孙爱军
孙爱军,男,1986年生,副教授,博士,塔里木大学水利与建筑工程学院测绘工程系专任教师,硕士研究生导师,自治区“天池英才”获得者,测绘工程学科带头人,资源与环境专业硕士学科带头人,中国地理协会会员。
一、研究方向
主要从事内陆河流域水文绿洲演化与气候变化和人类活动耦合关系、盐碱地综合治理研究。
二、科研项目与学术成果
目前主持国家及省部科研项目4项,发表论文20余篇,SCI收录论文15篇、中文核心7篇、在Nature Geoscience, Earth Science Reviews, Quaternary Science Reviews等顶级期刊发表论文10余篇,做会议报告10余场,获优秀报告奖2次。
(一)主持重要科研项目:
(1) 国家自然科学基金项目,全新世塔里木河演化与流域人类
活动耦合关系研究,42561023,2026-2029,31万元。
(2)部省合作项目,南疆兵团盐碱未利用地综合利用课题研究(JWZB(2024)Z-502),2024-2025,33.6万元。
(3)兵团科技计划项目•重点领域科技攻关项目子课题,南疆荒漠绿洲过渡带盐碱地治理关键技术研发与应用,2025AB047,2025-2028,63万。
(4)新疆维吾尔自治区“天池英才”引进计划,青年博士项目, 2026-2028,525303002,60万。
(5)塔里木大学校长基金,塔里木盆地末次冰消期以来绿洲演化及其影响因素分析,2025-2028,1125273,40万。
(二)主要成果:
1、代表性期刊论文:
[1] Sun, A.J., Zhao, H., Ma, M.M., Liu, B., Li, Y., Shi, Z.L., Wang, K.Q., Li, D.X., Xu, Y.J., Chen, F.H. Southward retreat of the Keriya River drove human migration in the Taklimakan Desert during the late Holocene[J]. Quaternary Science Reviews. 2024, 332, 108665.
[2] Sun, A.J., Li, H.R., Zhang, S.J, Cao, H.H., Qiu, M.H., Wang, Y.Q., Liu, B., Zhao, H., Dong, G.H. Impact of climate-driven oasis evolution on human settlement in the Baiyang River Basin, northwest China, Hami, during the middle to late Holocene[J]. Palaeogeography, Palaeoclimatology, Palaeoecology. 2023, 622, 111602.
[3] Liu, B., Sun, A.J., Zhao, H., Fan, Y.X., Yang, L.H., Li, Y., Li, S., Wang, K.Q. Physicochemical properties of surface sediments in the Taklimakan desert, northwestern China, and their relationship with oasis–desert evolution[J]. Catena. 2022, 208, 105751.
[4] Xu, Y.J., Zhao, H., Liu, B., Sun, A.J., Wang, K.Q., Li, D.X., Wei, J.J., Ge, J.H. Development of a physicochemical proxy index system for surface sediments in the Gurbantunggut Desert and its application to regional oasis-desert evolution. Palaeogeography, Palaeoclimatology, Palaeoecology[J]. 2025, 662, 112751.
[5] Li, D.X., Zhao, H., Xie, H.C., Sun, A.J., Khormali, F., Wang, X., Wang, Q., Lahijani, H., Nashli, H.F., Xu, Y.J., Chen, F.H. Loess-paleosol sedimentological characteristics in northern Iran since the last interglacial and their paleoenvironmental significance[J]. Quaternary Science Reviews. 2025, 354, 109213.
[6] Liu, B., Jin, H.L., Zhao, H., Jin, J.H., Sun, A.J., Wang, X.F., Zhang, X.M., Ge, J.H., Xu, Y.J., Liu, J.B. End-member analysis of the grain size of surface sediments used to synthesize Holocene aeolian activity across the Ordos Plateau in northern China[J]. Geoderma. 2025, 460, 117400.
[7] Zhang, W.S., Ding, G.Q., Zhang, Y., Li, Y.C., Li, B., Lu, C., Tan, B., Sun, A.J., Fu, Y., An, C.B. Evolution of fire activity in arid Central Asia since 12.9 ka: Transitioning from natural to anthropogenic forces[J]. Catena. 2025, 257, 109213.
[8] Li, D.X., Zhao, H., Xie, H.C., Farhad Khormali, Sun, A.J., Zhang, S., Influence of Na-feldspar grains within the K-feldspar fraction on sediments IRSL dating[J]. Quaternary International. 2024, 698, 49-58.
[9] Wang, L.B., Chen, S.M., Zhao, H., Fan, Y.X., Sun, A.J., Cai, Q.S., Deng, H.Z., Ai, J., Zhang, H.W. Thermoluminescence dating of gypsum in loess deposits[J]. Quaternary Geochronology. 2024, 81, 101501.
