康树刚，男，博士，研究员，硕导，中国科学院青促会优秀会员，陕西省杰青项目获得者。2004年获吉林大学资源勘查工程学士学位；2009年获中国科学院地球环境研究所第四纪地质学博士学位；2009年起历任中国科学院地球环境研究所助研（2009―2013）、副研（2013―2021）和研究员（2021起）；2015年曾对英国Aberystwyth University释光测年实验室进行半年学术访问。任《地理科学》编委、《Global and Planetary Change》客座编辑等。

从事黄土与古气候、释光年代学、古气候与人类活动等研究。近年来，建立晚更新世以来中国黄土多时间尺度释光年代标尺、重建黄土记录的末次冰盛期以来冬夏季风—水汽/湿度—粉尘活动—温度等变化过程、预估未来全球变暖情境下我国北方粉尘活动和冬季风变化等。相关成果共发表论文45篇，被引1200余次；其中以第一/通讯作者发表在Geology、Global and Planetary Change、Quaternary Science Reviews、Quaternary Geochronology等地学知名期刊上共19篇（被引超50次7篇）。

主持过国家自然科学基金青年和面上项目、中国科学院青促会会员和优秀会员项目、中国科学院西部之光项目、陕西省杰出青年基金项目、黄土与第四纪地质国家重点实验室培育项目；作为骨干参与过科技部重点研发计划项目、中国科学院战略性先导科技专项、第二次青藏高原科学考察专项、崂山实验室重大项目等。

第一/通讯作者论文

1. Shu, P.X.*, Niu, D.F., Song, Y.G., Si, Y.J., Kang, S.G.*, Li, B.S., Zhou, W.J., An, Z.S., 2025. Dust emissions in the arid Asian interior and abrupt changes in midlatitude atmospheric circulation during the glacial-Holocene transition. Global and Planetary Change 248, 104758.

2. Kang, S.G.*, Wang, X.L., Wang, N., Huang, H., 2024. An OSL-dated, stacked Holocene dust mass accumulation rate record on the Chinese Loess Plateau and its implications for Northern Hemisphere dust activity. Global and Planetary Change 242, 104600.

3. Zheng, Y.H.*, Kang, S.G.*, Li, J.H., Yu, S.Y., Lan, M.W., Wang, J.Y., 2024. A sedimentary lipid biomarker record of Holocene temperature variations and drought events in northern China. Palaeogeography, Palaeoclimatology, Palaeoecology 654, 112468.

4. Kang, S.G.*, Huang, H., Wang, X.L., 2024. Luminescence dating of sandy loess along the middle Yellow River and its implications for aeolian–fluvial interactions. Quaternary Geochronology 83, 101584.

5. Li, G.Q*., Yan, Z.F., Song, Y.G.*, Fitzsimmons, K.E.*, Yi, S.W.*, Kang, S.G.*, E. C.Y.*, Stevens, T.*, Lai, Z.P.*, Dave, A.K.*, Chen, C.Z.*, Deng, Y.Q.*, Yang, H*, Wang, L.B., Zhang, X.J., Qin, C.X., Zhao, Q.Y., Buylaert, J.-P., Lu, T., Wang, Y.X., Liu, X.J., Ling, Z.Y., Chang, Q.F., Wei, H.T., Wang, X.Y., Chen, F.H.*, 2024. A comprehensive dataset of luminescence chronologies and environmental proxy indices of loess-paleosol deposits across Asia. npj Climate and Atmospheric Science 7, 7.

6. Kang, S.G.*, Wang, X.L., Du, J.H., Song, Y.G., 2022. Paleoclimates inform on a weakening and amplitude-reduced East Asian winter monsoon in the warming future. Geology 50, 1224-1228.

7. Kang, S.G.*, Wang, X.L., Wang, N., Song, Y.G., Liu, W.G., Wang, D., Peng, J., 2022. Siberian High modulated suborbital-scale dust accumulation changes over the past 30 ka in the eastern Yili Basin, Central Asia. Paleoceanography and Paleoclimatology 37, e2021PA004360.

