研究领域

自然地理过程，地貌演化

论文与著作

[1]Liu, X.J.*, Li, X.Z., Lai, Z.P., Cheng, F., 2022. Editorial: Late Quaternary Hydrological, Paleoenvironmental and Geomorphological Processes in the Tibetan Plateau and Its Adjacent Areas. Frontiers In Earth Science 10: 839663, doi: 10.3389/feart.2022.839663. (SCI)

[2]Liu, X.J.*, Madsen, D., Zhang, X.J., 2021. The Driving Forces Underlying Spatiotemporal Lake Extent Changes in the Inner Tibetan Plateau During the Holocene. Frontiers In Earth Science 9: 685928, doi: 10.3389/feart.2021.685928. (SCI)

[3]Zhang, H.B., Nie, J.S.*, Liu, X.J.*, Alex, P., Li, G.Q., Peng, W.B., Zhang, H.Z., 2021. Spatially variable provenance of the Chinese Loess Plateau. Geology 49, https://doi.org/10.1130/G48867.1.2021. (SCI)

[4]Liu, X.J.*, Cong, L, Li, X.Z., Madsen, D.*, Wang, Y.X., Liu, Y.G., Peng, J., 2020. Climate Conditions on the Tibetan Plateau During the Last Glacial Maximum and Implications for the Survival of Paleolithic Foragers. Frontiers in Earth Science 8: 606051. (SCI)

[5] Li, G.Q.*, Zhang, H.X., Liu X.J.*, Yang, H., Wang, X.Y., Zhang, X, J., Jonell, T., et al., 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. (SCI)

[6] Liu X.J.*, Zhang X.J., Lin Y.L., Jin L.Y., Chen F.H., 2019. Strengthened Indian summer monsoon brought more rainfall to the western Tibetan Plateau during the early Holocene. Science Bulletin 64, 1482-1485. (SCI)

[7] Liu X.-J.*, Cong L., An F.Y., E C.Y., 2019. Downwind aeolian sediment accumulations associated with lake-level variations of the Qinghai Lake during the Holocene, Northeastern Qinghai–Tibetan Plateau. Environmental Earth Sciences 78: 19, 1-12. (SCI)

[8] Jiang, T.*, Liu, X.-J.*, Yu, T., Hu, Y.P., 2018. OSL dating of late Holocene coastal sediments and its implication for sea-level eustacy in Hainan Island, Southern China. Quaternary International 468, 24-32. (SCI)

[9] Wang Y.X.*, Chen T.Y., E C.Y., An F.Y., Lai Z.P., Zhao L., Liu X.-J.*, 2018. Quartz OSL and K-feldspar post-IR IRSL dating of loess in the Huangshui river valley, northeastern Tibetan plateau, Aeolian Research 33, 23-32. (SCI)

[10] Li, X.Z.*, Liu, X.-J.*, He, Y.X., Liu, W.G., Zhou, X, Wang, Z., 2018. Summer moisture changes in the Lake Qinghai area on the northeastern Tibetan Plateau recorded from a meadow section over the past 8400yrs. Global and Planetary Change 161, 1-9. (SCI)

[11] Liu, X.-J.*, Xiao, G.Q., E, C.Y., Li, X.Z., Lai, Z.P., Yu, L.P., Wang, Z., 2017. Accumulation and erosion of aeolian sediments in the northeastern Qinghai-Tibetan Plateau and implications for provenance to the Chinese Loess Plateau. Journal of Asian Earth Sciences 135, 166-174. (SCI)

[12] Liu X.-J.*, Madsen D.B., Liu R.Y., Sun Y.J., Wang Y.X., 2016. Holocene lake level variations of Longmu Co, western Qinghai-Tibetan Plateau. Environmental Earth Sciences V75, 301. (SCI)

[13] Liu, X.-J.*, Lai, Z.P., Madsen, D., Zeng, F.M., 2015. Last Deglacial and Holocene lake level variations of Lake Qinghai, northeastern Qinghai-Tibetan Plateau. Journal of Quaternary Science V30, 245-257. (SCI)

[14] Liu, X.-J.*, Lai, Z.P., Yi, C.L., Lei, Y.B., 2013. Long term east-west asymmetry in monsoon rainfall on the Tibetan Plateau: Comment. Geology V41（12）, e311. doi:10.1130/G34548C.1. (SCI)

