(1)      National Natural Science Foundation of China, General Project, 42272068, Genesis of the Andriamena Chromitite in the Tsaratanana Greenstone belt, Madagascar, 2023.01.01-2026.12.31, 0.57 Million RMB, Under Research, Principal Investigator

(2)      National Natural Science Foundation of China, Major Research Plan, 92062215, Formation of Podiform Chromitite and Deep Geological Processes, 2021.01.01-2024.12.31, 3.03 Million RMB, Under Research, Major Participant

(3)      National Natural Science Foundation of China, Major Research Plan, 91955203, Tectonic Genesis and Metallogenic Mechanism of Lithium Pegmatite Deposits within the Paleo-Tethys Domain, West Sichuan, 3.03 Million Yuan, Under Research, Major Participant

(4)      National Natural Science Foundation of China, Youth Science Fund Project, 41802034, Origin of the octahedral silicate minerals recovered from the Pozanti-Karsanti ophiolite, Turkey, 0.24 Million RMB, Completed, Principal Investigator

Publications as first author or corresponding author:

（1）Hui-Chao Rui; Olivier Namur; Dong-Yang Lian*; Peng-Jie Cai; Jie Li; Yurisley Valdes-Mariño; Jing-Sui Yang; Hong-Ping He; Modification of oceanic lithospheric mantle by percolated melts sourced from recycled ancient crust: Evidence from Ca-Os isotopes of refractory harzburgites, Chemical Geology, 2025, 123077.

（2）Evren Arslan; Osman Parlak*; Chao Zhang; Jun-Peng Wang; Dong-Yang Lian*; Yong Xu; Guo-Hui Chen; Alastair Robertson; Jing-Sui Yang; Xi-Sheng Xu; Jun Hong; Geochemistry of mantle peridotites and chromitites from Upper Cretaceous ophiolites in NW Türkiye: Insights into abyssal to forearc mantle settings, Lithos, 2025, 514-515: 108208.

（3）Hai-Tao Ma; Peng-Jie Cai*; Dong-Yang Lian*; Jing-Sui Yang; Grenvillian S-type granites in the North Qaidam orogenic belt, NW China: Implications for the geodynamic evolution of the Rodinia supercontinent, Precambrian Research, 2025, 427: 107867.

（4）Peng-Jie Cai; Jaroslaw Majka; Dong-Yang Lian*; Jing-Sui Yang*; Lu Wang; Hai-Tao Ma; Hui-Chao Rui; Rong-Zhong Bo; Ahmed E. Masoud; Large-scale impregnation of oceanic and continental slab-derived adakitic melts into the mantle wedge, Communications Earth & Environment, 2025, 6: 557.

（5）Rong-Zhong Bo; Yildirim Dilek; Wei-Qiang Li; Sobhi Nasir; Peng-Jie Cai; Hui-Chao Rui; De-Hong Du; Shi-Chao An; Yu-Xiao Lu; Hao-Chen Duan; Dong-Yang Lian*; Jing-Sui Yang; Ahmed E. Masoud; Iron isotopic fractionation during seafloor hydrothermal alteration of oceanic upper crust, as recorded in Geotimes lavas of Semail ophiolite, Oman, Chemical Geology, 2025, 681: 122717.

（6）Rong-Zhong Bo; Peng-Jie Cai; Dong-Yang Lian*; Jing-Sui Yang*; Sobhi Nasir; Hui-Chao Rui; Yu-Xiao Lu; Chu-Qi Cao; Ahmed E. Masoud; Transitional chromitites within the Maqsad crust-mantle transition zone of the Semail ophiolite formed above the nascent forearc setting, Lithos, 2025, 502-503: 10802.

（7）Peng-Jie Cai; Dong-Yang Lian*; Jonathan C. Aitchison; Dominique Cluzel; Ren-Jie Zhou; Hui-Chao Rui; Rong-Zhong Bo; Hai-Tao Ma; Jing-Sui Yang; Ahmed E. Masoud; Geochemical constraints on subduction-related mantle metasomatism of the Tiébaghi ophiolitic lherzolite in New Caledonia, Lithos, 2025, 496-497: 107948.

