田恆次,男,博士,中國科學院特聘副研究員。
基本介紹
- 中文名:田恆次
- 國籍:中國
- 民族:漢
- 畢業院校:中國科學院地質與地球物理研究所
- 學位/學歷:博士
- 專業方向:地球化學
- 性別:男
人物經歷,研究方向,主要成就,科研項目,發表論文,獲獎記錄,
人物經歷
2012年6月本科畢業於河北地質大學。
2017年6月於中國科學院地質與地球物理研究所獲地球化學專業博士學位。
2017.06-2020.12在本所開展博士後研究,其中在2018年1月-4月和2018年9月-2019年9月兩次到美國華盛頓大學(西雅圖)訪問交流。
2021年1月起任特聘副研究員。
研究方向
- 同位素地球化學
- 月球與行星科學
- 納米離子探針微區分析
主要成就
科研項目
1. 國家自然科學基金-專項項目:橄欖石原位Mg同位素標樣研發(2023.01-2023.12),主持。
2. 基金委重點項目,嫦娥五號月壤樣品記錄的小行星撞擊和太陽風輻射歷史,2023-2027, 骨幹。
3. 國防科工局,月殼成因和演化研究(D020203, 2020.01-2022.12),骨幹。
4. 中國科學院重點部署項目:嫦娥五號著陸區火山成因與噴發機理(2021.06-2023.06),骨幹。
5. 國家自然科學基金青年基金(41803019):中國東北EM-I型鉀質火山岩成因的Ca同位素制約。2019.01-2021.12,主持(結題)。
6. 中國博士後科學基金面上二等資助(2018M631566):富集地幔與地殼相互作用過程的Mg同位素的制約,2018.09-2020.12,主持(結題)。博士後創新人才支持計畫(BX201700237):月球岩漿洋分異演化模型:Mg-Fe同位素制約,2017.05-2020.12,主持(結題)。
發表論文
第一作者/通訊作者文章:
16. Tian H.C.*, Yang W., Gao Y.B., Zhou Q., Ruan R.H., Lin Y.T., Li X.H.,Wu F.Y. (2023). Reassessing the classification of Chang’E-5 basalts usingpyroxene composition. Lithos456-457, 107309.
15. Tian H.C.*, Zhang C*, Yang W., Du J., Chen Y., Xiao Z.Y., RossMitchell, Hui H.J., Hitesh Changela, Zhang T.X., Tang X., Zhang D., Lin Y.T., LiX.H., Wu F.Y. (2023). Surges in volcanic activity on the Moon about two billionyears ago. Nature Communications 14,3734.
14. Tian H.C.*, Yang W.*, Zhang D., Zhang H.J., Jia L.H., Wu S.T., LinY.T., Li X.H., Wu F.Y. (2023) Petrogenesis of Chang’E-5 mare basalts: Clues fromthe trace elements in plagioclase. AmericanMineralogist, 108, 1669-1677.
13. Xu Y.C.#, Tian H.C.#, Zhang C., Marc Chaussidon, Lin Y.T.*, Hao J.L., Li R.Y., Gu L.X.,Yang W., Huang L.Y., Du J., Yang Y.Z., Liu Y., He H.Y., Zou Y.L., Li X.H., Wu F.Y.(2022). High abundance of solar wind-derived water in lunar soils from themiddle latitude. Proceedings of theNational Academy of Sciences 119(51), e2214395119.
12. 田恆次,郝佳龍,徐於晨,楊蔚,胡森,張馳,林楊挺*,李獻華,吳福元 (2022). Apollo 11月壤樣品中太陽風成因的水及其意義. 岩石學報 38(6), 1823-1831.
11. TianH.C.*, Teng F.Z., Chen X.Y., Guo Z.X., Peng X.T., Yang W., Xiao Y.L. (2022).Multi-mode chemical exchange in seafloor alteration revealed by lithium and potassiumisotopes. Chemical Geology 121004.
10. Tian H.C., Tian S.H.*,Hou Z.Q., Yang Z.M., Zheng Y.C. (2022). Lithium isotope fractionation duringmagmatic differentiation and hydrothermal processes in post-collisionaladakitic rocks. Geochimica et CosmochimicaActa 332, 19-32.
