马安林 南京大学
毓秀博士后
邮箱:alma@nju.edu.cn
研究方向:
大地构造沉积学、古地理重建、沉积盆地分析
本人的研究方向聚焦于造山带沉积盆地分析。研究手段包括地层学、沉积学以及定量多手段物源分析。研究地区主要位于青藏高原腹地,包括拉萨地体、羌塘地体及二者之间的班公湖-怒江缝合带,同时也在参与阿尔卑斯、扎格罗斯、龙门山等造山带的研究。
研究经历:
2021.09-今:南京大学地球科学与工程学院,博士后
2021.01-2021.09:成都理工大学沉积地质研究院,校聘研究员
2020.02-2021.01:成都理工大学沉积地质研究院,讲师
2018.08-2019.09:美国亚利桑那大学地质学系,留学基金委联合培养博士生,合作导师:Paul Kapp教授
2017.08-2017.09:美国亚利桑那大学地质学系,短期访学,合作者:Paul Kapp教授
学习经历:
2014.09-2019.12:南京大学地球科学与工程学院,研究生学历,获地质学博士学位,导师:胡修棉教授
2010.09-2014.06:同济大学海洋与地球科学学院,本科学历,获地质学学士学位
科研项目:
IAS(国际沉积学家协会)博士后基金,2023.01-2023.12,2500欧元,主持
国家自然科学基金委青年基金:南羌塘盆地中侏罗统毕洛错组沉积特征与大地构造意义(42002120),2021.01-2023.12,24万,在研,主持
南京大学内生金属矿床成矿机制研究国家重点实验室开放课题:藏中东巧-色林错地区中生代深水地层物源分析及沉积大地构造背景研究(2020-LAMD-K07),2020.04-2021.12,10万,在研,主持
国家自然科学基金委员会“特提斯动力学”重大研究计划:大陆碰撞与特提斯洋消亡的沉积响应(91755209),2018.01 - 2021.12,241万,在研,参加
国家自然科学基金委和英国皇家协会中英人才基金:青藏高原腹地何时隆起?验证印度-亚洲碰撞前古高原的存在(41761130076),2017/3-2020/2,50.00 万元+11.047 万英镑,结题,参加
国家杰出青年科学基金:沉积学(41525007),2016.01 - 2020.12,350万,结题,参加
发表论文:
Xue, W.W., Hu, X.M., Ma, A.L.*, Garzanti, E., Liang, W.D., Hao, L.L., Wang, Q. 2023. Oligocene orogen-parallel extension in southern Tibet during Indian continental subduction. Geophysical Research Letters, 50, e2023GL105193. https://doi.org/10.1029/2023GL105193.
Ma, A.L., Hu, X.M., Garzanti, E., Boudagher-Fadel, M., Xue, W.W., Han, Z., Wang, P., 2023, Paleogeographic and tectonic evolution of Mesozoic Qiangtang basins (Tibet). Tectonophysics 862, 229957.
Ma, A.L., Hu, X.M, Garzanti, E., Pullen, A., BouDagher-Fadel, M., Ji, X.K., Wang, J.G., Lai, W., Xue., W.W., 2023. Mid-Cretaceous exhumation of the Central Qiangtang Mountain Range metamorphic rocks as evidenced by the Abushan continental redbeds, Tectonics, doi.org/10.1029/2022TC007520.
马安林,胡修棉,2021.沉积记录约束班公湖—怒江缝合带东巧蛇绿岩的仰冲过程.沉积与特提斯地质,41(2):163-175.
Ma,A.L.,Hu,X.M.,Kapp,P.,Lai,W.,Han,Z.,Xue,W.W.,2020.Mesozoic Subduction Accretion History in Central Tibet Constrained From Provenance Analysis of the Mugagangri Subduction Complex in the Bangong‐Nujiang Suture Zone. Tectonics,1-22.
Ma,A.L.,Hu,X.M.,Kapp,P.,BouDagher-Fadel,M.,Lai,W.,2020.Pre‐Oxfordian (>163 Ma) Ophiolite Obduction in Central Tibet.Geophysical Research Letters.10.1029/2019GL08665
Ma, A.L., Hu, X.M., Kapp. P., Han. Z., Lai. W., BouDagher-Fadel, M., 2018. The disappearance of a Late Jurassic remnant sea in the southern Qiangtang Block (Shamuluo Formation, Najiangco area): Implications for the tectonic uplift of central Tibet. PalaeogeographyPalaeoclimatology Palaeoecology 506, 30-47.
Ma, A.L., Hu, X.M., 2018. Reply to Comment by W.-Y.Chen et al.on“Sedimentary and Tectonic Evolution of the Southem Qiangtang Basin:Implication for the Lhasa-Qiangtang Collision Timing”. Journal of Geophysical Research: Solid Earth 123, 7343-7346.
Ma, A.L., Hu, X.M., Garzanti, E., Han, Z., Lai, W., 2017. Sedimentary and tectonic evolution of the southern Qiangtang basin: Implications for the Lhasa-Qiangtang collision timing. Journal of Geophysical Research-Solid Earth 122, 4790-4813.
