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姓名 蔡春芳 性别:
职称 研究员 学位 博士
电话 010-82998127 传真: 010-62010846
Email: cai_cf@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:

  福建福清人,研究员,博士生导师,2011年获杰青项目,主持多项国家自然基金委重点项目、国际合作项目、面上项目和国家油气重大专项。在Nature Indexed 刊物Geology、GCA发表第一作者或通讯作用论文6篇,AAPG、Sedimentology等国内外著名刊物发表论文近200篇, 被SCI+核心总引用约4000次;国家发明专利6项。主要从事油气—烃源岩对比、储层地质与地球化学和古海洋环境研究,在有机硫同位素地球化学、盆地有机-无机相互作用方面具有专长。

国际刊物“Scientific Reports”和 “Geosciences”的编委。
  研发了烃源岩有机硫同位素测试方法,提出了其应用于油源对比的条件,给出迄今为止最可靠的证据(即有机硫同位素组成),阐明塔里木盆地下古生界原油来自寒武系烃源岩,解决了三、四十亿吨探明原油的油源这一长期困惑中国石油地质学家的难题;提出TSR过程新产生了硫醇、四氢噻吩和金刚烷等化合物,发现硫代金刚烷和四氢噻酚硫同位素值反映了不同TSR阶段,阐明甲烷可以是TSR的主要反应物,定量表征了其碳同位素分馏效应;提出深埋白云岩优质储层可形成于早期白云岩化和后期TSR;发现了铀矿化硫酸盐还原细菌微化石,建立了微生物与油气同时参与的铀成矿模式; 提出了地质历史上超重黄铁矿新的成因模式,解决了地学界长期的争议;首次提出大塘坡锰矿形成于冰融水湖泊环境;发现在缺硫酸盐的环境,甲烷可以被铁锰氧化物直接氧化,并首次在前寒武系识别出这一作用,认为是早期地球甲烷主要的循环形式。
 
学科类别:
地质学
 
研究方向:

1) 沉积盆地不同存在形式硫之间转化及其机理
2) 有机硫/碳氮同位素应用于恢复古环境、生命演化以及高过成熟烃源岩-油气的对比研究;
3)碳酸盐岩中TSR及其他流体—岩石相互作用对有效储层形成与改造机理与油气成藏作用的关系;
4)深埋成岩期, BSR与TSR成因的硫化物形成有机含硫化合物的机理及其识别;
5)硫酸盐还原菌降解油气与六价铀还原成矿的关系;
6)生物标志化合物、稳定同位素和流体包裹体在油气勘探和开发中的应用。
 
职务:
 
社会任职:
 
承担科研项目情况:
  1. 深层油气的来源和演化:单体化合物和碳硫同位素限定。国家基金委重点项目(41730424),2018.1—2022.12
  2. 挥发性有机含硫化合物单体硫同位素组成反映天然气成因和次生变化。国际合作基金(4181101560), 2019.10—2022.9.
  3. 深层白云岩储层形成的主控因素与规模分布。国家科技重大专项子课题(2017ZX05008-003-040),2017.1—2020.10
  4. 川中龙王庙组储层成岩作用、孔隙和流体性质的时空变化,国家基金委面上项目(41672143),2017.1—2020.12
  5. 塔中地区奥陶系硫化氢成因与分布。油田横向课题,2012.10—2014.06
  6. 油气盆地硫参与的有机—无机相互作用, 国家杰出青年基金(41125009),2012.1—2015.12
  7. 塔里木盆地碳酸盐岩埋藏岩溶储集体形成分布的主控因素与发育规律(2008ZX05008-003、2011ZX05008-003),国家科技重大专项子课题;2008.6—2015.12
  8. 埃迪卡拉纪-寒武纪过渡时期 富有机质烃源岩的微生物作用(2011CB808805),国家973子课题;2011.1—2015.12
  9. 川东二叠-三叠系TSR对储层改造作用及气-源岩对比新方法(40839906),国家自然科学基金重点—中石化联合基金;2009.1—2012.12
  10. 微生物、油气在砂岩型铀矿床形成中的作用(KZCX2-YW-JC102),中科院知识创新工程重要方向项目;2010.1—2012.12
  11. “塔中塔北寒武—奥陶系碳酸盐岩流体地球化学与储层形成”(2006CB202304), 国家973项目子课题;2006.10—2011.10
  12. 深埋成岩期有机含硫化合物形成机理(40573034),国家自然科学基金面上,2006.1-2008.12
  13. 多种能源矿产共存成藏(矿)中流体—岩石相互作用研究(2003CB214605), 国家973子课题, 2003.12—2007.12
  14. 沉积盆地富硫流体:成因、流动与硫酸盐还原作用(40173023),国家自然科学基金面上项目,2001.1—2004.12
  15. 烃类的热化学硫酸盐还原作用与硫醇的成因,英国皇家学会Royal Fellowship, 2001.1-2002.1
  16. 沉积盆地微生物-烃-水-岩相互作用研究,国家自然科学基金面上(49773198), 1998.1-2000.12
  17. 储层中烃类蚀变对成岩作用的影响.,中石油中青年科技创新项目,1996.6—1999.3
  18. 塔里木盆地烃—水—岩相互作用研究(96-111-01-02-07C),国家95科技攻关项目, 1996-1999.
 
获奖及荣誉:
  • 1998年,第一作者论文获湖北省自然科学论文一、二等奖各一篇
  • 2004年,获全国百篇优秀博士学位论文奖
  • 2006年,获第十一届侯德封矿物岩石地球化学青年科学家奖
  • 2011年,获得国家杰出青年基金
  • 2014年,湖北省自然科学二等奖,排名第一
 
代表论著:

国家发明专利:

  1. 蔡春芳、许辰璐等,一种干酪根提取有机硫过程中定量清除黄铁矿影响的方法。专利号:2017 1 1337182.6
  2. 蔡春芳、李宏涛, 赵龙, 许辰璐等, 2021. 一种矿化微化石的确定方法和应用,专利号2021 1 0382 378.2。
  3. 许晨璐、蔡春芳等,2019. 地有机质含量的碳酸盐岩中有机硫的提取方法,ZL 2017 1 1337 184.0
  4. 孙鹏、蔡春芳等,2019. 有机硫同位素检测样品的制备方法以及有机硫同位素的检测方法,国家发明专利, 专利号: ZL2019 1 0762 600.4
  5. 许晨璐、蔡春芳等,2022. 一种干酪根中有机硫的提取装置。国家发明专利, 专利号: ZL2021 1 064423.1
  6. 许晨璐、…蔡春芳等,2022. 一种天然气水合物伴生自生碳酸盐岩晶格硫酸盐的提取法方法。国家发明专利, 专利号: ZL2021 1 0264 478.5

