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Australian Journal of Earth Sciences
An International Geoscience Journal of the Geological Society of Australia
Volume 64, 2017 - Issue 3
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Original Articles

Dissolution experiment and transformation condition analysis of Paleogene aragonite in the Jiyang Depression, China

Gm. WangSchool of Geosciences, China University of Petroleum (East China), Qingdao, Shandong266580, PR China;Laboratory for Marine Mineral Resources, Qingdao National Laboratory for Marine Science and Technology, Qingdao, Shandong266071, PR ChinaCorrespondence[email protected]
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,
Zh. XiongSchool of Geosciences, China University of Petroleum (East China), Qingdao, Shandong266580, PR ChinaView further author information
,
J. ZhangSchool of Geosciences, China University of Petroleum (East China), Qingdao, Shandong266580, PR ChinaView further author information
&
B. ZhangSchool of Geosciences, China University of Petroleum (East China), Qingdao, Shandong266580, PR ChinaView further author information
Pages 343-352 | Received 18 Jun 2016, Accepted 15 Jan 2017, Published online: 16 Mar 2017

References

  • Boettcher, A. L., & Wyllie, P. J. (1968). The calcite–aragonite transition measured in the system CaO–CO2–H2O. Journal of Geology, 76, 314–330.
  • Brown, W. H., Fyfe, W. S., & Turner, F. J. (1962). Aragonite in California glaucophane schists, and the kinetics of the aragonite–calcite transformation. Petrology, 3, 566–582.
  • Frisia, S., Borsato, A., Fairchild, I. J., & McDermott, F. (2000). Calcite fabrics, growth mechanisms, and environments of formation in speleothems from the Italian Alps and Southwestern Ireland. Journal of Sedimentary Research, 5, 1183–1196.
  • Frisia, S., Borsato, A., Fairchild, I., McDermott, F., & Selmo, E. M. (2002). Aragonite–calcite relationships in speleothems (Grotte de Clamouse, France): Environment, fabrics, and carbonate geochemistry. Sedimentary Research, 5, 687–699.
  • Han, L. G., Liu, Z. Q., Xu, Y. D., Xu, S. H., Ren, F. L., & Zhou, L. (2008). Study of characteristics of the Cenozoic geotemperature field in Jiyang Depression. Offshore Oil, 1, 19–25.
  • Hans, F., & Hertha, G. (1964). Aragonitische Lumachellen im Bituminösen Wealden des Emslandes. Beiträge Zur Mineralogie und Petrographie, 10, 184–197.
  • Hyndman, D. W. (1985). Petrology of Igneous and Metamorphic Rocks (253 p). London, UK: McGraw-Hill Book Company.
  • Jiang, Z. X. (2010). Sedimentology (2nd Ed. 9, pp. 275–280). Beijing, China: Petroleum Industry Press.
  • Johannes, W., & Puhan, D. (1971). The calcite–aragonite transition, reinvestigated. Contributions to Mineralogy and Petrology, 311, 28–38.
  • Jones, B., & Renaut, R. W. (1995). Noncrystallographic calcite dendrites from hot-spring deposits at Lake Bogoria, Kenya. Journal Sedimentary Research, A65, 154–169.
  • Jones, B., & Renaut, R. W. (1996). Morphology and growth of aragonite crystals in hot-spring travertines at Lake Bogoria, Kenya Rift Valley. Sedimentology, 43, 323–340.
  • Li, L., Cui, Z. Q., Tao, M. H., & Zhang, B. S. (2013). Discussing on the main reason of aragonite existing in Sha1 of Ning 81 Well Block, Raoyang Sag. Journal of Yangtze University (Natural Science Edition), 16, 56–58.
  • Li, S. L., Yu, X. H., Chen, J. Y., Li, Y. X., & Wang, Y. S. (2005). Distribution characteristics of Ro and factors Influencing the organic maturity in the Zhanhua Depression. Journal of Geomechanics, 1, 90–96.
