职 称:研究员
所属部门:岩矿教研室
研究方向:变质地质学、前寒武纪地质、极地地质。
联系电话:029-88302312
电子邮箱:tonglx@nwu.edu.cn
仝来喜,男,博士,研究员,博士生导师,88年本科毕业于西北大学地质系地质学专业,91年硕士毕业于中科院地质所岩石学专业并留所工作至98年底,期间在读在职博士,04年底博士毕业于澳洲墨尔本大学地球科学学院变质地质学专业,05-07年在台湾中央研究院地球科学所从事博士后研究。08-18年中在中科院广州地化所工作,任特任研究员。多年来长期从事东南极前寒武纪高温/超高温变质岩的变质演化历史研究,曾多次参加国家南极考察队赴南极进行野外地质科学考察,主持或参加多项国家自然科学基金项目。近年来参加了国家“973”项目和华南深部专项及中科院战略先导项目(B),对阿尔泰地区超高温变质岩进行了创新性研究并对华南加里东期变质岩进行了初步研究。主要研究成果:(1) 在拉斯曼丘陵发现含假蓝宝石高温变质矿物组合, (2) 在茹尔群岛含假蓝宝石超高温麻粒岩中发现早期含蓝晶石的高压矿物组合,重新修正了该区的变质演化历史,(3)在阿尔泰喀拉苏附近发现二叠纪超高温麻粒岩矿物组合,(4)在拉斯曼丘陵识别出早期9-10亿年变质矿物组合,并重新建立了其变质演化历史。目前,任国际地学期刊Frontiers in Earth Science 岩石学领域编委和国内“极地研究”期刊第五届编委,海洋局极地专家库专家,第八届和第九届全国变质岩专业委员会委员。学术方面,获邀担任过稿件评审的英文期刊有: Gondwana Research, Precambrian Research, Lithos, American Journal of Science, Journal of Metamorphic Geology, Mineralogy & Petrology, Geological Journal, Geological Magazine, International Geology Review, Journal of Asian Earth Sciences, Science Bulletin, Journal of Earth Science, Advance in Polar Science等,国内期刊:中国科学,科学通报,岩石学报,地球科学,大地构造与成矿学,极地研究,岩石矿物学杂志等.
欢迎有志于从事极地变质岩尤其是超高温麻粒岩变质演化历史研究的同学报考本领域的研究生博士生,也欢迎有兴趣的博士后加入。
Liu Z., Tong L*., Bartoli O., 2021. Prolonged metamorphism of garnet-orthoamphibole gneisses from the Fuyun area: new insights
into metamorphic evolution of the southern Chinese Altai orogen. Lithos, 406-407, 106534.(SCI)
Tong L., Li C., Liu Z., Zhai M., Li W., 2021. First report of phengites in the Longyou paragneiss in the northern Early Paleozoic
Wuyi-Yunkai orogen, South China: P-T conditions, zircon U-Pb ages and tectonic implications. Journal of Asian Earth
Sciences, 214, 104754.(SCI)
Li C., Tong LX*., Liu Z., Huang XL., 2020. Genesis of the Gaozhou charnockite and its two types of garnets of Yunkai massif, South China: evidence from petrology and zircon U-Pb geochronology. Acta Petrologica Sinica, 36(3), 871-892.(SCI)
Liu Z., Tong L*., Bartoli O., Li C., Xu Y.G., Zhong Z., 2020. P–T path, zircon U–Pb ages and tectonic implications of Devonian pelitic granulites in the southern Chinese Altay orogen. Journal of Asian Earth Sciences, 103, 104554. (SCI)
Liu Z., Tong L*., Bartoli O., Xu Y.G., Huang X., Li C., 2020. Low–pressure metamorphism of mafic granulites in the Chinese Altay orogen, NW China: P–T path, U–Pb ages and tectonic implications. Solid Earth Sciences, 5, 8-22. (SCI)
Liu Z., Bartoli O., Tong L*., Carvalho B.B., Xu Y.G., Gianola O., Li C., 2020. Anatexis and metamorphic history of Permian pelitic granulites from the southern Chinese Altai: constraints from petrology, melt inclusions and phase equilibria modelling. Lithos, 360-361, 105432. (SCI)
Liu Z., Tong L., Bartoli O., Carvalho B.B. Li C., 2020. Low-pressure granulite-facies metamorphism in the southern Chinese Altay orogenic belt, NW China: P-T estimates, U-Pb ages and tectonic implications. Geochemistry, 80, 125603. (SCI)
Liu Z., Bartoli, O., Tong L*., Xu, Y.G., Huang, X., 2020. Permian ultrahigh-temperature reworking in the southern Chinese Altai: evidence from petrology, P-T estimates, zircon and monazite U-Th-Pb geochronology. Gondwana Research, 78, 20-40. (SCI)
Tong L., Liu Z., Li Z.X., Liu X., Zhou X., 2019. Poly-phase metamorphism of garnet- bearing mafic granulite from the Larsemann Hills, East Antarctica: P-T path, U-Pb ages and tectonic implications. Precambrian Research, 326, 385-398.(SCI)
Tong L., Jahn B.M., Liu X., Liang X., Xu Y.G., Ionov D., 2017. Ultramafic to mafic granulites from the Larsemann Hills, East Antarctica: Geochemistry and tectonic implications. Journal of Asian Earth Sciences, 145, 679-690. (SCI)