发表的主要论文(*代表通讯作者)

2023

  1. Cai, C.F.*, Liu D.W., Hu, Y.J., Huang, T.Y., Jiang, Z.W., Xu, C.L., 2023. Interlinked marine cycles of methane, manganese, and sulfate in the post-Marinoan Doushantuo cap dolostone. Geochimica et Cosmochimica Acta. DOI: https://doi.org/10.1016/j.gca.2023.02.014
  2. Chu, Z.Y., Wang, M.J., Liu, D.W., Liu, J.H., Guo, J.H., Zhang, H., Cai, C.F.*, 2023. Re-Os dating of gas accumulation in Upper Ediacaran to Lower Cambrian dolomite reservoirs, Central Sichuan Basin, China. Chemical Geology 620,121342.
  3. Wang, D.W., Cai, C.F.*, Yun, L., Liu, J.Y. *, Sun, P., Jiang, ZJ, Peng YY, Zhang H., Wei TY, Pei BB. 2023. Controls on petroleum stability in deep and hot reservoirs: A case study from the Tarim Basin. Marine and Petroleum Geology 147, 106014
  4. Yongjie Hu, Cai, C.F.*, Dawei Liu, Tianyuan Wei, Daowei Wang, Lei Jiang, Rongtu Ma, Shuyuan Shi and Adrian Immenhauser*,2023. Sedimentary and diagenetic archive of a deeply-buried, upper Ediacaran microbialite reservoir, S.W. China. AAPG 107, 387-412. (https://archives.datapages.com/data/bulletns /aop/2022-10-01/aapgbltn21122aop.html).
  5. 刘大卫, 蔡春芳*, 扈永杰, 姜磊, 王石, 彭燕燕, 李映涛, 李汉敖. 基于共生金属硫化物硫同位素分馏程度约束热液活动温度:以川中下寒武统龙王庙组为例. 古地理学报, 2023, 25(1): 215-225.

2022

  1. Cai, C.F.*, Lyons T.W., Sun P., Liu D.W., Wang D.W., Tino C., Luo G.M., Peng Y.Y. and Jiang L., 2022a. Enigmatic super-heavy pyrite formation: Novel mechanistic insights from the aftermath of the Sturtian Snowball Earth. Geochimica et Cosmochimica Acta 334, 65–82.
  2. Cai, C.F.*, Xu, C.L., Fakhraeee, M., Chen, D.Z., Peng, Y.Y., 2022b. Significant fluctuation in the global sulfate reservoir and oceanic redox state during the Late Devonian event. PNAS Nexus, https://doi.org/10.1093/pnasnexus/pgac122.
  3. Cai, C.F.*, Li, H., Li, K., Wang, D., 2022c. Thermochemical sulfate reduction in sedimentary basins and beyond: A review. Chem. Geol. 607, 121018.
  4. Jiang, L*., Cai, C.F*., Xiang, L., Fan, J.X., Li, K.K., Cai, L.L., Algeo, T.J., Zhang, F.F., 2022. Kerogen-specific isotope variations during the end-Permian mass extinction in South China. Earth Sciences Reviews 226, 103912.
  5. Jiang, L., Zhao, MY., Shen, AJ., Huang, LL., Chen, DZ., Cai, C.F., 2022. Pulses of atmosphere oxygenation during the Cambrian radiation of animals. EARTH AND PLANETARY SCIENCE LETTERS 590, 117565. DOI: 10.1016/j.epsl.2022.117565
  6. Hu, YJ, Cai, CF*, Li, Y., Zhou, R., Lu, FC., Hu, JF., Ren, C.B., Jia, L.Q., Zhou, YQ., Lippert, K., Immenhauser, A., 2022. Upper Ediacaran fibrous dolomite versus Ordovician fibrous calcite cement: Origin and significance as a paleoenvironmental archive. Chemical Geology 587, 121065.
  7. Hu Y.J*., Cai, C.F., Li, Y.*., Zhou, R., Tang, Y.J., Hu, J.F., Lu, F.C., Sun, P., 2022. Evolution of diagenetic fluids in the deeply buried, upper Ediacaran Dengying Formation, Central Sichuan Basin, China. Australian Journal of Earth Sciences. DOI:10.1080/08120099.2023.2126524.
  8. 彭燕燕;蔡春芳*;吴亮亮;孙鹏.元素硫促进原油烃类热裂解及其对TSR作用启动机制的影响.地球化学,2022,51(4): 441-452.
  9. 王道伟;蔡春芳*;彭燕燕;孙鹏;戚宇;刘景彦;蒋子文.塔里木盆地原油金刚烷含量校正及裂解程度评价. 地球化学, 2022, 51(1): 58-69.
  10. 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. 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, 2022, 24(03), 524-539.
  11. Wei, TY., Cai, C.F.*, Hu, YJ., Liu, DW., Jiang, ZW., Wang, DW., 2022. Nature and evolution of diagenetic fluids in the deeply buried Cambrian Xiaoerbulake Formation, Tarim Basin, China. Australian Journal of Earth Sciences. DOI: 10.1080/08120099.2022.2122080.
  12. Li, K.K.*, Cai, C.F., Tan, X.F.,Jiang, H., Fan, J.J., 2022. Multiple fluid flow events and diversity of hydrothermal minerals in Neoproterozoic to lower Paleozoic carbonate reservoirs, Tarim Basin, NW China. Journal of Asian Earth Sciences 233, 105260.
  13. Li, KK.*, Cai, C.F., Tan, XF., Jiang, H., Fan, J.J., 2022. Massive dolomitization driven by MgSO4-rich seawater and its effects on thermochemical sulfate reduction, Upper Permian Changxing Formation, northeastern Sichuan, China. Energy Exploration & Exploitation 40(5), 1315-1343.
  14. Qi, Y., Sun, P., Cai, C.F.*, Wang, D.W., Peng, Y.Y., 2022. Phase fractionation controlling regional distribution of diamondoids: A case study from the Halahatang oil field, Tarim Basin, China. Marine and Petroleum Geology 140, 105674.
  15. Wang, D.W., Cai, C.F.*, Yun, L., Cao, Z.C., Zhang, J., Qi, Y., Liu, J.Y., Jiang, Z.W., Hu, Y.J., 2022. Geochemical evidence for secondary microbial gas in deep hot reservoirs of the Tarim Basin. Chemical Geology 587, 120630.
  16. Peng, Y.Y., Cai, C.F.*, Fang, CC., Wu, LL., Liu, JZ., Sun, P., Liu, DW, 2022. Diamondoids and thiadiamondoids generated from hydrothermal pyrolysis of crude oil and TSR experiments. Scientific Reports 12(1), 196.
  17. Zhang, JZ., Tang, YJ., Cai, CF., Sun, P., Peng, Y.Y., 2022. Indicative significance of biomarker parameters on crude oil cracking rate from the Dongpu Depression, Bohai Bay basin of North China. Journal of Petroleum Science and Engineering 212, 110264.
  18. Jia, LQ., Cai, CF., Li, KK., Liu, LJ., Chen, ZP.,Tan, X.F., 2022. Impact of fluorine-bearing hydrothermal fluid on deep burial carbonate reservoirs: A case study from the Tazhong area of Tarim Basin, northwest China. Marine and Petroleum Geology 139, 105579.

