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姓名 姜磊 性别:
职称 研究员 学历 博士
电话 010-82998676 传真: 010-62010846
Email: lei.jiang[a]mail.iggcas.ac.cn 邮编: 100029
地址 北京朝阳区北土城西路19号,中科院地质与地球物理研究所
更多信息:
 
简历:

  姜磊,研究员,博士生导师,1983年12月出生于浙江长兴。主要从事沉积地层的矿物学、岩石学、与地球化学研究,聚焦沉积盆地内“低碳”能源资源(油气、水合物、地热、沉积矿产等)富集机制及其相关古环境重建研究,旨在揭示资源富集与多圈层互馈的关联机制。目前已在Geology、EPSL、GCA、ESR、Sedimentology、AAPG、MPG等地学领域重要刊物上发表第一、通讯作者SCI学术论文23篇,共同作者SCI论文60余篇,获美国石油地质学家协会(AAPG)2020年度青年奖。

简历:

  • 2023.12-今     研究员,中国科学院地质与地球物理研究所
  • 2016.1-2023.11 (特聘)副研究员,中国科学院地质与地球物理研究所
  • 2017.09-2018.11 访问副教授,耶鲁大学
  • 2015.09-2017.08 博士后,美国德克萨斯大学奥斯汀分校经济地质局(BEGUT Austin)
  • 2013.12-2015.12 博士后,中国科学院地质与地球物理研究所
  • 2008.09-2013.12 博士研究生,中国科学院大学
  • 2011.11-2012.11 博士联合培养,利物浦大学
  • 2003.09-2007.06 大学本科,成都理工大学
 
学科类别:
能源地质学、沉积地球化学
 
研究方向:
  1. 油气、沉积矿产、地热等能源资源的富集机制;
  2. 资源富集与多圈层互馈的关联机制;
  3. 成岩作用在资源、环境、及医学等领域的应用。
 
职务:
 
社会任职:
 
承担科研项目情况:
  1. 2023-2028中国科学院先导A专项课题《环境演变与沉积型中重稀土成矿关系与资源潜力》,主持;
  2. 2019-2023国家自然科学基金面上项目《镁、钙同位素在碳酸盐岩储层成岩作用中的应用》,主持;
  3. 2021-2022中石油杭州地质研究院课题《深层海相碳酸盐岩储层中多期次白云石化作用流体特征及其与储层的关系》,主持;
  4. 2019-2022国家重点研发计划子课题《深部碳酸盐岩裂隙成因与地质建模》,主持;
  5. 2019-2022地质地球所重点部署项目子课题《南海天然气水合物成矿过程与成矿流体性质研究》,主持;
  6. 2019-2021岩石圈演化国家重点实验室前沿课题《碳酸盐岩与蒸发岩体系成岩作用研究》,主持;
  7. 2019-2021中国石油科技创新基金研究项目《深层微生物碳酸盐岩沉积与储层特征研究》,主持;
  8. 2019-2020中石油杭州地质研究院课题《碳酸盐岩-膏盐岩沉积体系储层成岩作用研究》,主持;
  9. 2019-2023国家自然科学基金委重点项目子课题《寒武纪大爆发时期菌藻类微生物记录研究》,研究骨干;
  10. 2015-2017国家自然科学基金委青年基金项目《基于岩石学的TSR机制及其对碳酸岩储层改造机理研究》,主持;
  11. 2015-2017中国博士后国际交流计划项目(外方单位:美国德克萨斯大学奥斯汀分校经济地质局),主持;
  12. 2014-2015博士后基金面上项目《川东北长兴组与飞仙关组储层白云岩化机制及成因联系》,主持
 
获奖及荣誉:
  1. 美国石油地质学家协会青年奖 — J.C.“Cam” Sproule Memorial Award(2020);
  2. 中国科学院青年促进会会员,第八批(2018);
  3. Geofluids 2014年度Best Reviewer(2015)。


国内外期刊任职:


  1. AAPG Bulletin 副主编 (Associate Editor)(2018-2023);
  2. Journal of Sedimentary Research 副主编 (Associate Editor)(2018-);
  3. 沉积学报 青年编委(2019-2023)。
 
代表论著:

第一/通讯(*)作者论文:

  1. Jiang, L.*, Shen, A., Qiao, Z., Hu, A., Xu, Z., Zhang, H., Wan, B. and Cai, C., 2024. Hypogenic karstic cavities formed by tectonic-driven fluid mixing in the Ordovician carbonates from the Tarim Basin, northwestern China. AAPG Bulletin, 108(1), pp.159-178.
  2. Jiang, L.*, Hu, A.P., Ou, Y.L., Liu, D.W., Hu, Y.J., Tang, Y.J., Sun, P., Liu, Y.Y., Wang, Z.C. and Cai, C.F., 2023. Diagenetic evolution and effects on reservoir development of the Dengying and Longwangmiao formations, Central Sichuan Basin, Southwestern China. Petroleum Science, 20(6), pp.3379-3393.
  3. Jiang, L.*, Zhao, M., Shen, A., Huang, L., Chen, D. and Cai, C., 2022. Pulses of atmosphere oxygenation during the Cambrian radiation of animals. Earth and Planetary Science Letters, 590, p.117565.
  4. Jiang, L.*, Cai, C.*, Xiang, L., Fan, J., Li, K., Cai, L., Algeo, T.J. and Zhang, F., 2022. Kerogen-specific isotope variations during the end-Permian mass extinction in South China. Earth-Science Reviews, 226, p.103912.
  5. Jiang, L.*, 2022. Diagenesis of the San Andres Formation in the Seminole unit in Central Basin platform, western Texas. AAPG Bulletin, 106(2), pp.267-287.
  6. Jiang, L.*, Shen, A.*, Wang, Z., Hu, A., Wang, Y., Luo, X., Liang, F., Azmy, K. and Pan, L., 2022. U–Pb geochronology and clumped isotope thermometry study of Neoproterozoic dolomites from China. Sedimentology, 69(7), pp.2925-2945.
  7. Jiang, L.*, Fakhraee, M., Cai, C. and Worden, R.H., 2020. Sulfur cycling during progressive burial in sulfate‐rich marine carbonates. Geochemistry, Geophysics, Geosystems, 21(12), p.e2020GC009383.
  8. Jiang, L.*, Planavsky, N., Zhao, M.Y., Wei, L., Wang, X.L., 2019. Authigenic origin for a massive negative carbon isotope excursion. Geology, 47(2), pp.115-118.
  9. L. Jiang*, Xu, Z., Shi, S. and Liu, W., 2019. Multiphase dolomitization of a microbialite-dominated gas reservoir, the middle Triassic Leikoupo Formation, Sichuan Basin, China. Journal of Petroleum Science and Engineering, 180, pp.820-834.
  10. Jiang, L.*, Worden, R.H., Yang, C.B.,2018.Thermochemical sulfate reduction can improve carbonate reservoir quality. Geochimica et Cosmochimica Acta. 223, pp.127-140.
  11. Jiang, L.*, Worden, R.H.,Cai, C.F., Shen, A.J., Crowley, S.F., 2018. Diagenesis of an evaporite-related carbonate reservoir in deeply buried Cambrian strata, Tarim Basin, Northwest China. AAPG Bulletin, 102, pp.77-102.
  12. Jiang, L.*, Hu, S.Y., Zhao, W.Z., Xu, Z.H., Shi, S.Y., Fu, Q.L., Zeng, H.L., Liu, W., Fall, A., 2018. Diagenetic Patterns and porosity development in a microbial-mediated carbonate reservoir from the Middle Triassic Leikoupo Formation, Sichuan Basin, China. AAPG Bulletin102, pp.2599-2628.
