Address:: 8545 Eagle Cliff Rd, Conifer CO 80433 USA Phone: (303)-679-3533 Fax: (303) 679-1219
 

Welcome to the Education Corner: Evaporite Bibliography
The Education Corner is dedicated to providing information used in the oil industry and useful for young geologists. Look for us to add more links in the future. Be sure to visit our Research and Khuff Forum pages for more educational information. Submit your e-mail to for inclusion on our mailing list and notifications when new material gets posted on our website.
Future Links: Deep Hypersaline Seas • Gypsum-Anhydrite Transformations: Blades • Rosettes • Subaqueous Selenite • Clastic Gypsum
  1. AHR, W.M., and BERG, R.R., 1982, Deepwater evaporites in the Bell Canyon Formation, Delaware Basin, West Texas, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites — A Core Workshop: SEPM Core Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 305-323.
  2. AIGNER, T., and BACHMANN, G.H., 1988, Dynamic sequence stratigraphy of an evaporite-to-red bed seuqence, Gipskeuper, SW German Basin: IAS Regional Meeting.
  3. ALI, M.A., 1995, Gotnia salt and its structural implications in Kuwait, in Al-Husseini, M.I., ed., Middle East and Petroleum Geosciences GEO'94, p. 133-142.
  4. ALI, Y.A., and WEST, I.M., 1983, Relationship of modern gypsum nodules in sabkhas of loses to compositions of brines and sediments in northern Egypt: Journal of Sedimentary Petrology, v. 53, p. 1151-1168.
  5. ALI, Y.A., WEST, I.M., and HILMY, M.E., 1981, Modern sabkha sediments and gypsum nodules from the Mediterranean coast of Egypt: Second Scientific Conference of Egyptian Postgraduates Abroad, p. 136-151.
  6. ALSHARHAN, A.S., and KENDALL, C.G.S.C., 2003, Holocene coastal carbonates and evaporites of the southern Arabian Gulf and their ancient analogues: Earth-Science Reviews, v. 61, p. 191-243.
  7. ALSHARHAN, A.S., and KENDALL, C.G.S.C., 1994, Depositional setting of the Upper Jurassic Hith Anhydrite of the Arabian Gulf: an analogue to Holocene evaporites of the United Arab Emirates and Lake McLeod of Western Australia: Bulletin of the American Association of Petroleum Geologists, v. 78, p. 1075-1096.
  8. ALSHARHAN, A.S., KENDALL, C.G.S.C., and WHITTLE, G., 1995, Holocene Carbonate/Evaporites of Abu Dhabi, United Arab Emirates: Abu Dhabi, United Arab Emirates University, 46 p.
  9. ALSHARHAN, A.S., and WHITTLE, L., 1995, Carbonate-evaporite sequences of the Late Jurassic, Southern and Southwestern Arabian Gulf: Bulletin of the American Association of Petroleum Geologists, v. 79, p. 1608-1630.
  10. AMDURER, M., and LAND, L.S., 1982, Geochemistry, hydrology and mineralogy of the Sand Bulge area, Laguna Madre Flats, south Texas: Journal of Sedimentary Petrology, v. 52, p. 703-716.
  11. AMIEL, A.J., and FRIEDMAN, G.M., 1971, Continental sabkha in Aeava Valley between Dead Sea and Red Sea: significance for origin of evaporites: American Association of Petroleum Geologists Bulletin, v. 55, p. 518-592.
  12. AMTHOR, J.E., GROZINGER, J.P., SEFAN, S., and SCHREIBER, B.C., 2002, Tectonically - Driven Evaporite-Carbonate Transitions in a Precambrian/Cambrian Saline Giant: Ara Salt Basin of South Oman: AAPG Annual Meeting, p. A6-A7.
  13. ANADON, P., ROSELL, L., and TABOT, M.R., 1992, Carbonate replacement of lacustrine gypsum deposits in two Neogene cntinental basins, eastern Spain: Journal of Sedimentary Petrology, v. 78, p. 201-216.
  14. ANDERSON, E.J., 1981, Deep-seated salt dissolution in the Delaware Basin, Texas and New Mexico, in Wells, S.G., Lamber, W., and Callender, J.F., eds., Environmental geology and hydrology in New Mexico: Special Publication 10, New Mexico Geological Society, p. 133-145.
  15. ANDERSON, R.Y., and KIRKLAND, D.W., 1966, Intrabasin varve correlation: Geological Society of America Bulletin, v. 77, p. 241-256.
  16. ANDERSON, R.Y.D., KIRKLAND, W.E., and SNEIDER, D.W., 1972, Permian Castile varved anhydrite sequence, west Texas and New Mexico.: Geological Society of America Bulletin, v. 83, p. 59-86.
  17. AREF, M.A.M., 2000, Holocene stromatolites and microbial laminites associated with lenticular gypsum in a marine-dominated environment, Ras El Shetan area, Gulf of Aqaba, Egypt: Sedimentology, v. 47, p. 279-308.
    ARTHURTON, R.S., 1980, Rhythmic sedimentary sequences in the Triassic Keuper Marl (Mercia Mudstone Group) of Cheshire, northwest England: Geological Journal, v. 15, p. 43-58.
  18. AZER, S.R., and PEEBLES, R.G., 1995, Sequence stratigraphy of the Hith / Upper Arab Formations offshore Abu Dhabi: U.A.E. Society of Petroleum Engineers Middle East Oil Show, Bahrain, p. 277-292.