9. Guo Z.X., Tian H.C.*,Liu Y.D., Peng X.T.*, Qin G.H., Lv Y.W. (2022). Copper isotopic fractionationduring seafloor alteration: Insights from altered basalts in the Mariana andYap Trenches. Journal of GeophysicalResearch: Solid Earth 127, e2021JB023597.
8. TianH.C.#, Wang H.#, Chen Y.#, Yang W.*, Zhou Q., Zhang C., Lin H.L., Huang C.,Wu S.T., Jia L.H., Xu L., Zhang D., Li X.G., Chang R., Yang Y.H., Xie L.W.,Zhang D.P., Zhang G.L., Yang S.H., Wu F.Y. (2021). Non-KREEP origin forChang’E-5 basalts in the Procellarum KREEP Terrane. Nature 600 (7887), 59-63 (入選2021年度中國科學十大進展)
7. Wei H.Q., Tian H.C*, Li S.G., Yang W., Gao B.Y., Ke S., Li R.Y., Chen X.W.,Yu H.M. (2021). Large Mg-Fe isotope fractionation in volcanic rocks fromnortheast China: The role of chemical weathering and magma compositionaleffect. Chemical Geology 565, 120075
6. TianH.C.*, Zhang C., Teng F.Z., Long Y.J., Li S.G., He Y.S., Ke S., Chen X.Y.,Yang W.* (2020). Diffusion-driven extreme Mg and Fe isotope fractionation inPanzhihua ilmenite: Implications for the origin of mafic intrusion. Geochimica et Cosmochimica Acta 278,361-375.
5. TianH.C.*, Teng F.Z., Hou Z.Q., Tian S.H.*, Yang W., Chen X.Y, Song Y.C.(2020). Magnesium and lithium isotopic evidence for a remnant oceanic slabbeneath central Tibet. Journal ofGeophysical Research: Solid Earth 125, e2019JB018197.
4. TianH.C.*, Yang W., Li S.G.*, Wei H.Q., Yao Z.S., Ke S. (2019). Approach totrace hidden paleo-weathering of basaltic crust through decoupled Mg-Sr and Ndisotopes recorded in volcanic rocks. ChemicalGeology 509, 234-248.
3. TianH.C., Yang W.*, Li S.G.*, Ke S., Duan X.Z. (2018). Low δMgvolcanic rocks of Tengchong in Southwestern China: A deep carbon cycle inducedby supercritical liquids. Geochimica etCosmochimica Acta 240, 191-219.
2. TianH.C., Yang W.*, Li S.G.*, Ke S. (2017). Could sedimentary carbonates berecycled into the lower mantle? Constraints from Mg isotopic composition ofEmeishan basalts. Lithos 292-293,250-261.
1. TianH.C., Yang W.*, Li S.G.*, Ke S., Chu Z.Y. (2016) Origin of low δ26Mgbasalts with EM-I component: Evidence for interaction between enrichedlithosphere and carbonated asthenosphere. Geochimicaet Cosmochimica Acta 188, 93-105.
合作者文章:
23. Chang Rui, LinHonglei, Yang Wei, Ruan Renhao, Liu Xiaoying, Tian Heng-Ci, Xu Jiafei (2023). Comparison of laboratory and insitu reflectance spectra of Chang’e-5 lunar soil. Astronomy & Astrophysics, 674, A68.
22. He Huicun, JiJianglong, Zhang Yue, Hu Sen, Lin Yangting, Hui Hejiu, Hao Jialong, Li Ruiying,Yang Wei, Tian Heng-Ci, Zhang Chi,Mahesh Anand, Romain Tartèse, Gu Lixin, Li Jinhua, Zhang Di, Mao Qian, JiaLihui, Li Xiaoguang, Chen Yi, Zhang Li, Ni Huaiwei, Wu Shitou, Wang Hao, LiQiuli, He Huaiyu, Li Xianhua, Wu Fuyuan. A solar wind-derived water reservoiron the Moon hosted by impact glass beads. NatureGeoscience 16, 294–300.