2021

  1. Cai, C.F.*, Li, K.K., Dawei Liu, Cedric M John, Daowei Wang, Bin Fu, Lianjun Feng, Mojtaba Fakhraee, Lei Jiang, 2021. Anaerobic oxidation of methane by Mn oxides in sulfate-poor environments. Geology 49(7): 761-766. https://doi.org/10.1016/j.chemgeo.2021.120630.
  2. Hu,Y.J., Cai, C.F.*, Liu, D.W., Peng, Y.Y., Wei, T.Y., Jiang, Z.W., Ma, R.T., Jiang, L., 2021. Distinguishing microbial from thermochemical sulfate reduction from the upper Ediacaran in South China. Chemical Geology 583, 120482.
  3. Lianqi Jia*, Cai, C.F.*, Zhang, JG, Liu, LJ, Luo, QY, Li, KK, 2021. Effect of thermochemical sulfate reduction on carbonate reservoir quality: Cambrian and Ordovician oilfield, Tazhong area, Tarim basin, China[J]. Marine and Petroleum Geology, 2021, 123, 104745.
  4. Dawei Liu, Cai, C.F.*, Yongjie Hu, et al., 2021. Multistage dolomitization and formation of ultra-deep Lower Cambrian Longwangmiao Formation reservoir in central Sichuan Basin, China[J]. Marine and Petroleum Geology 123,104752.
  5. Yan Chen, Cai, C.F.*, Zhen Qiu*, Lin Wei, 2021, Evolution of nitrogen cycling and primary productivity in the tropics during the Late Ordovician mass extinction. Chemical Geology 559, 119926.
  6. Han Song, Xinwen Ou, Bin Han, Haoyu Deng, Wenchao Zhang, Chen Tian, Cai, C.F., Anhuai Lu, Zhang Lin*, Liyuan Chai, 2021. An Overlooked Natural Hydrogen Evolution Pathway: Ni2+ Boosting H2O Reduction by Fe(OH)2 Oxidation during Low-Temperature Serpentinization. Angew. Chem. Int. Ed. 60, 1—6.
  7. Dong, YH, Duan, RQ, Li, Z, Lu, XX, Cai, C.F., Liu, JQ, Wang, LH, 2021. Quantitative evaluation of hydrothermal fluids and their impact on diagenesis of deep carbonate reservoirs: Insights from geochemical modeling. Marine and Petroleum Geology 124,104797.
  8. Jiang, KX, Lin, CM, Guan, CG, Peng, L., Zhang, X., Cai, C.F., Xiao, QL., Huang, SY. 2021. Influence of a chromium reduction treatment in the analysis of organic carbon isotopes in Quaternary coastal plain incised valley sediments. Applied Geochemistry 127, 104922.
  9. 魏天媛;蔡春芳*;扈永杰、刘大卫、蒋子文,塔里木盆地下寒武统肖尔布拉克组储层成因,沉积学报2021,DOI:10.14027/j.issn.1000-0550.2021.116.

2020

  1. Hu, YJ, Cai, C.F.*, Liu, DW, Pederson, CL, Jiang,L., Shen, AJ, Immenhauser, A., 2020. Formation, diagenesis, and paleoenvironmental significance of upper Ediacaran fibrous dolomite cements porosity evolution of a giant, deeply buried Ediacaran gas field (Sichuan Basin, China). Sedimentology  67(2), 1161-1187. DOI: 10.1111/sed.12683
  2. Hu, YJ, Cai, C.F.*,Pederson, CL, Liu, DW, Jiang, L., He XY, Immenhauser A, 2020. Dolomitization history and porosity evolution of a giant, deeply buried Ediacaran gas field (Sichuan Basin, China). Precambrian Research 338, 105595.
  3. Sun, P., Cai, C.F.*, Tang YJ*,Tao ZQ,Zhao W, 2020. A new approach to investigate effects of biodegradation on pyrrolic compounds by using a modified Manco scale. Fuel 265, 116937. DOI:10.1016/j.fuel.2019.116937
  4. Yu Qi, Yiwen Ju*, Jingqiang Tan, Leon Bowen, Cai, C.F., Kun Yu, Hongjian Zhu, Cheng Huang, Weilai Zhang, 2020. Organic matter provenance and depositional environment of marine-to continental mudstones and coals in eastern Ordos Basin, China—Evidence from molecular geochemistry and petrology. International Journal of Coal Geology 217, 103345. DOI:10.1016/j.coal.2019.103345
  5. Li, KK*,George, SC, Cai, C.F., Zhang, XF, Tan, XF.,2020. Comparison of differential diagenesis of two oolites on the Lower Triassic platform margin, NE Sichuan Basin: Implications for the co-evolution of rock structure and porosity. Marine and Petroleum Geology 119, 104485. DOI: 10.1016/j.marpetgeo.2020.104485
  6. Lianqi Jia*, Cai, C.F.*, Zhenliang Wang, Hongxia Li, Lijing Liu, Qingyong Luo, and Lei Jiang, 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, v. 104, no. 11 (November 2020), pp. 2401–2428
  7. Lei Jiang*, Mojtaba Fakhraee, Cai, C.F., and Richard H. Worden, 2020. Sulfur Cycling During Progressive Burial in Sulfate-Rich Marine Carbonates. Geochemistry, Geophysics, Geosystems 21, e2020GC009383. https://doi.org/10.1029/2020GC009383