  19. BABEL, M., 2004a, Badenian evaporite basin of the northern Carpathian Foredeep as a drawdown saline basin: Acta Geologica Polonica, v. 54, p. 313-337
  20. BABEL, M., 2004b, Models for evaporite, selenite and gypsum microbialite deposition in ancient saline basins: Acta Geologica Polonica, v. 54, p. 219-249.
  21. BABEL, M., 1987, Giant gypsum intergrowths from the Middle Miocene evaporites of southern Poland: Acta Geologica Polonica, v. 37, p. 1-20.
  22. BABEL, M., 1990, Critallography and genesis of the giant intergrowths of gypsum from the Miocene evaporites of Poland: Archiwum Mineralogizne, v. XLIV, p. 103-135.
  23. BAKER, R.C., 1977, Hydrology of karst features in evaporite deposits of the Upper Permian in Texas, in Dilamarter, R.R., and Csallany, S.C., eds., Hydrologic problems in karst regions, Western Kentucky: Bowling Green, Western Kentucky University, p. 333-339.
  24. BARTH, A.P., and DORAIS, M.J., 2000, Magmatic anhydrite in granitic rocks: First occurrence and potential petrologic consequences: American Mineralogist, v. 85, p. 430-435.
  25. BEALES, F.W., and OLDERSHAW, A.E., 1969, Evaporite solution brecciation and Devonian carbonate reservoir porosity in Western Canada: American Association of Petroleum Geologists Bulletin, v. 53, p. 503-512.
  26. BEBOUT, D.G., and MAIKLEM, W.R., 1973, Ancient anhydrite facies and environments, Middle Devonian Elk Point Basin, Alberta: Bulletin of Canadian Petroleum Geology, v. 21, p. 287-343.
  27. BENDAVID-NOVAK, H., 1998, Modern and Holocene debris flows along the western escarpment of the Dead Sea [unpublished M.Sc. thesis]: Hebrew University, 129 p.
  28. BIRNBAUM, S.J., and RADLICK, T.M., 1982, A textural analysis of trona and associated lithologies, Wilkins Peak member, Eocene Green River Formatin, Southwestern Wyoming, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites — A Core Workshop: re Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 75-99.
  29. BLOUNT, C.W., and DICKSON, F.W., 1973, Gypsum-anhydrite equilibria in systems CaSO4-NaCl-H2O: American Mineralogist, v. 58, p. 276-288.
  30. BORCHERT, H., and MUIR, R.O., 1964, Salt deposits: the origin, metamorphism and deformation of evaporites: London, Van Nostrand, 338 p.
  31. BRAITSCH, O., 1962, Entstehung und Stoffbestand der Salzlagerstatten, in Engelhardt, W.V., and Zemann, J., eds., Mineralogie und Petrographie in Einzeldarstellungen: Berlin, Gottingen, heidelberg, Springer Verlag, p. 232.
  32. BUSH, R.P., 1973, Some aspects of the diagenetic history of the sabkha in Abu Dhabi, Persian Gulf, in Purser, B.H., ed., The Persian Gulf: Berlin, Springer-Verlag, p. 395-407.
  33. BUSSON, G., and SCHREIBER, B.C., 1997, Sedimentary deposition in rift and foreland basins in France and Spain (Paleogene and lower Neogene): New York, Columbia University Press, 479 p.
  34. BUTLER, G.P., 1969, Modern evaporite deposition and geochemistry of co-existing brines, The Sabkha, Trucial Coast, Arabian Gulf: Journal of Sedimentary Petrology, v. 39, p. 70-89.
  35. BUTLER, G.P., 1970, Holocene gypsum and anhydrite of the Abu Dhabi Sabkha, Trucial Coast: an alternative explanation of origin: Third Symposium on Salt, p. 120-152.
  36. BUTLER, G.P., 1973, Strontium geochemistry of modern and ancient calcium sulphate minerals, in Purser, B.H., ed., The Persian Gulf: Berlin Heidelberg New York, Springer-Verlag, p. 423-452.
  37. BUTLER, G.P., HARRIS, P.M., and KENDALL, C.G.S.C., 1982a, Recent evaporites from Abu Dhabi coastal flats, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites — A Core Workshop: SEPM Core Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 33-64.
  38. BUTLER, G.P., HARRIS, P.M., and KENDALL, C.G.S.C., 1982b, Recent evaporites from Abu Dhabi coastal flats, in Handford, C.R., Robert, G.L., and Graham, R.D., eds., Depositional and Diagenetic Spectra of Evaporites: SEPM Core Workshop No. 3: Tulsa, Society of Economic Paleontologists and Mineralogists, p. 33-64.
  39. BUTLER, G.P., KROUSE, R.H., and MICHELL, R., 1973, Sulphur-isotope geochemistry of an arid, supratidal environment, Trucial Coast, in Purser, B.H., ed., The Persian Gulf: Berlin Heidelberg New York, Springer Verlag, p. 452-462.
  40. BUTLER, R.W.H., MCCLELLAND, E., and JONES, R.E., 1999, Calibrating the duration and timing of the Messinian salinity crisis in the Mediterranean: link tectonoclimatic signals in thrust-top basins of Sicily: Journal of the Geological Society, London, v. 156, p. 827-835.
  41. CALDWELL, R.A., 1976, Holocene gypsum deposits of the Bullara Sunkland, Canarvon basin, Western Australia [unpublished Ph.D. thesis]: University of Western Australia, Perth, 123 p.
  42. CASAS, S.E., LOWENSTEIN, T.K., SPENCER, R.J., and ZHANG, P., 1992, Carnallite mineralization in the nonmarine Quaidam Basin, China: Journal of Sedimentary Petrology, v. 62, p. 881-898.
