoil C/N ratios in the Qilian Mountains area: implications for the use of subaqueous sediment C/N ratios in paleo–environmental reconstructions to indicate organic sources. Palaeogeography Palaeoclimatology Palaeoecology, 426, 1–9.

68. Cai, M.*, Wei, M.*, Yang, Y., Wang, J., Xu, D., 2014. Long–term cooling/drying record of North China since the middle Pleistocene from geochemical evidence of a 150 m deep drill core, Beijing plain, China. Quaternary International, 349, 419–427.

69. Zhang, J.*, Feng, J–L., Hu, G., Wang, J., Yang, Y., Lin, Y., Jiang, T., Zhu, L., 2014. Holocene proglacial loess in the Ranwu valley, southeastern Tibet, and its paleoclimatic implications. Quaternary International, 372, 9–22.

70. Li, M., Fang, X.*, Wang, J., Song, Y., Yang, Y., Liu, X., 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.

71. 刘晓明,于正良,邬光剑,杨一博,叶程程,高少鹏,黄菊,2023. 前处理方法对积雪样品主要阳离子浓度的影响研究. 冰川冻土,45(3): 1142–1154.

72. 潘佳秋,宋春晖,鲍晶,马丽芳,颜茂都,方小敏,应红,杨一博2015. 羌塘盆地侏罗系元素地球化学特征与成盐层位分析. 地质学报,89(11): 2152–2160.

73. 吴福莉,赵艳,方小敏,孟庆泉,杨一博2015. 兰州盆地44~15Ma地层的有机碳同位素记录. 第四纪研究,35(4): 847–855.

74. 贾丽敏,陈秀玲*杨一博,李金婵,2014. 伊犁盆地昭苏黄土不同粒径和相态稀土元素特征及其物源指示意义. 地球环境学报, 5(2): 93–101.

75. 刘艳蕊,杨一博,方小敏,宋春晖,刘晓明, 2014. 沉积相变迁对内陆湖泊沉积易溶盐作为古环境指标的影响:以西宁盆地为例. 沉积学报, 32(1): 101–109.

76. 闫晓丽,杨一博,方小敏,苗运法,宋春晖,2012. 临夏盆地晚中新世沉积物中赤铁矿和针铁矿的含量特征及其意义. 兰州大学学报 (自然科学版), 48(1): 55–61.

77. 李香钰,方小敏,杨一博,昝金波,2012. 3Ma以来黄土高原朝那黄土–红粘土序列赤铁矿记录及其古气候意义. 第四纪研究, 32(4): 700–708.

78. 昝金波,杨胜利,方小敏,李香钰,杨一博,迟云平,2010. 极端干旱区黄土土壤容重的测量及其古气候意义. 海洋地质与第四纪地质, 30(2): 127–132.

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