刘金高,男,博士,中国地质大学(北京)教授,博士生导师。地球化学专业。2006本科毕业于中国科学技术大学地球化学专业,同年出国留学,2011年获美国马里兰大学(University of Maryland-College Park)博士学位。2012-2016年在加拿大阿尔伯塔大学(University of Alberta)从事博士后/副研究员的研究工作。现任中国地质大学(北京)教授,博士生导师。2018年获得国家自然科学基金优秀青年基金资助,2018年获中国地质大学(北京)‘五四’奖章称号。2021年获孙贤鉥奖、翟裕生教师奖。2022年获高等学校科学研究优秀成果奖青年科学奖。 [1-3] [7-9]
- 中文名
- 刘金高
- 外文名
- Jingao Liu
- 国 籍
- 中国
- 民 族
- 汉
- 出生地
- 江西抚州崇仁
- 出生日期
- 1984年2月
- 毕业院校
- 美国马里兰大学(University of Maryland-College Park)
- 职 业
- 教师
- 代表作品
- Nature [8]
刘金高2019年7月在西藏野外主要是应用Re-Os同位素和铂族元素及其他同位素(W-Sr-Nd-Hf-Pb)示踪来研究行星增生演化、壳幔分异和地球岩石圈地幔的形成与演化等近年来又开展了古环境、古生命演化等相关工作。相关成果已经发表在Nature, Nature Communications, Science Advances, Earth and Planetary Science Letters, Geochimica et Cosmochimica Acta, Earth-Science Reviews, Chemical Geology, Precambrian Research等期刊上。 [5]
1)本科生课程:《地球的前世今生与未来》; [9]
2)研究生课程:《高温地球化学与宇宙化学》。 [9]
Updated in Feb 2024 [4].
*Corresponding Author, #Students,$Postdoc
【76】ZhangZhou, J., Li, Y., Chowdhury, P., Sen, S., Ghosh, U., Xu,Z., Liu, J., Wang, Z. and Day,J.M.D. (2024) Predicting sulfide precipitation in magma oceans on Earth, Marsand the Moon using machine learning. Geochimica et Cosmochimica Acta 366,237-249. [5]
【75】 Li, J.#, Liu, S.-A., Ma, H., Wu, C., Zhu, D.-C. and Liu, J.* (2024) Pervasive Neoarcheanmelting of subducted sediments generating sanukitoid and associated magmatismin the North China Craton, with implications for the operation of platetectonics. GSA Bulletin. https://doi.org/10.1130/B37279.1 [5]
【74】 Xu, Y.#, Szilas, K., Zhang, L., Zhu, J.-M., Wu, G., Zhang, J.,Qin, B., Sun, Y., Pearson, D.G. and Liu,J.* (2023) Ni isotopes provide a glimpse of Earth’s pre-late-veneer mantle.Science Advances 9, eadj2170. [5]
【73】Cai, R.#, Liu, J.*,Pearson, D.G., Giuliani, A., van Keken, P.E. and Oesch, S. (2023) Widespread PREMAin the upper mantle indicated by low-degree basaltic melts. Nature Communications 14, 8150. [5]
【72】Wang, Y.*, Mungall, J.E. and Liu, J.* (2023) Osmium Isotope Heterogeneity of the Upper Mantle:Evidence From the Bay of Islands Ophiolite Complex, Newfoundland. Journalof Geophysical Research: Solid Earth 128, e2023JB026789. [5]
【71】Qin, Z.#, Wang, C., Zhou, W., Liu, H., Gao, R., Li, J. and Liu, J.* (2023)A Novel Alkali PrecipitationMethod for Tungsten Separation and High-Precision Isotopic Measurement inGeological Samples. Geostandards and Geoanalytical Research, https://doi.org/10.1111/ggr.12521. [5]
【70】Li, J.#, Wu, C., Cheng, L., Yang, H., Zhu, D.-C. and Liu, J.*. Geodynamic controls on thePaleo-Asian oceanic plate evolution: Constraints from Paleozoic intrusivesuites along the northern margin of the North China Block. Lithos, 2023, 454-455,107258. [5]
【69】Chen, M., Zheng, J., Dai, H.-K., Xiong, Q., Sun, M., Buslov,M.M., Zhou, X. and Liu, J. (2023)Boninitic melt percolation makes depleted mantle wedges rich in silica. Geology 51, 791-795. [5]
【68】Xu, D., Qin, Z., Wang, X., Li, J., Shi, X., Tang, D. and Liu,J. (2023) Extensive sea-floor oxygenation during the early Mesoproterozoic. Geochimicaet Cosmochimica Acta 354, 186-196. [5]