  43. CHOWNS, T.M., and ELKINS, J.E., 1974, The origin of quartz geodes and cauliflower cherts through silicification of anhydrite nodules: Journal of Sedimentary Petrology, v. 44, p. 885-903.
  44. CODY, R.D., 1976, Growth and early artificial diagenetic changes in artificial gypsum crystals grown within bentonite muds and gels: Geological Society of America Bulletin, v. 87, p. 1163-1168.
  45. CODY, R.D., 1979, Lenticular gypsum: occurrences in nature, and experimental determinations of soluble green plant material on its formation: Journal of Sedimentary Petrology, v. 49, p. 1015-1028.
  46. CODY, W.R., and HULL, A.B., 1980, Experimental growth of primary anhydrite at low temperatures and water salinities: Geology, v. 8, p. 505-509.
  47. CONLEY, R.F., and BUNDY, W.M., 1958, Mechanisms of gypsification: Geochem. Cosmochem. Acta, v. 15, p. 57-72.
  48. COOK, R.U., and WARREN, A., 1973, Geomorphology in deserts: London, B.T. Batsford Ltd.
  49. CORSELLI, C., and AGHIB, F.S., 1986, Brine formation and gypsum precipitation in the Bacino Bannock (eastern Mediterranean): Marine Geology, v. 75, p. 185-189.
  50. CRAWFORD, G.A., and DUNHAM, J.B., 1982, Evaporite sedimentation in the Permian Yates Formation, Central basin Platform, Andrews County, West Texas, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites — A Core Workshop: SEPM Core Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 238-275.
  51. CURTIS, R., EVANS, G., KINSMAN, D.J.J., and SHEARMAN, D.J., 1963, Association of dolomite and anhydrite in the recent sediments of the Persian Gulf: Nature, v. 197, p. 679-680.
  52. D'ANS, J., 1947, Über die Bildung und Umbildung der Kalisalzlagerstätten: Naturwissenschaften, v. 34, p. 295-301
  53. DA SILVA, M.A.M., SCHREIBER, B.C., and DOS SANTOS, C.L., 2000, Evaporitos como recursos minerais: Brazilian Journal of Geophysics, v. 18, p. 337-350.
  54. DAVIS, J.B., and KIRKLAND, D.W., 1979, Bioepogenetic sulfur deposits: Economic Geology, v. 74, p. 462-468.
  55. DEAN, W.E., and ANDERSON, R.Y., 1974, Trace and minor element variations in the Permian Castile Formation, Delaware Basin, Texas and New Mexico, in Coogan, A.H., ed., Fourth Symposium on Salt: Cleavland, Northern Ohio Geological Society, p. 275-285.
  56. DEAN, W.E., and ANDERSON, R.Y., 1982, Continuous subaqueous deposition of the Permian Castile Evaporite, Delaware Basin, Texas and New Mexico, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites — A Core Workshop: SEPM Core Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 324-353.
  57. DEAN, W.E., DAVIES, G.R., and ANDERSON, R.Y., 1975, Sedimentological significance of nodular and laminated anhydrite: Geology, v. 3, p. 367-372.
  58. DEARDORFF, D.L., and MANNION, L.E., 1971, Wyoming trona deposits: Wyoming Contirbutions to Geology, v. 10, p. 25-37.
  59. DUTTON, S.P., KREITER, C.W., and BRACKEN, B.R., 1982, Formation and diagenesis of salt-dome cap rock, Texas Gulf Coast, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites - A Core Workshop: SEPM Core Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 100-113.
  60. DYNI, J.R., HITE, R.J., and RAUP, O.B., 1970, Lacustrine deposits of bromine-bearing halite, Green River Formation, north-western Colorado, in Rau, J.L., and Delwig, L.F., eds., Third Symposium on Salt, Northern Ohio Geological Society, p. 166-180.
  61. EDGELL, H.S., 1977, The Permian system as an oil & gas reservoir in Iran, Iraq Arabia.: Proc. Second Iranian Geological Symposium, p. 161-201.
  62. EDINGER, S.E., 1973, The growth of gypsum: Journal of Crystal Growth, v. 18, p. 217-224.
  63. ELIUK, L.S., 1984, A hypothesis for the origin of hydrogen sulfide in Devonian Crossfield member dolomite, Wabamum Formation, Alberta Canada, Carbonates in subsurface and outcrop, Canadian Society of Petroleum Geologists, p. 245-289.
  64. EUGSTER, H.P., 1980, Lake Magadi, Kenya and its precursors, in Nissenbaum, A., ed., Hypersaline Brines and Evaporitic Environments: Amsterdam, Elsevier, p. 195-232.
  65. EUGSTER, H.P., and HARDIE, L.A., 1975, Sedimentation in an ancient playa-lake complex. The Wilkins Peak Member of the Green River Formation of Wyoming: Geological Society of America Bulletin, v. 85, p. 319-334.
  66. EUGSTER, H.P., and HARDIE, L.A., 1978, Saline Lakes, in Lerman, A., ed., Chemistry. Geology and Physics of Lakes: New York, Springer-Verlag, p. 237-293.
  67. EVANS, G., SCHMIDT, V., BUSH, R.P., and NELSON, H., 1969, Stratigraphy and geological history of the sabkha, Abu Dhabi, Persian Gulf: Sedimentology, v. 12, p. 145-159.
  68. EVANS, G., and SHEARMAN, D.J., 1964, Recent celestite from the sediments of the Trucial coast of the Persian Gulf: Nature, v. 202, p. 385-386.
