魏巍

Professor   Supervisor of Doctorate Candidates   Supervisor of Master's Candidates

Gender : Male

Date of Birth : 1991-09-11

Alma Mater : 中国地质大学(武汉)

Education Level : Faculty of Higher Institutions

Degree : Doctoral Degree in Engineering

Status : Employed

School/Department : 地球科学学院

Date of Employment : 2020-10-01

Discipline : geology mineral resource prospecting and exploration

Business Address : 主楼517

Contact Information : weiwei910911@163.com 13349838659

Email :


Current position: Home >> Scientific Research >> Published Books

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Personal Profile

魏巍,博士,特任教授,博导。分别于20142020年于中国地质大学(武汉)获学士学位和博士学位,博士期间获学校和国家留学基金委资助,于2016-2019年在辛辛那提大学进行联合培养,主要从事细粒碎屑岩的沉积地球化学的研究。2020年至2022年在中国地质大学(武汉)进行博士后研究,期间赴阿尔伯塔大学访问,从事沉积矿产和沉积地球化学研究。2020年获博士后创新人才支持计划。目前任中国地质大学(武汉)地球科学学院特任教授。长期以细粒碎屑沉积物为载体,从事过渡相沉积系统的古环境研究,主要利用硼元素和硼同位素主导的古盐度指标,研究沉积过程的气候、环境、古生物、地形地貌变化等;在GeologyGeochimica et Cosmochemica Acta, International Journal of Coal Geology等发表SCI论文30篇,截止2025年6月,一作/通讯SCI文章共计17篇,T1文章11篇,包括三篇NI文章;3篇T2文章,3篇中文核心。其中2020年发表于GCA的文章,目前单篇引用率已达550次,且正以每年100次的速度增加,凸显古盐度指标在古环境重建工作中的重要意义。目前的主要研究方向包括(1)“雪球地球时期,海洋的水体化学特征演化规律及其对雪球地球形成和衰退的控制作用”;(2)“华南地区和新疆地区铝土矿的成矿机制和分布规律研究”; (3)华南地区锰矿发育机理及其与全球地质事件的耦合关系研究;(4)“植物登陆的资源和环境效应以铝土矿的形成和分布规律为主要方向”。(5)早期地球海洋的盐度-pH-氧化还原条件的协同演化机理,及其对BIF的形成的控制作用。请各位对本科生科研立项、攻读硕士和博士学位感兴趣的与我联系。



发表文章:

  1. Wei, W., Yu, W., Algeo, T. J., Herrmann, A. D., Zhou, L., Liu, J., ... & Du, Y. (2022). Boron proxies record paleosalinity variation in the North American Midcontinent Sea in response to Carboniferous glacio-eustasy. Geology, 50(5), 537-541.

  2. Wei, W., & Algeo, T. J. (2020). Secular variation in the elemental composition of marine shales since 840 Ma: Tectonic and seawater influences. Geochimica et Cosmochimica Acta, 287, 367-390.

  3. Wei, W. E. I., & Algeo, T. J. (2020). Elemental proxies for paleosalinity analysis of ancient shales and mudrocks. Geochimica et Cosmochimica Acta, 287, 341-366.

  4. Wei, W., Algeo, T. J., Lu, Y., Lu, Y., Liu, H., Zhang, S., ... & Chen, L. (2018). Identifying marine incursions into the Paleogene Bohai Bay Basin lake system in northeastern China. International Journal of Coal Geology, 200, 1-17.

  5. Wei, W., Lu, Y., Ma, Y., Zhang, J., Song, H., Chen, L., ... & Zhang, S. (2021). Nitrogen isotopes as paleoenvironmental proxies in marginal-marine shales, Bohai Bay Basin, NE China. Sedimentary Geology, 421, 105963.

  6. Wei, W., Yu, W., Du, Y., Algeo, T. J., Li, Z., Cheng, M., ... & Konhauser, K. (2024). A new salinity-based model for Cryogenian Mn-carbonate deposits. Precambrian Research, 403, 107309.

  7. Wei, W., Lu, Y., Xing, F., Liu, Z., Pan, L., & Algeo, T. J. (2017). Sedimentary facies associations and sequence stratigraphy of source and reservoir rocks of the lacustrine Eocene Niubao Formation (Lunpola Basin, central Tibet). Marine and Petroleum Geology, 86, 1273-1290.