（8）Qiu-Yun Yuan; Hui-Chao Rui; Rong-Zhong Bo; Dong-Yang Lian*; Peng-Jie Cai*; Yue Wu; Osman Parlak; Hao-Ran Dou; Hai-Tao Ma; Ahmed E. Masoud; Petrology, mineralogy, and geochemistry of major podiform chromite deposits in China: Implications for their genesis, Ore Geology Reviews, 2025, 179: 106508.

（9）Hai-Tao Ma; Yildirim Dilek; Dong-Yang Lian*; Peng-Jie Cai; M. Jayananda; K.R. Aadhiseshan; Jing-Sui Yang*; Parental magma and mantle source compositions of chromitites in the Mesoarchean Nuggihalli greenstone belt, India: Evidence for Archaean subduction zone magmatism, Journal of the Geological Society, 2024, 182(2): jgs2024-158.

（10）Zhi-Yun Lu; Jing-Sui Yang*; Qun-Ke Xia, Dong-Yang Lian*; Liang-Chao Chen; Wei-Wei Wu; Yun Wang; HPHT experiments on diamond crystallization controlled by Mn-chromite-Mn-spinel-hematite equilibrium: Implications to natural diamonds in ophiolites, Lithos, 2024, 482-483: 107716.

（11）Dong-Yang Lian*; Fei Liu; Peng-Jie Cai; Wei-Wei Wu; Jie Li; Jarosław Majka; Zhi-Qin Xu; Jing-Sui Yang*; Osmium and zinc isotope constraints on the origin of chromitites from the Yarlung-Zangbo ophiolites, Tibet, China, Mineralium Deposita, 2024, 59: 1089–1107.

（12）Rong-Zhong Bo; Dilek Yildirim; Wei-Wei Wu; Peng-Jie Cai; Yu-Xiao Lu; Dong-Yang Lian*; Jing-Sui Yang*; Mineral & whole–rock geochemistry of high-Al podiform chromitites in the Fizh Massif of the Cretaceous Oman ophiolite: Origin of hydrous, N–MORB melts in a nascent forearc setting, Journal of the Geological Society, 2023, 180(6): jgs2023-047.

（13）Peng-Jie Cai*; Jing-Sui Yang; Dong-Yang Lian*; Wei-Wei Wu; Yu Yang; Hui-Chao Rui; Knowledge Structure and Frontier Evolution of Research on Chromitite: A Scientometric Review, Minerals, 2022, 12(10): 1211.

（14）Jing-Sui Yang*; Wei-Wei Wu; Dong-Yang Lian*; Hui-Chao Rui; Peridotites, chromitites and diamonds in ophiolites, Nature Reviews Earth & Environment, 2021, 2: 198-212.

（15）Dong-Yang Lian*; Fei Liu*; Jing-Sui Yang; Zhi-Qin Xu; Wei-Wei WU; Fingerprints of the Kerguelen Mantle Plume in Southern Tibet: Evidence from Early Cretaceous Magmatism in the Tethyan Himalaya, The Journal of Geology, 2021, 129(12): 207-231.

（16）Fei Liu; Dilek Yildirim; Jing-Sui Yang*; Dong-Yang Lian*; Guan-Long Li; Yong Wu; A middle Triassic seamount within the western Yarlung Zangbo suture zone, Tibet: The earliest seafloor spreading record of Neotethys to the North of East Gondwana, Lithos, 2021, 388(1): 1-17.

（17）Fei Liu*; Dong-Yang Lian*; Guang-Ying Feng; Zhao-Li Li; Xiao-Lu Niu; Jing-Sui Yang; Radiolarian Biochronology, Detrital Zircon Geochronological and Geochemical Constraints on Provenance and Depositional Environment of Cherts in the Southern Belt of the Western Yarlung Zangbo Suture Zone, Tibet, Journal of Geology, 2021, 128(6): 535-562.