  69. FOLK, R.L., and PITTMAN, J.S., 1971, Length-slow chalcedony: a new testament for vanished evaporites: Journal of Sedimentary Petrology, v. 41, p. 1045-1058.
  70. FRIEDMAN, G.M., 1972, Significance of Red Sea in problem of evaporites and basinal limestones: American Association of Petroleum Geologists Bulletin, v. 56, p. 1072-1086.
  71. FRUMKIN, A., KADAN, G., ENZEL, Y., and EYAL, Y., 2001, Radiocarbon chronology of the Holocene Dead Sea: attempting a regional correlation: Proceedings of the 17th International 14C Conference, p. 1179-1189.
  72. FULLER, J.G.C.M., and PORTER, J.W., 1969, Evaporites and carbonates; two Devonian basins of Western Canada: Bulletin of Canadian Petroleum Geology, v. 17, p. 182-193.
  73. GAVISH, E., 1974, Geochemistry and mineralogy of a recent sabkha along the coast of Sinai, Gluf of Suez: Sedimentology, v. 21, p. 397-414.
  74. GENDZWILL, D.J., 1978, Winnipegosis mounds and Prairie Evaporite Formation of Saskatchewan - seismic study: American Association of Petroleum Geologists Bulletin, v. 62, p. 73-86.
  75. GILL, D., 1977, Salina A-1 sabkha cycles and the late Silurian paleogeography of the Michigan Basin: Journal of Sedimentary Petrology, v. 47, p. 979-1017.
  76. GOODALL, T.M., NORTH, C.P., and GLENNIE, K.W., 2000, Surface and subsurface sedimentary structures produced by salt crusts: Sedimentology, v. 47, p. 99-118.
  77. GROOT, D.K., 1965, Gypsum/anhydrite equilibrium relationships, KSEPL.
  78. GUNATILAKA, A., SALEH, A., AL-TEMEEMI, A., and NASSAR, N., 1984, Occurence of subtidal dolomite in a hypersaline lagoon, Kuwait: Nature, v. 311, p. 450-452.
  79. GUSTAVSON, T.C., HOVORAK, S.D., and DUTTON, A.R., 1993, Origin of Satin Spar Veins in Evaporite Basins: Journal of Sedimentary Research, v. A64, p. 88-94.
  80. HANDFORD, C.R., 1982, Sedimentology and evaporite genesis in a Holocene continetal - sabkha playa basin - Bristol Dry Lake, California: Sedimentology, v. 29, p. 239-253.
  81. HARDIE, L.A., 1967, The gypsum-anhydrite equilibrium at one atmosphere pressure: American Mineralogist, v. 52, p. 171-200.
  82. HARDIE, L.A., and EUGSTER, H.P., 1966, The gypsum-anhydrite equilibrium at one atmosphere pressure: Proceedings of Second Salt Symposium, p. 166.
  83. HARDIE, L.A., and EUGSTER, H.P., 1970, The evolution of closed-basin brines.: Mineralogical Society of America, p. 273-253.
  84. HARDIE, L.A., and LOWENSTEIN, T.K., 2004, Did the Mediterranean sea dry out during the Miocene? A reassessment of the evaporite evidence from DSDP Legs 13 and 42A Cores: Journal of Sedimentary Research, v. 74, p. 453-461.
  85. HARDIE, L.A., SMOOT, J.P., and EUGSTER, H.P., 1978, Saline lakes and their deposits: A sedimentologic approach, in Matter, A., and Tucker, M.E., eds., Modern and Ancient Lake Sediments: IAS Special Publication, International Association Sedimentologists, p. 7-41.
  86. HEIM, C., LEROY, S., and NEGENDANK, J.F.W., 1997, Near East desertification—evidence from the Dead Sea.: Naturewisenschaften, v. 84, p. 398-401.
  87. HOLLIDAY, D.W., 1968, Early diagenesis in Middle Carboniferous nodular anhydrite of Spitsbergen: Proceedings of Yorks. Geological Society, v. 36, p. 277-292.
  88. HOLLIDAY, D.W., 1970, The petrology of secondary gypsum rocks: a review: Journal of Sedimentary Petrology, v. 40, p. 734-744.
  89. HOLLIDAY, D.W., 1973, Early diagenesis in nodular anhydrite: Institute Mineral Metall. Transactions Sect. B, v. 82, p. B81-B84.
  90. HOLSTER, W.T., 1966, Diagenetic polyhalite in Recent salt from Baja California: American Mineralogist, v. 51, p. 99-109.
  91. HOVORKA, S.D., 1992, Halite pseudomorphs after gypsum in bedded anhydrite—clue to gypsum-anhydrite relationships: Journal of Sedimentary Petrology, v. 62, p. 1098-1111.
  92. HSU, K.J., 1972, Origin of saline giants: a critical review after the discovery of the Mediterranean evaporite: Earth Sceince Review, v. 8, p. 371-396.
  93. JONES, B.F., 1965, The hydrology and mineralogy of Deep Springs Lake, Inyo County, California: United States Geological Survey, p. 56p.
  94. KASPRZYK, A., 2005, Modele genetyczne badeñskich anhydrytów w zapadlisku przedkarpackim na obszarze Polski: Przeglad Geologiczny, v. 53, p. 47-54.
  95. KASPRZYK, A., and ORTI, F., 1998, Palaeogeographic and burial controls on anhydrite genesis: the Badenian basin in the Carpathian Foredeep (southern Poland, western Ukraine): Sedimentology, v. 45, p. 889-907.