21. Yuan Jiangyan, Huang Hao, Chen Yi, Yang Wei, Tian Heng-Ci, Zhang Di, Zhang Huijuan. AutomaticBulk Composition Analysis of Lunar Basalts: Novel Big-Data Algorithm forEnergy-Dispersive X-ray Spectroscopy. ACSEarth and Space Chemistry, https://doi.org/10.1021/acsearthspacechem.2c00260.
20. Liu Ya-Dong, GuoZixiao, Tian Heng-Ci, Qin Guohong,Peng Xiaotong (2023). Potassium isotopic fractionation during multistagealteration of oceanic crust in the southern Mariana Trench. Chemical Geology, 121350. https://doi.org/10.1016/j.chemgeo.2023.121350.
19. Li, X.G., Chen, Y.,Tang, X., Gu, L., Yuan, J., Su, W., Tian,H.C., Luo, H.Q., Cai, S.H., Komarneni, S. (2023). Thermally induced phasetransition of troilite during micro-raman spectroscopy analysis. Icarus, 390, 115299. doi:https://doi.org/10.1016/j.icarus.2022.115299.
18. Yan, P., Xiao, Z.,Wu, Y., Yang, W., Li, J.-H., Gu, L.-X., Liao, S.-Y., Yin, Z.-J., Wang, H., Tian, H.-C., et al. (2022). Intricateregolith reworking processes revealed by microstructures on lunar impactglasses. Journal of GeophysicalResearch: Planets, 127, e2022JE007260. https://doi.org/10.1029/2022JE007260.
17. Su, B., Yuan, J.,Chen, Y., Yang, W., Mitchell, R. N., Hui, H., Wang, H., Tian, H.C., Li, X.H., Wu, F.-Y. Fusible mantle cumulates triggeryoung mare volcanism on the cooling Moon. ScienceAdvances, 8(42), eabn2103.
16. Yang, W., Chen, Y.,Wang, H., Tian, H.-C., Hui, H.,Xiao, Z., et al (2022). Geochemistry of impact glasses in the Chang’e-5regolith: Constraints on impact melting and the petrogenesis of local basalt. Geochimica et Cosmochimica Acta, 335,183-196.
15. Jia, L.-H., Mao, Q., Tian, H.-C., Li, L.-X., Qi, L., Wu,S.-T., Yuan, J., Huang, L., Chen, Y. (2022). High-precision EPMA measurement oftrace elements in ilmenite and reference material development. Journal of Analytical Atomic Spectrometry,37(11), 2351-2361.
14. Yang, Y., Jiang, T.,Liu, Y., Xu, Y., Zhang, H., Tian, H.-C.,et al. (2022). A micro mid-infrared spectroscopic study of Chang’e-5 sample. Journal of Geophysical Research: Planets,127, e2022JE007453. https://doi.org/10.1029/2022JE007453.
13. Huang, C., Wang, H.,Xie, L., Nie, N. X., Yang, Y., Zhao, X., .Li, J., Tian, H-C., Wu, S., Xu, L., Yang, J. (2022). In situ Ti isotopicanalysis by femtosecond laser ablation MC-ICP-MS. Journal of Analytical Atomic Spectrometry, 37(10), 2165-2175.
12. Liu, X.Y., Hao, J.,Li, R.-Y., He, Y., Tian, H.-C., Hu,S., et al. (2022). Sulfur isotopic fractionation of the youngest Chang'e-5 basalts:Constraints on the magma degassing and geochemical features of the mantlesource. Geophysical Research Letters,49, e2022GL099922.
11. 吳福元,劉強,田恆次(2022). 中國有哪些月球樣品?岩石學報, 38(6): 1795-1803.
10. Ji Jianglong, He Huicun, Hu Sen, Lin Yangting, Hui Hejiu,Hao Jialong, Li Ruiying, Yang Wei, Yan Yihong, Tian Heng-Ci, Zhang Chi, Mahesh Anand, Romain Tartèse, Gu Lixin, LiJinhua, Zhang Di, Mao Qian, Jia Lihui, Chen Yi, Wu Shitou, Wang Hao, He Huaiyu,Li Xianhua, Wu Fuyuan (2022). Magmatic chlorine isotope fractionation recordedin apatite from Chang’e-5 basalts. Earthand Planetary Science Letters. 591, 117636.
