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。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，建立中国黄土多时间尺度释光年代标尺、重建黄土记录的冬夏季风—水汽/湿度—粉尘活动—温度等变化过程、预估未来粉尘活动和冬季风变化等。共发表论文41篇，其中以第一/通讯作者发表在Geology、GPC、QSR、QG等地学知名期刊上共18篇，被引约1100次，H指数17。

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、青岛海洋国家实验室重大项目等。

 

 

第一/通讯作者论文

1. 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.

2. 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.

3. 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.

4. 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.

5. 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.

6. 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.

7. 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.

8. 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.

9. 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.

10. 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.

11. 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.

12. 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.

13. 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.

14. 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.

15. 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. 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.

2. 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.

3. 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

4. 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 the Late Pliocene. Palaeogeography,Palaeoclimatology,Palaeoecology 633,111896.

5. 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.

6. 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.

7. 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.

8. 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.

9. 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.

10. 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.

11. 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.

12. 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.

13. 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.

14. 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.

15. 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.

16. 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.

17. 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.

18. 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.

19. 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.

20. 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.