姓名:杨胜利
职称: 教授  博士生导师  硕士生导师 
性别:男
毕业院校:兰州大学资源环境学院
学历:博士研究生
学位:博士
在职信息:在职
所在单位:兰州大学资源环境学院
入职时间:2014年
办公地点:
电子邮箱:shlyang@lzu.edu.cn
学习经历
1994.09-1998.06 兰州大学地理科学系 学士 1998.09-2001.06 兰州大学资源环境学院 硕士 2001.09-2004.06 兰州大学资源环境学院 博士
研究方向
地表粉尘与干旱区环境;释光测年与环境变化; 全球变化与应对;
工作经历
2014.04 — 至今 兰州大学 资源环境学院 2009.09-2014.03 南京师范大学 地理科学学院 2004.07-2009.08 中国科学院 青藏高原研究所
主讲课程
本科生课程:《自然灾害学》、《全球环境变化》、《中国与世界地理》、《环境政策分析》 研究生课程:《环境灾害学》、《第四纪地质学研究进展》
研究成果
1) 对青藏高原东部及邻区黄土沉积的研究表明青藏高原黄土主要为风成成因,来源于青藏高原内部;高原黄土的出现指示了大气环流的改变和高原内部干旱化。 2) 通过系统的磁性地层学、氧同位素和环境指标综合分析,揭示四川盆地广泛分布的成都粘土为风成成因,并记录了约50万年东亚地区的干旱化增强事件。 3)通过详细的光释光年代学分析揭示了晚第四纪以来青藏高原东部黄土粉尘沉积过程和环境变化历史。
获得荣誉
1. 2004年:甘肃省科技进步二等奖,第五 2. 2015年:兰州大学教学成果奖一等奖,第三 3. 2018年:甘肃省教学成果一等奖,第三
在研项目
1、国家自然科学基金面上项目:青藏高原东部古土壤S1记录的末次间冰期高原环境变化及其驱动机制,2023-2026,主持。 2、国家自然科学基金面上项目:青藏高原东部风成黄土多技术源区示踪研究,2019-2022,主持。 3、第二次青藏高原综合科学考察研究项目:粉尘气溶胶及其气候环境效应(2019QZKK0602), 2019-2024,参加。 4、国家自然科学基金委重点项目:青藏高原丹尼索瓦人的旧石器文化和环境适应研究(42130502),2022-2025,参加。 5、中科院先导专项A联合攻关项目:高原人-环境相互作用的生态环境影响与调控对策,子课题(XD2009000003),2018-2022,参加。
发表论文
1. Yang, S., Zhou, J., Chen, Z., Li, P., Wen, C., Xu, X., Li, Q., 2023. Westerly Variations in the Eastern Tibetan Plateau since the Last Interglacial Revealed by the Grain-Size Records of the Ganzi Loess. Atmosphere 14, 238. 2. Ling, Z., Yang, J., Wang, Z., Jin, J., Xia, D., Yang, S., Wang, X., Chen, F., 2023. Spatiotemporal differences in Holocene climate change in the Yarlung Tsangpo catchment, southern Tibetan Plateau, reconstructed from two sandy loess sequences. Palaeogeography, Palaeoclimatology, Palaeoecology 616, 111473. 3. Yang, S., Chen, Z., Chen, H., Luo, Y., Liu, L., Liu, X., Li, Q., Zhou, J., Li, P., 2022. Magnetic Properties of the Ganzi Loess and Their Implications for Precipitation History in the Eastern Tibetan Plateau Since the Last Interglacial. Paleoceanography and Paleoclimatology 37(2), e2021PA004322. 4. Chen, Z., Yang, S., Luo, Y., Chen, H., Liu, L., Liu, X., Wang, S., Yang, J., Tian, W., Xia, D., 2022. HIRM variation in the Ganzi loess of the eastern Tibetan Plateau since the last interglacial period and its paleotemperature implications for the source region. Gondwana Research 101, 233-242. 5. Liu, L., Yang, S., Liu, X., Cheng, T., Li, P., Zhou, J., Chen, Z., Luo, Y., 2022. Effects of the size of the test dose on the SAR protocol for quartz optically stimulated luminescence dating of loess in the eastern Tibetan Plateau. Quaternary Geochronology 72, 101365. 6. Liu, L., Yang, S.L., Liu, X.J., Li, P.S., Wang, H.Y., Zhou, J.T., 2022. Variation of luminescence sensitivity of quartz grains from loess in eastern Tibetan Plateau and its provenance significance. Frontiers in Earth Science 10. 7. Ling, Z.Y., Yang, S.L., Xia, D.S., Wang, X., Chen, F.H., 2022. Source of the aeolian sediments in the Yarlung Tsangpo valley and its potential dust contribution to adjacent oceans. Earth Surface Processes and Landforms 47(7), 1860-1871. 