GEOL 8200 Carbonate Petrology Bibliography Part III

Bibliographies for GEOL 8200 - Carbonate Petrology - Part III
L.B. Railsback, Department of Geology, University of Georgia
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General References on Carbonate Diagenesis

Banner, J.L., and Hanson, G.N., 1990, Calculation of simultaneous isotopic and trace element variations during water-rock interactions with application to carbonate diagenesis: Geochim. Cosmochim. Acta, v. 54, p. 3123-3137.

Bathurst, R.G.C., 1983, Neomorphic spar versus cement in some Jurassic grainstones: significance for evaluation of porosity evolution and compaction: Jour. Geol. Soc., v. 140, p. 229-237.

Bricker, O.P., ed., 1971, Carbonate Cements: Johns Hopkins Univ. Studies in Geology No. 19, 376 p.

Budd, D.A., 2002, The relative roles of compaction and early cementation in the destruction of permeability in carbonate grainstones: A case study from the Paleogene of west-central Florida: journal of Sedimentary Research, v. 72, p. 116-128.

Budd, D.A., and Hiatt, E.E., 1993, Mineralogical stabilization of high-magnesium calcite: geochemical evidence for intracrystal recrystallization within Holocene porcel- laneous foraminifera: Journal of Sedimentary Petrology, v. 63, p. 261-274.

Budd, D.A., 2001, Permeability loss with depth in the cenozoic carbonate platform of west-central Florida: AAPG Bulletin, v. 85, p. 1253-1272.

Camoin, G.F., ed., 1999, Microbial mediation in carbonate diagenesis: Sedimentary Geology, v. 126, Nos. 1-4.

Choquette, P.W., and Pray, L.C., 1970, Geologic nomenclature and classification of porosity in sedimentary carbonates: Bull. Amer. Assoc. Petrol. Geol., v. 54, p. 207-250.

Cussey, R., and Friedman, G.M., 1977, Patterns of porosity and cement in ooid reservoirs in Dogger (Middle Jurassic) of France: Amer. Assoc. Petrol. Geol., v. 61, p. 511-518.

Folk, R.L., 1965, Some aspects of recrystallization in ancient limestones, in Pray, L.C., and Murray, R.C., eds., Dolomitization and limestone diagenesis: Soc. Econ. Pal. Mineral. Spec. Pub. 13, p. 14-48.

Friedman, G.M., 1975, The making and unmaking of limestones or the ups and downs of porosity: Jour. Sed. Petrol., v. 45, p. 379-398.

Heydari, E., 1997, The role of burial diagenesis in hydrocarbon destruction and H2S accumulation, Upper Jurassic Smackover Formation, Black Creek Field, Mississippi: AAPG Bulletin, v. 81, p. 26-45.

Lohmann, K.C., 1988, Geochemical patterns of meteoric diagenetic systems and their application to studies of paleokarst, in James, N.P., and Choquette, P.W., eds., Paleokarst: New York, Springer-Verlag, p. 58-80.

Longman, M.W., 1980, Carbonate diagenetic textures from nearsurface diagenetic environments: Am. Assoc. Petrol. Geol. Bull., v. 64, p. 461-487.

McIlreath, I., and Morrow, D., eds., Diagenesis: Geol. Soc. Canada, Geoscience Canada Reprint Series 4.

Machel, H.G., Cavell, P.A., and Patey, K.S., 1996, Isotopic evidence for carbonate cementation and recrystallization, and for tectonic expulsion of fluids into the Western Canada Sedimentary Basin: Geological Society of America Bulletin, v. 108, p. 1108-1119.

Marshall, J.D., ed., 1987, Diagenesis of sedimentary sequences: Geological Society Sp. Pub. 36: Blackwell Sci. Pub., 360 p.

Melim, L.A., Swart, P.K., and Maliva, R.G., 1995, Meteoric-like fabrics forming in marine waters: implications for the use of petrography to identify diagenetic environments: Geology, v. 23, p. 755-758.