8. Kang, S.G.*, Wang, X.L., Roberts, H.M., Duller, G.A.T., Song, Y.G., Liu, W.G., Zhang, R., Liu, X.X., Lan, J.H., 2020. Increasing effective moisture during the Holocene in the semiarid regions of the Yili Basin, Central Asia: evidence from loess. Quaternary Science Reviews 246, 106553.

9. Kang, S.G.*, Du, J.H., Wang, N., Dong, J.B., Wang, D., Wang, X.L., Qiang, X.K., Song, Y.G., 2020. Early Holocene weakening and mid- to late Holocene strengthening of the East Asian Winter Monsoon. Geology 48, 1043-1047.

10. Kang, S.G.*, Wang, X.L., Roberts, H.M., Duller, G.A.T., Cheng, P., Lu, Y.C., An, Z.S., 2018. Late Holocene anti-phase change in the East Asian summer and winter monsoons. Quaternary Science Reviews 188, 28-36.

11. Kang, S.G.*, Roberts, H.M., Wang, X.L., An, Z.S., Wang, M., 2015. Mass accumulation rate changes in Chinese loess during MIS 2, and asynchrony with records from Greenland ice cores and North Pacific Ocean sediments during the Last Glacial Maximum. Aeolian Research 19, 251-258.

12. Kang, S.G.*, Wang, X.L., Lu, Y.C., Liu, W.G., Song, Y.G., Wang, N., 2015. A high-resolution quartz OSL chronology of the Talede loess over the past ~ 30 ka and its implications for dust accumulation in the Ili Basin, Central Asia. Quaternary Geochronology 30, 181-187.

13. Kang, S.G.*, Wang, X.L., Lu, Y.C., 2013. Quartz OSL chronology and dust accumulation rate changes since the Last Glacial at Weinan on the southeastern Chinese Loess Plateau. Boreas 42, 815-829.

14. Kang, S.G.*, Wang, X.L., Lu, Y.C., 2012. The estimation of basic experimental parameters in the fine-grained quartz multiple-aliquot regenerative-dose OSL dating of Chinese loess. Radiation Measurements 47, 674-681.

15. Kang, S.G.*, Lu, Y.C., Wang, X.L., 2011. Closely-spaced recuperated OSL dating of the last interglacial palaeosol in the southeastern margin of Chinese Loess Plateau. Quaternary Geochronology 6, 480-490.

16. Kang, S.G., Wang, X.L., Li, X.N., Lu, Y.C*，2010. Anomalous fading of the IRSL signal of polymineral grains in Chinese loess. Radiation Measurements 45, 22-28.

合作作者论文

1. Shu, P.X., Zhou, W.J., Putnam, A.E., Li, B.S., Kang, S.G., Sha, Y.Y., Shi, Z.G., Ming, G.D., Wang, H., Sun, Y.B., Wright, D.K., Liu, W.G., Liu, X.D., Cheng, P., Song, Y.G., Niu, D.F., Dodson, J.R., Du, H., Zhao, J.J., Zhang, Z.K., Qiu, Y.H., An, Z.S., 2025. Intensified monsoonal rainstorm events over westerly-dominated Asian interior during the warm mid-Holocene. Communications Earth & Environment 6, 72.

2. Wang, D., Chen, L.C., Chang, H., Kang, S.G., Jia, Y.S., Du, J.H., Li, Y.B., Yin, G.M., Zheng, W.J., Wang, X.L., 2025. Late Quaternary vertical throw rates along the Gyaring Co fault incentral Tibet. Journal of Asian Earth Sciences 280, 106484.

3. Song, Y.G., Wei, H.R., Xie, M.P., Kang, S.G., Zong, X.L., Shukurov, N., Shukurov, S., Li, Y., Li, Y., Zhang, M.Y., 2024. New insights into Holocene dust activity in eastern Uzbekista. Global and Planetary Change 243, 104633.