Tong L., Liu X., Wang Y., Liang X., 2014. Metamorphic P-T paths of metapelitic granulites from the Larsemann Hills, East Antarctica. Lithos, 192-195, 102-115.(SCI)
Tong L., Xu Y.G., Cawood P.A., Zhou X., Chen Y., Liu Z., 2014. Anticlockwise P-T evolution at ~280 Ma recorded from ultrahigh-temperature metapelitic granulite in the Chinese Altai orogenic belt, a possible link with the Tarim mantle plume? Journal of Asian Earth Sciences, 94, 1-11. (SCI)
Tong L., Jahn B.M. & Zheng Y.F., 2011. Diverse P-T paths of the northern Dabie complex in central China and their reworking in the early Cretaceous. Journal of Asian Earth Sciences, 42, 633-640. (SCI)
Tong L., Jahn B.M., Iizuka Y. & Xu Z., 2007. Assemblages and textural evolution of UHP eclogites from the Chinese Continental Scientific Drilling main hole. International Geology Review, 49, 73-89. (SCI)
Tong L. & Wilson C.J.L., 2006. Tectonothermal evolution of the ultrahigh temperature metapelites from the Rauer Group, east Antarctica. Precambrian Research, 149, 1-20. (SCI)
Tong L., Wilson C.J.L. & Vassallo J.J., 2004. Metamorphic evolution and reworking of the Sleaford Complex metapelites in the southern Eyre Peninsula, South Australia. Australian Journal of Earth Sciences, 51, 571-589. (SCI)
Tong L., Chen Y., Chen L., 2014. Confirmation of ultrahigh-temperature metapelitic granulite in the Altay orogen and its geologic significance. Chinese Science Bulletin, 59, 3441-3448.(SCI)
Tong LX, Chen YB, Xu YG, Zhou X & Liu Z. 2013. Zircon U-Pb ages of the ultrahigh-temperature metapelitic granulite from the Altai orogeny, NW China, and geological implications. Acta Petrologica Sinica, 29, 3435-3445.(SCI)
Tong L., Liu X., Xu P., Han X., Zhao Y., Ren L. & Wang Y., 1997. Discovery of sapphirine-bearing hyperthene quartzite in the Larsemann Hills, East Antarctica and its geological significance. Chinese Science Bulletin, 42, 324-327. (SCI)
Tong L, Zhang Z, Liu X, Han X & Liu W. 1997. Mineralogical characteristics of cordierites in Krn-Hy-Crd granulites from the Larsemann Hills, East Antarctica. Acta Petrologica Sinica, 3, 395-405. (SCI)
Tong L, Liu X, Zhang L, Chen H, Ren L, Wang Y & Zhao Y. 1997. Characteristics of the eraly remnant mineral associations in granulite facies rocks from the Larsemann Hills, East Antarctica and metamorphic P-T conditions. Acta Petrologica Sinica, 2, 127-138. (SCI)
Liu Z & Tong LX*, 2015. The petrogenetic link between the Late Palaeozoic high-temperature metamorphism in the Altay orogen and the Tarim mantle plume : evidence from metapelitic and mafic granulites. Acta Petrologica Sinica, 31, 1761-1773. (通讯作者)(SCI)
Zhou X, Tong LX*, Liu XH, Wang YB & Chen YB. 2014. Metamorphism evolution of mafic granulite from the Larsemann Hills, East Antarctica. Acta Petrologica Sinica, 30, 1731-1747.(通讯作者)(SCI)
Liu WP, Wang H, Tong LX*, Wu YF, Huang CY & Hu J. 2013. Geochemical characteristics and metamorphic P-T paths of the Bulunkuole Group in Taxkorgan, western Kunlun. Acta Petrologica Sinica, 29, 923-937.(通讯作者)(SCI)
Liu XH, Tong LX, Shi RD, Li GW, Chen SS, Zhou XJ, Liu Z, 2018. Discovery of Cenozoic magnetite volcanic rock in High Himalaya and its tectonic significance. Acta Petrologica Sinica, 34, 1876-1884.(SCI)
Peng YB, Yu S, Zhang J, Li SZ, Tong L, Sun DY, 2017. Early Paleozoic arc magmatism and metamorphism in the northern Qilian Block, western China: petrological and geochronological constraints. Geological Journal, 52, 339-364. (SCI)