Monta–ez, I.P., Gregg, J.M., and Shelton, K.L., eds., 1997, Basin-Wide Diagenetic Patterns: Integrated Petrologic, Geochemical, and Hydrologic Considerations: SEPM Special Publicaton 57, 302 p.

Moore, C.H., 1989, Carbonate Diagenesis and Porosity; Developments in Sedimentology 46; Amsterdam, Elsevier Science Pub., 338 p.

Morse, J.W., and Mackenzie, F.T., 1990, Geochemistry of Sedimentary Carbonates (Dev. in Sed. 48): New York, Elsevier, 696 p.

Mumpton, F.A., ed., 1986, Studies in Diagenesis: U.S. Geol. Survey Bull 1578 (Washington, U.S. Gov. Printing Office), 368 p.

Pedone, V.A., Dickson, J.A.D., and Meyers, W.J., 1994, Intracrystalline alteration of low-magnesian calcite cement in the Devonian Pillara Formation, Canning Basin, Western Australia: Journal of Sedimentary Research, v. A64, p. 160-173.

Pedone, V.A., and Folk, R.L., 1996, Formation of aragonite cement by nannobacteria in the Great Salt Lake, Utah: Geology, v. 24, p. 763-765.

Roehl, P.O., and Choquette, P.W., 1985, Carbonate Petroleum Reservoirs: New York, Springer-Verlag, 624 p.

Schneidermann, N., and Harris, P., eds.,1985, Carbonate Cements: Soc. Econ. Paleo. and Mineral. Spec. Pub. 36, 379 p.

Schroeder, H.J., and Purser, B.H., 1986, Reef Diagenesis: New York, Springer-Verlag, 455 p.

Sorby, H.C., 1879, Structure and origin of limestone: Annniversary address of the President: Geol. Soc. London. Quart. Jour., v. 35, p. 56-95.

Strasser, A., and Strohmenger, C., 1997, Early diagenesis in Pleistocene coral reefs, southern Sinai, Egypt: response to tectonics, sea-level, and climate: Sedimentology, v. 44, p. 537-558.

Recent and/or Important References on Marine Diagenesis

Bathurst, R.G.C., 1959, The cavernous structure of some Mississippian stromatactis reefs in Lancashire, England: Jour. Sed. Petrol., v, 29, p. 365-376.

Beach, D.K., 1993, Submarine cementation of subsurface Pliocene carbonates from the interior of the Great Bahama Bank: Journal of Sedimentary Petrology, v. 63, p. 1059-1069.

Bourgue, P.K., and Boulvain, F., 1993, A model for the origin and petrogenesis of the red stromatactis limestones of Paleozoic carbonate mounds: Journal of Sedimentary Petrology, v. 63, p. 607-619.

Burton, E.A., 1993, Controls on marine carbonate cement mineralogy: review and reassessment: Chem Geol., v. 105, p. 163-179.

Carpenter, S.J., and Lohmann, K.C, 1997, Carbon isotope ratios of Phanerozoic marine cements: Reevaulating the global carbon and sulfur systems: Geochimica et Cosmochimica Acta, v. 61, p. 4831-4846.

Davies, G., 1977, Former magnesian calcite and aragonite submarine cements in Upper Paleozoic reefs of the Canadian Arctic: a summary: Geology, v. 5, p. 11-15.

Frank, T.D., Wilkinson, B.H., and Lohmann, K.C, 1993, Origin of submarine pisoliths and the sedimentology of midwestern Silurian reefs: Journal of Sedimentary Petrology, v. 63, p. 1070-1077.

Freeman-Lynde, R.P., Whitley, K.F., and Lohmann, K.C., 1986, Deep-marine origin of equant spar cements in Bahama escarpment limestones: Jour. Sed. Petrol., v. 56, p, 799-811.

Given, R.K., and Lohmann, K.C., 1985, Derivation of the original isotopic composition of Permian marine cements: Jour. Sed. Petrol., v. 55, p. 430-439.

Grammer, G.M., Ginsburg, R.N., Swart, P.K., McNeill, D.F., Jull, A.J.T., and Prezbindowski, D.R., 1993, Rapid growth rates of syndepositional marine aragonite cements in steep marginal slope deposites, Bahamas and Belize: Journal of Sedimentary Petrology, v. 63, p. 983-989.