（18）Dong-Yang Lian*; Jing-Sui Yang; Dilek Yildirim; Wiedenbeck Michael; Wei-Wei Wu; Rocholl Alexander; Precambrian Zircons in Chromitites of the Cretaceous Aladag Ophiolite (Turkey) Indicate Deep Crustal Recycling in Oceanic Mantle, Precambrian Research, 2020, 350: 1-8.

（19）连东洋*; 杨经绥; 刘飞; 吴魏伟; 金刚石分类, 组成特征以及我国金刚石研究展望, 地球科学, 2019, 44(10): 3409-3453.

（20）Dong-Yang Lian; Jing-Sui Yang*; Ophiolite-Hosted Diamond: A New Window for Probing Carbon Cycling in the Deep Mantle, Engineering, 2019, 5(3): 406-420.

（21）Dong-Yang Lian*; Jing-Sui Yang; Dilek Yildirim; Rocholl Alexander; Mineralogy and geochemistry of peridotites and chromitites in the Aladag Ophiolite (southern Turkey): melt evolution of the Cretaceous Neotethyan mantle, Journal of the Geological Society, 2019, 176(5): 958-974.

（22）Dong-Yang Lian*; Jing-Sui Yang; Wiedenbeck Michael; Dilek Yildirim; Rocholl Alexander; Wei-Wei Wu; Carbon and nitrogen isotope, and mineral inclusion studies on the diamonds from the Pozanti-Karsanti chromitite, Turkey, Contributions to Mineralogy and Petrology, 2018, 173(9): 1-18.

（23）Dong-Yang Lian; Jing-Sui Yang*; Fei Liu; Wei-Wei Wu; Li Zhang; Hui Zhao; Jian Huang; Geochemistry and tectonic significance of the Gongzhu peridotites in the northern branch of the western Yarlung Zangbo ophiolitic belt, western Tibet, Mineralogy and Petrology, 2017, 111: 729-746.

（24）Dong-Yang Lian; Jing-Sui Yang*; Dilek Yildirim; Wei-Wei Wu; Zhong-Ming Zhang; Fa-Hui Xiong; Fei Liu; Wen-Da Zhou; Deep mantle origin and ultra-reducing conditions in podiform chromitite: Diamond, moissanite, and other unusual minerals in podiform chromitites from the Pozanti-Karsanti ophiolite, southern Turkey, American Mineralogist, 2017, 102(5): 1101-1113.

（25）Dong-Yang Lian; Jing-Sui Yang*; Dilek Yildirim; Fei Liu; Wei-Wei Wu; Fa-Hui Xiong; Geochemical, Geochronological, and Sr-Nd Isotopic Constraints on the Origin of the Mafic Dikes from the Pozanti-Karsanti Ophiolite: Implications for Tectonic Evolution, Journal of Geology, 2017, 125: 223-239.

（26）Dong-Yang Lian; Jing-Sui Yang*; Paul T. Robinson; Fei Liu; Fa-Hui Xiong; Lan Zhang; Jian Gao; Wei-Wei Wu; Tectonic Evolution of the Western Yarlung Zangbo Ophiolitic Belt, Tibet: Implications from the Petrology, Mineralogy, and Geochemistry of the Peridotites, Journal of Geology, 2016, 124: 353-376.

（27）连东洋; 杨经绥*; 熊发挥; 刘飞; 王云鹏; 周文达; 赵一珏; 雅鲁藏布江蛇绿岩带西段达机翁地幔橄榄岩组成特征及其形成环境分析, 岩石学报, 2014, 30(8): 2164-2184.

（28）连东洋; 杨经绥*; 熊发挥; 刘飞; 王云鹏; 雅鲁藏布江缝合带西段达机翁地幔橄榄岩及铬铁矿的铂族元素特征, 中国地质, 2015, 42(2): 525-546.

Other Publications:

（1）Jonathan C. Aitchison*; Daniel Patias; Dominique Cluzel; Trevor R. Ireland; Ren-Jie Zhou, Dong-Yang Lian; Jing-Sui Yang; Zhen Yan; Recycling Subducted Organic Carbon as Diamonds: An Example From the New Caledonia Forearc Ophiolite, Geochemistry, Geophysics, Geosystems, 2025, 26, e2025GC012250.