【67】Liu, H.#, Ash, R.D., Luo, Y., Pearson, D.G. and Liu, J.* Siderophile element and Hf-Wisotope characteristics of the metal-rich chondrite NWA 12273 – Implication forits origin and chondrite metal formation. Earth and Planetary Science Letters 2023, 612, 118162. [5]
【66】Zhou, S.-H., Shu, Q., Pearson, D.G., Li, D., Xu, Y. and Liu, J.* Rejuvenation of thelithospheric mantle beneath the orogens: Constraints from elementalgeochemistry and Os isotopes in mantle xenoliths. Geochimica et Cosmochimica Acta 2023, 349, 96-114. [5]
【65】Cai, R.#, Liu, J.*,Sun, Y. and Gao, R. (2023) Phosphorus deficit in continental crust induced byrecycling of apatite-bearing cumulates. Geology 2023, 51, 500-504. [5]
【64】Xue Xiao#, Yujian Wang, Yantao Hao, Yong Xu, Jingao Liu*. Large-scale replacement ofancient mantle lithosphere during supercontinent assembly: Evidence from theSouth China Craton. Lithos 2023, 436, 106948. [5]
【63】Lin, A.-B., Aulbach, S., Zheng, J.-P., Cai, R., Liu, J., Xiong, Q. and Pan, S.-K. Lithospheric mantle provinces and crust-mantle decoupling beneathnortheastern China: Insights from peridotite xenoliths. GSA Bulletin 2023, 135,990-1008. [5]
【62】Delpech, G., Scott, J.M., Grégoire, M., Moine, B.N., Li, D., Liu, J., Pearson, D.G., Meer,Q.H.A.v.d., Waight, T.E., Michon, G., Guillaume, D., O'Reilly, S.Y., Cottin,J.-Y. and Giret, A. (2023) The subantarctic lithospheric mantle. GeologicalSociety, London, Memoirs 2023, 56, 115-132. [5]
【61】Yao Sun#, Ruohan Gao, Zhiwei Li, Andong Wang, Ran Han, YufeiXi, Jingao Liu*. Composition andevolution of continental crust at orogenic belts: Constraints from a 3‐D crustal model of Southeast China. Journal of Geophysical Research:Solid Earth 2022, 127(12), e2022JB025057. [5]
【60】Qiwei Zhang#, Melanie LA Morel, Jingao Liu*, Hélène Legros, Ambre Luguet, KS Viljoen, Gareth RDavies, D Graham Pearson. Re-healing cratonic mantle lithosphere after theworld's largest igneous intrusion: Constraints from peridotites erupted by thePremier kimberlite, South Africa. Earth and Planetary Science Letters 2022, 598, 117838. [5]
【59】Dongxu Li#, Dmitri A. Ionov, Yong Xu, James M. Scott, Jingao Liu*. Subduction-related mantleaccretion and makeover revealed by mantle xenoliths at the Pacific margin of NEEurasia. Lithos 2022, 434, 106943. [5]
【58】Jialiang Li#, Jingao Liu*, Chen Wu, Di-Cheng Zhu. Permianre-melting and maturity of continental crust revealed by the Daqingperaluminous granitic batholith, Inner Mongolia. Lithosphere 2022 (1):5658756. https://doi.org/10.2113/2022/5658756. [5]
【57】Zheng Qin#*, Dongtao Xu, Brian Kendall, Xingliang Zhang, QiangOu, Xinqiang Wang, Jie Lie, Jingao Liu*. Molybdenumisotope-based redox deviation driven by continental margin euxinia during theearly Cambrian. Geochimica et Cosmochimica Acta 2022, 325, 152-169. [5]