  8. 赵龙; 董廷旭; 蔡春芳、金若时、蒋婷婷、魏佳林、杜华明、李建国砂岩型铀矿的微生物成矿作用研究述评,地质学报 2020,94 (12) , 3523-3543

  9. 刘大卫; 蔡春芳; 扈永杰、姜磊、彭燕燕、于瑞、覃勤,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(自然科学版), 2020,49 (6) , 1150-1165

  10. 袁余洋; 汪天凯; 蔡春芳、许辰璐、秦启荣,塔中地区原油含硫化合物类型与TSR成因关系。西南石油大学学报2020,42 (2) , 48-60

2019

  1. Cai, C.F.*, Tang, YJ, Li, KK, Jiang, KX, Jiang, CQ, Xiao, QL. 2019. Relative reactivity of saturated hydrocarbons during thermochemical sulfate reduction. Fuel 253, 106-113.
  2. Jiang, K. X., Lin, C.M.*, Peng, L., Zhang, X., Cai, C.F., 2019. Methyltrimethyltridecylchromans (MTTCs) in lacustrine sediments in the northern Bohai Bay Basin, China. Organic Geochemistry 133, 1-9.
  3. Nguyen, K., Love, G.D.*, Zumberge, J.A., Kelly, A.E., Owens, J.D., Rohrssen, M.K., Bates, S.T., Cai, C.F., Lyons, T.W.*, 2019. Absence of biomarker evidence for early eukaryotic life from the Mesoproterozoic Roper Group: Searching across a marine redox gradient in mid‐Proterozoic habitability. Geobiology. https://doi.org/10.1111/gbi.12329
  4. Zhang, P.W., Liu, G.D. *, Cai, C.F.*., Li, M.J., Chen, R.Q., Gao,P., Xu, C.L., Wan, W.,C., Zhang, Y.Y., Jiang, M.Y., 2019. Alteration of solid bitumen by hydrothermal heating and thermochemical sulfate reduction in the Ediacaran and Cambrian dolomite reservoirs in the Central Sichuan Basin, SW China. Precambrian Research 321, 277-302.
  5. Chen, Y., Diamond, C.W., Stüeken, E.E., Cai, C.F.*, Gill, B.C., Zhang, F.F., Bates, S.M., Chu, X.L., Ding, Y., Lyons, T.W. * (2019), Coupled evolution of nitrogen cycling and redoxcline dynamics on the Yangtze Block across the Ediacaran-Cambrian transition. Coupled evolution of nitrogen cycling and redoxcline dynamics on the Yangtze Block across the Ediacaran-Cambrian transition. Geochimica et Cosmochimica Acta 257, 243-265. https://doi.org/10.1016/j.gca.2019.05.017
  6. Li, K.K.*, George, S.C., Cai, C.F.*, Gong, S., Sestak, S., Armand, S., Zhang, X.F. , 2019. Fluid inclusion and stable isotopic studies of thermochemical sulfate reduction: Upper Permian and Lower Triassic gasfields, northeast Sichuan Basin, China. Geochimica et Cosmochimica Acta, 246, 86-108.
2018
  1. Zhao, L., Cai, C.F.*, Jin, R.S., Li, J.G., Li, H.L., Wei, J.G., Guo, H., Zhang, B., 2018. Mineralogical and geochemical evidence for biogenic and petroleum-related uranium mineralization in the Qianjiadian deposit, NE China. Ore Geology Reviews 101, 273-292.
  2. Xiao, Q.*, Amrani, A., Sun, Y., He, S., Cai, C.F., Liu, J., Said–Ahmad, W., Zhu, C., Chen, Z., 2018. The effects of selected minerals on laboratory simulated thermochemical sulfate reduction, Organic Geochemistry 122, 41-51.
  3. Jiang, K.X., Lin, C.M.*, Zhang, X., Cai, C.F., Xiao, F., He, W.X., Peng, L., 2018. Variations in abundance and distribution of methyltrimethyltridecylchromans (MTTCs) in sediments from saline lacustrine settings in Cenozoic lacustrine basins, China. Organic Geochemistry 121, 58–67.
  4. Jiang, L.*, Worden, R.H., Cai C.F., Shen, A.J., Crowley, S.F., Xu, Z.H., 2018. Diagenesis of an evaporite-related carbonate reservoir in deeply buried Cambrian strata, Tarim Basin, Northwest China. AAPG 102, 77-102.
  5. Jiang, L.*, Worden, R.H., Cai C.F., Shen, A.J., He, S.Y., Pan, L.Y., 2018. Contrasting diagenetic evolution patterns of platform margin limestones and dolostones in the Lower Triassic Feixianguan Formation, Sichuan Basin, China. Marine and Petroleum Geology 92, 332-351.
  6. Wang, T.K., Jiang, L., Cai, C.F.*, 2018. Lipid Evidence for Oil Depletion by Sulfate-Reducing Bacteria during U Mineralization in the Dongsheng Deposit. Journal of Earth Science, 29(3), 556-563.
  7. 蔡春芳*, 2018. 有机硫同位素组成应用于油气来源和演化研究进展. 天然气地球科学, 29, 1-9.
  8. 余浩元、蔡春芳、郑剑锋、黄理力、袁文芳,2018。微生物结构对微生物白云岩孔隙特征的影响—以塔里木盆地柯坪地区肖尔布拉克组为例。石油实验地质, 40(2), 233-243.

2017年

  1. Cai, C.F., Xu, C.L., He, W.X., Zhang, C.M., Li, H.X., 2017. Biomarkers and C and S Isotopes of the Permian to Triassic Solid Bitumen and Its Potential Source Rocks in NE Sichuan Basin. Geofluids, vol. 2017, Article ID 6351382, 11 pages
  2. Cai, C. F., Xiang, L., Yuan, Y.Y., Xu, C.L., He, W.X., Tang, Y.J., Borjigen, T., 2017. Sulfur and carbon isotopic compositions of the Permian to Triassic TSR and non-TSR altered solid bitumen and its parent source rock in NE Sichuan Basin. Organic Geochemistry 105, 1–12.
  3. Li, H. X., Cai, C.F., Jia, L.Q., Xu, C.L., Zhang, K., 2017. The Effect of Water Chemistry on Thermochemical Sulfate Reduction: A Case Study from the Ordovician in the Tazhong Area, Northwest China. Geofluids, vol. 2017, Article ID 5783137, 14 pages
  4. Li, H. X. Cai, C.F., 2017. Origin and evolution of formation water from the Ordovician carbonate reservoir in the Tazhong area, Tarim Basin, NW China. Journal of Petroleum Science and Engineering 148, 103–114.
  5. Zhao, L., Qin, Y., Cai, C.F., Xie, Y.W., Wang, G., Huang, B.,, Xu, C.L., 2017. Control of coal facies to adsorption-desorption divergence of coals: A case from the Xiqu Drainage Area, Gujiao CBM Block, North China. International Journal of Coal Geology 171, 169-184.