（2）鲁智云*; 杨经绥; 连东洋; 吴魏伟; 杨彧; 合成金刚石的氮、氢杂质实验进展与地质应用, 地质学报, 2025, 4: 1427-1441.

（3）Xin Chen*; Hans-Peter Schertl; Junaid Khan; Peng-Jie Cai; Dong-Yang Lian; Jin-Shou Wang; Cheng-Tao Yu; Hao Lin; Xiao-Jia Jiang; Scandium mineralization during ultramafic-mafic magmatism in the subduction zone, Chemical Geology, 2025, 673: 122556.

（4）Xiao-Jia Jiang; Xin Chen*; Shao-Yong Jiang*; Liam Hoare; Wen Zhang; Dong-Yang Lian; Peng-Jie Ca; Yao-Ming Xu; Hong Liu; Immiscibility of carbonatitic and alkaline silicate melts from an evolved ultramafic magma: Titanite geochronology and in-situ Ti-Nd isotope insights, Chemical Geology, 2024, 670: 122433.

（5）Jia-Wei Wang; Peng-Jie Cai*; Jing-Sui Yang*; Kristoffer Szilas, Dong-Yang Lian; Zhao-Hua Luo; Fa-Hui Xiong; Age and petrogenesis of Archaean chromitite from the Seqi Ultramafic Complex, southern West Greenland, Lithos, 2024, 482-483: 107714.

（6）鲁智云*; 杨经绥; 连东洋; 吴魏伟; 杨彧; 曹楚奇; 蔡鹏捷; 合成金刚石的晶体形态对天然金刚石的启示, 地质学报, 2024, 98: 1-15.

（7）王嘉玮; 蔡鹏捷; SZILAS Kristoffer; 连东洋; 杨经绥*; 太古宙绿岩带中铬铁矿床研究现状与展望, 岩石学报, 2023: 39(12): 3734-3758.

（8）Wei-Wei Wu; Jing-Sui Yang; Yildirim Dilek; Souvik Das; Dong-Yang Lian; Peng-Jie Cai; Yun Wang; Yu Yang*; Yuan-Yun Wen*; Two-pyroxene intergrowth exsolution textures in ophiolitic chromites: implications for the deep mantle origin of the Mirdita ophiolite, Albania, Journal of the Geological Society, 2024, 181(1): 1-7.

（9）Daniel Patias*; Ren-Jie Zhou; Jonathan C. Aitchison; Dominique Cluzel; Trevor Ireland, Dong-Yang Lian; Jing-Sui Yang; Beyond zircon fingerprinting: Zircon and TiO₂ polymorphs constrain genealogy and evolution of the New Caledonian ophiolite, Chemical Geology, 2024, 644: 121841.

（10）Jian-Guo Gao; Zhi-Qin Xu*; Guang-Wei Li; Feng Ding; Souvik Das; Dong-Yang Lian; Bi-Hai Zheng; Hao-Yu Yan; Meng Pan; Xiu-Fang Jiang; Yu-Xiao Lu; Sources and petrogenesis of Late Triassic granitoids in the Yajiang gneiss dome group (eastern Songpan-Ganze orogenic belt) with tectonic implications, Ore Geology Review, 2023: 105623.

（11）Wei-Wei Wu*; Jing-Sui Yang*; Jian-Ping Zheng; Dong-Yang Lian; Milushi Ibrahim; Yu Yang; Tian Qiu; Hui-Chao Rui; Guo-Lin Guo; Zhi-Hui Dai; Masoud Ahmed Elsaid Ismail; The earliest stage of mantle-melt evolution during subduction initiation: Evidence from the Neo-Tethyan Mirdita Ophiolite, Albania, Lithos, 2022, 434-435: 106937.

（12）Jonathan C. Aitchison∗; Dominique Cluze; Trevor R. Irelan; Ren-Jie Zhou; Dong-Yang Lian; Daniel Patia; Zhen Ya; Jing-Sui Yang; Solid-phase transfer into the forearc mantle wedge: Rutile and zircon xenocrysts fingerprint subducting sources, Earth and Planetary Science Letters, 2022, 577, 117251.