Hendry, J.P., 1993, Calcite cementation during bacterial manganese, iron, and sulfate reduction in Jurassic shallow marine carbonates: Sedimentology, v. 40, p. 87- 106.

Hendry, J.P., Trewin, N.H., and Fallick, A.E., 1996, Low-Mg calcite marine cement in Cretaceous turbidites: origin, spatial distribution and relationship to seawater chemistry: Sedimentology, v. 43, p. 877-900.

MacIntyre, I.G., 1985, Submarine cements - The peloidal question, in N. Schneidermann and P.M. Harris, eds., Carbonate Cements: Soc. Econ. Paleont. Mineral. Sp. Pub. 36, p. 109-116.

Malone, M.J., Slowley, N.C., and Henderson, G.M., 2001, Early diagenesis of shallow- water periplatform carbonate sediments, leeward margin, Great Bahama Bank (Ocean Drilling Program leg 166): Geological Society of America Bulletin, v. 113, p. 881-894.

Marshall, J.D., and Ashton, 1980, Isotopic and trace element evidence for submarine lithification of hardgrounds in the Jurassic of eastern England: Sedimentology, v. 27, p. 271-289.

Morse, J.W., Wang, Q., and Tsio, M.Y., 1997, Influences of temperature and Mg:Ca ratio on CaCO3 precipitates from seawater: Geology, v. 25, p. 85-87.

Munnecke, A., Westphal, H., Reijmer, J.J.G., and Samtleben, C., 1997, Microspar development during early marine burial diagenesis: a comparison of Pliocene carbonates from the Bahamas with Silurian limestones from Gotland (Sweden): Sedimentology, v. 44, p. 977-990.

Mutti, M. and Bernoulli, D., 2003, Origin of submarine hardgrounds and early lithification on a Miocene temperate carbonate shelf (Maiella , Italy): key surfaces to track changes in trophic resources in non-tropical carbonate settings: Journal of Sedimentary Research, v. 73, p. 296-308.

Nicolaides,S., and Wallace, M.W., 1997, Submarine cementation and subaerial exposure in Oligo-Miocene temperate carbonates, Torquay Basin, Australia: Journal of Sedimentary Research, v. 67, p. 397-410.

Pierson, B.J., and Shinn, E.A., 1985, Cement distribution and carbonate mineral stabilization in Pleistocene limestones of Hogsty Reef, Bahamas, in N. Schneidermann and P.M. Harris, eds., Carbonate Cements: Soc. Econ. Paleont. Mineral. Sp. Pub. 36, p. 153-168.

Purser, B.H., 1969, Syn-sedimentary marine lithification of Middle Jurassic limestones in the Paris Basin: Sedimentology, v. 12, p. 205-230.

Purser, B.H., 1978, Early diagenesis and preservation of porosity in Jurassic limestones: Jour. Petroleum. Geol., v. 1, p. 83-94.

Reid, R.P., and Macintyre, I.G., 2000, Microboring versus recrystallization: further insight into the recrystallization process: Journal of Sedimentary Research, v. 70, p. 24-28.

Reid, R.P., Macintyre, I.G., and James, N.P., 1990, Internal precipitation of microcrystalline carbonate: a fundmental problem for sedimentologists: Sedimentary Geology, v. 68, p. 163-170.

Schlager, W., and James, N.P., 1978, Low-magnesian calcite limestones forming at the deep-sea floor, Tongue of the Ocean, Bahamas: Sedimentology, v. 25, p. 675- 702.

Schroeder, H.J., and Purser, B.H., 1986, Reef Diagenesis: New York, Springer-Verlag, 455 p.

Shinn, E.A., 1969, Submarine lithification of Holocene carbonate Sediments in the Persian Gulf: Sedimentology, v. 12, p. 109-144.

Tribble, G.W., 1993, Organic matter oxidation and aragonite diagesis in a coral reef: Journal of Sedimentary Petrology, v. 63, p. 523-527.