2016年

  1. Cai, C.F., Amrani, A., Worden, R.H., Xiao, Q.L., Wang, T.K., Gvirtzman, Z., Li, H.X., Said-Ahmad, W., Jia, L.Q. , 2016 Sulfur isotopic compositions of individual organosulfur compounds and their genetic links in the Lower Paleozoic petroleum pools of the Tarim Basin, NW China. Geochimica et Cosmochimica Acta, 182, 88–108.
  2. Cai, C.F., Xiao, Q.L., Fang, C.C., Wang, T.K., He, W.X., Li, H.X. , 2016 The effect of thermochemical sulfate reduction on formation and isomerization of thiadiamondoids and diamondoids in the Lower Paleozoic petroleum pools of the Tarim Basin, NW China. Organic Geochemistry, 101, 49–62.
  3. Jia, L.Q., Cai, C.F., Jiang, L., Zhang, L., Li, H.X., Zhang, W. , 2016 Petrological and geochemical constraints on diagenesis and mesogenetic dissolution of the Ordovician carbonate reservoirs in the Tazhong area, Tarim Basin, NW China. Marine and Petroleum Geology, 78, 271-290
  4. Jiang, L., Cai, C.F., Worden, R.H., Crowley, S. F., Jia, L.Q., Zhang, K., Duncan, I.J., 2016. Multiphase dolomitization of deeply buried Cambrian petroleum reservoirs, Tarim Basin, Northwest China. Sedimentology 63, 2130-2157.
  5. Xiang L., Cai, C.F., He,X.Y., Jiang, L., Yuan, Y.Y., Wang, T.T., Jia, L.Q., 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, 265–280。
  6. 蔡春芳、赵龙,2016.热化学硫酸盐还原作用及其对油气与储集层的改造作用:进展与问题。矿物岩石地球化学通报 35(5),851-859。
  7. 贾连奇、蔡春芳*、李红霞、汪天凯、张文、孔令武,2016. 塔中地区热化学硫酸盐还原作用对深埋白云岩储层的改造。沉积学报,34(6), 1057-1067

2015年

  1. Cai, C.F., Hu, G.Y., Li, H.X., Jiang, L., He, W.X., Zhang, B.S., Jia, L.Q., Wang, T.K. 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, 2015c, 67, 408-418. 
  2. Cai, C.F., Zhang, C.M., Worden, R.H., Wang, T.K., Li, H.X., Jiang, L., Huang S.Y., Zhang, B.S. Application of sulfur and carbon isotopes to oil–source rock correlation: A case study from the Tazhong area, Tarim Basin, China. Organic Geochemistry, 2015b, 83-84,140-152. 
  3. Cai, C.F., Xiang, L., Yuan, Y.Y., He, X.Y., Chu, X.L., Chen, Y., Xu, C.L. Marine C, S and N biogeochemical processes in the redox-stratified Early Cambrian Yangtze ocean. Journal of the Geological Society (London). 2015a, 172 (3), 390-406.
  4. Jiang, L., Cai, C.F.*, Worden, R.H.*, Li, K.K., Xiang, L., Chu, X.L., Shen, A.J., Li, W.J, 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, 87–101. 

  5. Jiang, L., Worden, R.H., Cai, C.F.*, 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, 169, 249-262.

  6. Jiang, L., Pan, W., Cai, C.F.*, Jia, L.Q., Pan, L., Wang, T.K., Li, H. X., Chen, S. L., Chen, Y. , 2015 Fluid mixing induced by hydrothermal activity in the ordovician carbonates in Tarim Basin, China. Geofluids, 169, 249-262.

  7. Jia, L.Q., Cai, C.F., Yang, H., Li, H.X., Wang, T., Zhang, B., Jiang, L., Tao, X.W. Thermochemical and bacterial sulfate reduction in the Cambrian and Lower Ordovician carbonates in the Tazhong Area, Tarim Basin, NW China: Evidence from fluid inclusions, C, S and Sr isotopic data. Geofluids, 2015,15,421–437

  8. 向雷、蔡春芳、贺训云、姜磊、袁余洋、汪天凯、贾连奇, 2015. 华南李家沱剖面寒武纪纽芬兰世海水氧化还原性质演化及其驱动因素. 地球科学(中国地质大学学报). 2015,40(07),1197-1214.

  9. 向雷、蔡春芳、贺训云、姜磊、袁余洋、于雷, 2015. 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,89, 1120-1133

2014年 

  1. Wang, Z.M., Cai, C.F., Li, H. X., Yang, H.J., Wang, T.K., Zhang, K., Jia, L.Q., Chen, K. Origin of late charged gas and its effect on property of oils in the Ordovician in Tazhong area. Journal of Petroleum Science and Engineering, 2014, 122, 83-93. 
  2. Cai, C.F., He, W.X., Jiang, L., Li, K.K., Xiang, L., Jia, L.Q. Petrological and geochemical constraints on porosity difference between Lower Triassic sour- and sweet-gas carbonate reservoirs in the Sichuan Basin. Marine and Petroleum Geology, 2014, 56, 34-50. 
  3. Jiang, L., Worden, R.H., Cai, C.F., Li, K.K., Xiang, L., Cai, L.L., He, X.Y. Dolomitization of gas reservoirs: the Upper Permian Changxing and Lower Triassic Feixianguan Formations, northeast Sichuan Basin, China. Journal of Sedimentary Research, 2014, 84, 792-815. 
  4. Jiang, L., Worden, R.H., Cai, C.F. Thermochemical sulfate reduction and fluid evolution of the Lower Triassic Feixianguan Formation sour gas reservoirs: Northeast Sichuan Basin, China, American Association of Petroleum Geologists Bulletin, 2014, 98, 947-973. 
  5. Li, K.K., Cai, C.F., Hou, D.J., He, X.Y., Jiang. L., Jia, L.Q., Cai, L.L., 2014. Origin of high H2S concentrations in the Upper Permian Changxing reservoirs of the Northeast Sichuan Basin, China. Marine and Petroleum Geology 57,233-243. 
  6. Li, K.K., Cai, C.F., Jia, L.Q., Gao, Y., Jiang, Z., Wang, T.K., Jiang, L., 2014. 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, 1-14. 
  7. Yuan, Y.Y., Cai, C.F., Wang, T.K., Xiang, L., Jia, L.Q., Chen, Y., 2014. Deep-water basin redox conditions during Ediacaran-Cambrian transition period in the Lower Yangtze, South China: Case study of iron speciation and δ13Corg in Diben Section, Zhejiang province. Chinese Science Bulletin, 59, 3638-3649. 

