教师队伍

所在学科专业：

地球化学、海洋地质、沉积学

所研究方向：

同位素地球化学、海洋沉积学、沉积地球化学

教育经历：

2009.09-2013.06   山东科技大学地质工程专业；

2013.09-2016.06   国家海洋局第一海洋研究所环境工程专业；

2016.09-2020.01   中国科学院海洋研究所海洋地质专业；

工作经历：

2020.07-2025.09中国科学院广州地球化学研究所，博士后；

2025.10-至今 山东科技大学 学术教授；

科研项目：

2024.01-2025.12   国家自然科学基金青年基金项目 南黄海陆架胶黄铁矿层的黄铁矿多硫同位素研究(42303012)，2024-2025，直接经费：20.00万；

学术论文：

1. Yu X., Qian F., Lin X., Du L., Bai J., Lv D.,   Liu Y., Wei G., Lin M*. Glacial-interglacial climate modulates sedimentary   sulfur cycling in the Peruvian oxygen minimum zone: Mechanistic insights from   pyrite multiple sulfur isotopes [J]. Geochimica et Cosmochimica Acta,   Pre-print.

2.   Yu X., Bai J.*, Wei G., Lin M.,   Rudnick R. Stable neodymium isotopic composition of the upper continental   crust through time from ancient glacial diamictites and Holocene marine   sediments [J].   Geochimica et Cosmochimica Acta, Pre-print.

3. Yu   X., Mei X., Liu J., Lin, J.*, Wei, G., Shi, X., Bai, J., Lin, M*.   Multiple sulfur isotopes of iron sulfides from thick greigite-bearing   sediments indicate anaerobic oxidation and possible leakages of coastal   methane [J]. Geophysical Research Letters, 2023, 50(16): e2023GL103303.

4. Yu   X., Lin, M*. Frequent millennial-scale oceanic redox oscillations   recorded by negative pyrite Δ³³S: Implications for Phanerozoic   extinctions [J]. Geophysical Research Letters, 2025, 52 (9), e2025GL116574.

5. Yu   X.*, Mei X.*, Liu JX., Duan BC., Zhang R., Li TG., Wei GJ., Lin M.   Anaerobic oxidation of methane and greigite formation: Evidence of   isotopically heavy pyrite in Pleistocene coastal sediments from the South   Yellow Sea [J]. Global and Planetary Change, 2024, 240, 104530.

6. Yu   X., Liu X.*, Wei G., Li, A., Lin, M*. Holocene climate regulates multiple   sulfur isotope compositions of pyrite in the East China Sea via sedimentation   rate [J]. Marine and Petroleum Geology, 2024: 106687.

7. Yu   X., Duan B.*, Guo K., Li, T.*, Feng, A., Du, J., Villemant, B., Ning, Y.,   Liu, Y. Mapping and U-Th dating of the world's deepest blue hole (South China   Sea): Implications for its timing, possible volcanogenic origin, and   Pleistocene eolianites in the Xisha Islands[J]. Marine Geology, 2022, 447:   106776.

8. Yu   X., Duan B., Zhao J.*, Gu, D., Feng, A., Liu, Y., Li, T*. Deep submerged   speleothems in the Sansha Yongle Blue Hole (South China Sea) as determination   of low sea levels during the Last Glacial Maximum [J]. Frontiers in Marine   Science, 2022, 9: 1079301.

9. Yu   X.*, Yin B., Lin M*. Removal of contamination in helium for precise SF₆-based   Δ³⁶S measurements [J]. Rapid Communications in Mass Spectrometry,   2022, 36(24): e9404.

10. Yu   X., Zhang Z.*, Feng A., Gu, D.*, Zhang, R., Xia, P., Yan, W., Zhou, X.   Recent history of metal contamination in the Fangcheng Bay (Beibu Gulf, South   China) utilizing spatially-distributed sediment cores: Responding to local   urbanization and industrialization [J]. Marine Pollution Bulletin, 2020, 158:   111418.

11. Yu   X., Li T.*, Gu D, Feng, A., Liu, S., Li, P., Xu, G., Yan, W., Zhang, Z.,   Zhu, Z. Sediment transport in the Luanhe River delta: grain size trend   analysis [J]. Journal of Oceanology and Limnology, 2019, 37(3): 982-997.

12. Lin X.†, Yu   X.†, Lin M*. Analysis of atmospheric   radiosulfur at natural abundance by a new-type liquid scintillation counter   equipped with guard compensation technology [J]. ACS Earth and Space Chemistry,   2022, 6(7): 1868-1875.

13. Wang, S.*†, Lu, Q. †, Liang, Z. †, Yu, X., Lin, M., Mai, B., Qiu, R.,   Shu, W., Wall, J. D. (2023). Generation of zero-valent sulfur from   dissimilatory sulfate reduction in sulfate-reducing microorganisms.   Proceedings of the National Academy of Sciences, 120(20), e2220725120.

14. Bai J., Deng Y., Wu H., Liang X., Yu X., Zhang G., Wei G. Stable Nd   isotopic fractionation in REY-rich deep-sea sediments [J]. Earth and   Planetary Science Letters, 652, 119197

15. He M., Yu X., Deng W., Chen X., Peng X., Ta K., Xu H., Cui Z., Yang Q.,   Yang Y, Wei G. In situ analysis of sulfur isotopic fractionation in deep‐sea corals using secondary-ion mass spectrometry: Insights into vital   effects [J]. Journal of Geophysical Research: Biogeosciences 129 (10),   e2024JG008032.