【56】Jialiang Li#, JingaoLiu*, Di- Cheng Zhu, Bruce K. Nelson, Ruohan Gao. Ridge subduction andepisodes of crustal growth in accretionary belts: Evidence from Late Paleozoicfelsic igneous rocks in the southeastern Central Asian Orogenic Belt. GSABulletin 2022,134(11-12).https://doi.org/10.1130/B35986.1 [5]
【55】Wang, Z.-X., Liu, S.-A., Li, S., Liu, D. and Liu, J. (2022) Linking deep CO2outgassing to cratonic destruction. National Science Review 2022, 9. [5]
【54】Jialiang Li#, JingaoLiu*, James M.Scott, Chen Wu, Di-Cheng Zhu, Liangliang Zhang EarlyPermian magmatism above a slab window in Inner Mongolia, North China:Implications for the Paleo-Asian Ocean subduction processes and accretionarycrustal growth. Solid Earth Sciences 2022, 7(2), 87-103. [5]
【53】Yujian Wang*$, Dicheng Zhu, Chengfa Lin, Fangyang Hu, Jingao Liu*. Quantifying the Growth of ContinentalCrust through Crustal Thickness and Zircon Hf‐O IsotopicSignatures: A Case Study from the Southern Central Asian Orogenic Belt. GSABulletin 2022, 134(7-8). https://doi.org/10.1130/B36046.1 [5]
【52】Liu, S.-A., Wu, T., Li, S., Wang, Z. and Liu, J. (2022) Contrasting fates of subducting carbon related todifferent oceanic slabs in East Asia. Geochimica et Cosmochimica Acta 2022,324, 156-173. [5]
【51】Cai, R.#, Xu, S., Ionov, D.A., Huang, J., Liu, S.A.,Li, S.G., Liu, J.*. Carbonated bigmantle wedge extending to the NE edge of the stagnant Pacific slab: Constraintsfrom Late Mesozoic-Cenozoic basalts from far eastern Russia. Journalof Earth Science 2022, 33 (1), 121-132. [5]
【50】Wang, C., Zhang, Z., Giuliani, A., Cai, R., Cheng, Z. and Liu, J. New insights into the mantlesource of a large igneous province from highly siderophile element and Sr-Nd-Osisotope compositions of carbonate-rich ultramafic lamprophyres. Geochimicaet Cosmochimica Acta 2022, 326, 77-96. [5]
【49】Huang, Z., Lan, T., Dai, L., Zhao, X., Wang, Z., Zhang, Z., Li,B., Li, J., Liu, J., Ding, B., Geim,A.K., Cheng, H.-M. and Liu, B. (2022) 2D Functional Minerals as SustainableMaterials for Magneto-Optics. Advanced Materials 2022, 34,2110464. [5]
【48】Yuan Chen#, Yu Han, Bo Xu and Jingao Liu* Geochemicalcharacteristics and genesis of red fluorite in the Huanggangliang Fe-Sndeposit, Inner Mongolia. ACTA PETROLOGICA SINICA 2021, 37,3869-3879. [5]
【47】Pearson, D.G., Scott, J.M., Liu, J., Schaeffer, A., Wang, L.H., van Hunen, J., Szilas, K., Chacko, T., Keleman, P.B. Deep continental roots and cratons. Nature 2021, 596, 199-210. [5]
【46】Liu, J.*, Pearson, D.G., Wang, L.H., Kathy, M., Irvine, G., Schaeffer, A., Kjarsgaard, B., Kopylova, M., Armstrong, J. Plume-driven recratonisation of deep continental lithospheric mantle. Nature 2021, 592, 732-736. [6]
【45】Xu, Y.#, Li, D.N., Dongxu Li, D.X., Guo-Chen Dong, G.C., D. Graham Pearson, D. G., Liu, J.*. Modification of Lithospheric Mantle by Melts/Fluids with Different Sulfur Fugacities during the Wilson Cycle: Insights from Lesvos and Global Ophiolitic Peridotites. Journal of Geophysical Research: Solid Earth 2021, 126, e2021JB022445. [6]