2013年 

  1. Cai, C.F., Zhang, C.M., He, H., Tang, Y.J., 2013. Carbon isotope fractionation during methane-dominated TSR in East Sichuan Basin gas fields, China: A review. Marine and Petroleum Geology 48, 100-110.  
  2. Jiang, L., Cai, C.F., 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, 232-245.  
  3. 贺训云, 蔡春芳, 姚根顺, 熊湘华, 沈安江, 向雷, 吴敬武, 2013. 黔南坳陷油苗来源: 碳, 硫同位素及生物标志物证据. 岩石学报 29(3): 1059-1072.  

2012年 

  1. Li, K.K., Cai, C.F., Jiang, L., Cai, L.L., Jia, L.Q., Zhang, B., Xiang, L., Yuan, Y.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, 2409- 2424. 
  2. Jiang, L., Cai, C.F., Zhang, Y.D., Mao, S.Y., Sun, Y.G., Li, K.K., Xiang, L., Zhang, C.M., 2012. Lipids of sulfate-reducing bacteria and sulfur-oxidizing bacteria found in the Dongsheng uranium deposit. Chinese Science Bulletin 57, 1311-1319. 
  3. 蔡春芳*, 蔡镠璐, 张俊, 蔡勋育, 李开开, 2012. 川东北飞仙关组甲烷为主的 TSR 及其同位素分馏作用. 岩石学报 28(3): 889-894.  
  4. 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.  
  5. 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.  
  6. 杨海军*, 李开开, 潘文庆, 肖中尧, 蔡春芳, 2012. 塔中地区奥陶系埋藏热液溶蚀流体活动及其对深部储层的改造作用. 岩石学报 28(3): 783-792.  
  7. 张俊*, 蔡镠璐, 向雷, 蔡春芳, 2012. 川东北地区飞仙关组成岩晚期白云石溶解作用. 石油与天然气地质 33(4): 599-606.  

2011年 

  1. Li, K.K., Cai, C.F., He, H., Jiang, L., Cai, L.L., Xiang, L., Huang, S.J., Zhang, C.M., 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, 71-86. 
  2. Zhang, C.M., Zhang, Y.Q., Cai, C.F., 2011. Maturity effect on carbazole distributions in source rocks from the saline lacustrine settings, the western Qaidam Basin, NW China. Journal of Asian Earth Sciences 42, 1288-1296.  
  3. Zhang, C.M., Zhang, Y.Q., Cai, C.F., 2011. Aromatic isoprenoids from the 25-65 Ma saline lacustrine formations in the western Qaidam Basin, NW China. Organic Geochemistry 42, 851-855.  

2010年 

  1. Cai, C.F., Li, K.K., Zhu, Y.M., Xiang, L., Jiang, L., Tenger, Cai, X.Y., Cai, L.L., 2010. TSR origin of sulfur in the Permian and Triassic reservoir bitumen in East Sichuan Basin, China. Organic Geochemistry 41, 871-878.  

2009年 

  1. Cai, C.F., Zhang, C.M., Cai, L.L., Wu, G.H., Jiang, L., Xu, Z.M., Li, K.K., Ma, A.L., Chen, L.X., 2009c. Origins of Palaeozoic oils in the Tarim Basin: Evidence from sulfur isotopes and biomarkers. Chemical Geology 268,197-210.  
  2. Cai, C.F., Li KK., Ma, A.L., Zhang, C.M., Xu, Z.M., Worden, R.H., Wu, G.H., Zhang, B.S., Chen, L.X., 2009a. Distinguishing Cambrian from Upper Ordovician source rocks: Evidence from sulfur isotopes and biomarkers in the Tarim Basin. Organic Geochemistry 40, 755-768.  
  3. 蔡春芳, 李开开, 李斌, 蔡镠璐, 姜磊,2009b.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(10), 2399-2404.

2008年 

  1. Cai, C.F., Li, KK, Li, H.T., Zhang, B.S., 2008.Evidence for cross formational hot brine flow from integrated 87Sr/86Sr, REE and fluid inclusions of the Ordovician veins in Central Tarim. Applied Geochemistry 23, 2226-2235.  
  2. Zhang CM, Zhang YQ, Zhang M, Chen ZY, Peng DH, Sun WL, Cai, C.F., 2008. Compositional variabilities among crude oils from the southwestern part of the Qaidam Basin, NW China. Journal of Petroleum Science and Engineering 62, 87-92.  
  3. Zhang CM, Zhang YQ, Zhang M, Zhao HJ, Cai, C.F., 2008. Carbazole distributions in rocks from non-marine depositional environments. Organic Geochemistry39, 868-878.  
  4. Jiang HX, Wu YS, Cai, C.F., 2008. Filamentous cyanobacteria fossils and their significance in the Permian-Triassic boundary section at Laolongdong, Chongqing. Chinese Science Bulletin 53,1871-1879.  
  5. 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(5),518-521.
  6. 李开开,蔡春芳,蔡镠鏴,2008. 塔中地区上奥陶统热液流体与热化学硫酸盐还原作用.石油与天然气地质,2(29):217-222 