  13. Jiang, L.*, Worden, R.H., Cai, C.F., Shen, A.J., He, X.Y. and Pan, L.Y., 2018. Contrasting diagenetic evolution patterns of platform margin dolostone and limestone in the Lower Triassic Feixianguan Formation, Sichuan Basin, China. Marine and Petroleum Geology. 92, pp.332-351.
  14. Jiang, L.*, Cai, C.*, Worden, R.H., Crowley, S.F., Jia, L., Zhang, K. and Duncan, I.J., 2016. Multiphase dolomitization of deeply buried Cambrian petroleum reservoirs, Tarim Basin, Northwest China. Sedimentology, 63, pp.2130-2157.
  15. Jiang, L.*, Worden, R.H.*, Cai, C.*, 2015. Generation of isotopically and compositionally distinct water during thermochemical sulfate reduction (TSR) in carbonate reservoirs: Triassic Feixianguan Formation, Sichuan Basin, China. Geochimica et Cosmochimica Acta, 165, pp.249-262.
  16. Jiang, L., Cai, C.*, Worden, R.H.*, Li, K., Xiang, L., Chu, X., Shen, A. and Li, W., 2015. Rare earth element and yttrium (REY) geochemistry in carbonate reservoirs during deep burial diagenesis: Implications for REY mobility during thermochemical sulfate reduction. Chemical Geology, 415, pp.87-101.
  17. Jiang, L., Pan, W., Cai, C.*, Jia, L., Pan, L., Wang, T., Li, H., Chen, S. and Chen, Y., 2015. Fluid mixing induced by hydrothermal activity in the Ordovician carbonates in Tarim Basin, China. Geofluids, 15(3), pp.483-498.
  18. Jiang, L., Worden, R.H.*, Cai, C., Li, K., Xiang, L., Cai, L. and He, X., 2014. Dolomitization of gas reservoirs: the Upper Permian Changxing Formation and Lower Triassic Feixianguan Formation, Northeast Sichuan Basin, China. Journal of Sedimentary Research, 84(10), pp.792-815.
  19. Jiang, L.*, Worden, R.H., Cai, C., 2014. Thermochemical sulfate reduction and fluid evolution of the Lower Triassic Feixiangiam Formation sour gas reservoirs, northeast Sichuan Basin, China. AAPG Bulletin, 98, pp.947-973.
  20. Jiang, L.,Cai, C.,Worden, R.H.*, Li, K.K., Xiang, L., 2013. Reflux dolomitization of the Upper Permian Changxing Formation and the Lower Triassic Feixianguan Formation, NE Sichuan Basin, China. Geofluids, 13, pp.232-245.
  21. Jiang, L., Cai, C.*, Zhang, Y., Mao, S., Sun, Y., Li, K., Xiang, L. and Zhang, C., 2012. Lipids of sulfate-reducing bacteria and sulfur-oxidizing bacteria found in the Dongsheng uranium deposit. Chinese Science Bulletin, 57, pp.1311-1319.
  22. Qiao, Z.*, Shen, A., Zhang, S., Hu, A., Liang, F., Luo, X., Shao, G., Wang, Y., Zhao, J., Cao, P. and Jiang, L.*, 2023. Origin of giant Ordovician cavern reservoirs in the Halahatang oil field in the Tarim Basin, northwestern China. AAPG Bulletin, 107(7), pp.1105-1135.
  23. Pan, L.*, Hu, A., Liang, F., Jiang, L.*, Hao, Y., Feng, Y., Shen, A. and Zhao, J., 2021. Diagenetic conditions and geodynamic setting of the middle Permian hydrothermal dolomites from southwest Sichuan Basin, SW China: Insights from in situ U–Pb carbonate geochronology and isotope geochemistry. Marine and Petroleum Geology. 129, p.105080.