【44】Xu, Y.#, Pearson, D.G., Harris, G.A., Kopylova, M.G., Tso, E., Liu J.*. Age and provenance of the lithospheric mantle beneath the Chidliak kimberlite province, southern Baffin Island: Implications for the evolution of the North Atlantic Craton. Lithos 2021, 390-391, 106124. [6]
【43】Scott, J.M., Pearson, D.G., Liu, J., Auer, A., Cooper, A.F., Li, D.X., Palmer, M.C., Read, S.E., Reid, M.R., Woodland, S.J. Osmium isotopes in peridotite xenoliths reveal major mid-Proterozoic lithosphere formation under the Transantarctic Mountains, Geochimica et Cosmochimica Acta 2021, 312, 25-43. [6]
【42】Li, J.#, Liu, J.*, Wang, Y., Zhu, D.-C. and Wu, C. Late Carboniferous to Early Permian ridge subduction identified in the southeastern Central Asian Orogenic Belt: Implications for the architecture and growth of continental crust in accretionary orogens. Lithos 2021, 384-385, 105969. [6]
【41】Cai, R.#, Liu, J.*, Pearson, D.G., Li, D., Xu, Y., Liu, S.-A., Chu, Z., Chen, L.-H. and Li, S. Oxidation of the deep big mantle wedge by recycled carbonates: Constraints from highly siderophile elements and osmium isotopes. Geochimica et Cosmochimica Acta 2021, 295, 207-223. [6]
【40】Delpech, G., Scott, J.M., Grégoire, M., Moine, B., Li, D., Liu, J., Pearson, D.G., van der Meer, Q.H.A., Waight, T.E., Michon, G., Guillaume, D., O'Reilly, S.Y., Cottin, J.-Y. and Giret, A. The Subantarctic lithospheric mantle. Geological Society, London, Memoirs 56 (2021), M56-2020-2013. https://doi.org/10.1144/M56-2020-13 [6]
【39】Wang, S.-J., Wang, W., Zhu, J.-M., Wu, Z., Liu, J., Han, G., Teng, F.-Z., Huang, S., Wu, H., Wang, Y., Wu, G. and Li, W. Nickel isotopic evidence for late-stage accretion of Mercury-like differentiated planetary embryos. Nature Communications 2021, 12, 294. [6]
【38】Tian, G.#, Liu, J.*, Scott, J.M., Chen, L.-H., Pearson, D.G., Chu, Z., Wang, Z. and Luo, Y., 2020. Architecture and evolution of the lithospheric roots beneath circum-cratonic orogenic belts–The Xing'an Mongolia Orogenic Belt and its relationship with adjacent North China and Siberian cratonic roots. Lithos 376-377, 105798. [6]
【37】Liu J.*,Pearson D.G., Shu Q., Sigurdsson H., Thomassot E., Alard O., 2020. Dating post-Archean lithospheric mantle: insights from Re-Os and Lu-Hf isotopic systematics of the Cameroon Volcanic Line peridotites. Geochimica et Cosmochimica Acta 278, 177-198. [6]
【36】Xu, Y.#, Liu, J.*, Xiong, Q., Su, B.-X., Scott, J. M., Xu, B., Zhu, D.-C., Pearson, D. G., 2020.The complex life cycle of oceanic lithosphere: A study of Yarlung-Zangbo ophiolitic peridotites, Tibet. Geochimica et Cosmochimica Acta 277, 175-191. [6]
【35】Xiong, Q., Xu, Y., González-Jiménez, J. M., Liu, J., Alard, O., Zheng, J. P., Griffin, W. L., O'Reilly, S. Y., 2020. Sulfide in dunite channels reflects long-distance reactive migration of mid-ocean-ridge melts from mantle source to crust: A Re-Os isotopic perspective. Earth and Planetary Science Letters 531, 115969. [6]