（13）Sheng-Biao Yang; Jing-Sui Yang*; Jian-Zhang; Rui-Bao Li; Dong-Yang Lian; Fa-Hui Xiong; Chu-Qi Cao; Fei Liu; Hui Zhao; Petrogenesis of mafic rocks from the Xigaze ophiolite, Southern Tibet: Insights into forearc extension induced by Neotethyan rollback, Lithos, 2022, 422–423: 106723.

（14）杨经绥*; 连东洋; 吴魏伟; 杨彧; 蔡鹏捷; 芮会超; 史仁灯; 熊发挥; 蛇绿岩中铬铁矿研究的问题与思考, 地质学报, 2022, 966(55): 11608-11634.

（15）卢雨潇; 杨经绥*; 许志琴; 连东洋; 甘孜-理塘洋可能存在北向俯冲: 来自松潘- 甘孜道孚- 炉霍岩浆岩的证, 地质学报, 2022, 96(7): 2380-2402.

（16）Hui-Chao Rui; Jing-Sui Yang*; Dong-Yang Lian; Wei-Wei Wu; Guo-Lin Guo; Deep origin of mantle peridotites from the Aladağ ophiolite, Turkey: Implication from trace element geochemistry of pyroxenes and mineralogy of ophiolitic diamonds, Journal of Asian Earth Sciences, 2022, 228, 105153.

（17）Hui-Chao Rui; Jing-Sui Yang*; Angélica I. Llanes Castro; Jian-Ping Zheng; Dong-Yang Lian; Wei-Wei Wu; YurisleyValdes Mariño; Ti-poor high-Al chromitites of the Moa-Baracoa ophiolitic massif (eastern Cuba) formed in a nascent forearc mantle, Ore Geology Reviews, 2022, 144, 104847.

（18）Wei-Wei Wu; Jing-Sui Yang*; Dong-Yang Lian; Hui-Chao Rui; New concepts in ophiolites, oceanic lithosphere and podiform chromites, Encyclopedia of Geology, 2021, 968-993.

（19）Fei Liu*; Dong-Yang Lian; Wei-Wei Wu; Jing-Sui Yang; Diamonds and other exotic minerals-bearing ophiolites on the globe: A key to understand the discovery of new minerals and formation of ophiolitic podiform chromitite, Crystals, 2021, 11, 1362.

（20）杨经绥*; 连东洋; 吴魏伟; 芮会超; 俯冲物质深地幔循环——地球动力学研究的一个新方向, 地质学报, 2021, 95(01): 42-63.

（21）刘飞; 杨经绥*; 连东洋; 熊发挥; 吴魏伟; 蛇绿岩中金刚石和异常矿物的全球记录, 地质学报, 2020, 94(09): 2588-2605.

（22）刘飞; 杨经绥*; 连东洋; 李观龙; 青藏高原新特提斯蛇绿岩的地质特征及其构造演化, 岩石学报, 2020, 36(10): 2913-2945.

（23）Zhi-Qin Xu*; Xiao-Fang Fu; Ru-Cheng Wang; Guang-Wei Li; Yi-Long Zheng; Zhong-Bao Zhao; Dong-Yang Lian; Generation of lithium-bearing pegmatite deposits within the Songpan-Ganze orogenic belt, East Tibet, Lithos, 2020, 354-355: 105281.

（24）Giovanni Grieco*; Micol Bussolesi; Alireza Eslami; Andrea Gentile; Alessandro Cavallo; Dong-Yang Lian; Jing-Sui Yang; Farhad Ghaseminejad; Differential platinum group elements (PGE) re-mobilization at low fS₂ in Abdasht and Soghan mafic-ultramafic complexes (Southern Iran), Lithos, 2020, 366–367: 105523.

（25）Yi-Long Zheng; Zhi-Qin Xu*; Guang-Wei Li; Dong-Yang Lian; Zhong-Bao Zhao; Ze-Liang Ma; Wen-Qi Gao; Genesis of the Markam gneiss dome within the Songpan-Ganzi orogenic belt, eastern Tibetan Plateau, Lithos, 2020, 362-363: 105475.