Walker, K.R., Jernigan, D.G., and Weber, L.J., 1990, Petrographic criteria for the recognition of marine, syntaxial overgrowths, and their distribution in geologic time: Carbonates and Evaporites, v. 5, p. 141-151.

Wallace, M.W., 1987, The role of internal erosion and sedimentation in in the formation of stromatactis mudstones and associated lithologies: Jour. Sed. Petrol., v. 57, p. 695-700.

Wicks, C.M., Herman, J.S., Randazzo, A.F., and Jee, J.L., 1995, Water-rock interactions in a modern coastal mixing zone: Geological Society of America Bulletin, v. 107, p. 1023-1032.

Wilkinson, B.H., Janecke, S.U., and Brett, C.E., 1982, Low-magnesian calcite marine cement in Middle Ordovician hardgrounds from Kirkfield, Ontario: Jour. Sed. Petrol., v. 52, p. 47-57.

Wilson, P.A., and Dickson, J.A.D., 1996, Radiaxial calcite: Alteration product of and petrographic proxy for magnesian calcite marine cement: Geology, v. 24, p. 945-948.

Woods, A.D., Bottjer, D.J., Mutti, M., and Morrison, J., 1999, Lower Triassic sea-floor carbonate cements: Their origin and a mechanism for the prolonged biotic recovery from the end-Permian mass extinction: Geology, v. 27, p. 645-648.

Meteoric Diagenesis of Carbonate Rocks

Algeo, T.J., Wilkinson, B.H., and Lohmann, K.C, 1992, Meteoric-burial diagenesis of Middle Pennsylvanian limestones in the Orogrande Basin, New Mexico: water/rock interactions and basin geothermics: Journal of Sedimentary Petrology, v. 62, p. 652-670.

Allen, J.R., and Matthews, R.K., 1977, Carbon and oxygen isotopes as diagenetic and stratigraphic tools: surface and subsurface data, Barbados, West Indies: Geology, v. 5, p. 16-20.

Back, W., and Hanshaw, B.B., 1970, Comparison of chemical hydrogeology of the carbonate peninsulas of Florida and Yucatan: Journal of Hydrology, v. 10, p. 330-368.

Barnaby, R.J., and Rimstidt, J.D., 1989, Redox conditions of calcite cementation interpreted from Mn and Fe contents of authigenic calcites: Geol. Soc. Amer. Bull., v. 101, p. 795-804.

Budd, D.A., 1988, Aragonite-to-calcite transformation during freshwater diagenesis of carbonates: Insights from porewater chemistry: Geol. Soc. Amer. Bull., v. 100, p. 1260-1270.

Budd, D.A., 1988, Petrographic products of freshwater diagenesis in Holocene ooid sands, Schooner Cays, Bahamas: Carbonates and Evaporites, v. 3, p. 143-163.

Budd, D.A., Hammes, U., and Vacher, H.L., 1993, Calcite cementation in the upper Floridian Aquifer: a modern example for confined-aquifer cementation models?: Geology, v. 21, p. 33-36.

Budd, D.A., and Land, L.S., 1990, Geochemical imprint of meteoric diagenesis in Holocene ooid sands, Schooner Cays, Bahamas: Correlation of calcite cement geochemistry with extant groundwaters: Jour. Sed. Petrol., v. 60, p. 361-378.

Chafetz, H.S., Wilkinson, B.H., and Love, K.M., 1985, Mineralogy and composition of non-marine carbonate cements in near-surface settings, in N. Schneidermann and P.M. Harris, eds., Carbonate Cements: Soc. Econ. Paleont. Mineral. Sp. Pub. 36, p. 337-347.

Chung, G.S., and Swart, P.K., 1990, The concentration of uranium in freshwater vadose and phreatic cements in a Holocene ooid cay: A method of identifying ancient water tables: Jour. Sed. Petrol., v. 60, p. 735-746.

Coniglio, M., and Williams-Jones, A.E., 1992, Diagenesis of Ordovician carbonates from the north-east Michigan Basin, Manitoulin Island area, Ontario: evidence from petrography, stable isotopes, and fluid inclusions: Sedimentology, v. 39, p. 813- 836.