【34】Wang, X., Xiao, Y., Sun H., Wang Y., Liu J., Yang K., Gu H., Hou Z.H., Tian Y., Wu W.P., Ma Y.G., 2020. Initiation of the North China Craton destruction: Constraints from the diamond-bearing alkaline basalts from Lan'gan, China. Gondwana Research 80, 228-243. [6]
【33】Gao R.H., Li Z.W., Han, R., Wang A.D., Li Y.F., Xi Y.F., Liu J., Mao X., Sun Y., Xu Y., 2020. JULOC: A local 3-D high-resolution crustal model in South China for forecasting geoneutrino measurements at JUNO. Physics of the Earth and Planetary Interiors 299, 106409. [6]
【32】Kopylova, M.G., Tso E., Ma F.,Liu J.,Pearson D.G., 2019. The metasomatized mantle beneath the North Atlantic Craton: Insights from peridotite xenoliths of the Chidliak kimberlite province (NE Canada). Journal of Petrology 60(10), 1991-2024. [6]
【31】Shu Q., Brey G., Pearson D.G., Liu J., Gibson S., Becker, H., 2019. The evolution of the Kaapvaal craton: A multi-isotopic perspective from lithospheric peridotites from Finsch diamond mine. Precambrian Research 331, 105380. [6]
【30】Zhang Y. L., Ge W. C., Sun J., Yang H., Liu Z.C., Liu J.*, 2019. Age and composition of the subcontinental lithospheric mantle beneath the Xing'an–Mongolia Orogenic Belt. Lithos 326, 556-571. [6]
【29】Liu, J., Cai, R.H., Pearson, D.G., Scott, J.M., 2019. Thinning and destruction of the lithospheric mantle root beneath the North China Craton: A review. Earth-Science Reviews 196, 102873. [6]
【28】Scott, J. M., Liu, J., Pearson, D. G., Harris, G. A., Czertowicz, T. A., Woodland, S. J., Riches, A. J. V., Luth, R. W., 2019. Continent stabilization by lateral accretion of subduction zone-processed depleted mantle residues; insights from Zealandia. Earth and Planetary Science Letters 507, 175-186. [6]
【27】Xu J.J., Chu Z.Y., Liu J., Wu H.C., Wang M.J., Li C.F., Guo J.H., 2019. High-precision tungsten isotopic measurement by negative thermal ionization mass spectrometry (NTIMS). Acta Petrologica Sinica 35(2):606-616 (in Chinese with English abstract). [6]
【26】Xu Y.#, Liu J.*, Tian G.C., Liu H.X., Cai R.H., Gao R.H., 2019. High-temperature Geochemistry and Cosmochemistry of Highly Siderophile Elements and Their Research Progresses. Bulletin of Mineralogy Petrology and Geochemistry 38(2):273-298 (in Chinese with English abstract). [6]
【25】Li, P., Scott, J. M., Liu J., Xia, Q., 2018. Lateral H2O variation in the Zealandia lithospheric mantle controls orogen width. Earth and Planetary Science Letters 502, 200-209. [6]
【24】Liu, J., Brin, L. E., Pearson, D. G., Bretschneider, L.,Luguet, A.,Acken, D. V.,Kjarsgaard, B., Riches, A., Miskovic, A.,2018. Diamondiferous Paleoproterozoic mantle roots beneath Arctic Canada: A study of mantle xenoliths from Parry Peninsula and Voctoria Island. Geochimica et Cosmochimica Acta 239, 284-311. [6]