[15] Liu, X.-J.*, Lai, Z.P., Zeng, F.M., Madsen, D.B., E，C.Y., 2013. Holocene lake level variations on the Qinghai-Tibetan Plateau. International Journal of Earth Sciences 102, 2007-2016. (SCI)

[16] Liu, X.-J.*, Lai, Z.P., 2013. Optical dating of sand wedges and ice‐wedge casts from Qinghai Lake area on thenortheasternQinghai‐Tibetan Plateau and its palaeoenvironmental implications. Boreas 42, 333-341. (SCI)

[17] Liu, X.-J., Lai, Z.P.*, Yu, L.P., Sun, Y.J., Madsen, D.B., 2012. Luminescence chronology of aeolian deposits from the Qinghai Lake area in the Northeastern Qinghai-Tibetan Plateau and its palaeoenvironmental implications. Quaternary Geochronology 10, 37-43. (SCI)

[18] Liu, X.-J.*, 2012. The Late Quaternary Lake Level History of Qinghai Lake in NE Tibetan Plateau Based on Optically Stimulated Luminescence Dating. Ancient TL 30, 65.

[19] Liu, X.-J., Lai, Z.P.*, Yu, L.P., Liu, K., Zhang, J.R., 2011. Lake level variations of Qinghai Lake in northeastern Qinghai-Tibetan Plateau since 3.7 ka based on OSL dating. Quaternary International 236, 57-64. (SCI)

[20] Liu, X.-J., Lai, Z.P.*, Long, H., Fan, Q.S., Sun, Y.J., 2010. Timing of high lake levels of Qinghai Lake in the Qinghai-Tibetan Plateau since Last Interglaciation based on quartz OSL dating. Quaternary Geochronology 5, 218-222. (SCI)

[21] Liu, X.-J.*, Lai, Z.P., Ma, Y.W., Yu, L.P., 2010. Land cover changes in Qaidam Area from 2000 to 2008. IEEE conference on Multiple Media-special issues on Remote Sensing, 978-1-4244-7873-6/10/$26.00.2010 Crown,1387-1390. (EI)

[22] Liu X.-J.*, 2018. Seasonal temperature and precipitation influenced Holocene environmental changes in Qinghai Lake, Northeastern Qinghai–Tibetan Plateau. Journal of Salt Lake Research 26 (2), 16-26. (CSCD)

[23] 丛禄, 王懿萱*, 孙爱军, 高东林, 刘向军*, 2021. 青藏高原中部当穹错末次冰消期以来湖面变化研究. 第四纪研究, 41(6): 1619-1631. (CSCD)

[24] 陈晓良，刘向军*，侯光良，2020. 青海省东北部地区中晚全新世人类对动物资源的获取与利用. 第四纪研究 40 (2), 367-378. (CSCD)

[25] 刘向军，赖忠平，Madsen DB，李国强，于禄鹏，黄昶，陈发虎，2018.晚第四纪青海湖高湖面研究. 第四纪研究 38（5），1166-1178. (CSCD)

[26] 王中，刘向军*，丛禄，2017.青海湖东岸末次冰期冰盛期和早全新世沙漠范围重建. 盐湖研究25（2），67-75. (CSCD)

[27] 刘向军*，黄朝晖，曾方明，鄂崇毅，2014.中国西部及邻区现代年降水时空分布初步研究. 盐湖研究V22（2），1-7. (CSCD)

[28] 刘向军，赖忠平*，2010.青海湖晚第四纪湖面变化研究. 地球环境学报V2, 79-89. (CSCD)

荣誉与奖励

[1]中科院朱李月华博士生奖学金（2011年）

[2]博士学位论文入选中国科学院百篇优秀博士学位论文（2013年）

[3]王宽诚国际会议基金资助，赴加拿大参加第14届国际释光和电子自旋共振大会（2014年）

[4]青海盐湖所先进工作者（2016年、2017年和2018年）

[5]青海省自然科学优秀学术论文三等奖（第一作者，2018年）

[6]中国科学院兰州分院优秀青年（2018年）

[7]青年地学论坛特别贡献奖（2021年）

[8]嘉应学院高峰人才骨干人才B岗（2022-2026年）