Dix, G.R., Robinson, G.W., and McGregor, D.C., 1998, Paleokarst in the Lower Ordovician Beekmantown Group, Ottawa Embayment: Structural control inboard of the Appalachian orogen: Geological Society of America Bulletin, v. 110, p. 1046-1059.

Driese, S.G., Jacobs, J.R., and Nordt, L.C., 2003, Comparison of modern and ancient Vertisols developed on limestone in terms of their geochemistry and parent material: Sedimentary Geology, v. 157, p. 49-69.

Frank, T.D., and Lohmann, K.C, 1995, Early cementation during marine-meteoric fluid mixing: Mississippian Lake Valley Formation. New Mexico: Journal of Sedimentary Research, v. 65, p. 263-273.

Grover, G.A., Jr., and Read, J.F., 1983, Paleoaquifer and deep burial related cements defined by regional cathodoluminescent patterns, Middle Ordovician carbonates, Virginia: Amer. Assoc. Petrol. Geol. Bull., v. 67, p. 1275-1303.

Given, R.K., and Lohmann, K.C., 1986, Isotopic evidence of the early meteoric diagenesis of the reef facies, Permian reef complex, west Texas and New Mexico: Journal of Sedimentary Petrology, v. 56, p. 183-193.

Halley, R.B., and Harris, P.M., 1979, Freshwater cementation of a 1,000-year-old oolite: Journal of Sedimentary Petrology, v. 49, p. 969-988.

HillgŠrtner, H., Dupraz, C., and Hug, W., 2001, Microbially induced cementation of carbonate sands: are micritic cements good indicators of vadose diagenesis?: Sedimentology, v. 48, p. 117-131.

Holail, H., 1992, Coordinated petrography-isotopic-chemical investigation of meteoric calcite cement (Jurassic-Pleistocene), Egypt: Carbonates and Evaporites, v. 7, p. 48-55.

Horbury, H.B., and Adams, A.E., 1989, Meteoric phreatic diagenesis in cyclic late Dinantian carbonates, Northwest England: Sedimentary Geology, v. 65, p. 319- 344.

James, N.P. & Bone, Y., 1989, Petrogenesis of Cenozoic, temperate water calcarenites, South Australia: A model for meteoric/shallow burial diagenesis of shallow water calcite sediments: Jour. Sed. Petrol., v. 59, p. 191-203.

James, N.P., and Choquette, P.W., 1984, Limestones-the meteoric diagenetic environment, in McIlreath, I.A., and Morrow, D.W., Diagenesis: Geoscience Canada Reprint Series 4, p. 35-73.

Kaufman, J., Cander, H.S., Daniels, L.D., and Meyers, W.J., 1988, Calcite cement stratigraphy and cementation history of the Burlington-Keokuk Formation (Mississippian), Illinois and Missouri: Jour. Sed. Petrol., v. 58, p. 312-326.

Lavoie, D., and Bourque, P.A., 1993, Marine, burial, and meteoric diagenesis of Early Silurian carbonate ramps, Quebec Appalachians, Canada: Journal of Sedimentary Petrology, v. 63, p. 233-247.

Lohmann, K.C, 1982, "Inverted J" carbon and oxygen isotopic trends; a criterion for shallow meteoric phreatic diagenesis: Geological Society of America Abstracts with Programs, v. 14, p. 548.

Longman, M.W., 1980, Carbonate diagenetic textures from nearsurface diagenetic environments: Am. Assoc. Petrol. Geol. Bull., v. 64, p. 461-487.

Machemer, S.D., and Hutcheon, I.D., 1988, Geochemistry of early carbonate cements in the Cardium Formation, central Alberta: Journal of Sedimentary Petrology, v. 58, p. 136-147.

McClain, M.E., Swart, P.K., and Vacher, H.L., 1992, The hydrogeochemistry of early meteoric diagenesis in a Holocene deposit of biogenic carbonates: Journal of Sedimentary Petrology, v. 62, p. 1008-1022.

