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张茂亮 性别：男
职称:副教授
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教育经历
· 2013.9 - 2016.7 中国科学院大学 -第四纪地质学 -博士
· 2009.9 - 2013.7 中国科学院大学 -矿物学、岩石学、矿床学 -硕士
· 2005.9 - 2009.7 中国地质大学 (北京) -资源勘查工程 -学士


工作经历
· 2019.6- 至今 天津大学地球系统科学学院 →副教授
· 2016.6 - 2019.5 中科院地质与地球物理研究所 →博士后


研究方向
· 火山作用与深部碳循环
· 大陆碰撞带深部碳排放
· 深部脱气及其地球动力学意义







个人简介 张茂亮，籍贯山东蒙阴，现任天津大学地球系统科学学院副教授。主要利用气体/岩石地球化学方法，开展火山作用与深部碳循环、构造运动与深部碳过程、深部脱气及其地球动力学意义等方面的研究。主持/参与国家自然科学基金委、中国科学院、中国地震局等资助的多个科研项目。

Researchgate: https://www.researchgate.net/profile/Maoliang_Zhang
Google Scholar: https://scholar.google.com/citations?user=FlUEUC0AAAAJ&hl=en

学术成果
论文成果
[1]Cheng, Z., Guo, Z., Dingwell, D.B., Li, X., Zhang, M., Liu, J., Zhao, W., Lei, M., 2020. Geochemistry and petrogenesis of the post-collisional high-K calc-alkaline magmatic rocks in Tengchong, SE Tibet. Journal of Asian Earth Sciences 193, 104309.

[2]Lei, M., Guo, Z., Sun, Y., Zhang, M., Zhang, L., Ma, L., 2020. Geochemical constraints on the origin of late Cenozoic basalts in the Mt. Changbai volcanic field, NE China: evidence for crustal recycling. International Geology Review, 1-21.

[3]Lei, M., Guo, Z., Zhao, W., Zhang, M., Ma, L., 2020. Coexisting Late Cenozoic Potassic and Sodic Basalts in NE China: Role of Recycled Oceanic Components in Intraplate Magmatism and Mantle Heterogeneity. Lithosphere 2020, 1–28.

[4]Lombardi, A.M., Del Gaudio, P., Guo, Z., Zhang, M., Liu, G., Sepe, V., Liu, J., Ventura, G., 2020. Scenario-Based Pyroclastic Density Current Invasion Maps at Poorly Known Volcanoes: A Case Study from Changbaishan (China/North Korea). Applied Sciences 10, 2622.

[5]Zhao, W., Guo, Z., Lei, M., Zhang, M., Ma, L., Fortin, D., Zheng, G., 2019. Volcanogenic CO2 degassing in the Songliao continental rift system, NE China. Geofluids 2019, 1–14.

[6]Zhang, M., Guo, Z., Liu, J., Liu, G., Zhang, L., Lei, M., Zhao, W., Ma, L., Sepe, V., Ventura, G., 2018. The intraplate Changbaishan volcanic field (China/North Korea): A review on eruptive history, magma genesis, geodynamic significance, recent dynamics and potential hazards. Earth-Science Reviews 187, 19–52.

[7]Zhang, L., Guo, Z., Sano, Y., Zhang, M., Sun, Y., Cheng, Z., Yang, T.F., 2017. Flux and genesis of CO2 degassing from volcanic-geothermal fields of Gulu-Yadong rift in the Lhasa terrane, South Tibet: Constraints on characteristics of deep carbon cycle in the India-Asia continent subduction zone. Journal of Asian Earth Sciences 149, 110–123.

[8]Zhang, L., Guo, Z., Zhang, M., Cheng, Z., Sun, Y., 2017. Post-collisional potassic magmatism in the eastern Lhasa terrane, south Tibet: Products of partial melting of mélanges in a continental subduction channel. Gondwana Research 41, 9–28.

[9]Zhang, M., Guo, Z., Zhang, L., Sun, Y., Cheng, Z., 2017. Geochemical constraints on origin of hydrothermal volatiles from southern Tibet and the Himalayas: Understanding the degassing systems in the India-Asia continental subduction zone. Chemical Geology 469, 19–33.

[10]Zhang, M., Guo, Z., 2016. Origin of Late Cenozoic Abaga-Dalinuoer basalts, eastern China: Implications for a mixed pyroxenite-peridotite source related with deep subduction of the Pacific slab. Gondwana Research 37, 130–151.

[11]Zhang, M., Guo, Z., Sano, Y., Zhang, L., Sun, Y., Cheng, Z., Yang, T.F., 2016. Magma-derived CO2 emissions in the Tengchong volcanic field, SE Tibet: Implications for deep carbon cycle at intra-continent subduction zone. Journal of Asian Earth Sciences 127, 76–90.

[12]Guo, Z., Cheng, Z., Zhang, M., Zhang, L., Li, X., Liu, J., 2015. Post-collisional high-K calc-alkaline volcanism in Tengchong volcanic field, SE Tibet: constraints on Indian eastward subduction and slab detachment. Journal of the Geological Society 172, 624–640.

[13]Guo, Z., Wilson, M., Zhang, M., Cheng, Z., Zhang, L., 2015. Post-collisional ultrapotassic mafic magmatism in South Tibet: Products of partial melting of pyroxenite in the mantle wedge induced by roll-back and delamination of the subducted Indian continental lithosphere slab. Journal of Petrology 56, 1365–1406.

[14]Zhang, M., Guo, Z., Cheng, Z., Zhang, L., Liu, J., 2015. Late Cenozoic intraplate volcanism in Changbai volcanic field, on the border of China and North Korea: insights into deep subduction of the Pacific slab and intraplate volcanism. Journal of the Geological Society 172(5), 648–663.

[15]Zhang, M., Guo, Z., Sano, Y., Cheng, Z., Zhang, L., 2015. Stagnant subducted Pacific slab-derived CO2 emissions: Insights into magma degassing at Changbaishan volcano, NE China. Journal of Asian Earth Sciences 106, 49–63.

[16]Guo, Z., Wilson, M., Zhang, L., Zhang, M., Cheng, Z., Liu, J., 2014. The role of subduction channel mélanges and convergent subduction systems in the petrogenesis of post-collisional K-rich mafic magmatism in NW Tibet. Lithos 198–199, 184–201.

[17]Guo, Z., Wilson, M., Zhang, M., Cheng, Z., Zhang, L., 2013. Post-collisional, K-rich mafic magmatism in south Tibet: constraints on Indian slab-to-wedge transport processes and plateau uplift. Contributions to Mineralogy and Petrology 165, 1311–1340.

[18]Jiao, T., Guo, Z., Sun, G., Zhang, M., Li, X., 2011. Sourcing the interaction networks in Neolithic coastal China: a geochemical study of the Tianluoshan stone adzes. Journal of Archaeological Science 38(6), 1360–1370.







奖励与荣誉
1. 日本学术振兴会（JSPS）海外特别研究员









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