共同作者论文:

  1. Wei, G.Y.*, Zhao, M.*, Sperling, E.A., Gaines, R.R., Kalderon-Asael, B., Shen, J., Li, C., Zhang, F., Li, G., Zhou, C. and Cai, C., Chen, D.Z., Xiao, K.Q., Jiang, L., Ling, H.F., Planavsky, N.J., Tarhan, L.G. 2024. Lithium isotopic constraints on the evolution of continental clay mineral factory and marine oxygenation in the earliest Paleozoic Era. Science Advances, 10(13), p.eadk2152.
  2. Liu, Q.*, Li, P., Jiang, L., Jin, Z., Liang, X., Zhu, D., Pang, Q., Zhang, R. and Liu, J., 2024. Distinctive volcanic ash–rich lacustrine shale deposition related to chemical weathering intensity during the Late Triassic: Evidence from lithium contents and isotopes. Science Advances, 10(11), p.eadi6594.
  3. Jiang, Z., Cai, C.*, Tino, C.J., Wang, D., Qi, Y., Sun, P., Peng, Y., Hu, Y., Liu, D., Wei, T. and Jiang, L., 2024. Reconfiguring oxygenation at∼ 1.4 Ga: New constraints as informed by the ancient oceanic sulfur cycle. Global and Planetary Change, 232, p.104345.
  4. Hu, Y., Cai, C.*, Li, Y., Liu, D., Wei, T., Wang, D., Jiang, L., Ma, R., Shi, S. and Immenhauser, A., 2023. Sedimentary and diagenetic archive of a deeply buried, upper Ediacaran microbialite reservoir, southwestern China. AAPG Bulletin, 107(3), pp.387-412.
  5. Gong, Z.*, Wei, G.Y., Fakhraee, M., Alcott, L.J., Jiang, L., Zhao, M. and Planavsky, N.J., 2023. Revisiting marine redox conditions during the Ediacaran Shuram carbon isotope excursion. Geobiology, 21(4), pp.407-420.
  6. Riaz, M., Jafarian, A., Koeshidayatullah, A., Frontalini, F., Jiang, L., Latif, K. and Zafar, T.*, 2023. Tracking depositional and geochemical variations in the Cambrian North China Platform: insights from sedimentology, geochemistry, and CO isotopic records. Sedimentary Geology, 443, p.106301.
  7. Liu, M., Chen, D.*, Jiang, L., Stockey, R.G., Aseal, D., Zhang, B., Liu, K., Yang, X., Yan, D. and Planavsky, N.J., 2022. Oceanic anoxia and extinction in the latest Ordovician. Earth and Planetary Science Letters, 588, p.117553.
  8. Cai, C.*, Lyons, T.W., Sun, P., Liu, D., Wang, D., Tino, C.J., Luo, G., Peng, Y. and Jiang, L., 2022. Enigmatic super-heavy pyrite formation: Novel mechanistic insights from the aftermath of the Sturtian Snowball Earth. Geochimica et Cosmochimica Acta, 334, pp.65-82.
  9. Wei, G.Y.*, Wang, J., Planavsky, N.J., Zhao, M., Bolton, E.W., Jiang, L., Asael, D., Wei, W. and Ling, H.F., 2022. On the origin of Shuram carbon isotope excursion in South China and its implication for Ediacaran atmospheric oxygen levels. Precambrian Research, 375, p.106673.
  10. Liu, J., Li, Z.*, Wang, X., Jiang, L., Feng, Y. and Wallace, M.W., 2022. Tectonic-fluid evolution of an ultra-deep carbonate reservoir in the southern Halahatang Oilfield area, Tarim Basin, NW China. Marine and Petroleum Geology, 145, p.105870.