  • Li, J. Z., Li, D. H., Dong, D. Z., & Wang, S. J. (2012). Comparison and enlightenment on formation condition and distribution characteristics of shale gas between China and U. S. Engineering Sciences, 6, 56–63.
  • Liu, Z. F., Yan, M. F., Zhang, L. H., & Li, H. H. (2011). Study on the effect of magnesium ion on the crystal form of calcium carbonate. Technology of Water Treatment, 10, 60–62.
  • Liu, Z. Q., Han, L. G., Xu, Y. D., Xu, S. H., Ren, F. L., & Zhou, L. (2008). Cenozoic geothermal evolution in the Jiyang Depression. Acta Geologica Sinica, 5, 663–668.
  • Murray, J. W. (1954). The deposition of calcite and aragonite in caves. The Journal of Geology, 13, 481–492.
  • Pan, R. F., Chen, M. L., Zhang, C. M., Shen, L. Y., & Yang, B. G. (2016). Characteristics of shale organic matter thermal evolution in Palaeogene Shahejie Formation in Jiyang Depression. Earth Science Frontiers, 4, 277–283.
  • Peng, W. S., & Liu, G. K. (1983). Factor-group analysis of vibration spectra of calcite and aragonite group minerals. Acta Mineralogica Sinica, 3, 169–174.
  • Qiu, N. S., Su, X. G., Li, Z. Y., Liu, Z. Q., & Li, Z. (2006). The Cenozoic tectono-thermal evolution of Jiyang Depression, Bohai Bay Basin, East China. Chinese Journal of Geophysics, 4, 1127–1135.
  • Richard, O., Richard, M., Guillaume, D., & Yves, Q. (2005). High-resolution mapping of uranium and other trace elements in recrystallized aragonite–calcite speleothems from caves in the Pyrenees (France): Implication for U-series dating. Earth and Planetary Science Letters, 237, 911–923.
  • Suess, E. (1970). Interaction of organic compounds with calcium carbonate – I. Association phenomena and geochemical implications. Geochimica Cosmochimica Acta, 34, 157–168.
  • Suess, E. (1973). Interaction of organic compounds with calcium carbonate – II. Organo-carbonate cssociation in recent sediments. Geochimica Cosmochimica Acta, 37, 2435–2447.
  • Tan, L. J., Jiang, Y. L., Liu, H., & Fan, C. T. (2003). Petroleum accumulation and occurrence in the Dongying and the Huimin Sags. Petroleum Exploration and Development, 3, 39–43.
  • Vandael, C. J. M., & Levert, M. (1973). Etude des residus d'evaporation de solutions d'hydrogenocarbonates de calcium et de magnesium. Journal of Thermal Analysis, 54, 445–458.
  • Wang, G. M. (2012). Laminae combination and genetic classification of Eogene shale in Jiyang Depression. Journal of Jilin University (Earth Science Edition), 42, 667–680.
  • Wang, G. M., Ren, Y. J., & Zhong, J. H. (2005). Genetic analysis on lamellar calcite veins in Palaeogene black shale of the Jiyang Depression. Acta Geologica Sinica, 6, 834–838.
  • Yuan, G. H., Cao, Y. C., Yang, T., Wang, Y. Z., Li, X. Y., Xi, K. L., & Jia, Z. Z. (2013). Porosity enhancement potential through mineral dissolution by organic acids in the diagenetic process of elastic reservoir. Earth Science Frontiers, 20, 208–218.
  • Zhang, H. Q. (1984). Skeletal aragonite preserved in Daanzhai Limestone of the Jurassic Central Sichuan. Natural Gas Industry, 1, 22–26.
  • Zhang, H. W., Cai, Y. J., An, Z. S., & Qin, S. J. (2014). Variation of oxygen and carbon isotope compositions in transformation of speleothem primary aragonite to secondary calcite. Bulletin of Mineralogy, Petrology and Geochemistry, 1, 31–37.

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