【23】Reimink, J. R., Chacko, T., Cralson, R. W., Shirey, S. B., Liu,J., Stern, R. A., Bauer, A. M., Pearson, D. G., Heaman, L. M., 2018 .Petrogenesis and tectonics of the Acasta Gneiss Complex derived from integrated petrology and 142Nd and 182W extinct nuclide-geochemistry. Earth and Planetary Science Letters 494, 12-22. [6]
【22】Harris, G. A., Pearson, D. G., Liu, J., Hardman, M. F., Snyder, D. B., Kelsch, D.,2018. Mantle composition, age and geotherm beneath and Darby kimberlite field, west central Rae Craton. Mineralogy and Petrology,1-14. [6]
【21】Liu, J., Pearson, D. G., Chacko, T., Luo, Y.,2018. A reconnaissance view of tungsten reservoirs in some crustal and mantle rocks: Implications for interpreting W isotopic compositions and crust-mantle W cycling. Geochimica et Cosmochimica Acta 223, 300-318. [6]
【20】Linge KL., Bedard LP., Bugoi R., Enzweiler J., Jochum KP., Kilian R., Liu J., Carbonne JM., Merchel S., Munnik F., FG Morales L., Bard CR., Sounders AK., Sylvester PJ.,Weis U.,2017.GCR biennial critical review:analytical developments since 2014.Geostandards and Geoanalytical Research 41(4), 493-562. [6]
【19】Ishikawa A., Suzuki K.,Collerson KD.,Liu J., Pearson DG., Komiya T.,2017.Rhenium-osmium isotopes and highly siderophile elements in ultramafic rocks from the Eoarchean Saglek Block, northern Labrador,Canada: implications for Archean mantle evolution. Geochimica et Cosmochimica Acta 216, 286-311. [6]
【18】Yin L., Li J., Liu J., Li C., Sun S., Liang H., Xu J.,2017.Precise and accurate Re-Os isotope dating of organic-rich sedimentary rocks by thermal ionization mass spectrometry with an improved H2O2-HNO3 digestion procedure. Internantional Journal of Mass Spectrometry 421,263-270. [6]
【17】Dalton HB.,Scott JM., Liu J., Waight TE., Pearson DG., Brenna M.,PetrusLe Roux.,Palin JM.,2017.,Diffusion-zoned pyroxenes in an isotopically heterogeneous mantle lithosphere beneath the Dunedin Volcanic Group,New Zealand, and their implications for intraplate alkaline. Lithosphere 9 (3),463-475. [6]
【16】Wang, Z.-Z., Liu, S.-A., Liu, J., Huang, J., Xiao, Y., Chu, Z.-Y., Zhao, X.-M., Tang, L., 2017. Zinc isotope fractionation during mantle melting and constraints on the Zn isotope composition of Earth’s upper mantle. Geochimica et Cosmochimica Acta 198, 151-167. [6]
【15】Liu, J., Touboul, M., Ishikawa, A., Walker, R. J., and Pearson, D. G. 2016. Widespread tungsten isotope anomalies and W mobility in crustal and mantle rocks of the Eoarchean Saglek Block, northern Labrador, Canada: Implications for early Earth processes and W recycling. Earth and Planetary Science Letters, 448, 13-23. [6]
【14】Scott, J.M.,Liu, J., Pearson, D.G., Waight, T.E., Depletion and metasomatism recorded in orthopyroxene in refractory mantle peridotites, Chemical Geology 441, 280-291. [6]
【13】Liu, J., Riches, A. J., Pearson, G. D., Luo, Y., Kjarsgaard, B. A., Stachel, T. and Armstrong, J. P., 2016. Age and evolution of deep continental roots beneath the central Rae craton, northern Canada. Precambrian Research 272, 168-184. [6]
