Abstract
Origin of dolostone remained a controversial subject, although numerous dolomitization models had been proposed to date. Because of the dolomitization’s potential to be hydrocarbon reservoirs, one debatable issue was the role of dolomitization in porosity construction or destruction. Based upon case studies of dolostone reservoirs in various geological settings such as evaporative tidal flat (Ordos Basin, NW China), evaporative platform (Sichuan Basin, SW China), and burial and hydrothermal diagenesis (Tarim Basin, NW China), here we systematically discuss the origin of porosity in dolostone reservoirs. Contrary to traditional concepts, which regarded dolomitization as a significant mechanism for porosity creation, we found two dominant factors controlling reservoir development in dolostones, i.e., porosity inherited from precursor carbonates and porosity resulted from post-dolomitization dissolution. Actually, dolomitization rarely had a notable effect on porosity creation but rather in many cases destroyed pre-existing porosity such as saddle dolostone precipitation in vugs and fractures. Porosity in dolostones associated with evaporative tidal flat or evaporative platform was generally created by subaerial dissolution of evaporites and/or undolomitized components. Porosity in burial dolostones was inherited mostly from precursor carbonates, which could be enlarged due to subsequent dissolution. Intercrystalline porosity in hydrothermal dolostones was either formed during dolo- mitization or inherited from precursor carbonates, whereas dissolution-enlarged intercrystalline pores and/or vugs were usually interpreted to be the result of hydrothermal alteration. These understandings on dolostone porosity shed light on reservoir prediction. Dolostone reservoirs associated with evaporative tidal flat were laterally distributed as banded or quasi-stratified shapes in evaporite-bearing dolostones, and vertically presented as multi-interval patterns on tops of shallowing-upward cycles. Dolostone reservoirs associated with evaporative platform commonly occurred along epiplatforms or beneath evaporite beds, and vertically presented as multi-interval patterns in dolostones and/or evaporite-bearing dolostones of reef/shoal facies. Constrained by primary sedimentary facies, burial dolostone reservoirs were distributed in dolomitized, porous sediments of reef/shoal facies, and occurred vertically as multi-interval patterns in crystalline dolostones on tops of shallowing-upward cycles. Hydrothermal dolomitization was obviously controlled by conduits (e.g., faults, unconformities), along which lenticular reservoirs could develop.
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References
Adams J E, Rhodes M L. 1961. Dolomitization by seepage refluxion. AAPG Bull, 44: 1921–1920
Amthor J E, Mountjoy E W, Machel H G. 1993. Subsurface dolomites in Upper Devonian Leduc Formation buildups, central part of Rimbey-Meadowbrook reef trend, Alberta, Canada. Bull Canad Petrol Geol, 41: 164–185
Badiozamani K. 1973. The Dorag dolomitization model-application to the Middle Ordovician of Wisconsin. J Sed Petrol, 43: 965–984
Bai G P. 2006. Distribution patterns of giant carbonate fields in the world (in Chinese). J Paleogeography, 8: 241–250
Beach D K. 1982. Depositional and diagenetic history of Pliocene-Pleistocene carbonates of northwestern Great Bahama Bank: Evolution of a carbonate platform. Doctoral Dissertation. Miami: University of Miami. 425
Bush P R. 1973. Some Aspects of the Diagenetic History of the Sabkha in Abu Dhabi, Persian Gulf. New York: Springer-Verlag. 395–407
Cai C F, Li K K, Li H T, et al. 2008. Evidence for cross formational hot brine flow from integrated Sr/Sr, REE and fluid inclusions of the Ordovician veins in Central Tarim. Appl Geochem, 23: 2226–2235
Fairbridge R W. 1957. Regional aspects of carbonate deposition, Tulsa, OK. SEPM Spec Publ, 5: 124–178
Fan M, Jiang X Q, Liu W X, et al. 2007. Dissolution of carbonate rocks in CO2 solution under the different temperatures (in Chinese). Acta Sedimentol Sin, 25: 825–830
Fang S X, Hou F H, Dong Z X. 2003. Non-stromatoltite ecologic system cyanobacteria dolostone in Dengying Formation of Upper Sinian (in Chinese). Acta Sediment Sin, 21: 96–105