  11. Qiao, Z.*, Dong, J.*, Yu, Z., Li, W., Wang, X., Jiang, L. and Qing, H., 2022. Diagenesis and Reservoir Evolution Model of the Ediacaran Dengying Formation in the Sichuan Basin: Evidence from Laser Ablation U-Pb Dating and In Situ Isotope Analysis. Minerals, 12(11), p.1372.
  12. 琚宜文, 乔鹏, 卫明明, 李鑫, 徐凤银, 冯国瑞, 李勇, 吴财芳, 曹运兴, 李国富, 韩玉明, 李振, 芦志刚, 姜磊. 2022. 区域构造与演化控制下煤层气富集高产典型模式. 煤田地质与勘探, 50(9): 1-12.
  13. 刘大卫, 蔡春芳, 扈永杰, 姜磊, 李睿, 何宏, 王石, 彭燕燕, 魏天媛, 柳其源. 2022. 碳酸盐岩常用主微量元素、同位素分析测试结果差异性探讨:基于川中下寒武统龙王庙组实例研究. 古地理学报, 24(3): 524-539.
  14. Cai, C.*, Li, K., Liu, D., John, C.M., Wang, D., Fu, B., Fakhraee, M., He, H., Feng, L. and Jiang, L., 2021. Anaerobic oxidation of methane by Mn oxides in sulfate-poor environments. Geology, 49(7), pp.761-766.
  15. Liu, D., Cai, C.*, Hu, Y., Peng, Y. and Jiang, L., 2021. Multistage dolomitization and formation of ultra-deep Lower Cambrian Longwangmiao Formation reservoir in central Sichuan Basin, China. Marine and Petroleum Geology, 123, p.104752.
  16. Hu, Y., Cai, C.*, Liu, D., Peng, Y., Wei, T., Jiang, Z., Ma, R. and Jiang, L., 2021. Distinguishing microbial from thermochemical sulfate reduction from the upper Ediacaran in South China. Chemical Geology, 583, p.120482.
  17. Hu, Y., Cai, C.*, Liu, D., Pederson, C.L., Jiang, L., Shen, A. and Immenhauser, A., 2020. Formation, diagenesis and palaeoenvironmental significance of upper Ediacaran fibrous dolomite cements. Sedimentology, 67(2), pp.1161-1187.
  18. Hu, Y., Cai, C.*, Pederson, C.L., Liu, D., Jiang, L., He, X., Shi, S. and Immenhauser, A., 2020. Dolomitization history and porosity evolution of a giant, deeply buried Ediacaran gas field (Sichuan Basin, China). Precambrian Research, 338, p.105595.
  19. Pan, L.*, Shen, A., Zhao, J.X., Hu, A., Hao, Y., Liang, F., Feng, Y., Wang, X. and Jiang, L., 2020. LA-ICP-MS U-Pb geochronology and clumped isotope constraints on the formation and evolution of an ancient dolomite reservoir: The Middle Permian of northwest Sichuan Basin (SW China). Sedimentary Geology, 407, p.105728.
  20. Jia, L.*, Cai, C.*, Wang, Z., Li, H., Liu, L., Luo, Q. and Jiang, L., 2020. Calcite vein system and its importance in tracing paleowater flow and hydrocarbon migration in the Ordovician carbonates of the Tazhong area, Tarim Basin, China. AAPG Bulletin, 104(11), pp.2401-2428.
  21. 刘大卫, 蔡春芳, 扈永杰, 姜磊, 彭燕燕, 于瑞, 覃勤. 2020. 深层白云岩多期白云石化及其对孔隙演化的影响--以川中地区下寒武统龙王庙组为例. 中国矿业大学学报, 49(6): 1150-1165.
  22. Xu, Z.*, Hu, S., Wang, L., Zhao, W., Cao, Z., Wang, R., Shi, S. and Jiang, L., 2019. Seismic sedimentologic study of facies and reservoir in middle Triassic Karamay Formation of the Mahu Sag, Junggar Basin, China. Marine and Petroleum Geology, 107, pp.222-236.
  23. Zhao, W., Hu, S., Xu, Z.*, Zeng, H., Liu, W., Fu, Q., Shi, S., Wang, L. and Jiang, L., 2018. Lithology mapping of a mixed siliciclastic− carbonate− evaporite system using 3D seismic and well data: Lower Triassic Jialingjiang Formation, Sichuan Basin, southwestern China. Marine and Petroleum Geology, 93, pp.422-436.