【12】Liu, S-A., Huang, J.,Liu, J., Worner, G., Yang, W., Tang, Y-J., Tang, L., and Li, S-G., 2015. Copper isotopic composition of the silicate Earth. Earth and Planetary Science Letters 427, 95-103. [6]
【11】Walker, R. J., Bermingham, K., Liu, J., Puchtel, I. S., and Touboul, M., 2015. In Search of Late-Stage Planetary Building Blocks. Chemical Geology 411, 125-142. [6]
【10】Liu, J., Scott, J. M., Martin, C. E., and Pearson, D. G., 2015. Archean mantle residues in the convecting upper mantle and their role in young continent formation. Earth and Planetary Science Letters 424, 109-118. [6]
【9】Liu, J., Sharp, M., Ash, R. D., Kring, D., and Walker, R. J., 2015. Diverse impactors in Apollo 15 and 16 impact melt rocks: evidence from osmium isotopes and highly siderophile elements. Geochimica et Cosmochimica Acta 155, 122-153. [6]
【8】Liu, J., Rudnick, R. L., Walker, R. J., Gao, S., Wu, F.-Y., 2015. Big insights from tiny peridotites: evidence for persistence of Precambrian lithosphere beneath the eastern North China Craton. Tectonophysics, 650, 104-112. DOI: 10.1016/j.tecto.2014.05.009. [6]
【7】Touboul, M., Liu, J., O’Neil, J., Puchtel, I. S. and Walker, R. J., 2014. New insights into the Hadean mantle revealed by 182W and highly siderophile element abundances of rocks from the Nuvvuagittuq Greenstone Belt, Quebec, Canada. Chemical Geology 383, 63-75. [6]
【6】Li, J., Zhao, P-P., Liu, J., Wang, X.C., Yang, A.Y., Wang, G.Q., and Xu, J.F., 2014. Reassessment of hydrofluoric acid desilicification in the Carius tube digestion technique for Re-Os isotopic analysis in geological samples. Geostandards and Geoanalytical Research, DOI: 10.1111/j.1751-908X.2014.00299.x. [6]
【5】Liu, J., Pearson, D. G., 2014. Rapid, precise and accurate Os isotope ratio measurements of nanogram to sub-nanogram amounts using multiple Faraday collectors and amplifiers equipped with 1012 Ω resistors by N-TIMS. Chemical Geology 363, 301-311. [6]
【4】Sharp, M., Gerasimenko, I., Loudin, L. C., Liu, J., James, O. B., Puchtel, I. S. and Walker, R. J., 2014. Characterization of the Dominant Impactor Signature for Apollo 17 Impact Melt Rocks. Geochimica et Cosmochimica Acta 131, 62-80. [6]
【3】Liu, J., Carlson, R. W., Rudnick, R. L., Walker, R. J., Gao, S., and Wu, F.-Y., 2012. Comparative Sr-Nd-Hf-Os-Pb isotope systematics of xenolithic peridotites from Yangyuan, North China Craton: Additional evidence for a Paleoproterozoic age. Chemical Geology 332-333, 1-14. [6]
【2】Liu, J., Rudnick, R. L., Walker, R. J., Gao, S., Wu, F.-Y., Piccoli, P. M., Yuan, H., Xu, W.-L., and Xu, Y.-G., 2011. Mapping lithospheric boundaries using Os isotopes of mantle xenoliths: An example from the North China Craton. Geochimica et Cosmochimica Acta 75, 3881-3902. [6]
【1】Liu, J., Rudnick, R. L., Walker, R. J., Gao, S., Wu, F.-Y., and Piccoli, P. M., 2010. Processes controlling highly siderophile element fractionations in xenolithic peridotites and their influence on Os isotopes. Earth and Planetary Science Letters 297, 287-297. [6]