  96. KENDALL, A.C., 1982, Evaporites, in Walker, R.G., ed., Facies Models: Geoscience Reprint Series 1: Newfoundland, Canada, Geological Association of Canada, p. 259-296.
  97. KENDALL, C.G.G.S.C., ALSHARHAN, A.S., and WHITTLE, G., 1995, Field Guidebook to Examine the Holocene Carbonates/Evaporites of Abu Dhabi, United Arab Emirates: for the International Geological Correlation Program (IGPCP-349): Abu Dhabi, U.A.E. University Publication Department, 46 p.
  98. KENDALL, C.G.S.C., LAKE, P., WEATHERS III, H.D., LAKSHMI, V., ALTHAUSEN, J., and ALSHARHAN, A.S., 2002, Evidence of rain shadow in the geologic record: repeated evaporite accumulation at extensional and compressional plate margins: INTERNATIONAL CONFERENCE ON DESERTIFICATION, p. preprint.
  99. KENDALL, C.G.S.C., and SKIPWITH, P.A., 1969, Holocene shallow water carbonate and evaporite sediments of Khor Al Bazam, Abu Dhabi, Southwest Persian Gulf: American Association of Petroleum Geologists Bulletin, v. 53, p. 841-869.
  100. KENDALL, C.G.S.C., and WARREN, J.K., 1988, Peritidal Evaporites and Their Sedimentary Assemblages, in Schreiber, B.C., ed., Evaporites and Hydrocarbons, Columbia University Press, p. 66-138.
  101. KENIG, F., HUC, A.Y., PURSER, B.H., and OUDIN, J.-L., 1989, Sedimentation, distribution and diagenesis of organic matter in a Recent carbonate environment, Abu Dhabi, U.A.E.: Advances in Organic Geochemistry, Organic Chemistry, v. 16, p. 735-745.
  102. KENT, D.M., 2003, Some thoughts on the formation of calcium sulphate deposits in Paleozoic rocks of Southern Saskatchewan, in 2003, S.O.I., ed., Saskatchewan Industry Resources: Misc. Report 2003-4.1: Saskatchewan, Saskatchewan Geological Survey, p. 12p.
  103. KERR, S.D., and THOMSON, A., 1963, Origin of nodular and bedded anhydrite in Permian Shelf sediments, Texas and New Mexico: American Association of Petroleum Geologists Bulletin, v. 47, p. 1726-1732.
  104. KING, R.H., 1947, Sedimentation in Permian Castile sea: Bulletin of the American Association of Petroleum Geologists, v. 31, p. 470-477.
  105. KINSMAN, D.J.J., 1966, Gypsum and anhydrite of Recent age, Trucial Coast, Persian Gulf: Proceedings of Second Salt Symposium, p. 302-326.
  106. KINSMAN, D.J.J., 1967, Experimental studies and Recent occurrence of gypsum, bassanite and anhydrite: 7th International Sedimentological Congress.
  107. KINSMAN, D.J.J., 1969, Modes of formation, sedimentary associations and diagnostic features of shallow-water and supratidal evaporites: Bulletin of the American Association of Petroleum Geologists, v. 53, p. 830-840.
  108. KINSMAN, D.J.J., 1974, Calcium sulfate minerals of evaporite deposits: Their primary mineralogy: Fourth Symposium on Salt, p. 343-348.
  109. KINSMAN, D.J.J., 1976, Evaporites: relative humidity control of primary mineral facies: Journal of Sedimentary Petrology, v. 46, p. 273-279.
  110. KIRKHAM, A., 1997, Shoreline evolution, aeolian deflation and anhydrite distribution of the Holocene, Abu Dhabi: GeoArabia, v. 2, p. 403-416.
  111. KIRKLAND, D.W., 2003, An explanation for the varves of the Castile evaporites (Upper Permian), Texas and New Mexico, USA: Sedimentology, v. 50, p. 899-920.
  112. KUSHNIR, J., 1981, Formation and early diagenesis or varved evaporite sediments in a coastal hypersaline pool: Journal of Sedimentary Petrology, v. 51, p. 1193-1203.
  113. LAKE, D.R., and HOLLIDAY, D.W., 1978, Broadoak Borehole Sussex, Report 78/3, Intitute of Geological Sciences, p. 38.
  114. LANGBEIN, R., 1987, The Zechstein sulphates: state of the art, in Peryt, T.M., ed., The Zechstein Facies: Lecture Notes in Earth Sciences: Berlin Heidelberg New York London Paris Tokyo, Springer-Verlag, p. 143-188.
  115. LAPOINTE, P.A., 1991, Sabkha vs. salt basin model for the Arab Formation understanding in the Umm Shaif Field, U.A.E.: Society of Petroleum Engineers Middle East Oil Show, p. 523-533.
  116. LEEDER, M.R., and ZEIDAN, R., 1977, Giant Late Jurassic sabkhas of Arabian Tethys: Nature, v. 268, p. 42-44.
  117. LEVY, Y., 1977, The origin and evolution of brine in coastal sabkhas, North Sinai: Journal of Sedimentary Petrology, v. 46, p. 451-462.
  118. LOGAN, B.W., 1981, Modern carbonate and evaporite sediments of Shark bay and Lake MacLeod, Western Australia: Geological Society of Australia Field Excusrsion Guidebook, 5th Australian Convention, p. 64.
  119. LOGAN, B.W., 1987, The MacLeod Evaporite Basin Western Australia: AAPG Memoir 44: Tulsa, OK, American Association of Petroleum Geologists, 140 p.