Graham R D, Langhorne B, Smith Jr. 2006. Structurally controlled hydrothermal dolomite reservoir facies: An overview. AAPG Bull, 90: 1641–1690
Hardie L A. 1987. Dolomitization: A critical view of some current views. J Sed Petrol, 57: 166–183
He J, Fang S X, Hou F H, et al. 2009. Characteristics of karst reservoirs in the middle Ordovician Majiagou Formation of gas fields in the central Ordos Basin (in Chinese). Oil Gas Geol, 30: 350–356
Huang X P, Yang Y. 2003. Controlling factors and distribution of the lower Triassic oolitic shoal reservoirs in the northeastern Sichuan Basin, China (in Chinese). Mar Origin Petrol Geol, 8: 89–97
Lei B J, Qiang Z T, Wen Y C. 1994. Dolomitization of the upper Permian organic reefs in eastern Sichuan and its adjacent areas (in Chinese). Geol Rev, 40: 534–543
Lucia F J, Major R P. 1994. Porosity evolution through hypersaline reflux dolomitization. IAS Spec Publ, 21: 325–341
Lucia F J. 1999. Carbonate Reservoir Characterization. Berlin-Heidelberg: Springer-Verlag. 226
Marco A, Pauline N M. 2000. A natural analog for a fractured and faulted reservoir in dolostone: Triassic Sella Group, Northern Italy. AAPG, 84: 314–344
Mattes B W, Mountjoy E W. 1980. Burial dolomitization of the Upper Devonian Miette buildup, Jasper National Park, Alberta. SEPM Spec Publ, 28: 259–297
Mckenzie J A, Hsu K J, Schneider J E. 1980. Movement of subsurface waters under the sabkha, Abu Dhabi, UAE, and its relation to evaporative dolostone genesis. SEPM Spec Publ, 28: 11–30
Montanez I P. 1994. Late diagenetic dolomitization of Lower Ordovician, Upper Knox Carbonates: A record of the hydrodynamic evolution of the southern Appalachian Basin. AAPG Bull, 78: 1210–1239
Moore C H. 1989. Carbonate Diagenesis and Porosity. New York: Elsevier. 338
Moore C H, Heydari E. 1993. Burial diagenesis and hydrocarbon migration in platform limestones: A conceptual model based on the Upper Jurassic of Gulf Coast of USA. AAPG Bull, 77: 213–229
Moore C H. 2001. Carbonate reservoirs: Porosity Evolution and Diagenesis in a Sequence Stratigraphic Framework. Amsterdam: Elsevier. 293–298
Purser B H, Brown A, Aissaoui. 1994. Nature, origins and evolution of porosity in dolomites. IAS Spec Publ, 21: 283–308
Qiao L, Shen Z G, Fang S X, et al. 2007. The main controlled factors of heterogeneity of middle Ordovidan Majiagou 5l-4 reservoir in Jingbian buried Platform and its periphery area, Ordos Basin (in Chinese). Mar Origin Petrol Geol, 12: 12–20
Shen A J, Zhou J G, Xin Y G et al. 2008. Origin of Triassic Leikoupo dolostone reservoirs in Sichuan Basin (in Chinese). Mar Origin Petrol Geol, 13: 19–28
Shi Z J, Peng J, Wang Y. 2010. Reservoir features and controlling factors of Dengying Formation in Southeast Sichuan, China (in Chinese). J Chengdu Univ Tech (Sci Tech Ed), 37: 1–8
Vahrenkamp V C, Swart P K. 1994. Late Cenozoic dolomites of the Bahamas: Metastable analogues for the genesis of ancient platform dolomites. IAS Spec Publ, 21: 133–153
Wang Y G, Wen Y C, Liu Z J. 1996. Paleokarst and burial corrasion in porous evolution of carbonate rock reservoirs of Carboniferous in east Sichuan (in Chinese). Nat Gas Ind, 16: 18–23
Weyl P K. 1960. Porosity through dolomitization: Conservation-of-mass requirements. J Sed Petrol, 30: 85–90
Zhao W Z, Shen A J, Hu S Y, et al. 2011. Geological conditions and distributional features of large-scale carbonate reservoirs onshore China (in Chinese). Petrol Expl Dev, 39: 1–12
Zhao W Z, Shen A J, Hu S Y, et al. 2012. Types and distributional features of Cambrian-Ordovician dolostone reservoirs in Tarim Basin, Northwestern China (in Chinese). Acta Petrol Sin, 28: 758–768
Zheng J F, Shen A J, Mo N Y, et al. 2010. Genesis and feature identification of Cambrian-Lower Ordovician dolostone in Tarim Basin (in Chinese). Mar Origin Petrol Geol, 15: 6–14
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Zhao, W., Shen, A., Zheng, J. et al. The porosity origin of dolostone reservoirs in the Tarim, Sichuan and Ordos basins and its implication to reservoir prediction. Sci. China Earth Sci. 57, 2498–2511 (2014). https://doi.org/10.1007/s11430-014-4920-6
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DOI: https://doi.org/10.1007/s11430-014-4920-6