  24. Zhang, H., Cai, Z.*, Hao, F., Qi, L., Yun, L. and Jiang, L., 2018. Hydrogeomorphologic architecture of epikarst reservoirs in the middle-lower ordovician, Tazhong uplift, Tarim Basin, China. Marine and Petroleum Geology, 98, pp.146-161.
  25. Wang, T., Jiang, L., Cai, C.*, Yuan, Y., Zhang, Y., Jia, L. and Chen, S., 2018. Lipid Evidence for Oil Depletion by Sulfate-Reducing Bacteria during U Mineralization in the Dongsheng Deposit. Journal of Earth Science, 29, pp.556-563.
  26. Hu, S.*, Zhao, W., Xu, Z., Zeng, H., Fu, Q., Jiang, L., Shi, S., Wang, Z. and Liu, W., 2017. Applying principal component analysis to seismic attributes for interpretation of evaporite facies: Lower Triassic Jialingjiang Formation, Sichuan Basin, China. Interpretation, 5(4), pp.T461-T475.
  27. Meng, M., Fan, T.*, Duncan, I.J., Yin, S., Gao, Z., Jiang, L., Yu, C. and Jiang, L., 2018. Characterization of carbonate microfacies and reservoir pore types based on Formation MicroImager logging: A case study from the Ordovician in the Tahe Oilfield, Tarim Basin, China. Interpretation, 6(1), pp.T71-T82.
  28. Jia, L., Cai, C.*, Jiang, L., Zhang, K., Li, H. and Zhang, W., 2016. Petrological and geochemical constraints on diagenesis and deep burial dissolution of the Ordovician carbonate reservoirs in the Tazhong area, Tarim Basin, NW China. Marine and Petroleum Geology, 78, pp.271-290.
  29. Dong, S., Li, Z.* and Jiang, L., 2016. The Ordovician–Silurian tectonic evolution of the northeastern margin of the Tarim block, NW China: Constraints from detrital zircon geochronological records. Journal of Asian Earth Sciences, 122, pp.1-19.
  30. Dong, S., Li, Z.* and Jiang, L., 2016. The early Paleozoic sedimentary–tectonic evolution of the circum-Mangar areas, Tarim block, NW China: Constraints from integrated detrital records. Tectonophysics, 682, pp.17-34.
  31. Xiang, L.*, Cai, C., He, X., Jiang, L., Yuan, Y., Wang, T., Jia, L. and Yu, L., 2016. The Ocean redox state evolution and its controls during the Cambrian Series 1–2: Evidence from Lijiatuo Section, South China. Journal of Earth Science, 27, pp.255-270.
  32. Cai, C.*, Hu, G., Li, H., Jiang, L., He, W., Zhang, B., Jia, L. and Wang, T., 2015. Origins and fates of H2S in the Cambrian and Ordovician in Tazhong area: Evidence from sulfur isotopes, fluid inclusions and production data. Marine and Petroleum Geology, 67, pp.408-418. 
  33. Cai, C.*, Zhang, C., Worden, R.H., Wang, T., Li, H., Jiang, L., Huang, S. and Zhang, B., 2015. Application of sulfur and carbon isotopes to oil–source rock correlation: A case study from the Tazhong area, Tarim Basin, China. Organic Geochemistry, 83, pp.140-152.