8. Li, Z., Wang, F., Luo, C., Liu, C., Wang, X., Yang, S., Ayyamperumal, R., Zhang, J., Li, B., and Fan, Y., 2022. Enhanced drying of the Tengger desert, northwest margin of East Asian summer monsoon during warming interglacials after 500 ka. Quaternary Science Reviews 293, 107735. 9. 昝金波,宁文晓,杨胜利,方小敏,康健,罗元龙.表土磁学特征揭示的青藏高原及其周边地区的气候边界.地球科学进展,2022,37(01):14-25. 10. Yang, S., Liu, L., Chen, H., Tang, G., Luo, Y., Liu, N., Cheng, T., Li, D., 2021. Variability and environmental significance of organic carbon isotopes in Ganzi loess since the last interglacial on the eastern Tibetan Plateau. CATENA 196. 11. Yang, S., Liu, N., Li, D., Cheng, T., Liu, W., Li, S., Chen, H., Liu, L., Luo, Y., 2021. Quartz OSL chronology of the loess deposits in the Western Qinling Mountains, China, and their palaeoenvironmental implications since the Last Glacial period. BOREAS 50(1), 294-307. 12. Yang, S., Liu, X., Cheng, T., Luo, Y., Li, Q., Liu, L., Chen, Z., 2021. Stepwise Weakening of Aeolian Activities During the Holocene in the Gannan Region, Eastern Tibetan Plateau. Frontiers in Earth Science 9. 13. Yang, S., Luo, Y., Li, Q., Liu, W., Chen, Z., Liu, L., Liu, X., 2021. Comparisons of topsoil geochemical elements from Northwest China and eastern Tibetan Plateau identify the plateau interior as Tibetan dust source. Science of The Total Environment 798. 14. Liu, L., Yang, S., Cheng, T., Liu, X., Luo, Y., Liu, N., Chen, H., Chen, Z., Li, P., Liu, W., 2021. Chronology and dust mass accumulation history of the Wenchuan loess on eastern Tibetan Plateau since the last glacial. Aeolian Research. 53, 100748. 15. Cheng, T., Zhang, D., Smith, G.M., Joeris, O., Wang, J., Yang, S., Xia, H., Shen, X., Li, Q., Chen, X., Lin, D., Han, Y., Liu, Y., Qiang, M., Li, B., Chen, F., 2021. Hominin occupation of the Tibetan Plateau during the Last Interglacial Complex. Quaternary Science Reviews. 265. 16. Ning, W.-X., Zan, J.-B., Yang, S.-L., Fang, X.-M., Shen, M.-M., Kang, J., et al.,2021. A combined rock magnetic and meteorological investigation of the precipitation boundary across the Tibetan Plateau. Geophysical Research Letters, 48, e2021GL094808. https://doi.org/10.1029/2021GL094808 17. Song, Y., Yang, S., Nie, J., Zan, J., Song, C., 2021. Quaternary paleoclimate and paleoenvironmental changes in Central Asia. Palaeogeography Palaeoclimatology Palaeoecology 568. 18. Wu, D., Zhang, C., Wang, T., Liu, L., Zhang, X., Yuan, Z., Yang, S., Chen, F., 2021. East-west asymmetry in the distribution of rainfall in the Chinese Loess Plateau during the Holocene. CATENA 207. 19. 李冬雪, 刘楠楠, 杨胜利, 刘维明, 成婷, 刘丽, 罗元龙, 2021. 石英标准生长曲线在青藏高原东缘黄土光释光测年中的应用. 第四纪研究 41(1), 111-122. 20. 张延广, 方小敏, 毛子强, 申茂华, 张涛, 昝金波, 杨胜利, 2021. 青藏高原古里雅冰帽冰碛和冰水沉积物粒度特征及其意义. 冰川冻土 43(3), 701-713. 21. Yang, S., Li, D., Liu, N., Zan, J., Liu, W., Kang, J., Murodov, A., Fang, X., 2020. Quartz optically stimulated luminescence dating of loess in Tajikistan and its paleoclimatic implications for arid Central Asia since the Lateglacial. Palaeogeography Palaeoclimatology Palaeoecology 556. 