[10] Liu, B., Zhao, Y.T., Liang, A.M., Sun, A.J., Zhang, Z.C., Ge, J.H., Zhao, H., Chen, F.H. Quantitative contributions of different atmospheric circulation systems to Holocene aeolian activity in northwestern China: Evidence from a closed interdune lake in the Tengger Desert hinterland[J]. Global and Planetary Change. 2024, 243, 104621.
[11] Liu, B., Zhao, H., Jin, H.L., Liang, A.M., Sun, A.J., Zhang, X.M., Zhang, C.X., Jin, J.H., Yang, H.Y., Li, S. Quantitative estimates of Holocene precipitation from aeolian sand-palaeosol sequences across the Ordos Plateau, northern China, based on surface soil geochemistry[J]. Catena. 2023, 229, 107232.
[12] Liu, B., Zhao, H., Yang, F., Liang, A.M., Sun, A.J., Niu, Q.H., Li, S. A new aeolian activity proxy based on analysis of the grain size characteristics of surface soils across the Tengger Desert, northwest China, and its application to a Quaternary aeolian succession[J]. Palaeogeography, Palaeoclimatology, Palaeoecology. 2023, 622, 111594.
[13] Zhang, S., Zhao, H., Sheng, Y.W., Zhang, J.F., Zhang, J.J., Sun, A.J., Wang, L.B., Huang, L.X., Hou, J.Z., Chen, F.H. Mega-lakes in the northwestern Tibetan Plateau formed by melting glaciers during the last deglacial[J]. Quaternary Science Reviews. 2022, 285, 107528.
[14] Liu, B., Zhao, H., Li, S.H., Jin, H.L., Li, Y., Wang, H.P., Sun, A.J., Xu, Y.J., Wang, K.Q. Asynchronous palaeosol development during the past 20 ka in response to climate change across the dune fields of the Asian summer monsoonal boundary, northern China[J]. Earth-Science Review. 2022. 234, 104232.
[15] Meijer, N., DupontNivet, G., Licht, A., Roperch, P., Rohrmann, A., Sun, A.J., Lu, S.C., outersen, A., Nowaczyk, N. Early Eocene magnetostratigraphy and tectonic evolution of the Xining Basin, NE Tibet[J]. Basin Research, 2022, 00, 1-20.
[16] 孙爱军,赵晖,刘冰,汪克奇,晁倩,史志林,陈发虎.末次冰盛期以来塔里木盆地绿洲演化研究进展与问题[J].干旱区地理,2022,45(6),1761-1771.
[17] 徐宇杰,刘冰,孙爱军,汪克奇,李冬雪,赵晖.古尔班通古特沙漠及周边区域全新世环境演变研究进展[J].干旱区地理,2023,46(4),550-562.
[18] 葛健辉,刘冰,徐宇杰,孙爱军,汪克奇,李冬雪,赵晖.末次冰消期以来黄河首曲流域气候变化与地表过程相互关系[J].中国沙漠,2024,44(2),121-132.
[19] 丛禄,王懿萱,孙爱军,高东林,刘向军.青藏高原中部当穹错末次冰消期以来湖面变化研究[J].第四纪研究,2021,41(6),1619-1631.
[20] 晁倩,赵晖,侯居峙,张帅,孙爱军,汪克奇,杨宏宇.中国干旱-半干旱区表土bGDGTs与气候环境因子数据再分析[J].第四纪研究,2022,42(2),449-460.
[21] 张小梅,靳鹤龄,刘冰,梁晓磊,梁爱民,孙爱军.末次盛冰期以来库布齐沙漠有效湿度变化及其对全球变化的响应[J].地球科学进展,2022,37(7),1-13.
2、会议报告:
[1] 2023届“气候变化与人类文明演化”,塔里木盆地绿洲演化与气候变化和人类活动的关系,云南大学/2023.04;
[2] 中国第十八届释光与电子自旋共振测年学术讨论会,光释光年代揭示的塔里木盆地绿洲演化过程,云南大学/2023.05;
[3] 中国第七届环境考古学大会,塔里木盆地绿洲演化与人类活动的关系,河南大学/2023.10;
[4] 2023 年中国地理学会(西北地区)学术年会,光释光年代揭示的克里亚河全新世演化过程,兰州大学/2023.11;
[5] 2024年新疆地理学术年会,克里亚河退缩引起人类活动向塔里木盆地南部迁移,新疆大学/2024.07;
三、联系方式
E-mail:2078218368@qq.com
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