张肖剑 - 南京大学 - 地理与海洋科学学院

个人简介

教育背景 2013.09 – 2016.06: 兰州大学资源环境学院，自然地理学博士学位 2009.09 – 2012.06: 兰州大学西部环境与气候变化研究院，自然地理学硕士学位 2005.09 – 2009.06: 兰州大学资源环境学院，地理科学学士学位工作经历 2021.03至今：南京大学地理与海洋科学学院，副教授 2019.07 – 2021.02：南京大学地理与海洋科学学院，副研究员 2016.07 – 2019.07：南京大学地理与海洋科学学院，博士后（博士后创新人才支持计划）奖励荣誉 2016年甘肃省优秀博士论文 2016年博士后创新人才支持计划 2018年科技部创新人才推进计划重点领域创新团队核心成员，寒区旱区环境变化与季风气候创新团队（2017RA4042） 2020年博士后创新人才支持计划优秀创新成果

研究领域

主要从事气候变化和水循环方向的研究，目前已在Nature Communations、Science Bulletin、Geophysical Research Letters、JGR-Atmosphere、Climate Dynamics和Quaternary Science Reviews等期刊发表论文60余篇，论文总被引近4000次。

近期论文

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第一作者或通讯作者论文 Zhang, X.*, Chen, C., Zhao, W., 2023. Remote Insolation Forcing of Orbital-Scale South Asian Summer Monsoon Variability. Geophysical Research Letters, 50, e2023GL105003. Jin, L.*, Ganopolski, A., Willeit, M., Lu, H., Chen, F., Zhang, X.*, 2023. Decoupled orbital-scale variability of late Pleistocene-Holocene monsoonal circulation and rainfall in East Asia. Science Bulletin, 68: 897–901. Yang, J., Li, G., Gan, Y., Chen, Z., Zhang, X.*, 2023. Role of the tropical Indian Ocean in orbitally induced mid-Holocene precipitation in northwest China. Quaternary Science Reviews, 317: 108285. Zhang, X.*, Chen, Z., Gan, Y., Chen, C., Zhao, W., 2023. Mechanisms of East Asian winter monsoon response to North Atlantic freshwater forcing: Pivotal role of the Tibetan Plateau. Quaternary Science Reviews, 305: 108019. Chen, C., Zhao, W., Zhang, X.*, 2023. Orbital Effect on North Atlantic Freshwater Forced Millennial-Scale East Asian Summer Monsoon Variability During the Holocene. Journal of Geophysical Research-Atmospheres, 128: e2022JD037413. Nie, J.*, Wang, W., Heermance, R., Gao, P., Xing, L., Zhang, X.*, Zhang, R.*, Garzione, C., Xiao, W.*, 2022. Late Miocene Tarim desert wetting linked with eccentricity minimum and East Asian monsoon weakening. Nature Communications, 13: 3977. Zhang, X.*, Chun, X., Zhao, W., Jin, L., 2022. Role of Asian Westerly Jet Core's Zonal Migration in Holocene East Asian Summer Monsoon PrecipitationRole of Asian Westerly Jet Core's Zonal Migration in Holocene East Asian Summer Monsoon Precipitation. Journal of Geophysical Research-Atmospheres, 127: e2021JD036179. Zhang, X.*, 2021. Penetration of monsoonal water vapour into arid central Asia during the Holocene: An isotopic perspective. Quaternary Science Reviews, 251: 106713. Chen, C., Zhao, W., Zhang, X.*, 2021. Pacific Decadal Oscillation-like variability at a millennial timescale during the Holocene. Global and Planetary Change, 199: 103448. Chen, C., Zhang, X.*, Lu, H., Jin, L., Du, Y., Chen, F., 2021. Increasing summer precipitation in arid Central Asia linked to the weakening of the East Asian summer monsoon in the recent decades. International Journal of Climatology, 41: 1024–1038. Zhang, X.*, Jin, L., Lu, H., Park, W., Schneider, B., Latif, M., 2018. East–west contrast of Northeast Asian summer precipitation during the Holocene. Global and Planetary Change, 170: 190–200. Zhang, X., Jin, L., Chen, J., Lu, H., Chen, F., 2018. Lagged response of summer precipitation to insolation forcing on the northeastern Tibetan Plateau during the Holocene. Climate Dynamics, 50: 3117–3129. Zhang, X.