16. Wu, C., Wu, Y., Yu, X., Chen, Y., Zhang, W., Liu, J., Wei, G*. (2023).   Geochemical Compositions of Size‐Fractioned Sediment Samples From the   Yangtze and Yellow Rivers: Implications for Chemical Weathering,   Fractionation Behavior of Provenance Tracers, and Sources of Radial Sand   Ridges. Geochemistry, Geophysics, Geosystems, 24(12), e2023GC011059.

17. Liu, J.*, Xu, T., Zhang, Q., Yu, X., Wu, Y., Liu, Q., Shi, X*.   (2023). Exploring spatiotemporal paleoenvironmental and paleoceanographic   changes on the continental shelf using authigenic greigite: A case study from   the East China Sea. Paleoceanography and Paleoclimatology, 38(6),   e2023PA004621.

18. Pei, W., Wang, J., Wang, X., Du, L.,   Wang, Y., Fan, Y., Zhang, R.*, Li T.*, Russell, J., Zhang, F., Yu, X., Liu, Z., Guan, M., Han, Q.   (2023). Late Pleistocene zinc isotopic indices of paleoproductivity   variations in the tropical West Pacific. Catena, 228, 107128.

19. Pei, W., Wang, X., Wang, J., Zhang,   R.*, Li, T.*, Russell, J., Zhang, F., Yu,   X., Liu, Z., Guan, M., Han, Q. (2023). Chemostratigraphy and source of   mercury in the Tropical Western Pacific over the past 600 kyr. Journal of Sea   Research, 193, 102369.

20. Yin, B., Yu, X., Lin, X., Zhang, Z., Zhang, Y., Lin, M*. (2023). Toward   the Origins of Quadruple Sulfur Isotope Anomalies in Modern Sulfate: A   Multitracer Approach and Implications for Paleo-and Planetary Atmospheres.   ACS Earth and Space Chemistry, 7(4), 800-811.

21. Pei, W., Wang, J., Wang, X., Zhang,   R.*, Li, T.*, Zhang, F., Yu, X.,   Liu, Z., Guan, M., Han, Q. (2023). Marine osmium‑uranium‑sulfur isotope   evidence for the interaction of volcanism and ocean anoxia during the Middle   Pleistocene in the tropical Western Pacific. Palaeogeography,   Palaeoclimatology, Palaeoecology, 611, 111360.

22. Guo H., Yu X., Lin M*. Kinetic isotope effects in H₂O₂   self-decomposition: Implications for triple oxygen isotope systematics of   secondary minerals in the solar system [J]. Earth and Planetary Science   Letters, 2022, 594: 117722.

23. Wang, Y., Pei, W., Yang, J., Fan, Y.,   Zhang, R.*, Li, T.*, Russell, J., Zhang, F., Yu, X., Hu, J., Song, Y., Liu, Z., Guan, M., Han, Q. (2022). The   relationship between volcanism and global climate changes in the Tropical   Western Pacific over the mid-Pleistocene transition: Evidence from mercury   concentration and isotopic composition. Science of The Total Environment,   823, 153482.

24. Wang, Y., Yang, J., Wang, G., Zhang,   Y., Zhang, R.*, Li, T.*, Russell, J., Wang, J., Wang, X., Zhang, F., Song,   Y., Yu, X., Hu, J., Liu, Z., Guan,   M., Han, Q. (2022). Source Identification of brGDGTs in the Surface Sediments   of the East China Sea. Frontiers in Earth Science, 9, 796539.

25. Wang, Y., Zhang, R.*, Song, Y.*, Zhang,   F., Hu, J., Li, T.*, Russell, J., Yu,   X., Yang, J., Liu, Z., Li, Y., Guan, M.*, Han, Q., Li, G. (2021). Source   apportionment of polycyclic aromatic hydrocarbons and black carbon at the   western coastal areas of the Yellow Sea based on isotopic signatures.   Ecological Indicators, 127, 107725.

26. Liu, J.*, Shi, X.*, Liu, Q., Liu, S.,   Liu, Y., Zhang, Q., Yu, X., Fang,   X., Wu, Y., Xu, T., Li, J. (2021). Authigenic Iron Sulfides Indicate Sea‐Level Change on the Continental Shelf: An Illustration From the East   China Sea. Journal of Geophysical Research: Solid Earth, 126(3),   e2020JB021222.

27. Liu, S.*, Li, P., Du, J., Feng, A.*,   Zhang, Z., Yu, X., Zhu, Z. (2017).   Morphological variation and sediment dynamic in a cape-bay beach with a tidal   channel around (Sanshan Daobeach, west coast of Laizhou Bay, China).

28. Liu, S.*, Li, P., Feng, A., Du, J.,   Gao, W., Xu, Y., Yu, X., Li, P.,   Nan, X. (2016). Seismic and core investigation on the modern Yellow River   Delta reveals the development of the uppermost fluvial deposits and the   subsequent transgression system since the postglacial period. Journal of   Asian Earth Sciences, 128, 158-180.

29. Liu, S.*, Feng, A., Du, J., Xia, D.,   Li, P., Xue, Z., Hu, W., Yu, X.   (2014). Evolution of the buried channel systems under the modern Yellow River   Delta since the Last Glacial Maximum. Quaternary International, 349, 327-338.

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