熊小林研究员，1963年3月生，1984年毕业于中国地质大学矿床学专业；1992年和1995年分获南京大学地球化学硕士和博士学位；1996-1997年为中国科学院广州地球化学研究所博士后，1998年任副研究员，1999年晋升为研究员，博士生导师。2003年3月至9月澳大利Macquarie大学访问学者；2006年10月至2007年9月德国Bayreuth大学实验地球化学和地球物理研究所（欧洲高压实验中心）访问学者；2008年获国家杰出青年科学基金。现为研究所学术委员会委员，兼任《大地构造与成矿学》编委，中国矿物岩石地球化学学会实验地球化学专业委员会委员。

主要从事深部过程实验地球化学研究；先后主持国家自然科学基金重点、面上项目和973项目子课题等项目十余个。主要学术成果：（1）运用活塞圆筒和快速淬火高压釜实验技术，系统研究变质玄武岩体系相平衡和金红石稳定条件，限定俯冲洋壳熔融产生TTG岩浆压力P>~1.5GPa（50公里），拓展了俯冲洋壳熔融条件知识和TTG/埃达克岩成因理论；（2）测定了变质玄武岩部分熔融过程中矿物/熔体微量元素分配系数，通过微量元素岩石成因模拟，揭示TTG/埃达克岩浆由含金红石角闪榴辉岩熔融产生，修正了前人关于TTG/埃达克岩石成因和早期大陆壳生长模型；（3）发现全球俯冲带埃达克岩Na亏损，通过熔体-地幔反应相平衡研究和定量计算，提出埃达克熔体Na亏损与地幔Na交代耦合关系新认识，为地幔Na交代作用提供了重要依据，补充和发展了熔体-地幔反应过程新知识；（4）通过氟对花岗岩相平衡影响和含氟花岗岩浆结晶分异实验，限定富氟花岗岩最低固相线温度大约490^oC，揭示含氟花岗岩浆通过结晶分异演化产生低温富氟花岗质熔体，提供了花岗岩浆-热液过渡成岩成矿过程的关键依据。发表SCI论文40余篇，SCI引用400余次。

1. 深部过程实验地球化学

2. 火成岩有关的矿床成矿物质富集过程的实验研究

3. 花岗岩与成矿关系

1. Xiong, X.L. Trace element evidence for the growth of early continental crust by melting of rutile-bearing hydrous eclogite. Geology 2006, 34: 945-948.

2. Xiong, X.L., Xia, B., Xu, J.F. Na depletion in modern adakites via melt/rock reaction within the sub-arc mantle. Chemical Geology, 2006, 229:273-292.

3. Xiong, X.L., Adam, J. and Green, T.H. Rutile stability and rutile/melt HFSE partitioning during partial melting of hydrous basalt: Implications for TTG genesis. Chemical Geology, 2005, 218:339-359.

4. Xiong X.L., Li X.H., Xu J.F., Li W.X., Zhao Z.H., Extremely high-Na adakite-like magmas derived from alkali-rich basaltic underplate. Geochemical Journal, 2003, 37:233-252.

5. Xiong X.L., Rao B, Zhu J.C. Crystallization and melting experiments of a fluorine-rich leucogranite from Xianghualing Pluton, South China. Journal of Asian Earth Sciences, 2002, 21:175-188.

6. Xiong Xiaolin, Zhao Zhenhua, Zhu Jinchu and Rao Bing. Phase relations in albite granite-H₂O-HF system and their petrogenetic applications, Geochemical Journal, 1999, 33:199-214.

7. Xiong, X.L., Adam, J. and Green, T.H. Trace element characteristics of partial melts of metabasalt and the formation conditions of adakitic melts. Science in China, Series D, Earth Sciences, 2006, 49(9): 915-925.

8. Xiong Xiaolin, Zhao Zhenhua. Adakite-type sodium-rich rocks in Awulale of west Tianshan: Significance for vertical growth of continental crust, Chinese Science Bulletin，2001，46(7)：811-817.

9. Xiong Xiaolin, Zhao Zhehua. Alkalic-type epithermal gold mineralization associated with.Tongshi complex in Pinyi County, Shandong Province. Chinese Science Bulletin，1999, 44: 236-238.

10. Xiong Xiaolin, Zhu Jinchu and Rao Bing. A preliminary experimental investigation on genesis of topaz greisen, Chinese Science Bulletin，1996, 41(17)：1451-1454.

11. Z.H. Zhao, X.L. Xiong, Q. Wang, D.A. Wyman. Underplating-related adakites in Xinjiang Tianshan, China. Lithos, 2008, 102:374-391

12. Z.H. Zhao, Q. Wang, X.L. Xiong, Magnesian andesites in North Xinjiang, China. International Journal of Earth Sciences 2008, DOI 10.1007/s00531-008-0339-7

13. Zhao Zhenhua, Xiong Xiaolin, Wang Qiang, Association of late Paleozoic adakitic rocks and shoshonitic volcanic rocks in the Western Tianshan, China. Acta Geologica Sinica, 2004, 78 (1): 68-72

14. Zhao Zhenhua, Xiong Xiaolin, Wang Qiang, Bao Zhiwei. Alkaline-rich igneous rocks and related large-superlarge gold-copper mineralizations in China. Science in China, Series D, 2003, 46: 1-13.

15. Zhao Zhenhua, Xiong Xiaolin, Han Xiaodong. Controls on the REE tetral effect in granites: Evidence from the Qianlishan and Baerzhe Granites, China. Geochemical Journal, 2002, 36: 527- 543.

16. Zhu, J.C., Li, F.C., Xiong, X.L.. Topaz-albite granites and rare-metal mineralization in the Limu district, Guangxi Province, southeast China. Mineralium Deposita, 2001, 36: 393-405

17. C-S Liu, H-F Ling, X-L Xiong, W-Z Shen, D-Z Wang. An F-rich Sn-bearing volcanic-intrusive complex in Yanbei, South China: Economic Geology, 1999, 94: 325-342.