*, Li, J., Gao, M., Jin, L.*, 2018. Simulated precipitation changes in Central Asia since the Last Glacial Maximum. Quaternary International, 490: 82–97. Zhang, X., Jin, L., Chen, J., Chen, F., Park, W., Schneider, B., Latif, M., 2017. Detecting the relationship between moisture changes in arid central Asia and East Asia during the Holocene by model-proxy comparison. Quaternary Science Reviews, 176: 36–50. Zhang, X., Jin, L., 2016. Association of the Northern Hemisphere circumglobal teleconnection with the Asian summer monsoon during the Holocene in a transient simulation. Holocene, 26: 290–301. Zhang, X., Jin, L., Huang, W., Chen, F., 2016. Forcing mechanisms of orbtial-scale changes in winter rainfall over northwestern China during the Holocene. Holocene, 26: 549–555. Zhang, X., Jin, L., Jia, W., 2016. Centennial-scale teleconnection between North Atlantic sea surface temperatures and the Indian summer monsoon during the Holocene. Climate Dynamics, 46: 3323–3336. Zhang, X., Jin, L., Li, N., 2015. Asynchronous variation in the East Asian winter monsoon during the Holocene. Journal of Geophysical Research-Atmospheres, 120: 5357–5370. Zhang, X., Jin, L., Chen, C., Guan, D., Li, M., 2011. Interannual and interdecadal variations in the North Atlantic Oscillation spatial shift. Chinese Science Bulletin, 56: 2621–2627. 王硕情, 郑珮盈, 张肖剑*, 2023. 地球轨道对北大西洋淡水注入影响印度夏季风的调节作用: 以8.2ka和4.2ka事件为例. 第四纪研究, 2023,43(4): 1133–1145. 张肖剑, 靳立亚, Andrey Ganopolski, Matteo Willeit, 2020. 3 Ma以来轨道尺度东亚冬季风演化的模拟研究.第四纪研究, 40(6): 1406–1417. 张肖剑, 靳立亚, 2018. 全新世南亚高压南北移动及其与亚洲夏季风降水的关系. 第四纪研究, 38(5): 1244–1254. 张肖剑, 靳立亚, 2010. 基于PMIP2气候模式模拟的中全新世北大西洋涛动. 海洋学报, 32(4): 41–50. 其它作者论文 Lu, H., Feng, H., Lyu, H., Wang, H., Zhang, X., Zhang, H., Wang, X., Li, Y., 2023. Formation and evolution of the Asian landscape during the Cenozoic. The Innovation Geoscience, 1(2): 100020. Chen, Q., Zhang, X., Chen, F., Zhang, H., Yuan, Y., Yu, S., Hadad, M.A., Roig, F.A., 2023. Weakening of the Summer Monsoon Over the Past 150 Years Shown by a Tree-Ring Record From Shandong, Eastern China, and the Potential Role of North Atlantic Climate. Paleoceanography and Paleoclimatology, 38: e2022PA004495. Li, G., Wang, Y., Yan, Z., Qin, C., Ding, W., Yang, H., Wang, X., Zhang, X., 2023. High-resolution luminescence chronology of loess-paleosols reveals East Asian summer monsoon and winter monsoon variation in Hexi Corridor during the past 25 kyr. Palaeogeography, Palaeoclimatology, Palaeoecology, 627: 111743. Liu, X., Miao, X., Nie, J., Zhang, X., Wang, Y., Li, X., Ou, X., Lai, Z., 2023. Distribution and fate of Tibetan Plateau loess. Catena, 225: 107022. Li, G., Wang, X., Zhang, X., Yan, Z., Liu, Y., Yang, H., Wang, Y., Jonell, T.N., Qian, J., Gou, S., Yu, L., Wang, Z., Chen, J., 2022. Westerlies-Monsoon interaction drives out-of-phase precipitation and asynchronous lake level changes between Central and East Asia over the last millennium. Catena, 218: 106568. Zhang, C., Zhao, C., Yu, S., Yang, X., Cheng, J., Zhang, X., Xue, B., Shen, J., Chen, F., 