岩浆岩岩石学和地球化学专业，目前主要关注青藏高原中、新生代岩浆岩岩石成因、造山带演化、深部动力学过程及其资源环境效应等关键性科学问题。

        马林，男，1983年8月生，汉族，中共党员，副研究员。2006年毕业于兰州大学，获地质学学士学位。2009年毕业于中国科学院广州地球化学研究所，获构造地质学硕士学位。2013年毕业于中国科学院广州地球化学研究所，获地球化学博士学位并留所工作，任助理研究员。2016年1月晋升为副研究员。2016年11月获得国家留学基金管理委员会资助，赴英国卡迪夫大学地球与海洋科学学院开展为期一年的访问合作研究。近年来，主要从事青藏高原南部中、新生代岩浆岩的岩石成因、造山带演化和深部动力学过程，以及相关的资源环境效应等。主持或参与国家自然科学基金青年基金、国家重点研发专项、中科院战略先导专项等项目的研究。曾获得2013年度中国科学院院长优秀奖，入选2017年度中国科学院青年创新促进会会员。已发表国内外学术论文23篇，其中以第一作者身份在JPet、JGR、Chem. Geol.和Lithos等刊物发表SCI论文8篇。

    2016.11-2017.10  英国卡迪夫大学地球与海洋科学学院，访问学者； 

　　2022.01-至今    中国科学院广州地球化学研究所，研究员； 

　　2016.07-2021.12  中国科学院广州地球化学研究所，副研究员； 

　　2013.07-2015.12  中国科学院广州地球化学研究所，助理研究员； 

　　2009.07-2013.06  中国科学院广州地球化学研究所岩石地球化学专业，博士； 

　　2006.09-2009.06  中国科学院广州地球化学研究所构造地质学专业，硕士； 

　　2002.09-2006.07  兰州大学资源环境学院地质学系地质学专业，学士。 

(1)  Ma, L., Kerr, A.C., Wang, Q., Jiang, Z.Q., Tang, G.J., Yang, J.H., et al.. Nature and evolution of crust in southern Lhasa, Tibet: Transformation from microcontinent to juvenile terrane. Journal of Geophysical Research: Solid Earth, 2019, 124, 6452–6474.

(2) Ma, L., Wang, Q., Kerr, A.C., Yang, J.H., Xia, X.P., Ou, Q., Yang, Z.Y., Sun, P., 2018. Paleocene (ca. 62 Ma) leucogranites in southern Lhasa, Tibet: products of syn-collisional crustal anatexis during slab roll-back? Journal of Petrology, 58(11): 2089-2114.

(3) Ma, L., Kerr, A.C., Wang, Q., Jiang, Z.Q., Hu, W.L., 2018. Early Cretaceous (~140 Ma) aluminous A-type granites in the Tethyan Himalaya, Tibet: products of crust-mantle interaction during lithospheric extension. Lithos, 300-301, 212-226. doi: 10.1016/j.lithos.2017.11.023.

(4) Ma, L., Wang, Q., Li, Z.X., Wyman, D.A., Yang, J.H., Jiang, Z.Q., Liu, Y.S., Gou, G.N., Guo, H.F. 2017. Subduction of Indian continent beneath southern Tibet in the latest Eocene (~35 Ma): Insights from the Quguosha gabbros in southern Lhasa block. Gondwana Research, 41, 77-92, doi:10.1016/j.gr.2016.02.005.

(5) Ma, L., Wang, Q., Wyman, D. A., Jiang, Z.Q., Wu, F.Y., Li, X.H., Yang, J.H., Gou, G.N., Guo, H.F. 2015. Late Cretaceous back-arc extension and arc system evolution in the Gangdese area, southern Tibet: Geochronological, petrological, and Sr-Nd-Hf-O isotopic evidence from Dagze diabases, Journal of Geophysics Research: Solid Earth, 120, 6159–6181.

(6) Ma, L., Wang, B.D., Jiang, Z.Q., Wang, Q.*, Li, Z.X., Wyman, D.A., Zhao, S.R., Yang, J.H., Gou, G.N., Guo, H.F., 2014. Petrogenesis of the Early Eocene adakitic rocks in the Napuri area, southern Lhasa: partial melting of thickened lower crust during slab break-off and implications for crustal thickening in southern Tibet. Lithos, 196-197, 321-338.

(7) Ma, L., Wang, Q.*, Wyman, D.A., Jiang, Z.Q., Yang, J.H., Li, Q.L., Gou, G.N., Guo, H.F., 2013. Late Cretaceous crustal growth of southern Tibet: Petrological and Sr-Nd-Hf-O isotopic evidence from the Zhengga diorite-gabbro suites in the Gangdese area. Chemical Geology. 349–350, 54–70.

