导师信息
马绪宣
马绪宣 男,中国地质科学院地质研究所研究员
研究方向:岩浆构造与大陆动力学
Add:北京市西城区阜外百万庄大街26号地质研究所,100037
Tel: 15901003962 E-mail:xuxuan.ma@hotmail.com
个人经历:
2024年7月-至今中国地质科学院地质研究所, 研究员
2017.12-2024年6月,中国地质科学院地质研究所,副研究员
2017.01-2017.11,中国地质科学院地质研究所,助理研究员
2018.12-2019.12,美国南加州大学地质系,访问学者
2014.09-2016.12,中国地质科学院地质研究所,博士后
2011.09-2014.07,南京大学,地球科学与工程学院,博士研究生
2012.09-2013.09,美国佛罗里达大学地质系,联合培养博士研究生
2009.09-2011.07,南京大学,地球科学与工程学院,硕士研究生
2005.09-2009.07,昆明理工大学,资源勘查与工程学院,本科
承担项目:
1、 中国地质科学院自主基金,2020.01-2021.12,藏南冈底斯曲水岩基岩浆混合作用研究,在研、主持
2、 第二次青藏科考项目,2019.11-2022.10,西昆仑构造-岩浆演化与稀有金属成矿耦合研究,在研、主持
3、 关键变个性技术项目,2020.6-2025.5,增生造山带典型地区三维岩石圈物质架构的示踪方法,在研,参与
4、 国家自然科学基金委青年基金,2016.01-2018.12,中天山地块新元古代岩浆作用研究,结题、主持
5、 中国博士后科学基金(特别资助),2016.07-2017.12,西藏冈底斯差异性隆升对成矿的制约:角闪石Al压力计,结题、主持
6、中国博士后科学基金(面上二等),2015.05-2016.09,晚白垩世早期冈底斯岩浆弧弧内伸展岩浆作用研究,结题、主持
7、大陆构造与动力学国家重点实验室自主基金,2015.05-2017.05,冈底斯南缘尼木片麻岩穹窿的形成及其构造意义,结题、主持
8、国土资源部行业基金,201511022,藏南“主俯冲-碰撞成矿带”中段的构造环境及找矿前景、2015.01-2017.12,结题、参与
9、中国地质调查局工程项目,12120115026801,2015.01-2017.12,拉萨-冈底斯地体的地质长廊和主要成矿带构造背景综合调查,结题、参与
10、国家重点基础研究发展计划973项目(中亚造山带大陆动力学过程与成矿作用),2007CB411301、古陆块解体与成矿物质堆积课题、2007/07-2012/07、已结题、参与
获奖及荣誉:
2016 教育部自然科学二等奖(排名第四),项目名称:新疆前寒武纪块体的形成及其构造演化,主要完成人:朱文斌,舒良树,王博,马绪宣
2015 江苏省优秀博士学位论文
2015 南京大学优秀博士学位论文
代表性论著:
1--Cai, Z.H., He, B.Z., Meert, J.G., Ma, X.X.*, Jiao, C.L., Liu, R.H., Chen, X.J., Yun, X.R., 2021. Neoproterozoic tectonic transition from subduction-related convergence to continental extension of the Tarim Block, NW China. Precambrian Research, 362, 106278.
2--Ma, X.X., Gao, L.E., Zhao, Z.B., Chen, X.J., Li, H.B., 2021. Early Eocene leucocratic sill/dike swarms in the Gangdese belt, southern Tibet: tectonic implications for Indo-Asian collision. China Geology, 1, 56-66.
3--Ma, X.X.*, Xu, Z.Q., Meert, J.G., Tian, Z.L.*, Li, H.B., 2020. Early Eocene high-flux magmatism and concurrent high-temperature metamorphism in the Gangdese belt, southern Tibet. GSA Bulletin, https://doi.org/10.1130/B35770.1.
4--Ma, X.X., Xu, Z.Q., Zhao, Z.B., Yi, Z.Y., 2020. Identification of a new source for the Triassic Langjiexue Group: evidence from a gabbro-diorite complex in the Gangdese magmatic belt and zircon microstructures from sandstones in the Tethysan Himalaya, southern Tibet. Geosphere, 16, 407-434.
5--Ma, X.X.*, Meert, J.G., Xu, Z.Q., Yi, Z.Y.*, 2018. Late Triassic intra-oceanic arc system within Neotethys: evidence from cumulate appinite in the Gangdese belt, southern Tibet. Lithosphere, 10, 545-565.
6--Ma, X.X., Meert, J., Xu, Z.Q., Zhao, Z.B., 2018. The Jurassic Yeba Formation in the Gangdese arc of S. Tibet: implications for upper plate extension in the Lhasa terrane. International Geology Review https://doi.org/10.1080/00206814.2018.1434835.
7--Ma, X.X., Xu, Z.Q., Meert, J., 2017. Syn-convergence extension in the southern Lhasa terrane: evidence from late Cretaceous adakitic granodiorite and coeval gabbroic-dioritic dykes. Journal of Geodynamics 110, 12-30.