  8. Wei, W., Algeo, T. J., Meyer, D., Liu, J., Snihur, K. N., Lazowski, C., ... & Yu, W. (2025). Utility of the B/Ga salinity proxy in carbonate and marly sediments. Chemical Geology, 682, 122751.

  9. Wei, W., Kemp, D. B., Lu, Y., Wang, Z., Ma, Y., Liu, H., ... & Konhauser, K. (2024). Astronomically forcing salinity variations in a marginal-marine environment, Bohai Bay Basin, NE China. Chemical Geology, 665, 122300.

  10. Wei, W., Algeo, T., Chen, L., Li, Z., Lazowski, C., Snihur, K., ... & Konhauser, K. (2025). Evaluation of sample pretreatment methods for boron concentration analysis. Chemical Geology, 122838.

  11. Algeo T J, Wei W*, Sweet D E. Salinity variation in Carboniferous cyclothemic successions[J]. Chemical Geology, 2025, 683: 122760.

  12. de Paula, J. R., Wei, W.*, Caxito, F. A., Snihur, K. N., Lazowski, C. N., Konhauser, K. O., ... & Alessi, D. S. (2025). Trace elements and iron speciation analysis of Paleoproterozoic phyllite from the Gandarela Syncline: Implications for salinity and redox conditions in the Quadrilátero Ferrífero, Brazil. Chemical Geology, 122839.

  13. Chen, Z., Wei, W.*, Lu, Y., Zhang, J., Zhang, S., & Chen, S. (2022). The Control of Sea Level Change over the Development of Favorable Sand Bodies in the Pinghu Formation, Xihu Sag, East China Sea Shelf Basin. Energies, 15(19), 7214.

  14. Zhang, J., Wei, W.*, Shen, J., Nan, J., Zhong, Y., Fan, X., ... & Konhauser, K. O. (2025). Boron isotope evidence for Ordovician-Silurian Transition postglacial marginal marine salinity with implications for redox conditions and biotic recovery. Chemical Geology, 122891.

  15. 魏巍, 陆永潮, 刘惠民, 张守鹏, 张靖宇, & 杜远生. (2021). 古盐度指标与渤海湾盆地古近系海侵事件初探. 沉积学报, 39(3), 571-592.

  16. 魏巍, 陆永潮, 刘中戎, 潘磊, 林卫兵, & 蹇慧. (2017). 西藏伦坡拉盆地牛堡组层序地层与沉积充填模式. 石油实验地质, 39(1), 32-40.

  17. Wei, W. Sequence Stratigraphic Framework and Sedimentary Evolution of Niubao Formation in Lunpola Basin, Central Tibet. In AAPG/SEG International Conference & Exhibition.

  18. Gilleaudeau, G. J., Wei, W., Remírez, M. N., Song, Y., Lyons, T. W., Bates, S., ... & Algeo, T. J. (2023). Geochemical and hydrographic evolution of the Late Devonian Appalachian Seaway: linking sedimentation, redox, and salinity across time and space. Geochemistry, Geophysics, Geosystems, 24(8), e2023GC010973.

  19. Algeo, T. J., Wei, W., Remírez, M. N., Wang, C., Liu, Z., Gilleaudeau, G. J., & Brocks, J. J. (2025). Influence of clay-mineral assemblages on the B/Ga salinity proxy. Chemical Geology, 122837.

  20. Shen, J., Feng, Q., Algeo, T. J., Liu, J., Zhou, C., Wei, W., ... & Chen, J. (2020). Sedimentary host phases of mercury (Hg) and implications for use of Hg as a volcanic proxy. Earth and Planetary Science Letters, 543, 116333.

  21. Zhang, J., Lu, Y., Krijgsman, W., Liu, J., Li, X., Du, X., ... & Lin, H. (2018). Source to sink transport in the Oligocene Huagang Formation of the Xihu Depression, East China Sea shelf basin. Marine and Petroleum Geology, 98, 733-745.

  22. Zhang, J., Pas, D., Krijgsman, W., Wei, W., Du, X., Zhang, C., ... & Lu, Y. (2020). Astronomical forcing of the Paleogene coal-bearing hydrocarbon source rocks of the East China Sea Shelf Basin. Sedimentary Geology, 406, 105715.