  120. LOGAN, B.W., and BROWN, R.C., 1986, Field Seminar Handbook: Sediments of Shark Bay and MacLeod Basin Western Australia: Perth, Geology Department University of Western Australia.
  121. LOUCKS, R.G., and LONGMAN, M.W., 1982, Lower Cretaceous Ferry lake Anhydrite, Fairway Field, East Texas: Product of shallow-subtidal deposition, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites — A Core Workshop: SEPM Core Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 130-173.
  122. LOWENSTEIN, T.K., 1988, Origin of depositional cycles in a Permian 'saline giant': the Salado (McNutt zone) evaporites of New Mexico and Texas: Geological Society of America Bulletin, v. 100, p. 592-608.
  123. LOWENSTEIN, T.K., and HARDIE, L.A., 1985, Criteria for recognition of salt-pan evaporites: Sedimentology, v. 32, p. 627-644.
  124. LUCIA, F.J., 1968, Recent sediments and diageneisis of South Bonaire, Netherlands Antilles: Journal of Sedimentary Petrology, v. 38, p. 845-858.
  125. LUCIA, F.J., 1971, Recognition of evaporite carbonate shoreline sedimentation, in Rigby, J.K., and Hamblin, W.K., eds., Recognition of ancient sedimentary environments: Special Publication: Tulsa, Society of Economic Paleontologists and Mineralogists, p. 160-191.
  126. LUCIA, F.J., JONES, R.H., and JENNINGS, J., JAMES W., 2004, Poikilotopic anhydrite enhances reservoir quality: American Association of Petroleum Geologists Annual Meeting.
  127. MACDONALD, G.J.F., 1953, Anhydrite/gypsum equilibrium relations: American Journal of Science, v. 251.
  128. MACHEL, H.G., 1985, Fibrous gypsum and fibrous anhydrite in veins: Sedimentology, v. 32, p. 443-454.
  129. MAIKLEM, W.R., BEBOUT, D.G., and GLAISTER, R.P., 1969, Classification of anhydrite — a practical approach: Bulletin of Canadian Petroleum Geology, v. 17, p. 194-233.
  130. MAREK PERYT, T., 2001, Gypsum facies transitions in basin-marginal evaporites: middle Miocene (Badenian) of west Ukraine: Sedimentology, v. 48, p. 1103-1119.
  131. MCKENZIE, J.A., HSU, K.J., and SCHNIEDER, J.F., 1980, Movement of subsurface water under the sabkha, Abu Dhabi, U.A.E. and its relation to evaporative dolomite genesis, in Zenger, D.H., Dunham, J.B., and Ethington, R.L., eds., Concepts and Models of Dolomitization: SEPM Special Publication 28: Tulsa, Society of Economic Paleontologists and Mineralogists, p. 11-30.
  132. MEES, F., 1999, Distribution patters of gypsum and kalistrontite in Dry Lake Basin of the southwestern Khlahari (Omongwa Pan, Namibia): Earth Surface Processes and Landforms, v. 24, p. 731-744.
  133. MEYER, F.O., 2003, Calcium sulfate diagenesis: a review: Lecture Notes on Carbonate Education, v. 4: Elbert, Carbonate Research Consulting, Inc., 30 p.
  134. MIGOWSKI, C., NEGENDANK, J.F.W., and STEIN, M., 2003, Short-term droughts in the Dead Sea region identified in a varved Holocene record: Geophysical Research Abstracts, v. 5, p. 9531.
  135. MILLIKIN, K.L., 1979, The silicified evaporite syndrome - Two aspects of silicification history of former evaporite nodules from southern Kentucky and northern Tennessee: Journal of Sedimentary Petrology, v. 49, p. 245-256.
  136. MORRIS, R., C., and DICKEY, P.A., 1957, Modern Evaporite Deposition in Peru: American Association of Petroleum Geologists Bulletin, v. 41, p. 2467-2474.
  137. MOUGENOT, D., HEINE, C., and TISCHNER, E., 2000, Sand roses of Saudi Arabia: The Oil Drop, v. 12, p. 3-6.
  138. MURRAY, R.C., 1964, Origin and diagenesis of gypsum and anhydrite: Journal of Sedimentary Petrology, v. 34, p. 512-523.
  139. MURRAY, R.C., and RASMUSSEN, J.W., 1958, The relationship of anhydrite to porosity in carbonate rocks, TS Report 135: Houston, Shell Oil Company, p. 7.
  140. NANCOLLAS, G.H., REDDY, M.M., and TSAI, F., 1973, Calcium sulfate dihydrate crystal growth in aqueous solution at elevated temperatures: Journal of Crystal Growth, v. 20, p. 125-134.
  141. NEAL, J.T., 1965, Geology, Mineralogy and Hydrology of U.S. Playas, Environmental Research Paper 96, United States Air Force, Cambridge Research Laboratory, p. 104.
  142. ORTÍ, F., ROSELL, L., and ANADÓN, P., 2003, Deep to shallow lacustrine evaporites in the Libros Gypsum (southern Teruel Basin, Miocene, NE Spain): an occurrence of pelletal gypsum rhythmites: Sedimentology, v. 50, p. 361-386.
  143. PATTERSON, M.S., and KINSMAN, D.J.J., 1981, Hydrologic framework of 2 sabkhas along the Arabian Gulf: American Association of Petroleum Geologists Bulletin, v. 65, p. 1457-1475.