8--Ma, X.X., Xu, Z.Q., Meert, J., Santosh, M., 2017. Early Jurassic intra-oceanic arc system of the Neotethys Ocean: constraints from andesites in the Gangdese magmatic belt, south Tibet. Island Arc, DOI 10.1111/iar.12202.
9--Ma, X.X., Meert, J.G., Xu, Z.Q., Zhao, Z.B., 2017. Evidence of magma mixing identified in the Early Eocene Caina pluton from the Gangdese Batholith, southern Tibet. Lithos 278-281, 126-139.
10--Ma, X.X., Xu, Z.Q., Chen, X.J.*, Meert, J.G., He, Z.Y., Liang, F.H., Meng, Y.K., Ma, S.W., 2017. The origin and tectonic significance of the volcanic rocks of the Yeba Formation in the Gangdese magmatic belt, South Tibet. Journal of Earth Science 28, 265-282.
11--Ma, X.X., Xu, Z.Q., Meert, J.G., 2016. Eocene slab breakoff of Neotethys as suggested by dioritic dykes in the Gangdese magmatic belt, southern Tibet. Lithos 248-251, 55-65.
12--Ma, X.X., Shu, L.S.*, Meert, J.G., 2015. Early Permian slab breakoff in the Chinese Tianshan belt inferred from the post-collisional granitoids. Gondwana Research 27, 228-243.
13--Ma, X.X., Shu, L.S.*, Meert, J.G., Xu, Z.Q., 2014. The fingerprint of Precambrian basement in the Chinese Central Tianshan: evidence from inherited/xenocrystic zircons of magmatic rocks. Geological Magazine 1-8.
14--Ma, X.X., Shu, L.S.*, Meert, J.G., Li, J.Y., 2014. The Paleozoic evolution of Central Tianshan: Geochemical and geochronological evidence. Gondwana Research 25, 797-819.
15--Ma, X.X., Shu, L.S.*, Santosh, M., Li, J.Y., 2013. Paleoproterozoic collisional orogeny in Central Tianshan: assembling the Tarim Block within the Columbia supercontinent. Precambrian Research 228, 1-19.
16--Ma, X.X., Shu, L.S.*, Santosh, M., Li, J.Y., 2013. Petrogenesis and tectonic significance of an early Palaeozoic mafic-intermediate suite of rocks from the Central Tianshan, northwest China. International Geology Review 55, 548-573.
17--Ma, X.X., Shu, L.S.*, Jahn, B.M., Zhu, W.B., Faure, M., 2012. Precambrian tectonic evolution of Central Tianshan, NW China: constraints from U–Pb dating and in situ Hf isotopic analysis of detrital zircons. Precambrian Research 222, 450-473.
18--Ma, X.X., Shu, L.S.*, Santosh, M., Li, J.Y., 2012. Detrital zircon U–Pb geochronology and Hf isotope data from Central Tianshan suggesting a link with the Tarim Block: implications on Proterozoic supercontinent history. Precambrian Research 206-207, 1-16.
19--Zhao, Z.B., Li, C., Ma, X.X., 2021. How does the elevation changing response to crustal thickening process in the central Tibetan Plateau since 120 Ma? China Geology, 1, 32-43.
20--Xu, Z.Q., Li, Y., Ji, S.C., Li, G.W., Pei, X.Z., Ma, X.X., Xiang, H., Wang, R.R., 2020. Journal of Asian Earth Sciences 188, 104052.
21--Cao, W.R., Yang, J.M., Zuza, A.V., Ji, W.Q., Ma, X.X., Chu, X., Burgess, Q.P., 2020. Crustal tilting and differential exhumation of Gangdese Batholith in southern Tibet revealed by bedrock pressures. Earth and Planetary Science Letters 543, 116347.
22--Huang, H., Wang, T., Tong, Y., Qin, Q., Ma, X.X., Yin, J.Y., 2020. Rejuvenation of ancient micro-continents during accretionary orogenesis: insights from the Yili Block and adjacent regions of the SW Central Asian Orogenic Belt. Earth-Science Reviews 208, 103255.
23--Zhao, Z.B., Bons, P.D., Li, C., Wang, G.H., Ma, X.X., Li, G.W., 2020. The Cretaceous crustal shortening and thickening of the South Qiangtang Terrane and implications for proto-Tibetan Plateau formation. Gondwana Research 78, 141-155.
24--Meng, Y.K., Xiong, F.H., Xu, Z.Q., Ma, X.X., 2019. Petrogenesis of Late Cretaceous mafic enclaves and their host granites in the Nyemo region of southern Tibet: implications for the tectonic-magmatic evolution of the Central Gangdese Belt. Journal of Asian Earth Sciences 176, 27-41.
25--Meng, Y.K., Xu, Z.Q., Santosh, M., Ma, X.X., Chen, X.J., Guo, G.L., Liu, F., 2016. Late Triassic crustal growth in southern Tibet: evidence from the Gangdese magmatic belt. Gondwana Research 37, 449-464.