潘应娣, 胡修棉, 马安林, 梁文栋. 班公湖—怒江缝合带同碰撞海沟盆地砂岩物源分析及其大地构造意义. 地质学报. doi.org/10.19762/j.cnki.dizhixuebao.2023231.
Wen, D.J., Hu, X.M., Chapman, T., Zeng, G., Ma, A.L., Wang, R.Q., 2023. Late Cretaceous bimodal volcanic rocks in Shuanghu induced by lithospheric delamination beneath the Southern Qiangtang, Tibet. LITHOS 460–461, 107368.
Lai, W., Hu, X.M.,Dong, X.L., Ma, A.L., 2022. A dataset of sandstone detrital composition from Qinghai-Tibet Plateau. Geoscience Data Journal, 00, 1–8. doi.org/10.1002/gdj3.184.
Xue, W., Hu, X., Garzanti, E., Ma, A., Lai, W., & Li, C. (2022). Discriminating Qiangtang, Lhasa, and Himalayan sediment sources in the Tibetan Plateau by detrital-zircon UPb age and Hf isotope facies. Earth-Science Reviews, 104271.
Hu, X.M. , Ma, A.L, Xue, W.W., Garzanti, E., Cao, Y., Li, S.M., Sun, G.Y., Lai, W., 2022. Exploring a lost ocean in the Tibetan Plateau: Birth, growth, and demise of the Bangong-Nujiang Ocean. Earth-Science Reviews, DOI:10.1016/j.earscirev.2022.104031.
Lai, W., Hu, X.M., Ma, A.L., Garzanti, E., Xu, Y.W., 2022. From the southern Gangdese Yeba arc to the Bangong-Nujiang Ocean: Provenance of the Upper Jurassic-Lower Cretaceous Lagongtang Formation (northern Lhasa, Tibet). Palaeogeography, Palaeoclimatology, Palaeoecology 588, 110837.
Xue, W.W., Najman, Y., Hu, X.M., Garzanti, E., Stuart, F.M., Li, W., M, A.L., Wang, Y., 2022. Late Cretaceous to Late Eocene exhumation in the Nima area, central Tibet: Implications for development of low relief topography of the Tibetan Plateau. Tectonics 41, e2021TC006989. doi.org/10.1029/2021TC0069890.
李亚林,王成善,文华国,钟瀚霆,马安林.2021.数字露头与野外实践教学平台建设趋势与展望. 中国地质教育(01),31-35. doi:10.16244/j.cnki.1006-9372.2021.01.007.
张世杰,胡修棉,郜周全,赵永强,马安林, 许艺炜,2021.西昆仑山古近纪隆升形:时间、证据和争论.地质评论,67(4):1057-1076.
薛伟伟,马安林,胡修棉.2020.羌塘盆地侏罗系—白垩系岩石地层格架厘定.地质论评,66(5):1114-1129.
Zhang, B., Yao, S., Ma, A., Hu, W., Liu, B., & Yang, W. 2021. New geochemical constraints on the development of active continental margin in Southeast China during the Middle Permian and its tectonic implications. Gondwana Research. https://doi.org/10.1016/j.gr.2021.11.001
Liu, Z., Zhu, D. C., Wang, Q., Cawood, P. A., Ma, A. L., Eyuboglu, Y., Wu Fuyuan, Zhao, Z. D. 2021. Was there an exchange of detritus between the northern and southern Black Sea terranes in the Mesozoic-early Cenozoic?. Gondwana Research https://doi.org/10.1016/j.gr.2021.06.011
Xue, W.W., Hu, X.M., Ma, A.L., Gareznti, E., Li, J., 2020. Eustatic and tectonic control on the evolution of the Jurassic North Qiangtang Basin, northern Tibet, China: Impact on the petroleum system .Marine and Petroleum Geology, 104558.
Lai, W., Hu, X.M, Garzanti, E., Xu, Y.W., Ma, A.L., Li, W., 2019. Early Cretaceous sedimentary evolution of the northern Lhasa terrane and the timing of initial Lhasa-Qiangtang collision. Gondwana Research 73, 136-152.
Lai, W., Hu, X., Garzanti, E., Sun, G., Garzione, C.N., BouDagher-Fadel, M., Ma, A.L., 2019. Initial growth of the Northern Lhasaplano, Tibetan Plateau in the early Late Cretaceous (ca. 92 Ma). GSA Bulletin, 1823-1836.
周博, 胡修棉, 安慰, 马安林, 赖文, 2018. 印度-亚洲大陆碰撞初期的海沟沉积:藏东南宗卓组沉积岩石学与物源分析. 地质学报 92,1-14.
Lai, W., Hu, X.M., Zhu, D.C., An, W., Ma, A.L., 2017. Discovery of the early Jurassic Gajia m,lange in the Bangong-Nujiang suture zone: Southward subduction of the Bangong-Nujiang Ocean? International Journal of Earth Sciences 106, 1277-1288.