9. Xue Ding-Shuai, TianHeng-Ci, Zhang Dan-Ping, Liu Yan-Hong, Sun Jie-Fang, Wu Shi-Tou, Liu Shan-Ke,Guo Shun, Wan Bo (2022). Quantitative verification of 1:35 diluted fused glassdisks with 10 mg sample sizes for wavelength-dispersive X-ray fluorescenceanalysis of the whole-rock major elements of precious geological specimens. Spectrochimica Acta Part B: AtomicSpectroscopy. 193, 106433.
8. Yuan Jiangyan, Chen Yi, Zhang Di, Li Xiaoguang, Tian Heng-Ci, Yang Wei, Su Wen (2022). QuantitativeAnalysis Of Bulk Composition Of Small-Size Lunar Samples Using EnergyDispersive X-Ray Spectroscopy. AtomicSpectroscopy. 43. DOI: 10.46770/AS.2022.003
7. Qu Yuan-Ru, Liu Sheng-Ao, Wu Huai-Chun, Li Meng-Lun, Tian Heng-Ci (2022). Tracing carbonatedissolution in subducting sediments by zinc and magnesium isotopes. Geochimica et Cosmochimica Acta,319, 56-72.
6. Nicole Xike Nie, Nicolas Dauphas, Esen EAlp, Hao Zeng, Corliss K Sio, Justin Y Hu, Xi Chen, Sarah M Aarons, Zhe Zhang, Tian Heng-Ci, Da Wang, Kelsey B Prissel,Jennika Greer, Wenli Bi, Michael Y Hu, Jiyong Zhao, Anat Shahar, MathieuRoskosz, Fang-Zhen Teng, Michael J Krawczynski, Philipp R Heck, Frank S Spear(2021). Iron, magnesium, and titanium isotopic fractionations between garnet,ilmenite, fayalite, biotite, and tourmaline: Results from NRIXS, ab initio, andstudy of mineral separates from the Moosilauke metapelite. Geochimica et Cosmochimica Acta, 302, 18-45.
5. Zhao Yuepeng, Tang Yanjie, Xu Juan, Zeng Zhen, Ying Jifeng, Tian Heng-Ci, Huang Fang (2021). Bariumisotope evidence for recycled crustal materials in the mantle source ofcontinental basalts. Lithos, 106111.
4. Tian Shihong, Hou Zengqian, Chen Xinyang, Tian Heng-Ci, Gong Yingli, Yang Zhusen,Huang Tianyi, Li Xianfang, Mo Xuanxue (2020). Magnesium isotopic behaviorsbetween metamorphic rocks and their associated leucogranites, and implicationsfor Himalayan orogenesis, GondwanaResearch 87, 23-40.
3. Duan Xianzhe, Zhang Hongfu, M. Santosh, Tian Heng-Ci, Sun He, Tan Kaixuan, HanShili, Xiao Yilin, Hou Zhenhui, Zhang Yanqun, Jiang Le (2020) Thetransformation of the lithospheric mantle beneath South China Block (SCB):constraints from petrological and geochemical studies of Daoxian and Ningyuanbasalts and their melt inclusions. InternationalGeology Review 62:4, 479-502.
2. Duan Xian-Zhe, Fan Hong-Rui, Zhang Hong-Fu, Greg Yaxley, M.Santosh, Tian Heng-Ci, Tan Kai-Xuan, Tang Zhen-Ping, Xie Yan-Shi, Xiao Yi-Lin,Hou Zhen-Hui, Guo Heng-Fei (2019) Melt inclusions in phenocrysts track enrichedupper mantle source for Cenozoic Tengchong volcanic field, Yunnan Province, SWChina. Lithos, 324-325: 180-201.
1. Li Shu-Guang,Yang Wei,Ke Shan,Meng Xunan,Tian Heng-Ci,Xu Lijuan,He Yongsheng,Huang Jian,Wang Xuan-Ce,Xia Qunke,Sun Weidong,Yang Xiaoyong,Ren Zhong-Yuan,Wei Haiquan,Liu Yongsheng,Meng Fancong,Yan Jun (2017). Deep carbon cycles constrained by a large-scalemantle Mg isotope anomaly in eastern China. National Science Review 4, 111-120.
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