  23. Lin, W., Chen, L., Lu, Y., Hu, H., Liu, L., Liu, X., & Wei, W. (2017). Diagenesis and its impact on reservoir quality for the Chang 8 oil group tight sandstone of the Yanchang Formation (upper Triassic) in southwestern Ordos basin, China. Journal of Petroleum Exploration and Production Technology, 7(4), 947-959.

  24. Yu, W., Algeo, T. J., Zhou, Q., Wei, W., Yang, M., Li, F., ... & Wang, P. (2022). Evaluation of alkalinity sources to Cryogenian cap carbonates, and implications for cap carbonate formation models. Global and Planetary Change, 217, 103949.

  25. Cheng, M., Zhang, Z., Jin, C., Wei, W., Wang, H., Algeo, T. J., & Li, C. (2023). Salinity variation and hydrographic dynamics in the early Cambrian Nanhua Basin (South China). Science China Earth Sciences, 66(6), 1268-1278.

  26. Zhou, J., Yu, W., Wei, W., Yang, M., & Du, Y. (2023). Provenance and tectonic evolution of bauxite deposits in the Tethys: Perspective from random forest and logistic regression analyses. Geochemistry, Geophysics, Geosystems, 24(6), e2022GC010745.

  27. 杜学斌, 刘晓峰, 陆永潮, 刘惠民, 张守鹏, 马义权, ... & 魏巍. (2020). 陆相细粒混合沉积分类, 特征及发育模式——以东营凹陷为例. 石油学报, 41(11), 1324.

  28. Zhang, J., Krijgsman, W., Lu, Y., Liu, J., Li, X., Du, X., ... & Lin, H. (2021). Detrital zircon ages reveal Yangtze provenance since the early Oligocene in the East China Sea Shelf Basin. Palaeogeography, Palaeoclimatology, Palaeoecology, 577, 110548.

  29. Liu, Z., Algeo, T. J., Arefifard, S., Wei, W., Brett, C., Landing, E., & Lev, S. M. (2024). Testing the salinity of Cambrian to Silurian epicratonic seas. Journal of the Geological Society, 181(3), jgs2023-217.

  30. Chen, L., Zhang, B., Jiang, S., Chen, X., Zhang, G., Zhang, J., ... & Liu, Z. (2022). Provenance, source weathering, and tectonic setting of the lower Cambrian Shuijingtuo Formation in the Middle Yangtze area, China. Marine and Petroleum Geology, 139, 105584.

  31. Zhang, J., Xing, F., Krijgsman, W., Zhang, C., Wei, W., Chen, L., ... & Lu, Y. (2022). Palaeogeographic reconstructions of the Eocene-Oligocene Tarim Basin (NW China): Sedimentary response to late Eocene sea retreat. Palaeogeography, Palaeoclimatology, Palaeoecology, 587, 110796.

  32. Chen, L., Lu, Y., Lin, W., Xing, F., Chen, P., Liu, L., ... & Wei, W. (2019). Sequence stratigraphy and sedimentary filling model of Chang-8 oil layer of Yanchang Formation in southwestern Ordos Basin. Acta Petrolei Sinica, 40(4), 434.

  33. Fan, X., Wang, C., Teng, X., Kemp, D. B., Lu, Y., Yan, K., ... & Zhang, J. (2024). Mechanisms of terrestrial organic matter accumulation across the Paleocene-Eocene thermal maximum in the Jianghan Basin, Central China. Palaeogeography, Palaeoclimatology, Palaeoecology, 648, 112283.

  34. Li, Z., Zhou, Y., Yu, P., Zhang, L., Wei, W., Li, Y., ... & Robbins, L. J. (2022). Geology and geochemistry of the high-grade Zankan magnetite ore, Western Kunlun Mountains, NW China. Ore Geology Reviews, 150, 105129.

  35. Lu, Y., Hao, F., Ma, Y., Wei, W., Jun, S., Wang, Y., & Gou, Q. (2025). Spatial heterogeneity in salinity and redox dynamics during the Ordovician-Silurian transition: Multi-proxy constraints on the Late Ordovician Mass Extinction mechanisms. Chemical Geology, 122860.

  36. Palcu, D. V., Liu, Z., Wei, W., Krijgsman, W., & Algeo, T. J. (2024, August). Tracing paleoenvironmental change in the Paratethys Sea: Insights from elemental redox and salinity proxies. In 2024 Goldschmidt Conference. GOLDSCHMIDT.


 



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