（26）Jing-Sui Yang; Sergei K. Simakov*; KyawSoe Moe; Vittorio Scribano; Dong-Yang Lian; Wei-Wei Wu; Comment on “Comparison of enigmatic diamonds from the Tolbachik arc volcano (Kamchatka) and Tibetan ophiolites: Assessing the role of contamination by synthetic materials”, Gondwana Research, 2020, 79: 301-303.

（27）Zaheen Ullahl*; Muhammad Tahir Shah; Rehanul Haq Siddiqui; Dong-Yang Lian; Asad Khan; Petrochemistry of High-Cr and High-Al chromitites occurrences of Dargai Complex along Indus Suture Zone, Northern Pakistan, Episodes, 2020, 43(2): 689-709.

（28）Wei-Wei Wu*; Jing-Sui Yang; Wirth Richard; Jian-Ping Zheng; Dong-Yang Lian; Tian Qiu; Milushi Ibrahim; Carbon and nitrogen isotopes and mineral inclusions in diamonds from chromitites of the Mirdita ophiolite (Albania) demonstrate recycling of oceanic crust into the mantle, American Mineralogist, 2019, 104(4): 485-500.

（29）Jing-Sui Yang*; Dong-Yang Lian; Paul T. Robinson; Tian Qiu; Fa-Hui Xiong; Wei-Wei Wu; A shallow origin for diamonds in ophiolitic chromitites: COMMENT, Geology, 2019, 47(8): e475.

（30）Hui-Zhao; Jing-Sui Yang*; Fa-Hui Xiong; Dong-Yang Lian; Hu Yao; Mineralogy and Geochemistry of the High-Cr Podiform Chromitite from the Cuobuzha Ophiolite, Yarlung Zangbo Suture Zone, Western Tibet, China: Implication for its origin, Acta Geologica Sinica (English Edition), 2019, 94(1): 75-89.

（31）赵慧; 杨经绥*; 刘飞; 熊发挥; 连东洋; 姚虎; 董玉飞; 雅鲁藏布江缝合带西段错不扎铬铁矿特征及形成环境, 中国地质, 2019, 46(1): 115-125.

（32）董玉飞; 杨经绥*; 连东洋; 熊发挥; 赵慧; 陈晓坚; 李观龙; 王天泽; 西藏班公湖—怒江缝合带中段东巧地幔橄榄岩岩石成因及构造环境分析, 中国地质, 2019, 46(01): 87-114.

（33）刘飞*; 杨经绥; 连东洋; 余晓艳;博茨瓦纳和中国含金刚石金伯利岩的地质特征及对寻找类似岩体的启示, 中国地质, 2019, 46(1): 43-76.

（34）王云鹏*; 牛晓露*; 杨经绥; 李源; 徐向珍; 冯光英; 熊发挥; 刘飞; 刘钊; 田亚洲; 郭国林; 连东洋; 赵一珏; 雅鲁藏布江缝合带西段东波地幔橄榄岩体钻孔岩心研究, 地质学报, 2019, 93(10): 2486-2508.

（35）刘飞*; 连东洋; 牛晓露; 赵慧; 冯光英; 杨经绥; 雅鲁藏布江缝合带西段东波 MORB 型均质辉长岩的大洋核杂岩成因, 地球科学, 2018, 43(4): 952-974.

（36）Jing-Sui Yang*; Robert Trumbull; Paul T. Robinson; Fa-Hui Xiong; Dong-Yang Lian; Comment 2 on “Ultra-high pressure and ultra-reduced minerals in ophiolites may form by lightning strikes”, Geochemical Perspectives Letters, 2018, 8: 6-7.

（37）Fa-Hui Xiong; Jing-Sui Yang; Dilek Yildirim; Chun-Lian Wang; Xiao-Lin Hao; Xiang-Zhen Xu*; Dong-Yang Lian; Petrology and geochemistry of the high-Cr podiform chromitites of the Köycegiz ophiolite, southwest Turkey: implications for the multi-stage evolution of the oceanic upper mantle, Mineralogy and Petrology, 2018, 112(5): 685-704.