2022. Seasonal imprint of Holocene temperature reconstruction on the Tibetan Plateau. Earth-Science Reviews, 226: 103927. Liang, C., Lu, H., Gu, Y., Zhao, C., Liu, W., Zhang, X., Zhang, H., 2022. Asynchronous variations of East Asian summer monsoon, vegetation and soil formation at Yulin (North China) in the Holocene. Journal of Quaternary Science, 37: 1083–1090. Guo, X., Feng, Q., Si, J., Zhang, X., 2022. Considerable influences of recycled moistures and summer monsoons to local precipitation on the northeastern Tibetan Plateau. Journal of Hydrology, 605: 127343. Zheng, Z., Jin, L., Li, J., Chen, J., Zhang, X., Wang, Z., 2022. Influence of May–June frontal precipitation on coherent moisture pattern in east-central China since 1793 based on tree-ring data. Quaternary International, 607: 79–99. 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: 105626. Zheng, Z., Jin, L., Li, J., Chen, J., Zhang, X., Wang, Z., 2021. Moisture variation inferred from tree rings in north central China and its links with the remote oceans. Scientific Reports, 11, 16463. Liu, X., Madsen, D., and Zhang, X.,2021. The Driving Forces Underlying Spatiotemporal Lake Extent Changes in the Inner Tibetan Plateau During the Holocene. Frontiers in Earth Science, 9: 685928. Li, J., Wang, N., Dodson, J., Yan, H., Zhang, X.,Jia, P.W., Sepp?, H., 2020. Holocene negative coupling of summer temperature and moisture availability over southeastern arid Central Asia. Climate Dynamics, 55: 1187–1208. Zhang, C., Zhao, C., Yu, Z., Zhang, H., Zhou, A., Zhang, X., Feng, X., Sun, X., Shen, J., 2020. Western Pacific Ocean influences on monsoon precipitation in the southwestern Chinese Loess Plateau since the mid-Holocene. Climate Dynamics, 54: 3121–3134. Li, G., Yang, H., Stevens, T., Zhang, X., Zhang, H., Wei, H., Zheng, W., Li, L., Liu, X., Chen, J., Xia, D., Oldknow, C., Ye, W., Chen, F., 2020. Differential ice volume and orbital modulation of Quaternary moisture patterns between Central and East Asia. Earth and Planetary Science Letters, 530: 115901. Li, G., Zhang, H., Liu, X., Yang, H., Wang, X., Zhang, X., Jonell, T.N., Zhang, Y., Huang, X., Wang, Z., Wang, Y., Yu, L., Xia, D., 2020. Paleoclimatic changes and modulation of East Asian summer monsoon by high-latitude forcing over the last 130,000 years as revealed by independently dated loess-paleosol sequences on the NE Tibetan Plateau. Quaternary Science Reviews, 237: 106283. Liu, X., Zhang, X., Lin, Y., Jin, L., Chen, F., 2019. Strengthened Indian summer monsoon brought more rainfall to the western Tibetan Plateau during the early Holocene. Science Bulletin, 64: 1482–1485. Chen, F., Chen, J., Huang, W., Chen, S., Huang, X., Jin, L., Jia, J., Zhang,X.,An, C., Zhang, J., Zhao, Y., Yu, Z., Zhang, R., Liu, J., Zhou, A., Feng, S., 2019. Westerlies Asia and monsoonal Asia: Spatiotemporal differences in climate change and possible mechanisms on decadal to sub-orbital timescales. Earth-Science Reviews, 192: 337–354. Lu, H., Wang, X., Wang, X., Chang, X., Zhang, H., Xu, Z., Zhang, W., Wei, H., Zhang, X., Yi, S., Zhang, W., Feng, H., Wang, Y., Wang, Y., Han, Z., 