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姜鼎盛

姜鼎盛--特任副研究员

男,汉族,安徽安庆人,中共党员
邮箱:dshjiang@ustc.edu.cn

教育经历

2011.09 - 2015.06,中国地质大学 (武汉),资源学院,学士
2015.09 - 2020.09,南京大学,地球科学与工程学院,博士 导师:徐夕生教授 陆现彩教授
2019.05 - 2019.08,University of Bristol,访问学者 合作导师:Chris Hawkesworth 教授

工作经历

2020/09 中国科学技术大学 地球与空间科学学院博士后
2022/07 中国科学技术大学 地球与空间科学学院 特任副研究员

研究方向

同位素地球化学
岩浆岩岩石成因与岩浆过程
金属稳定同位素与花岗质岩浆作用过程

个人荣誉

2014. 11 中国地质大学(武汉)第25届科技论文报告会特等奖
2015. 06 中国地质大学(武汉)资源学院2015届优秀毕业生
2018. 10 南京大学博士研究生国家奖学金
2018. 12 南京大学2018年度优秀(博士)研究生
2019. 04 入选2019年度中国科协优秀中外青年交流计划
2019. 12 中共南京大学第十一次党代会代表
2019. 12 江苏省研究生“地球系统与自然资源”学术创新论坛二等奖
2020. 01 南京大学地球科学与工程学院2020年度模范共产党员
2020. 06 南京大学2020届优秀毕业生
2023. 11 中国科学技术大学本科招生先进个人

项目与经费

(1)中国科学技术大学青年创新基金:利用Mg-Zn同位素联合示踪早白垩世古太平洋板片俯冲的碳酸 盐循环(2020-2022),主持,结题
(2)中国博士后科学基金面上项目:金属稳定同位素联合示踪中国东部早白垩世与西太平洋板块俯冲有关的深部碳循环(2021-2022),主持,结题
(3)国家自然科学基金青年基金:华南早白垩世辉绿岩的Mg-Zn-Fe同位素组成(2022-2024),主持,在研
(4)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基金:浙江舟山过碱性花岗岩的岩石 成因与高场强元素成矿作用研究(2022-2023),支持,在研
(5)中国博士后科学基金站中特别资助:Ba-Fe同位素制约过碱性花岗岩成因(2022-2023),主持,在研
(6)国家重点研发项目“中国古代金属物料产地溯源方法”第二课题“ 中国古代铅锡金属物料溯 指标及其变化规律研究”(2023-2028),任务二主持, 在研
(7)国家自然科学基金面上项目:花岗质岩浆-热液演化过程中的铀同位素分馏行为研究 (2025- 2028),主持,在研
(8)基金委重大研究计划重点项目“前寒武纪两次大氧化事件氧循环的定量对比”子课题 (2025- 2028),主持,在研

发表论文和专利

第一作者论文:
1. Jiang, D. S., Xu, X. S*., Xia, Y., and Erdmann, S. (2018). Magma mixing in a granite and related rock association: Insight from its mineralogical, petrochemical, and “reversed isotope” features. Journal of Geophysical Research: Solid Earth, 123 (3), 2262-2285.
2. Jiang, D. S., Xu, X. S. *, Li, X. L., & Xia, Y. (2020). Emplacement of young island arc crust over older mantle along a cratonic foreland: Constraints from multiple isotopes and elemental geochemistry. Journal of Geophysical Research: Solid Earth, 125(8), e2019JB018550.
3. Jiang, D. S., Xu, X. S. *, Wang, X. J., Zeng, G., Chen, A. X., Huang, B., & Huang, F. (2021). Geochemical evidence for the Paleo-Pacific plate subduction at~ 125 Ma in Eastern China. Lithos, 398, 106259.
4. Jiang, D. S., Erdmann, S., Deng, G. X., Guo, H. H., Wu, F., Xu, X. S., ... & Huang, F*. (2022). Barium isotope evidence for the generation of peralkaline granites from a fluid-metasomatized crustal source. Chemical Geology, 614, 121197.
5. Jiang, D. S., Xu, X. S. *, Erdmann, S., Deng, G. X., Wang, X. J., Muhtar, M. N., & Huang, F. (2024). Ba-Mg isotopic evidence from an OIB-type diabase for a big mantle wedge beneath East Asia in the Early Cretaceous. Chemical Geology, 646, 121917.
6. Jiang, D.S., Peng, X.T., Xu, W.J., Hu, X., Erdmann, S., Xu, X.S., Zhang, G.L., Pang, C.J., Duan, H.C. and Huang, F.*, 2024. Rubidium isotopes reveal dehydration and melting of the subducting slab beneath the Mariana arc. Earth and Planetary Science Letters, 646, p.118978.

