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Diagenesis: information from petrology (view source)
Revision as of 19:26, 10 March 2014
, 19:26, 10 March 2014→Using petrological information
| Primary [[porosity]] preservation
| Primary [[porosity]] preservation
| Indicates facies patterns may control hydrocarbon distribution
| Indicates facies patterns may control hydrocarbon distribution
| Map depositional fades
| Map depositional facies
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| Dissolution porosity present
| Dissolution porosity present
| Diagenesis may be critical for trap location; mineralogy and/or facies may control location of dissolution porosity
| Diagenesis may be critical for trap location; mineralogy and/or facies may control location of dissolution porosity
| Use [[sequence stratigraphy]], hydrologic, or thermal maturity models (refer to <ref name=ch21r41>Tobin, R., C., 1991a, Diagenesis, [[thermal maturation]] and burial history of the Upper Cambrian Bonneterre Dolomite, southeastern Missouri: an interpretation of thermal history from petrographic and fluid inclusion evidence: Organic Geochemistry, vol. 17, no. 2, p 142–152.</ref> , <ref name=ch21r42>Tobin, R., C., 1991b, Pore system evolution vs. paleotemperature in carbonate rocks: a predictable relationship?: Organic Geochemistry, vol. 17, no. 2, p. 271., 10., 1016/0146-6380(91)90087-Z</ref> ; <ref name=ch21r38>Read, J., F., Kerans, C., Sarg, J., F., Wright, F., M., 1995, Milankovitch Sea-Level Changes, Cycles, and Reservoirs on Carbonate Platforms in Greenhouse and Ice-House Worlds: SEPM Short Course 35, 79 p.</ref> ; <ref name=ch21r52>Wilson, M., D., ed., 1994, [[Reservoir quality]] Assessment and Prediction in Clastic Rocks: SEPM (Society of Sedimentary Geology) Short Course 30, 432 p.</ref> )
| Use [[sequence stratigraphy]], hydrologic, or thermal maturity models.<ref name=ch21r41>Tobin, R., C., 1991a, Diagenesis, thermal maturation and burial history of the Upper Cambrian Bonneterre Dolomite, southeastern Missouri: an interpretation of thermal history from petrographic and fluid inclusion evidence: Organic Geochemistry, vol. 17, no. 2, p 142–152.</ref><ref name=ch21r42>Tobin, R., C., 1991b, Pore system evolution vs. paleotemperature in carbonate rocks: a predictable relationship?: Organic Geochemistry, vol. 17, no. 2, p. 271., 10., 1016/0146-6380(91)90087-Z</ref><ref name=ch21r38>Read, J., F., Kerans, C., Sarg, J., F., Wright, F., M., 1995, Milankovitch Sea-Level Changes, Cycles, and Reservoirs on Carbonate Platforms in Greenhouse and Ice-House Worlds: SEPM Short Course 35, 79 p.</ref><ref name=ch21r52>Wilson, M., D., ed., 1994, [[Reservoir quality]] Assessment and Prediction in Clastic Rocks: SEPM (Society of Sedimentary Geology) Short Course 30, 432 p.</ref>
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| Postmigration burial cements present
| Postmigration burial cements present
| Indicates potential cementation of water leg
| Indicates potential cementation of water leg
| Map diagenetic fades
| Map diagenetic facies
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