  144. PATTERSON, R.J., and KINSMAN, D.J.J., 1976, Marine and continental ground-water sources in a Persian Gulf coastal sabkha, in Frost, S.J., Weiss, M.P., and Saunders, J.B., eds., Reefs and Related Carbonates - Ecology and Sedimentology: AAPG Studies in Geology: Tulsa, American Association of Petroleum Geologists, p. 381-399.
  145. PERYT, T.M., 1987, The Zechstein Facies, in Bhattacharji, S., and Friedman, G.M., eds., Lecture Notes in Earth Sciences: Berlin Heidelberg New York London Paris Tokyo, Springer-Verlag, p. 272.
  146. PERYT, T.M., 1996, Sedimentology of Badenian (middle Miocene) gypsum in eastern Galicia, Podolia and Bukovina (West Ukraine): Sedimentology, v. 43, p. 571-588.
  147. PERYT, T.M., 2001, ypsum facies transitions in basin-marginal evaporites: middle Miocene (Badenian) of west Ukraine.: Sedimentology, v. 48, p. 1103-1119.
  148. PHLEGER, F.B., 1969, A modern evaporite deposit in Mexico: American Association of Petroleum Geologists Bulletin, v. 53, p. 824-829.
  149. PICHA, F., 1976, Depositional and diagenetic history of Pleistocene and Holocene oolitic sediments and sabkhas in Kuwait, Persian Gulf: Sedimentology, v. 25, p. 427-449.
  150. PIOVANO, E.L., ARIZTEGUI, D., and MOREIRA, S.D., 2002, Recent environmental changes in Laguna Mar Chiquita (central Argentina): a sedimentary model for a highly variable saline lake: Sedimentology, v. 49, p. 1371-1384.
  151. PITTMAN, J.S., and FOLK, R.L., 1970, Length-slow chalcedony: a new testament for vanished evaporite minerals: Abstract: Annual Meeting of Geological Society of America, p. 654-655.
  152. PITTMAN, J.S., and FOLK, R.L., 1971, Length-slow chalcedony after sulfate evaporite minerals in sedimentary rock: Physical Science Nature, v. 230, p. 64-65.
  153. POSNJAK, E., 1938, The system CaSO4-H2O: American Journal of Science, v. 235A, p. 247-272.
  154. POSNJAK, E., 1940, Deposition of calcium sulfate from seawater: American Journal of Science, v. 238, p. 559-568.
  155. RASHAD, M.M., BAIOUMY, H.M., and ABDEL-AAL, E.A., 2003, Structural and spectral studies on gypsum crystals under simulated conditions of phosphoric acid production with and without organic and inorganic additives: Crystal Research Technology, v. 38, p. 433-439.
  156. ROBERTSON, A.H.F., 1998, Late Miocene paleoenvrionments and tectonic setting of the southern margin of Cyprus and the Eratosthenes Seamount: Proceedings of the Ocean Drilling Program, Scientific Results 160, p. 453-463.
  157. SALEH, A., AL-RUWAIH, F., AL-REDA, A., and GUNATILAKA, A., 1999, A reconnaissance study of a clastic coastal sabkha in Northern Kuwait, Arabian Gulf: Journal of Arid Environments, v. 43, p. 1-19.
  158. SCHLEDER, Z., BURLIGA, S., and URAI, J.L., 2004, Comparison of halite microstructures from different tectonic settings: implications for deformation mechanism, fluid flow and reology, Rheinsh-Westfausche Technische Hochschule.
  159. SCHMALZ, R.F., 1969, Deep-water evaporite deposition: a genetic model: American Association of Petroleum Geologists Bulletin, v. 53, p. 789-823.
  160. SCHREIBER, B.C., 1978, Environments of subaqueous gypsum deposition, in Dean, W.E., and Schreiber, B.C., eds., Marine Evaporites: SEPM Short Course No. 4 Oklahoma City 1978: Tulsa, Society of Economic Paleontologists and Mineralogists, p. 43-73.
  161. SCHREIBER, B.C., 1988, Evaporites and Hydrocarbons: New York, Columbia University Press, p. 496.
  162. SCHREIBER, B.C., CATALANO, R., and SCHREIBER, E., 1977, An evaporite lithofacies continuum: Latest Miocene (Messinian) deposits of Salenic Basin (Sicily) and a modern analog, in Fisher, J.H., ed., Reefs and Evaporites--Concepts and Depositional Models, American Association of Petroleum Geologists, p. 169-180.
  163. SCHREIBER, B.C., FRIEDMAN, G.M., DECIMA, A., and SCHREIBER, E., 1976, Depositional environments of upper Miocene (Messinian) evaporite deposits of the Sicilian Basin: Sedimentology, v. 23, p. 729-760.
  164. SCHREIBER, B.C., and KINSMAN, D.J.J., 1975, New observations on the Pleistocene evaporites of Montallegro, Sicily and a modern analog: Journal of Sedimentary Petrology, v. 45, p. 469-479.
  165. SCHREIBER, B.C., ROTH, M.S., and HELMAN, M.L., 1982, Recognition of primary facies characteristics of evaporites and the differentiation of these forms from diagenetic overprints, in Handford, C.R., Loucks, R.G., and Davies, G.R., eds., Depositional and Diagenetic Spectra of Evaporites - A Core Workshop: SEPM Core Workshop No. 3: Calgary, Society of Economic Paleontologists and Mineralogists, p. 1-32.
  166. SCHREIBER, B.C., and TABAKH, M.E., 2000, Deposition and early alteration of evaporites.: Sedimentology, v. 47, p. 215-238.
  167. SCRUTTON, P.C., 1953, Deposition of evaporites: Bulletin of the American Association of Petroleum Geologists, v. 37, p. 2498-2512.