  34. Li, K.*, Cai, C., Jia, L., Gao, Y., Jiang, Z., Wang, T. and Jiang, L., 2015. The role of thermochemical sulfate reduction in the genesis of high-quality deep marine reservoirs within the central Tarim Basin, western China. Arabian Journal of Geosciences, 8, pp.4443-4456.
  35. Jia, L., Cai, C.*, Yang, H., Li, H., Wang, T., Zhang, B., Jiang, L. and Tao, X., 2015. Thermochemical and bacterial sulfate reduction in the Cambrian and Lower Ordovician carbonates in the Tazhong Area, T arim Basin, NW China: evidence from fluid inclusions, C, S, and Sr isotopic data. Geofluids, 15(3), pp.421-437. 
  36. 向雷, 蔡春芳, 贺训云, 姜磊, 袁余洋, 于雷.华南渣拉沟剖面纽芬兰世沉积水体氧化还原状态演化: 地质学报, 2015,89, 1120-1133
  37. Cai, C.*, He, W., Jiang, L., Li, K., Xiang, L. and Jia, L., 2014. Petrological and geochemical constraints on porosity difference between Lower Triassic sour-and sweet-gas carbonate reservoirs in the Sichuan Basin. Marine and Petroleum Geology, 56, pp.34-50.
  38. Li, K.*, Cai, C., Hou, D., He, X., Jiang, L., Jia, L. and Cai, L., 2014. Origin of high H2S concentrations in the Upper Permian Changxing reservoirs of the Northeast Sichuan Basin, China. Marine and petroleum geology, 57, pp.233-243.
  39. Li, K., Cai, C.*, Jiang, L., Cai, L., Jia, L., Zhang, B., Xiang, L. and Yuan, Y., 2012. Sr evolution in the Upper Permian and Lower Triassic carbonates, northeast Sichuan basin, China: constraints from chemistry, isotope and fluid inclusions. Applied Geochemistry, 27(12), pp.2409-2424.
  40. 李开开*, 蔡春芳*, 蔡镏璐, 姜磊, 向雷, 2012. 塔河地区中下奥陶统储层硫化物成因分析. 岩石学报, 28 (3), 806-814.
  41. 向雷*, 蔡春芳, 贺训云, 姜磊, 2012. 贵州渣拉沟剖面下寒武统黑色硅质岩微量元素富集机制. 岩石学报, 28 (3), 971-980.
  42. 姜磊, 蔡春芳*, 张永东, 茅晟懿, 孙永革, 李开开, 向雷, 张春明, 2012. 东胜铀矿床中发现硫酸盐还原菌和硫氧化菌类脂. 科学通报, 57, 1311-1319.
  43. Li, K., Cai, C.*, He, H., Jiang, L., Cai, L., Xiang, L., Huang, S. and Zhang, C., 2011. Origin of palaeo-waters in the Ordovician carbonates in Tahe oilfield, Tarim Basin: constraints from fluid inclusions and Sr, C and O isotopes. Geofluids, 11(1), pp.71-86.
  44. Cai, C.*, Li, K., Zhu, Y., Xiang, L., Jiang, L., Tenger, Cai, X. and Cai, L., 2010. TSR origin of sulfur in the Permian and Triassic reservoir bitumen in East Sichuan Basin, China.Organic Geochemistry, 41, pp.871-878.
  45. 李开开, 蔡春芳, 蔡镠璐, 姜磊, 2010. 塔河油田下古生界溶洞充填巨晶方解石流体来源分析. 地质科学, 45, 595-605.
  46. 李开开, 蔡春芳, 蔡镠璐, 姜磊, 2010. 塔河地区下古生界热液流体及储层发育主控因素探讨-以S88和TS1井为例. 石油实验地质, 32, 46-51.
  47. Cai, C.*, Zhang, C., Cai, L., Wu, G., Jiang, L., Xu, Z., Li, K., Ma, A. and Chen, L., 2009. Origins of Palaeozoic oils in the Tarim Basin: Evidence from sulfur isotopes and biomarkers. Chemical Geology, 268(3-4), pp.197-210.
  48. 蔡春芳*, 李开开, 李斌, 蔡镠璐, 姜磊, 2009. 塔河地区奥陶系碳酸盐岩缝洞充填物的地球化学特征及其形成流体分析. 岩石学报, 25, 2399-2404.
  49. 蔡春芳, 李宏涛,李开开,姜磊, 2008. 油气厌氧氧化与铀还原的耦合关系-以东胜和钱家店铀矿床为例. 石油实验地质, 30, 518-521.

 

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