2019. Formation and evolution of Gobi Desert in central and eastern Asia. Earth-Science Reviews, 194: 251–263. Chen, J., Liu, J., Zhang, X., Chen, S., Huang, W., Chen, J., Zhang, S., Zhou, A., Chen, F., 2019. Unstable Little Ice Age climate revealed by high-resolution proxy records from northwestern China. Climate Dynamics, 53, 1517–1526. Lu, F., Ma, C., Zhu, C., Lu, H., Zhang, X., Huang, K., Guo, T., Li, K., Li, L., Li, B., Zhang, W., 2019. Variability of East Asian summer monsoon precipitation during the Holocene and possible forcing mechanisms. Climate Dynamics, 52: 969–989. Li, J., Yan, H., Dodson, J., Xu, Q., Sun, A., Cheng, B., Li, C., Ni, J., Zhang, X., Lu, F., 2018. Regional-Scale Precipitation Anomalies in Northern China During the Holocene and Possible Impact on Prehistoric Demographic Changes. Geophysical Research Letters, 45: 12477–12486. Sun, X., Lu, H., Wang, S., Xu, X., Zeng, Q., Lu, X., Lu, C., Zhang, W., Zhang, X.,Dennell, R., 2018. Hominin distribution in glacial-interglacial environmental changes in the Qinling Mountains range, central China. Quaternary Science Reviews, 198: 37–55. Li, G., Chen, F., Xia, D., Yang, H., Zhang, X., Madsen, D., Oldknow, C., Wei, H., Rao, Z., Qiang, M., 2018. A Tianshan Mountains loess-paleosol sequence indicates anti-phase climatic variations in arid central Asia and in East Asia. Earth and Planetary Science Letters, 494: 153–163. Li, J., Dodson, J., Yan, H., Wang, W., Innes, J.B., Zong, Y., Zhang, X.,Xu, Q., Ni, J., Lu, F., 2018. Quantitative Holocene climatic reconstructions for the lower Yangtze region of China. Climate Dynamics, 50: 1101–1113. Li, J., Dodson, J., Yan, H., Cheng, B., Zhang, X., Xu, Q., Ni, J., Lu, F., 2017. Quantitative precipitation estimates for the northeastern Qinghai-Tibetan Plateau over the last 18,000 years. Journal of Geophysical Research-Atmospheres, 122, doi:10.1002/ 2016JD026333. Li, J., Dodson, J., Yan, H., Zhang, D., Zhang, X., Xu, Q., Lee, H.F., Pei, Q., Cheng, B., Li, C., Ni, J., Sun, A., Lu, F., Zong, Y., 2017. Quantifying climatic variability in monsoonal northern China over the last 2200 years and its role in driving Chinese dynastic changes. Quaternary Science Reviews, 159: 35–46. Chen, F., Jia, J., Chen, J., Li, G., Zhang, X.,Xie, H., Xia, D., Huang, W., An, C., 2016. A persistent Holocene wetting trend in arid central Asia, with wettest conditions in the late Holocene, revealed by multi-proxy analyses of loess-paleosol sequences in Xinjiang, China. Quaternary Science Reviews, 146: 134–146. Jin, L., Zhang, X.,Leduc, G., 2016. Reply to comment by Rashid et al. on “Asynchronous variation in the East Asian winter monsoon during the Holocene”. Journal of Geophysical Research-Atmospheres, 121, doi:10.1002/2015JD024270. Li, J., Ilvonen, L., Xu, Q., Ni, J., Jin, L., Holmstr?m, L., Zheng, Z., Lu, H., Luo, Y., Li, Y., Li, C., Zhang,X., Sepp?, H., 2016. East Asian summer monsoon precipitation variations in China over the last 9500 years: a comparison of pollen-based reconstructions and model simulations. Holocene, 26: 592–602. Liu, J., Chen, J., Zhang, X., Li, Y., Rao, Z., Chen, F., 2015. Holocene East