4. Li, J.J., Jansen, J.D., Fan, X.M., Ding, Z.Y., Kang, S.G., Lovati, M., 2024. Terrace formation linked to outburst floods at the Diexi palaeo-landslide dam, upper Minjiang River, eastern Tibetan Plateau. Earth Surface Dynamics 12, 953–971.

5. Zhao, Q.Y., Peng, S.Z., Liu, X.Y., Ding, M., Wang, L., Hao, Q.Z., Kang, S.G., Zhang, W., Xiong, R.W., Yue, J.S., Fan, T., 2024. Multi-step post-IR IRSL dating and palaeoclimate implications from 270 to 90 ka in the Central Shandong Mountains, eastern China. Quaternary Geochronology 83, 101590.

6. Jia, Y.N., Yan, H., Dong, J.B., Kang, S.G., Wang, G.Z., Liu, C.C., Zhang, Q., Dodson, J., 2024. Hydrothermal and eco-environmental evolution on the southeastern Chinese Loess Plateau since the last deglaciation: evidence from terrestrial mollusk records. Quaternary Science Reviews 331, 108648

7. Zhang, J.G., Lv, D.Y., Chen, H.Y., Yu, C., Zhao, K.H., Liu, X.X., Liu, Y.M., Zhang, H., Liu, B., Qiang, X.K., Kang, S.G., Sun, Y.B., 2024. Evolution of sedimentary environment in the Eastern Henan Basin since theLate Pliocene. Palaeogeography, Palaeoclimatology, Palaeoecology 633, 111896.

8. Liu, X.X., Wu, J., Vandenberghe, J., Chang, H., Shi, Z.G., Guo, F., Song, Y.G., Cheng, P., Kang, S.G., Lan, J.H., Ding, Y.D., Fan, H.M., Liu, Y.M., Zhang, H., Sun, Y.B., 2023. Co-evolution of orbital-to-millennial East Asian monsoon and westerlies variability over the past 150 ka. Quaternary Science Reviews 317, 108281.

9. Li, H.W., Yang, X.P., Scuderi, L.A., Hu, F.G., Liang, P., Jiang, Q.D., Buylaert, J.P., Wang, X.L., Du, J.H., Kang, S.G., Ma, Z.B., Wang, L.S., Wang, X.F., 2023. East Gobi megalake systems reveal East Asian Monsoon dynamics over the last interglacial-glacial cycle. Nature Communications 14, 2103.

10. Shu, P.X., Kang, S.G., Shi, Z.G., Grimley, D.A., Zhang, Z.K., Zhao, J.J., Wang, H., Zhou, W.J., An, Z.S., 2023. Southward migration of the monsoonal rainbelt hinders paleosol development and preservation in north-central China dunefield after the Middle-Late Holocene Transition. Quaternary Science Reviews 301, 107919.

11. Liu, X.X., Yang, H., Kang, S.G., Vandenberghe, J., Ai, L., Shi, Z.G., Cheng, P., Lan, J.H., Wang, X.L., Sun, Y.B., 2022. Centennial-scale East Asian winter monsoon variability within the Younger Dryas. Palaeogeography, Palaeoclimatology, Palaeoecology 601, 111101.

12. Peng, J., Wang, X.L., Yin, G.M., Adamiec, G., Du, J.H., Zhao, H., Kang, S.G., Hu, G.Y., Zheng, Y., 2022. Accumulation of aeolian sediments around the Tengger Desert during the late Quaternary and its implications on interpreting chronostratigraphic records from drylands in north China. Quaternary Science Reviews 275, 107288.

13. Shao, Y., Gong, H.Z., Elachi, C., Brisco, B., Liu, J.Q., Xia, X.C., Guo, H.D., Geng, Y.Y., Kang, S.G., Liu, C.A., Yang, Z., Zhang, T.T., 2022. The lake-level changes of Lop Nur over the past 2000 years and its linkage to the decline of the ancient Loulan Kingdom. Journal of Hydrology: Regional Studies 40, 101002.