通讯作者论文:
1. Jia-Ru Sheng, Ding-Sheng Jiang*, Saskia Erdmann, Geng-Xin Deng, Hao-Chen Duan, Xi-Sheng Xu, Fang Huang. Uranium isotopes trace fluid exsolution and fluxing in evolved granitic magmas: implications for tin mineralization. Submitted but rejected.
2. Zi-Qiang Zhong, Ding-Sheng Jiang*, Xia Hu, Saskia Erdmann, Geng-Xin Deng, Xi-Sheng Xu, Fang Huang*. Rubidium isotopes in basalts record slab-mantle interactions from sub-arc to post-arc depths. Submitted.

合作者论文:
1. Zhang, X., Ni, P. *, Wang, G. G., Jiang, Y. H., Jiang, D. S., Li, S. N., and Fan, M. S. (2020). Petrogenesis and oxidation state of granodiorite porphyry in the Jurassic Chuankeng skarn Cu deposit, South China: Implications for the Cu fertility and mineralization potential. Journal of Asian Earth Sciences, 191, 104184.
2. Song, Z. T., Xu, X. S. *, Zhou, M. F., Xia, Y., & Jiang, D. S. (2021). A critical review of Early Paleozoic W and Cu mineralized and barren granitoids in Southeast China: magmatic differentiation, oxygen fugacity, and magmatic sources. Ore Geology Reviews, 104025.
3. Li, X. L., Yu, J. H. *, Jiang, D. S., Griffin, W. L., Jiang, W., & Xu, H. (2021). Linking ocean subduction with early Paleozoic intracontinental orogeny in South China: Insights from the Xiaying complex in eastern Guangxi Province. Lithos, 398, 106258.
4. Zhang, X., Ni, P. *, Wang, G., Jiang, D., Zhu, R., Jiang, Y., & Wang, F. (2022). Magmatic controls on the mineralization potential of a porphyry Cu system: The case of Jurassic Tongshan skarn Cu deposit in the Qin–Hang Belt, South China. Gondwana Research, 101, 203-223.
5. Deng, G., Jiang, D., Zhang, R., Huang, J., Zhang, X., & Huang, F*. (2022). Barium isotopes reveal the role of deep magmatic fluids in magmatic-hydrothermal evolution and tin enrichment in granites. Earth and Planetary Science Letters, 594, 117724.
6. Xu, X., Huang, Z., Jiang, D., Zeng, G. and Dai, L.Q., 2024. Remnants and fragments of the subducted paleo-Pacific plate: Constraints from geochemistry and geophysics. Science China Earth Sciences, pp.1-21.
7. Deng G, Jiang D, Li G, Xu Z, Huang F. (2024). Barium isotope evidence for a magmatic fluid-dominated petrogenesis of LCT-type pegmatites. Geochemical Perspectives Letters.Jun;31:14-20.
8. Fang, W., Dai, L. Q., Zhao, Z. F., Chen, Q., Yan, J., Zhang, D., & Jiang, D. S. (2024). Molybdenum isotopic evidence for the initiation of a big mantle wedge beneath eastern Asia. Chemical Geology, 122244.
9. Hu, X., Jiang, D., Deng, G., & Huang, F. (2024). Rubidium isotope compositions of biotite in granites record magmatic-hydrothermal process and rare metal enrichments. Geochimica et Cosmochimica Acta.


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