26--Cai, Z.H., Xu, Z.Q., Yu, S.Y., Li, S.Z., He, B.Z., Ma, X.X., Chen, X.J., Xu, X.Y., 2018. Neoarchean magmatism and implications for crustal growth and evolution of the Kuluketage region, northeastern Tarim Craton. Precambrian Research, 304, 156-170.
27--Cai, Z.H., Jiao, C.L., He, B.Z., Qi, L.X., Ma, X.X., Cao, Z.C., Xu, Z.Q., Chen, X.J., Liu, R.H., 2020. Archean-Paleoproterozoic tectonothermal events in the central Tarim Block: constraints from granitic gneisses revealed by deep drilling wells. Precambrian Research 347, 105776.
28--Ding, R.X., Zou, H.P., Min, K., Yin, F., Du, X.D., Ma, X.X., Su, Z.X., Shen, W.J., 2017. Detrital zircon U-Pb geochronology of Sinian-Cambrian strata in the Eastern Guangxi area, China. Journal of Earth Science 28, 295-304.
29--马绪宣,许志琴,刘飞,赵中宝,李海兵,2021. 大陆弧岩浆幕式作用与地壳加厚:以藏南冈底斯弧为例.地质学报,95, 107-123.
30--马绪宣,施彬,熊发挥,李海兵,2020.冈底斯曲水岩基岩浆混合:来自暗色岩浆包体角闪石显微结构的证据.岩石学报,36, 3063-3080.
31--许志琴,马绪宣,2015.中国大陆显生宙俯冲型、碰撞型和复合型片麻岩穹窿(群).岩石学报 31, 3509-3523.
32--吴勇,马绪宣*,张志平,焦世文,段凯,董瀚,王小伟,马涛,李鹏举,梁志勇,曹勇刚,孔垂鹏,马亮,2016.青藏高原拉萨地块西部念青唐古拉岩群的地球化学特征及构造意义.地质学报 90,3081-3098.
33--许志琴,付小方,马绪宣,戚学祥,吴婵,侯立伟,赵中宝,2016.青藏高原片麻岩穹窿与找矿前景.地质学报 90, 2971-2981.
34--蔡志慧,马绪宣,何碧竹,2019.中天山、伊犁及塔里木地块开始参与Rodinia超大陆聚合过程早于新元古代?地质学报 93, 2426-2445.
35--许志琴,赵中宝,彭淼,马绪宣,李化启,赵俊猛,2016.论“造山的高原”.32, 3557-3571.
36--许志琴,杨经绥,侯增谦,张泽明,曾令森,李海兵,张建新,李忠海,马绪宣,2016. 青藏高原大陆动力学研究若干进展.中国地质,43,1-42.
37--孟元库,许志琴,陈希节,马绪宣,贺振宇,张雪松,2015.藏南冈底斯中段谢通门始新世复式岩体锆石U-Pb年代学、Hf同位素特征及其地质意义.大地构造与成矿学 39, 933-948.
38--孟元库,许志琴,马士委,杨斐斐,马绪宣,2016.藏南冈底斯岩浆带中段曲水韧性剪切带的变形特征及其年代学约束.地球科学 41, 1081-1098.
39--董汉文,许志琴,周信,巴登珠,李化启,易治宇,陈希节,马绪宣,吴婵,2016.喜马拉雅造山带北缘大反转逆冲断层(GCT)东段的活动时限及构造演化.地质学报 90, 3011-3022.
40--舒良树,邓兴梁,马绪宣,2019.中天山基底与塔里木克拉通的构造亲缘性.地球科学 44, 1584-1601.
41--赵理芳,舒良树,于常青,汪洋,瞿辰,马绪宣,2018.青藏高原东缘深部电性结构特征研究.高校地质学报,24,702-714.
42--许志琴,赵中宝,马绪宣,陈希节,马元,2019.从安第斯到冈底斯:从洋-陆俯冲到陆-陆碰撞.地质学报 93, 1-11.
43--孟元库,许志琴,陈希节,马绪宣,马士委,2015.冈底斯中段碱长花岗岩锆石U-Pb-Hf同位素特征及地质意义.中国地质 42, 1202-1213.
44--董汉文,许志琴,曹汇,李源,刘钊,李化启,易治宇,陈希节,马绪宣,吴婵,2018.东喜马拉雅构造结东、西边界断裂对比及其构造演化过程.地球科学 43, 933-951.
45--孟元库,马士委,许志琴,陈希节,马绪宣,2018.冈底斯带甲玛矿区花岗斑岩类年代学、地球化学及岩石成因.地球科学 43, 1142-1163.
46--马元,许志琴,李广伟,马士委,马绪宣,陈希节,赵中宝,2017.藏南冈底斯白垩纪弧后盆地的地壳变形及初始高原的形成.岩石学报 33,3861-3872.
47--陈希节,舒良树,马绪宣,2012.新疆尾亚蛇绿混杂岩与镁铁质麻粒岩地球化学特征及构造意义.高校地质学报,18,661-675.
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