2007年 

  1. Cai, C.F., Li, KK, Li, H.T., 2007. Evidence for cross formation hot brine flow from integrated 87Sr/86Sr and REE data in Central Tarim. Geochimica Cosmochimi Acta A139-A139 (SCI).  
  2. Cai, C.F., Li, KK, Li, H.T., 2007. Fluid inclusion and isotopic constraint for fluid evolution in the Ordovician veins in Central Tarim, NW China. In: Bullen, T.D. and Wang, Y.C. (eds.), Water-Rock Interaction, Taylor & Francis Group, London. p. 703-707.  
  3. 蔡春芳,2007. 油气藏中热化学和微生物硫酸盐还原作用。矿物岩石地球化学通报,26 卷(增),pp. 260-262。  
  4. 蔡春芳、邬光辉、李开开、陈利新、李梅、李宏涛,2007. 塔中地区古生界热化学硫酸盐还原作用与原油中硫的成因。矿物岩石地球化学通报26(1), 44-48.  
  5. Cai, C.F., Li, H.T., Qin, MK., Luo, XR., Wang, F.Y., Ou, G.X., 2007. Biogenic and petroleum-related ore-forming processes in Dongsheng uranium deposit, NW China. Ore Geology Reviews 32, 262-274.【PDF】  
  6. Cai, C.F., Dong, H.L., Li, H.T., Xiao, X.K., Ou, G.X., Zhang, C.M., 2007. Mineralogical and geochemical evidence for coupled bacterial uranium mineralization and hydrocarbon oxidation in the Shashagetai deposit, NW China. Chemical Geology 236, 167-179.【PDF】  
  7. Wei, ZB, J. Moldowan, JM, Fago, F., Dahl,J.E., Cai, C.F. and Peters, K.E., 2007. Origins of Thiadiamondoids and Diamondoidthiols in Petroleum. ASAP Energy Fuels, 21 (6): 3431-3436.  
  8. Zhang, CM, Zhao, H., Hu, M., Xiao, Q., Li, J., Cai, C.F., 2007. A simple correlation for the viscosity of heavy oils from Liaohe Basin, NE China. Source. Journal of Canadian Petroleum Technology 46(4), 8-11.  
  9. Li, HT, Cai, CF, He, H., Li,K.K.., 2007. Microbial uranium mineralization and hydrocarbon oxidation in the Qianjiadian deposit, NE China. Geochimica Cosmochimi Acta 71, A570-A570.  
  10. Li, HT, Cai, CF, Li, KK, Luo, X.R., 2007. Biogenic spherical magnetite and coffinite from sandstone-type uranium deposit in Dongsheng area. In: Bullen, T.D. and Wang, Y.C. (eds.), Water-Rock Interaction, Taylor & Francis Group, London. p. 881-885.  
  11. 李开开、蔡春芳、李宏涛,2007. 塔中奥陶系稀土元素与87Sr/86Sr分布及其意义。矿物岩石地球化学通报,26 卷(增),pp. 296-298。  
  12. 李宏涛、蔡春芳、李开开、罗晓容,2007.东胜砂岩型铀矿床低温微生物成矿模式探讨. 矿物岩石地球化学通报,26 卷(增),pp. 292-293。
  13. 李宏涛、蔡春芳、李开开、罗晓容, 2007. 内蒙古东胜铀矿床球状磁铁矿的成因及意义. 地质论评,53(4), 564-570.  
  14. 李宏涛、蔡春芳、罗晓容、李开开,2007. 鄂尔多斯北部直罗组中烃类包裹体地球化学特征及来源分析. 沉积学报25(3)467-473.  
  15. 李宏涛、蔡春芳、罗晓容、孙希勇, 2007. 内蒙古东胜地区中侏罗统砂岩沉积物源的地球化学证据. 地质科学, 42(2), 353-361.  

2006年 

  1. Worden, R.H., Cai, C.F., 2006. Discussion: Geochemical characteristics of the Zhaolanzhuang sour gas accumulation and thermochemical sulfate reduction in the Jixian Sag of Bohai Bay Basin by Zhang et al. (Organic Geochemistry 36, 1717-1730). Organic Geochemistry 37, 511-514.  
  2. Cai, C.F., Peng, L.C., Mei, B.W., Xiao, Y.K., 2006. B, Sr, O and H isotopic compositions of formation waters from the Bachu Bulge, Tarim Basin. Acta Geological Sinica 80(4): 550-556.  

2005年 

  1. 蔡春芳、李宏涛. 2005. 沉积盆地热化学硫酸盐还原作用评述. 地球科学进展,20(5), 14-19.  
  2. Cai, C.F., Hu, GY, He, H., Li, J, Li, JF, Wu, Y. S., 2005. Geochemical characteristics and origin of natural gas and thermochemical sulfate reduction in Ordovician carbonates in the Ordos Basin, China. Journal of Petroleum Science and Engineering 48(3/4), 209-226.  
  3. Cai, C.F., Worden, R. H., Wolff, G. A., Bottrell, S. H., Wang, D.L., Li, X., 2005. Origin of sulfur rich oils and H2S in Tertiary lacustrine sections of the Jinxian Sag, Bohai Bay Basin, China. Applied Geochemistry 20, 1427-1444. 

2004年 

  1. Cai, C.F., He, H., Mei, B.W.,Xiao, Y.K.,2004, Origin of brines from the Bachu Uplift, Tarim Basin, China: chemistry and d11B evidence. In: Wanty RB and Seal RR (Eds.), Water-Rock Interaction 2004. London: Taylor and Francis Group, pp. 367-372  
  2. Cai, C.F., Xie, Z.Y., Worden, R.H., Hu, G.Y., Wang, L. S., He, H., 2004, Methane-dominated thermochemical sulphate reduction in the Triassic Feixianguan Formation East Sichuan Basin, China: towards prediction of fatal H2S concentrations. Marine and Petroleum Geology 21, 1265-1279 
  3. 向廷生、万家云、蔡春芳, 2004. 硫酸盐还原菌对原油的降解作用和硫化氢的生成. 天然气地球科学,15(2):171-173  
  4. 向廷生、蔡春芳、付华娥, 2004. 不同温度、羧酸溶液中长石溶解模拟实验. 沉积学报22, 597-602.  

2003年 

  1. Cai, C.F., Worden, R. H., Bottrell, S. H., Wang, L.S., and Yang, C.C., 2003. Thermochemical sulphate reduction and the generation of hydrogen sulphide and thiols (mercaptans) in Triassic carbonate reservoirs from the Sichuan Basin, China. Chemical Geology 202, 39-57.  

2002年 

  1. Cai, C.F., Worden, R. H., Wang, Q. H., Xiang, T. S., Zhu, J. Q., Chu, X. L, 2002. Chemical and isotopic evidence for secondary alteration of natural gases in the Hetianhe Field, Bachu Uplift of the Tarim Basin. Organic Geochemistry 33, 1415-1427.  