14. Lan, J.H., Wang, T.L., Dong, J.B., Kang, S.G., Cheng, P., Zhou, K.E., Liu, X.X., Wang, Y.Q., Ma, L., 2021. The influence of ice sheet and solar insolation on Holocene moisture evolution in northern Central Asia. Earth-Science Reviews 217, 103645.

15. Song, Y.G., Li, Y., Cheng, L.Q., Zong, X.L., Kang, S.G., Ghafarpour, A., Li, X.Z., Sun, H.Y., Fu, X.F., Dong, J.B., Mamadjanov, Y., Orozbaev, R., Shukurov, N., Gholami, H., Shukurov, S., Xie, M.P., 2021. Spatio-temporal distribution of Quaternary loess across Central Asia. Palaeogeography, Palaeoclimatology, Palaeoecology 567, 110279.

16. Cheng, L.C., Song, Y.G., Wu, Y.B., Liu, Y.G., Liu, H.F., Chang, H., Zong, X.L., Kang, S.G., 2021. Drivers for asynchronous patterns of dust accumulation in Central and Eastern Asia and in Greenland during the Last Glacial Maximum. Geophysical Research Letters 48, e2020GL091194.

17. Liu, Y.M., Liu, X.X., Ma, L., Kang, S.G., Qiang, X.K., Guo, F., Sun, Y.B., 2020. Temporal–spatial variations in aeolian flux on the Chinese Loess Plateau during the last 150 ka. Geological Magazine 157, 757–767.

18. Lan, J.H., Xu, H., Lang, Y.C., Yu, K.K., Zhou, P., Kang, S.G., Zhou, K.E., Wang, X.L., Wang, T.L., Cheng, P., Yan, D.N., Yu, S.Y., Che, P., Ye, Y.D., Tan, L.C., 2020. Dramatic weakening of the East Asian summer monsoon in northern China during the transition from the Medieval Warm Period to the Little Ice Age. Geology 48, 307-312.

19. Liu, C.C., Yan, H., Fei, H.B., Shi, G., Cheng, P., Wen, H.F., Kang, S.G., Li, M., Soon, W., Dodson, J., Zhou, W.J., An, Z.S., 2020. Dynamic of Tridacna spp. population variability in northern SCS over past 4500 years derived from AMS 14C dating. Science of the Total Environment 748, 141359.

20. Lan, J.H., Zhang, J., Cheng, P., Ma, X.L., Ai, L., Chawchai, S., Zhou, K.E., Wang, T.L., Yu, K.K., Sheng, E.G., Kang, S.G., Zang, J.J., Yan, D.N., Wang, Y.Q., Tan, L.C., Xu, H., 2020. Late Holocene hydroclimatic variation in central Asia and its response to mid-latitude Westerlies and solar irradiance. Quaternary Science Reviews 238, 106330.

21. Song, Y.G., Luo, D., Du, J.H., Kang, S.G., Cheng, P., Fu, C.F., Guo, X.H., 2018. Radiometric dating of late Quaternary loess in the northern piedmont of South Tianshan Mountains: Implications for reliable dating. Geological Journal 53, 417-426.

22. Albani S., Mahowald N.M., Winckler G., Anderson R.F., Bradtmiller L.I., Delmonte B., François R., Goman M., Heavens N.G., Hesse P.P., Hovan S.A., Kang S.G., Kohfeld K.E., Lu H., Maggi V., Mason J.A., Mayewski P.A., McGee D., Miao X., Otto-Bliesner B.L., Perry A.T., Pourmand A., Roberts H.M., Rosenbloom N., Stevens T., Sun J., 2015. Twelve thousand years of dust: the Holocene global dust cycle constrained by natural archives. Climate of the Past 11, 869-903.

23. Wang, X.L., Wintle, A.G., Du, J.H., Kang, S.G., Lu, Y.C., 2011. Recovering laboratory doses using fine-grained quartz from Chinese loess. Radiation Measurements 46, 1073-1081.