Asian summer monsoon records in northern China and their inconsistency with Chinese stalagmite δ18O records. Earth-Science Reviews, 148: 194–208. Chen, F., Xu, Q., Chen, J., Birks, H.J.B., Liu, J., Zhang, S., Jin, L., An, C., Telford, R.J., Cao, X., Wang, Z., Zhang, X., Selvaraj, K., Lü, H., Li, Y., Zheng, Z., Wang, H., Zhou, A., Dong, G., Zhang, J., Huang, X., Bloemendal, J., Rao, Z., 2015. East Asian summer monsoon precipitation variability since the last deglaciation. Scientific Reports, 5: 11186. Liu, X., Rao, Z., Zhang, X., Huang, W., Chen, J., Chen, F., 2015. Variations in the oxygen isotopic composition of precipitation in the Tianshan Mountains region and their significance for the Westerly circulation. Journal of Geographical Sciences, 25(7): 801–816. Huang, W., Chen, J., Zhang,X., Feng, S., Chen, F., 2015. Definition of the core zone of the “westerlies-dominated climatic regime”, and its controlling factors during the instrumental period. Science China: Earth Sciences, 58(5): 676–684. Chen, F., Chen, X., Chen, J., Zhou, A., Wu, D., Tang, L., Zhang, X., Huang, X., Yu, J., 2014. Holocene vegetation history, precipitation changes and Indian summer monsoon evolution documented from sediments of Xingyun Lake, southwest China. Journal of Quaternary Research, 29(7): 661–674. Chen, X., Chen, F., Zhou, A., Huang, X., Tang, L., Wu, D., Zhang, X., Yu, J., 2014. Vegetation history, climatic changes and Indian summer monsoon evolution during the Last Glaciation (36400-13400 cal yr BP). Palaeogeography, Palaeoclimatology, Palaeoecology, 410: 179–189. Wang, H., Chen, J., Zhang, X., Chen, F., 2014. Palaeosol development in the Chinese Loess Plateau as an indicator of the strength of the East Asian summer monsoon: Evidence for a mid-Holocene maximum. Quaternary International, 334–335: 155–164. Liu, J., Chen, F., Chen,J., Zhang,X., Liu, J., Bloemendal, J., 2014. Weakening of the east Asian summer monsoon at 1000–1100 A.D. within the medieval climate anomaly: possible linkage to changes in the Indian ocean-western Pacific. Journal of Geophysical Research-Atmospheres, 119(5): 2209–2219. Jin, L., Schneider, B., Park, W., Latif, M., Khon, V., Zhang, X., 2014.The spatialetemporal patterns of Asian summer monsoon precipitation in response to Holocene insolation change: a model-data synthesis. Quaternary Science Reviews, 85: 47–62. Huang, W., Chen, F., Feng, S., Chen, J., Zhang, X., 2013. Interannual precipitation variations in the mid-latitude Asia and their association with large scale atmospheric circulation. Chinese Science Bulletin, 58(32): 3962–3968. 郑泽煜, 靳立亚, 李金建, 陈婕, 张肖剑, 王振乾, 2021. 树轮记录的1808年以来神农架地区平均气温的变化. 第四纪研究, 41(2): 334–345. 王素素, 鹿化煜, 王珧, 王先彦, 张肖剑, 王晓勇, 2020. 西宁黄土白云石和碳同位素记录的轨道尺度季风气候变化. 第四纪研究, 40(6): 1453-1463. 焦腾腾, 李佳瑞, 陈婕, 张肖剑, 靳立亚, 2016. 全新世北大西洋海面温度变化趋势：观测-模拟对比研究. 第四纪研究, 36(3): 747–757. 王宁, 张肖剑, 靳立亚, 2015. 千年时间尺度南亚高压和西太平洋副热带高压关系的时空变化特征. 第四纪研究, 35(6): 1425–1436. 王志远, 靳立亚, 俞飞, 张肖剑, 姜大膀, 2011. 中东亚中全新世气候与植被反馈作用：PMIP2多模式结果分析. 第四纪研究, 31(1): 36–47. 俞飞, 靳立亚, 张肖剑, 王志远, 2011. 6 kaBP中东亚气候对植被变化的响应. 兰州大学学报(自然科学版), 47(2): 24–31. 俞飞, 靳立亚, 张肖剑, 王志远, 2010. 基于小波分析的西北地区PDSI序列周期分析. 甘肃农业, 10: 21–23.