（38）Wei-Wei Wu; Jing-Sui Yang*; Dilek Yildirim; Milushi Ibrahim; Dong-Yang Lian; Multiple episodes of melting, depletion, and enrichment of the Tethyan mantle: Petrogenesis of the peridotites and chromitites in the Jurassic Skenderbeu massif, Mirdita ophiolite, Albania, Lithosphere, 2017, 10(1): 54-78.

（39）Wei-Wei Wu; Jing-Sui Yang*; Chang-Qian Ma; Milushi Ibrahim; Dong-Yang Lian; Ya-Zhou Tian; Discovery and Significance of Diamonds and Moissanites in Chromitite within the Skenderbeu Massif of the Mirdita Zone Ophiolite, West Albania, Acta Geologica Sinica (English Edition), 2017, 91(3): 882-897.

（40）Fei Liu*; Dilek Yildirim; Yan-Xue Xie; Jing-Sui Yang; Dong-Yang Lian; Melt evolution of upper mantle peridotites and mafic dikes in the northern ophiolite belt of the western Yarlung Zangbo suture zone (southern Tibet), Lithosphere, 2017, 10(1): 109-132.

（41）张利; 杨经绥*; 刘飞; 连东洋; 黄健; 赵慧; 杨艳; 南公珠错地幔橄榄岩: 雅鲁藏布江缝合带西段一个典型的大洋地幔橄榄岩,岩石学报, 2016, 32(12): 3649-3672.

（42）Fei Liu; Jing-Sui Yang*; Yildirim Dilek; Zhi-Qin Xu; Xiang-Zhen Xu; Feng-Hua Liang; Song-Yong Chen; Dong-Yang Lian; Geochronology and geochemistry of basaltic lavas in the Dongbo and Purang ophiolites of the Yarlung-Zangbo Suture zone: Plume-influenced continental margin-type oceanic lithosphere in southern Tibet, Gondwana Research, 2015, 27(2): 701-718.

（43）刘飞; 杨经绥*; 连东洋; 赵慧; 张岚; 张利; 黄健; 西藏雅鲁藏布江缝合带西段南北亚带蛇绿岩的成因探讨, 岩石学报, 2015, 31(12): 3609-3628.

（44）刘飞; 杨经绥*; 连东洋; 赵慧; 赵一珏; 张岚; 雅鲁藏布江缝合带西段北亚带的基性岩成因和构造意义, 地球学报, 2015, 36(4): 441-454.

（45）赵慧; 杨经绥*; 刘飞; 熊发挥; 张岚; 连东洋; 西藏雅鲁藏布江缝合带萨嘎碱性玄武岩地球化学和年代学研究, 中国地质, 2015, 42(5): 1242-1256.

（46）田亚洲; 杨经绥*; 王云鹏; 赵一珏; 连东洋; 张岚; 李源; 新疆西准噶尔木哈塔依蛇绿混杂岩年代学和地球化学研究及构造意义, 中国地质, 2015, 42(2): 379-395.

（47）冯光英; 杨经绥*; 熊发挥; 刘飞; 牛晓露; 连东洋; 王云鹏; 赵一珏; 雅鲁藏布江蛇绿岩带西段错不扎地幔橄榄岩组成特征及岩石成因, 中国地质, 2015, 42(5): 1337-1353.

（48）刘飞; 杨经绥*; 陈松永; 梁凤华; 牛晓露; 李兆丽; 连东洋; 雅鲁藏布江缝合带西段东波蛇绿岩OIB型玄武岩的厘定及其形成环境, 岩石学报, 2013, 29(6): 1909-1932.

（49）刘飞; 杨经绥*; 陈松永; 李兆丽; 连东洋; 周文达; 张岚; 雅鲁藏布江缝合带西段基性岩地球化学和Sr-Nd-Pb同位素特征: 新特提斯洋内俯冲的证据,中国地质, 2013, 40(3): 742-755.