Qiu Z, Yan Q, Li S, Wang H, Tong L, Zhang R, Wei X, Li P, Wang L, Bu A, Yan L, 2017. Highly fractionated Early Cretaceous I-type granites and related Sn polymetallic mineralization in the Jinkeng deposit, eastern Guangdong, SE China: constraints from geochemistry, geochronology, and Hf isotopes. Ore Geology Reviews, 88, 718-738. (SCI)
Hu J, Wang H, Huang C, Tong L, Mu S & Qiu Z, 2016. Geological characteristics and age of the Dahongliutan Fe-ore deposit in the Western Kunlun orogenic belt, Xinjiang, northwestern China. Journal of Asian Earth Sciences, 116, 1-25. (SCI)
Huang XL., Yu Y., Li J., Tong LX., Chen L.L., 2013. Geochronology and petrogenesis of the early Paleozoic I-type granite in the Taishan area, South China: middle-lower crustal melting during orogenic collapse. Lithos, 177, 268-284. (SCI)
Yu SY., Xu YG., Ma JL., Zheng YF., Kuang YS, Hong LB, Ge WC & Tong L., 2010. Remnants of oceanic lower crust in the subcontinental lithospheric mantle: trace element and Sr-Nd-O isotopic evidence from aluminous garnet pyroxenite xenoliths from Jiaohe, Northeast China. Earth and Planetary Science Letters, 297, 413-422. (SCI)
Liu JP, Wang H, Li SH, Tong L & Ren GL. 2010. Geological and geochemical features and geochronology of the Kayizi porphyry molybdenum deposit in the northern belt of western Kunlun,NW China. Acta Petrologica Sinica, 26, 3095-3105.(SCI)
Liu J., Sun Y., Tong L. & Sun W., 2009. The emplacement age of the Songshugou ultramafic massif in Qinling orogenic belt and implications. International Geology Review, 51, 58-76. (SCI)
Wang Y., Liu D., Chung S.L., Tong L. & Ren L., 2008. SHRIMP zircon U-Pb age constraints from the Larsemann Hills region, Prydz Bay, for a late Mesoproterozoic to early Neoproterozoic tectonothermal event in east Antarctica. American Journal of Science, 308, 573-617. (SCI)
Wilson C.J.L., Quinn C., Tong L. & Phillips D., 2007. Early Palaeozoic intracratonic shears and post-tectonic cooling in the Rauer Group, Prydz Bay, east Antarctica constrained by Ar/Ar thermochronology. Antarctic Science, 19, 339-353. (SCI)
Wang Y., Tong L. & Liu D., 2007. Zircon U-Pb ages from an ultra-high temperature metapelite, Rauer Group, east Antarctica: implications for overprints by Grenvillian and Pan-African events. USGS OF-2007-1047, Short Res. Paper 023, doi:10.3133/of 2007- 1047.srp023
Schneider J., Jahn B.M., Okamoto K., Tong L., Izuka Y., Xu Z., 2006. Rb/Sr and Sm/Nd isotope analyses of CCSD eclogites (Sulu, China): a test of the closure temperature concept. Geochimica et Cosmochimia Acta, 70 (18), doi:10.1016/j.gca.2006.06.1043. (SCI)
Wang Y., Liu D., Williams I. & Tong L., 2001. New U-Pb zircon ages, geochemistry and their significance of the basemant rocks from the Larsemann Hills, East Antarctica. Gondwana Research, 4(4), 820-820. (SCI)
Li Z., Tong L., Liu X., Ren L., Jin M. & Liu M., 2000. Quadrupole splitting distributions in grandidierite and kornerupine from Antarctica. Hyperfine Interactions, 131, 91-102. (SCI)
Chen F, Tong L & Liu X, 1998. Nd, Sr and Pb isotope systematics of ultramafic rocks from the Larsemann Hills, East Antarctica. Chinese Science Bulletin, 43(1), 20-20. (SCI)
Tong L., Jahn B.M., Iizuka Y., 2007. First report on pigeonite exsolution in clinopyroxene in UHP mafic rocks from the North Dabie Complex (China) and its significance. Geophysical Research, Vol.9, 02485, SRef-ID: 1607-7962/gra/EGU2007-A-02485.