2001年 

  1. Cai, C.F., Wang, J. Y., Zeng, F. G. and He, H., 2001. Origin, migration and mixing of oilfield brines: Stable isotopic evidence from Kuqa Foreland Basin. Science in China Series E 44, 175-180.  
  2. Cai, C.F., Hu, W. S., Worden, R. H., 2001. Thermochemical sulphate reduction in Cambro-Ordovician carbonates in Central Tarim. Marine and Petroleum Geology 18, 729-741.  
  3. Cai, C.F., Franks, S. G. and Aagaard, P., 2001. Origin and migration of brines from Paleozoic strata in Central Tarim, China: constraints from 87Sr/86Sr, δD, δ18O and water chemistry. Applied Geochemistry 16, 1269-1283.  
  4. Cai, C.F., He, H. and Xiang, T. S., 2001. Isotope evidence for the origin and mixing of brines from Kuqa Basin, China. In: Cidu, R. (Ed), The proceedings of the 10th Water-Rock Interaction international symposium on water-rock. A. A. Blackema, Lisse, 1493-1496.  
  5. 蔡春芳、顾家裕、蔡洪美,2001. 塔中地区志留系烃类侵位对成岩作用的影响。沉积学报,19(1):60-65.  

2000年 

  1. 蔡春芳,2000. 塔中古生界油田水混合和运移的证据. 地球化学 29(5):504-510.  
  2. 蔡春芳、王国安、何 宏,2000. 库车前陆盆地流体化学、成因与流动. 地质地球化学28(1): 56-60.  

1999年 

  1. 蔡春芳,1999. 塔里木盆地油田水87Sr/86Sr的分布及其成因意义. 地球学报 20(增),484-488。 

1998年 

  1. Cai, C.F., Mei, B.W., Wang, J.Y., 1998. Fluid-rock interaction: its model and significance in Tarim Basin. China oil and gas 5(4) : 232-234.  
  2. 蔡春芳、邱利瑞, 1998. 塔里木盆地油田水有机配合物的模拟计算. 新疆石油地质 19(1),32-34,87.  
  3. 蔡春芳、马振芳、杨贤州, 1998. 圈闭中油气的次生蚀变作用. 中国海上油气(地质),12(2),122-12.  
  4. Hu, W. S., Cai, C.F., Wu, Z. Y., Li, J., 1998. Structural style and its relation to hydrocarbon exploration in the Songliao basin, northeast China: Marine and Petroleum Geology, 15(1), 41-55.  
  5. 曾凡刚、妥进才、李源、蔡春芳,1998. 广西3种褐煤芳烃生物标志物组合特征. 北京大学学报(自然科学版), 34(6):793~800.  

1997年 

  1. 蔡春芳, 梅博文, 马亭,陈传平,李伟,刘常青,1997. 塔里木盆地流体-岩石相互作用研究。北京:地质出版社,155p. (专著
  2. Cai, C.F., Mei, B., Li, W., Zeng, F., 1997. Water-rock interaction in Tarim Basin: Constraints from oilfield water geochemistry. Chinese Journal of Geochemistry 16(4), 289-303.  
  3. 蔡春芳、博梅文、马 亭等,1997. 塔里木盆地油田水成因与演化.地质论评, 43(4): 650-657.  
  4. 蔡春芳、博梅文、马 亭等, 1997. 塔里木盆地有机酸来源、分布及对成岩作用的影响.沉积学报, 15(3): 103-109.  
  5. 蔡春芳、博梅文、李 伟等, 1997. 塔中地区古生界流体运聚和化学演化。石油勘探开发, 24(2):18-21. (EI)  
  6. 蔡春芳、彭德堂、高振中、关银录、史永苏、李碧宁,1997. 民和盆地上侏罗统湿型冲积扇沉积. 矿物岩石17(2): 61-66.  
  7. 蔡春芳、彭德堂、高振中、关银录、史永苏、李碧宁,1997. 民和盆地中下侏罗统沉积相分析, 青海地质6(2): 14-21.   
  8. 蔡春芳,1997. 油藏流体连通性水化学指纹分析. 断块油气田,4(2):33-35  
  9. 蔡春芳,马亭,梅博文,李伟,1997.塔中地区石炭系水文地质与流体非均质性研究.江汉石油学院学报,19(3):30~33  
  10. 蔡春芳, 1997. 塔里木盆地流体-岩石相互作用及模式. 油气成藏机理及油气资源评价国际研讨会。石油工业出版社,149~152  
  11. 蔡春芳,1997. 水-岩相互作用地球化学模拟研究现状与进展. 油气成藏机理及油气资源评价国际研讨会。石油工业出版社,199-202 
  12. 张敏、蔡春芳、张俊, 1997. 油气藏中沥青垫的研究进展. 地质科技情报,16(1):81~84  
  13. 曾凡刚、周世新、王关玉、李贤庆、霍永忠、蔡春芳,1997.广西第三系煤系地层油砂的地球化学特征.沉积学报,15(3):91~95.  

1996年 

  1. Cai, C.F., Mei, B.W., Ma, T., Chen, C. P., Liu C. Q., 1996. Hydrocarbon-water-rock interactions in the diagenetically altered system nearby unconformities of Tarim Basin. Chinese Science Bulletin 41, 1631-1635.  
  2. 蔡春芳, 1996. 沉积盆地中流体-岩石相互作用研究的现状. 地球科学进展, 11(6):575~579.  
  3. 蔡春芳、博梅文、马 亭等, 1996. 塔里木盆地油田水文地球化学. 地球化学, 25(6) : 314-323.  
  4. 蔡春芳、赵红静、马亭、梅博文、方孝林,1996.塔里木盆地轮南地区油田水有机酸与矿物成岩作用.有机地球化学研究进展,重庆大学出版社,140~145  
  5. 蔡春芳、张敏、徐中一、张俊,1996.塔里木盆地储层沥青成因探讨. 有机地球化学研究进展,重庆大学出版社,14~20.  

1995年 

  1. 蔡春芳、博梅文、马 亭等,1995. 塔里木盆地不整合面附近成岩改造体系烃-水-岩相互作用. 科学通报 40(24): 2253-2256. 
  2. 蔡春芳、博梅文、马 亭等,1995. 塔北侏罗-三叠系成岩反应。石油天然气地质,1995, 16(3):259-264. 
  3. 陈传平、梅博文、易绍金、马亭、蔡春芳,1995. 地层水中低分子量有机酸成因分析. 石油学报,16(4):48~54.  

1994年 

  1. 陈传平、梅博文、马亭、蔡春芳, 1994. 水溶液中硅质絮状沉淀物的实验研究. 石油与天然气地质,15(4):316~321.  
 

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