Meyers, W.J., 1974, Carbonate cement stratigraphy of the Lake Valley Formation (Miississippian), Sacramento Mountains, New Mexico: Jour. Sed. Petrol., v. 44, p. 837-861.

Meyers, W.J., and Lohmann, K.C., 1985, Isotope geochemistry of regionally extensive calcite cement zones and marine components in Mississippian limestones, New Mexico. In N. Schneidermann and P.M. Harris, Carbonate Cements: Soc. Econ. Pal. Min. Sp. Pub. 36, 223-239.

Moore, C.H., and Druckman, Y., 1981, Burial diagenesis and porosity evolution, Upper Jurassic Smackover, Arkansas and Louisiana: American Association of Petroleum Geologists Bulletin, v. 65, p. 597-628. (see also Wagner and Matthews for a conflicting view.)

Nelson, W.A., and Read, J.F., 1990, Updip to downdip cementation and dolomitization patterns in a Mississippian aquifer, Appalchians: Jour. Sed. Petrol., v. 60, p. 379-396.

Niemann, J.C., and Read, J.F., 1988, Regional cementation from unconformity charged aquifer and burial fluids, Mississippian Newman Limestone, Kentucky: Journal of Sedimentary Petrology, v. 58, p. 688-705.

Plummer, L.N., Vacher, H.L., Mackenzie, F.T., Bacher, O.P., and Land, L.S., 1976, Hydrogeochemistry of Bermuda: A case history of groundwater diagenesis of biocalcarenites: Geol. Soc. Amer. Bull., v. 87, p. 1301-1316.

Quinn, T.M., 1991, Meteoric diagenesis of Plio-Pleistocene limestones at Enewetok Atoll: Journal of Sedimentary Petrology, v. 61, p. 681-703.

Railsback, L. B., 1984, Carbonate diagenetic facies in the Upper Pennsylvanian Dennis Formation in Iowa, Missouri, and Kansas: Journal of Sedimentary Petrology, v. 54, p. 986-999.

Reeve, A.S., and Perry, E.C., 1994, Carbonate geochemistry and the concentrations of aqueous Mg+2, Sr+2, and Ca+2: Western north coast of the Yucatan, Mexico: Chemical Geology, v. 112, p. 105-117.

Saller, A.H., and Moore, C.H., Jr., 1991, Geochemistry of meteoric calcite cements in some Pleistocene limestones: Sedimentology, v. 38, p. 601-621.

Smith, D.I., Atkinson, T.C., and Drew, D.P., 1976, The hydrology of limestone terrains, in Ford, T.D., and Cullingford, C.H.D., eds., The Science of Speleology: London, Academic Press, p. 179-212.

Smith, T.M., and Dorobek, S.L., 1993, Stable isotopic composition of meteoric calcites: evidence for early Mississippian climatic change in the Mission canyon Formation, Montana: Tectonophysics, v. 222, p. 317-331.

Steinhauff, D.M., Jernigan, D.G., and Waler, K.R., 1989, Stratigraphic patterns of cementation in the Middle Ordovician Holston and Rockdell Fomrations, East Tennessee, in Walker, K.R., ed., The Fabric of Cements in Paleozoic Limestones: University of Tennessee Studies in Geology No. 20, p. 118-138.

Vacher, H.L., Bengston, T.O., and Plummer, L.N., 1990, Hydrology of meteoric diagenesis: Residence time of meteoric ground water in island fresh-water lenses with application to aragonite-calcite stabilization rate in Bermuda: Geol. Soc. Amer. Bull., v. 102, p. 223-232.

Videtich, P.E., and Matthews, R.K., 1980, Origin of discontinuity surfaces in limestones: Isotopic and petrographic data, Pleistocene of Barbados, West Indies: Journal of Sedimentary Petrology, v. 50, p. 971-980.

Vollbrecht, R., 1990, Marine and meteoric diagenesis of submarine Pleistocene carbonate from the Bermuda carbonate platform: Carbonates and Evaporites, v. 5, p. 13-95.