22. Fang, X., An, Z., Clemens, S.C., Zan, J., Shi, Z., Yang, S., Han, W., 2020. The 3.6-Ma aridity and westerlies history over midlatitude Asia linked with global climatic cooling. Proceedings of the National Academy of Sciences of the United States of America 117(40), 24729-24734. 23. Ling, Z., Yang, S., Wang, X., Wang, J., Xia, D., Chen, F., 2020. Spatial-temporal differentiation of eolian sediments in the Yarlung Tsangpo catchment, Tibetan Plateau, and response to global climate change since the Last Glaciation. Geomorphology 357. 24. Miao, Y., Song, Y., Li, Y., Yang, S., Li, Y., Zhao, Y., Zeng, M., 2020. Late Pleistocene fire in the Ili Basin, Central Asia, and its potential links to paleoclimate change and human activities. Palaeogeography Palaeoclimatology Palaeoecology 547. 25. Zhao, Z., Granger, D., Zhang, M., Kong, X., Yang, S., Chen, Y., Hu, E., 2016. A test of the isochron burial dating method on fluvial gravels within the Pulu volcanic sequence, West Kunlun Mountains, China. Quaternary Geochronology. 34, 75-80. 26. Miao, Y., Fang, X., Song, C., Yan, X., Zhang, P., Meng, Q., Li, F., Wu, F., Yang, S., Kang, S., Wang, Y., 2016. Late Cenozoic fire enhancement response to aridification in mid-latitude Asia: Evidence from microcharcoal records. Quaternary Science Reviews. 139, 53-66. 27. Zan, J., Fang, X., Yang, S., Yan, M., 2015. Bulk particle size distribution and magnetic properties of particle-sized fractions from loess and paleosol samples in Central Asia. Geochem Geophy Geosy 16(1), 101-111. 28. Yang S.L., Forman, S.L., Song Y.G., Pierson J., Mazzocco J., Li, X.X., Shi Z.T., Fang X.M.,2014. Evaluating OSL-SAR protocols for dating quartz grains from the loess in Ili Basin, Central Asia. Quaternary Geochronology 20, 78-88. 29. Miao, Y., Herrmann, M., Wu, F., Yan, X., Yang, S., 2012. What controlled Mid-Late Miocene long-term aridification in Central Asia? - Global cooling or Tibetan Plateau uplift: A review. Earth-Science Reviews 112(3-4), 155-172. 30. Han, W., Fang, X., Yang, S., King, J., 2010. Differences between East Asian and Indian monsoon climate records during MIS3 attributed to differences in their driving mechanisms: Evidence from the loess record in the Sichuan basin, southwestern China and other continental and marine climate records. Quaternary International 218(1-2), 94-103. 31. Yang, S., Fang, X., Shi, Z., Lehmkuhl, F., Song, C., Han, Y., Han, W., 2010. Timing and provenance of loess in the Sichuan Basin, southwestern China. Palaeogeography Palaeoclimatology Palaeoecology 292(1-2), 144-154. 32. Yang, S., Fang, X., Yan, M., Shi, Z., Song, C., Han, Y., 2010. Grain size profiles in the Chengdu Clay, eastern margin of the Tibetan Plateau: Implications for significant drying of Asia since similar to 500 ka BP. Journal of Asian Earth Science. 38(1-2), 57-64. 33. Zan, J., Fang, X., Yang, S., Nie, J., Li, X., 2010. A rock magnetic study of loess from the West Kunlun Mountains. J Geophys Res-Solid Earth 115.