Tong L., Jahn B.M., Chen F., Liu X., Wang Y., 2006. Geochemistry of mafic to ultramafic granulites from the Lasremann Hills, east Antarctica. Geochimica et Cosmochimia Acta, 70 (18), A654-654. (SCI)
Tong L., Jahn B.M., Okamoto K., Izuka Y., Xu Z., 2005. Prograde and retrograde metamorphic evolution of UHP eclogites from the main hole of CCSD, China. 2005 AGU fall meeting (abst), Dec, 2005.
Tong L., Wilson C.J.L. & Liu X., 2002. A high-grade event of ~1100 Ma preserved within the ~500 Ma mobile belt of the Larsemann Hills, East Antarctica: further evidence from Ar-Ar dating, Terra Antartica, 9, 73-86.
Tong L., Vassallo J.J. & Wilson C.J.L., 2001. Tectonic significance of the P-T-D path of the Sleaford Complex granulites at Fishery Bay, Eyre Peninsula, South Australia. 2001: A Structural Odyssey, Tasmania, Geological Society of Australia, No. 64, 183-184.
Tong L., Liu X., Zhang L., Chen H., Chen F., Wang Y. & Ren L., 1998. The Ar-Ar ages of hornblendes in Grt-Pl-bearing amphibolite from the Larsemann Hills, East Antarctica and their geological implications. Chinese Journal of Polar Science, 9, 79-91.
Tong L. & Liu X., 1997. The prograde metamorphism of the Larsemann Hills, East Antarctica: evidence for an anticlockwise P-T path. The Antarctic Region: Geological Evolution and Processes, ed. Ricci C.A., Terra Antartica Publication, Siena, 105-114.
Zhang L., Tong L., Liu X. & Scharer U., 1996. Conventional U-Pb age of the high-grade metamorphic rocks from the Larsemann Hills, East Antarctica. Advances in Solid Earth Sci., ed. Pang Z. et al., Science Press, Beijing, 27-35.
Tong L., Liu X., Zhang L. & Chen F., 1995. The U-Pb zircon chronology of mafic granulite from the Larsemann Hills, East Antarctica and its possible geological implications. Terra Antartica, 2, 123-126.
王彦斌, 王浩, 任留东, 焦永艳, 仝来喜, I.S. Williams, 2021.东南极Windmill群岛与罗迪尼亚超大陆聚合相关构造热事件的时代:来自Bailey半岛镁铁质片麻岩和淡色片麻岩锆石SHRIMP U-Pb年龄的约束.地质力学学报,27(5), 768-782.
仝来喜, 刘兆, 王彦斌, 2021.东南极茹尔群岛超高温麻粒岩的研究进展.地质力学学报,27(5), 705-718.