Wagner, P.D., and Matthews, R.K., 1982, Porosity preservation in Upper Smackover (Jurassic) carbonate grainstone, Walker Creek Field, Arkansas: response of paleophreatic lendses to burial process: Journal of Sedimentary Petrology, v. 52, p 3-18. (Discussion by Moore and Druckman and Reply by Wagner and Matthews, p. 19-25) (see also Moore and Druckman (above) for a different view.)

Whitaker, F., Smart, P., Hague, Y., Waltham, D., and Bosence, D., 1997, Coupled two- dimensional diagnetic and sedimentological modeling of carbonate platform evolution: Geology v. 25, p. 175-178.

References on Regional Perspectives on Carbonate Diagenesis, Cementation, and Cement Stratigraphy

Braithwaite, C.J.R., 1993, Cement sequence stratigraphy in carbonates: Journal of Sedimentary Petrology, v. 63, p. 295-303.

Dorobek, S.L., 1987, Petrography, geochemistry, and origin of burial diagenetic facies, Siluro-Devonian Helderberg Group (carbonate rocks), Central appalachians: AAPG Bull., v. 71, p. 492-514.

Goldstein, R.H., 1988, Cement stratigraphy of Pennsylvanian Holder Formation, Sacramento Mountains, New Mexico: Amer. Assoc. Petrol. Geol. Bull., v. 72, p. 425-438.

Heydari, E., and Moore, C.H., 1993, Zonation and geochemical patterns of burial calcite cements: Upper Smackover Formation, Clark County, Mississippi: Journal of Sedimentary Petrology, v. 63, p. 44-60.

Marshall, J.D., ed., 1987, Diagenesis of sedimentary sequences: Geological Society Sp. Pub. 36: Blackwell Sci. Pub., 360 p.

Meyers, W.J., 1974, Carbonate cement stratigraphy of the Lake Valley Formation (Miississippian), Sacramento Mountains, New Mexico: Jour. Sed. Petrol., v. 44, p. 837-861.

Meyers, W.J., 1980, Compaction in Mississippian skeletal limestones, southwestern New Mexico: Jour. Sed. Petrol., v. 50, p. 457-474.

Meyers, W.J., and Hill, B.E., 1983, Quantitative studies of compaction in Mississippian skeletal limestones, New Mexico: Jour. Sed. Petrol., v. 53, p. 231-242.

Monta–ez, I.P., Gregg, J.M., and Shelton, K.L., eds., 1997, Basin-Wide Diagenetic Patterns: Integrated Petrologic, Geochemical, and Hydrologic Considerations: SEPM Special Publicaton 57, 302 p.

Nelson, W.A., and Read, J.F., 1990, Updip to downdip cementation and dolomitization patterns in a Mississippian aquifer, Appalachians: Jour. Sed. Petrol., v. 60, p. 379-396.

Railsback, L. Bruce, 1984, Carbonate diagenetic facies in the Upper Pennsylvanian Dennis Formation in Iowa, Missouri, and Kansas: Journal of Sedimentary Petrology, v. 54, p. 986-999.

Reeve, A.S., and Perry, E.C., 1994, Carbonate geochemistry and the concentrations of aqueous Mg+2, Sr+2, and Ca+2: Western north coast of the Yucatan, Mexico: Chemical Geology, v. 112, p. 105-117.

Schedl, A., McCabe, C., Monta–ez, I.P., Fullagar, P.D., and Valley, J.W., 1992, Alleghenian regional diagenesis: a response to the migration of modified metamorphic fluids derived from beneath the Blue Ridge-Piedmont thrust sheet: Jour. Geol., v. 100, p. 339-352.

Searl, A., 1988, The limitations of "cement stratigraphy" as revealed in some Lower Carboniferous oolites from South Wales: Sedimentary Geology, v. 57, p. 171- 183.

Whitaker, F., Smart, P., Hague, Y., Waltham, D., and Bosence, D., 1997, Coupled two- dimensional diagnetic and sedimentological modeling of carbonate platform evolution: Geology v. 25, p. 175-178.

Compaction, Pressure Dissolution, and Stylolitization

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