(8) Ma, L., Wang, Q.*, Li, Z.X., Wyman, D.A., Jiang, Z.Q., Yang, J.H., Gou, G.N., Guo, H.F., 2013. Early Late Cretaceous (ca. 93 Ma) norites and hornblendites in the Milin area, eastern Gangdese: lithosphere-asthenosphere interaction during slab roll-back and an insight into early Late Cretaceous (ca. 100-80 Ma) magmatic "flare-up" in southern Lhasa (Tibet). Lithos. 172–173, 17–30.

(9) Ma, L., Wang, Q.*, Wyman, D.A., Li, Z.X., Jiang, Z.Q., Yang, J.H., Gou, G.N., Guo, H.F.. 2013. Late Cretaceous (100-89 Ma) magnesian charnockites with adakitic affinities in the Milin area, eastern Gangdese: partial melting of subducted oceanic crust and implications for crustal growth in southern Tibet. Lithos. 175–176, 315–332.

(10) 马林，张海祥，张伯友，牛贺才. 2008. 新疆北部库尔提蛇绿岩中角闪片岩的原岩恢复及其成因．岩石学报，24（4）：673-680.

(11) Hao, L. L., Wang, Q., Wyman, D. A., Ma, L., Wang, J., Xia, X. P., Ou, Q.. First identification of postcollisional A-type magmatism in the Himalayan-Tibetan orogen. Geology. 47(2), 187–190.

(12) Ma, Y.M. Wang, Q., Wang, J., Yang, T.S., Tan, X.D., Dan, W., Zhang, X.Z., Ma, L., Wang, Z.L., Hu, W.L., Zhang, S.H., Wu, H.C., Li, H.Y., Cao, L.W., 2019. Paleomagnetic constraints on the origin and drift history of the North Qiangtang terrane in the Late Paleozoic. Geophysical Research Letters, 46, 689–697.

(13) Yang, Z.Y., Wang, Q., Zhang, C.F., Yang, J.H., Ma, L., Wang, J., Sun, P., Qi, Y., 2019. Cretaceous (~100？Ma) high-silica granites in the Gajin area, Central Tibet: Petrogenesis and implications for collision between the Lhasa and Qiangtang Terranes. Lithos, 324–325：402-417.

(14) Ou, Q., Wang, Q.*, Wyman, D. A., Zhang, C., Hao, L.-L., Dan, W., Jiang, Z.Q., Wu, F.-Y., Yang, J.-H., Zhang, H.-X., Xia, X.-P., Ma, L., Long, X.-P, Li, J.. 2018. Postcollisional delamination and partial melting of enriched lithospheric mantle: Evidence from Oligocene (ca. 30 Ma) potassium-rich lavas in the Gemuchaka area of the central Qiangtang Block, Tibet. Geological Society of American Bulletin, 130, in press, https://doi.org/10.1130/B31911.1.

(15) Hao, L. L., Wang, Q.*, Wyman, D. A., Qi, Y., Ma, L., Huang, F., Zhang, L., Xia, X. P., Ou, Q.. 2018. First identification of mafic igneous enclaves in Miocene lavas of southern Tibet with implications for Indian continental subduction. Geophysical Research Letters, 45(16), 8205-8213.

(16) Shen, X., Zhang, H.X., Wang, Q., Saha, A., Ma, L., 2017. Zircon U–Pb geochronology and geochemistry of Devonian plagiogranites in the Kuerti area of southern Chinese Altay, northwest China: Petrogenesis and tectonic evolution of late Paleozoic ophiolites. Geological Journal, in press. doi: 10.1002/gj.3020.

(17) Wang, Q., Hawkesworth, C. J., Wyman, D. A., Chung, S. L., Wu, F. Y., Li, X. H., Li, Z. X., Gou G. N., Zhang, X. Z., Tang, G. J., Dan, W., Ma, L., Dong, Y. H., 2016. Pliocene-Quaternary crustal melting in central and northern Tibet and insights into crustal flow. Nature communications, 7:11888, doi: 10.1038/ncomms11888.

(18) Jiang, Z. Q., Wang, Q., Wyman, D. A., Shi, X., Yang, J. H., Ma, L., Gou, G. N., 2015. Zircon U-Pb geochronology and geochemistry of Late Cretaceous–early Eocene granodiorites in the southern Gangdese batholith of Tibet: petrogenesis and implications for geodynamics and Cu ± Au ± Mo mineralization. International Geology Review, 57:3, 373-392.