仲正,仝来喜*,刘兆,李超,2021.中国阿尔泰造山带的变形-变质历史研究:以富蕴乌恰沟地区为例.大地构造与成矿学,45(6), 651-666.(通讯作者)
李超,仝来喜*,黄小龙,刘兆,仲正,2020.粤西云开地块高州钙硅酸盐麻粒岩的变质P-T历史及构造意义.大地构造与成矿学,44(6), 1172-1189.(通讯作者)
丁自耕,仝来喜*,刘小汉,刘兆,周学君,2018.西藏定结高压基性麻粒岩(退变榴辉岩)的变质P-T轨迹及构造意义.地球科学,43, 220-235.(通讯作者)
陈相艳,仝来喜,张传林,朱清波,李亚楠,2016.对“龙游石榴石角闪岩是退变榴辉岩吗”的回复。科学通报,61, 561-565.
陈相艳,仝来喜,张传林,朱清波,李亚楠,2015.浙江龙游石榴石角闪岩(退变榴辉岩):华夏加里东期碰撞造山事件的新证据。科学通报,60, 1207-1217.
仝来喜,陈义兵,陈林丽. 2014.阿尔泰造山带超高温变泥质麻粒岩的确定及其地质意义。科学通报,59, 1984-1991.
仝来喜,刘小汉,王彦斌,C.J.L. Wilson, 2012. 东南极拉斯曼丘陵泥质麻粒岩的变质作用演化。地质学报,86, 1273-1290.
刘小汉, 赵越, 仝来喜, 任留东, 刘晓春, 俞良军. 2002. 罗迪尼亚—冈瓦纳古陆演化中的东南极陆块. 世界科技研究与发展, 24, 35-40.
仝来喜, 刘小汉, 张连生, 陈海弘, 陈福坤, 王彦斌, 任留东, 1998. 东南极拉斯曼丘陵石榴斜长角闪岩中角闪石的Ar-Ar年龄及其地质意义. 极地研究, 10, 161-171.
仝来喜, 刘小汉, 徐平, 韩秀伶, 赵越, 任留东, 王彦斌, 1996. 东南极拉斯曼丘陵含假蓝宝石紫苏石英岩的发现及其地质意义. 科学通报, 41, 1205-1208.
刘小汉, 仝来喜, 李继亮, 赵越, 任留东, 王彦斌, 1995. 东南极地盾中元古—早古生代构造演化. 海峡两岸地质学研讨会论文集(II), 165-169.
仝来喜, 刘小汉, 陈福坤, 王彦斌, 任留东, 1995. 东南极拉斯曼丘陵暗色麻粒岩锆石的U-Pb年龄及其地质意义. 南极研究, 7, 65-70.
王彦斌, 赵越, 任留东, 陈廷愚, 刘小汉, 仝来喜, 1994. 东南极拉斯曼丘陵镁铁质麻粒岩的地球化学特征及其中压变质作用. 南极研究, 6, 1-11.
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1.国家自然基金项目:东南极茹尔群岛超高温麻粒岩的变质P-T轨迹及大地构造背景。2020.1-2023.12 (负责人)
2.国家自然基金项目:东南极拉斯曼丘陵镁铁质麻粒岩的变质P-T轨迹及其大地构造背景。2014.1-2017.12 (负责人)
3.国家基金重点项目:东南极埃默里地区多期变质事件的甄别及对冈瓦纳重建的启示。2016.1-2020.12 (第一参加者)
4.中科院战略先导项目:大火成岩省的热变质历史研究。2016.1-2020.12 (专题负责人)
5.国家自然基金项目:东南极拉斯曼丘陵高级变质岩的P-T演化轨迹及其大地构造意义。2010.1-2012.12 (负责人)6.国家“973”项目:二叠纪大规模岩浆活动的地质构造背景研究。2011.1-2015.12 (专题负责人)
7.地质调查项目:中国及邻区泛非期构造研究之华南-越南地质研究。2015.1-2018.12 (负责人)
8.国家自然基金项目:藏南大地构造新模式的构造-沉积综合研究。2013.1-2016.12 (参加者)
1991-1992年参加第八次中国南极科学考察队(中山站)越冬
1997-1998年参加第十四次中国南极科学考察队(中山站)度夏
1999-2000年参加澳大利亚南极科学考察队(戴维斯站)度夏
2010-2011年参加第二十七次中国南极科学考察队(中山站)度夏
2015-2016年参加第三十二次中国南极科学考察队(格罗夫山)度夏
中国科学院院长优秀论文奖(亿利达奖1996)
国家海洋局2014年度极地科学优秀论文二等奖(2015)
陕西省特聘专家(2020)