(19) Shen, X.M., Zhang, H.X., Wang, Q., Ma, L., Yang, Y.H. Early Silurian (~440Ma) adakitic, andesitic and Nb-enriched basaltic lavas in the southern Altay Range, Northern Xinjiang (western China): Slab melting and implications for crustal growth in the Central Asian Orogenic Belt. Lithos, 2014, 206-207: 234-251.

(20) Jiang, Z., Wang, Q., Wyman, D., Li, Z., Yang, J., Shi, X., Tang, G., Jia, X., Ma, L., Gou, G., Guo, H.. Transition from oceanic to continental lithosphere subduction in southern Tibet: Evidence from the Late Cretaceous-Early Oligocene (~91-30 Ma) intrusive rocks in the Chanang-Zedong area, southern Gangdese. Lithos, 2014, 196-197: 213-231.

(21) Qiang Wang, Xian-Hua Li, Xiao-Hui Jia, Derek Wyman, Gong-Jian Tang, Zheng-Xiang Li, Lin Ma, Yue-Heng Yang, Zi-Qi Jiang, Guo-Ning Gou. Late Early Cretaceous adakitic granitoids and associated magnesian and potassium‐rich mafic enclaves and dikes in the Tunchang–Fengmu area, Hainan Province (South China): partial melting of lower crust and mantle and magma hybridization. Chemical Geology, 328, 222-243.

(22) 王强，苟国宁，张修政，但卫，唐功建，马林. 2017. 青藏高原中北部地壳流动与高原扩展: 来自火山岩的证据.中国科学基金. 2017:2, 492-498.

(23) 沈晓明, 张海祥, 马林, 阿尔泰南缘晚石炭世淡色花岗岩的发现及其构造意义, 大地构造与成矿学, 2013, 37(4): 721~729

(24) 沈晓明, 张海祥, 马林, 阿尔泰南缘杰尔库都克酸性岩脉LA-ICP-MS锆石U-Pb测年, 新疆地质, 2013, 31(3): 157~161

(25) 沈晓明, 张海祥, 马林, 新疆阿尔泰地区库尔提蛇绿岩的锆石U-Pb和角闪石40Ar/39Ar年代学及其地质意义, 桂林理工大学学报, 2013, 33(3): 394~405

(26) 沈晓明, 张海祥, 马林. 2010. 洋脊俯冲及其在新疆阿尔泰地区存在的可能证据. 大地构造与成矿学, 34(2): 181-195.

(27) 张海祥，牛贺才，沈晓明，马林，于学元. 2008. 阿尔泰造山带南缘和准噶尔板块北缘晚古生代构造演化及多金属成矿作用. 矿床地质，27(5): 596-604.

(28) 张海祥,沈晓明,马林,牛贺才,于学元. 2008. 新疆北部富蕴县埃达克岩的同位素年代学及其对古亚洲洋板块俯冲时限的制约. 岩石学报，24(5): 1054-1058.

(29) 马林, 张海祥, 沈晓明．2008. 库尔提角闪片岩中角闪石的地球化学特征及成因讨论. 矿物岩石地球化学通报, 27（增刊）：262-264.

(30) Haixiang Zhang, Xiaoming Shen, Lin Ma. 2008. Geochronology of the Altay adakite and the initiation of the Paleo-Asian Ocean subduction. Geochimica et Cosmochimica Acta. 72 (12S), A1081.

1. 国家第二次青藏高原科学考察项目(STEP) (2019QZKK0702)，2019-2023，参加。

2. 国家自然科学基金委面上基金项目《羌塘西部红山湖钠质基性岩岩石成因及其对青藏高原地幔演化的启示》，2019-2022，66万，主持。

3. 国家重点研发计划深地资源勘查开采专项青藏高原碰撞带壳幔过程与成岩成矿实验子课题第三专题《正向碰撞带深部岩石圈组成和热演化过程对成矿作用的制约》，2016-2020，107万，主持。

4. 国家自然科学基金委青年科学基金项目《拉萨地块南部正嘎早古新世淡色花岗岩的成因及其对印度-亚洲大陆碰撞的启示》，2015-2017，29万，主持。

5. 中国科学院广州地球化学研究所135项目《青藏高原中北部新生代板内造山与成矿》，2016-2020，200万，参加。

6. 中国科学院战略性先导科技专项（B 类）的二级课题《高原深部岩石圈组成、热状态及演化过程》，2012-2017, 参加。