  168. SELLI, R., STANLEY, D.J., and WEZEL, F.-C., 1985, Geological evolution of the Mediterranean Basin : Raimondo Selli commemorative volume: New York, Springer-Verlag, xxviii, 589 p. p.
  169. SHEARMAN, D.J., 1963, Recent anhydrite, gypsum, dolomite, and halite from the coastal flats of the Persian Gulf: Proceedings Geological Society of London, v. 1607, p. 63-65.
  170. SHEARMAN, D.J., 1966, Origin of marine evaporites by diagenesis: Transactions of Institute of Mineralogy Metall. Section B, v. 75, p. 208-215.
  171. SHEARMAN, D.J., 1970, Recent halite rock, Baja California, Mexico: Transactions of the Institute of Mining and Metallurgy, v. 79B, p. 155-162.
  172. SHEARMAN, D.J., 1978, Evaporites of coastal sabkhas, in Dean, W.E., and Schreiber, B.C., eds., Marine Evaporites: SEPM Short Course No. 4 Oklahoma City 1978: Tulsa, Society of Economic Paleontologists and Mineralogists, p. 6-42.
    SHEARMAN, D.J., 1997, Evaporite Sediments and Rocks: The Calcium Sulphate and Halite Facies, Chapman & Hall.
  173. SHEARMAN, D.J., and FULLER, J.G., 1969, Anhydrite diagenesis, calcitization, and organic laminites, Winnipegosis Formation, Middle Devonian, Saskatchewan: Bulletin Canadian Petroleum Geology, v. 17, p. 496-525.
    SHEARMAN, D.J., KHOURI, J., and TAHA, S., 1961, On the replacement of dolomite by calcite in some Mezosoic limestones from the French Jura: Geological London Association Proceedings, v. 71, p. 1-12.
  174. SHEARMAN, D.J., MOSSOP, G., DUNSMORE, H., and MARTIN, M., 1972, Origin of gypsum veins by hydraulic pressure: Institution of Mining and Metallurgy Transactions, Sec. B, Applied Earth Science, v. 81, p. 149-155.
  175. SHINN, E.A., ROBBIN, D.M., and CLAYPOOL, G.E., 1980, Compaction of modern carbonate sediments: implications for generation and expulsion of hydrocarbons: Organic geochemistry division symposium on petroleum geochemistry and source rock potential of carbonate rocks.
  176. SIEDLECKA, A., 1972, length-slow chalcedony and relics of sulfates - evidence of evaporitic environments in the Upper Carboniferous and Permian beds of Bear Island, Svalbard: Journal of Sedimentary Petrology, v. 42, p. 812-816.
  177. STANTON, J.R.J., 1966, The solution brecciation process: Geological Society of America Bulletin, v. 77, p. 843-848.
  178. STEMMERIK, L., 1987, Cyclic carbonate and sulphate from the Upper Permian Karstryggen Formation, East Greenland, in Peryt, T.M., ed., The Zechstein Facies: Lecture Notes in Earth Sciences: Berlin Heidelberg New York London Paris Tokyo, Springer-Verlag, p. 5-22.
  179. STEMMERIK, L., ROUSE, J.E., and SPIRO, B., 1988, S-isotope studies of shallow water, laminated gypsum and associated evaporites, Upper Permian, east Greenland: Sedimentary Geology, v. 58, p. 37.
  180. ST JOHN, J.W., JR., and EBY, D.E., 1978, Peritidal carbonates and evidence for vanished evaporites in the Lower Ordovician Cool Creek Formation - Arbuckle Mountains, Oklahoma: Gulf Coast Association of Geological Society Transactions, v. 28, p. 589-599.
  181. SUGDEN, W., 1963, The hydrology of the Persian Gulf and its significance in respect to evaporite deposition: American Journal of Science, v. 262, p. 741-755.
  182. TABAKH, M.E., SCHREIBER, B.C., UTHA-AROON, C., COSHELL, L., and WARREN, J.K., 1998, Diagenetic origin of Basal Anhydrite in the Cretaceous Maha Sarakham salt: Khorat Plateau, NE Thailand: Sedimentology, v. 45, p. 579-594.
  183. TARDY, Y., BARDOSSY, G., and NAHON, D., 1988, Activity of water fluctuations and hydrated or dehydrated mineral successions within bauxitic and ferruginous lateritic profiles.: Comptes Rendus De L Academie Des Sciences Serie Ii Mecanique Physique Chimie Sciences De L Univers Sciences De La Terre, v. 88, p. 124-140.
  184. TECHNICIANS, C.O., 1982, Evaporite Deposits: Illustration and Interpretation of Some Environmental Sequences: Houston london Paris Tokyo, Gulf Publishing, 266 p.
  185. TUCKER, M.E., 1976a, Quartz-replace anhydrite nodules (Bristol Diamonds) from the Triassic of the Bristol District: Geological Magazine, v. 113, p. 569-574.
  186. TUCKER, M.E., 1976b, Replace evaporites from the late Precambrian of Finnmark, Arctic, Norway: Sedimentary Geology, v. 16, p. 193-204.
  187. TUCKER, M.E., 1991, Sequence stratigraphy of carbonate-evaporite basins: models and application to the Upper Permian (Zechstein) of northeast England and adjoining Noth Sea: Journal of the Geological Society, London, v. 148, p. 1019-1036.
  188. VALYASHKO, M.G., 1968, Playa lakes - a necessary stage in the development of salt-bearing basin: Geology of Saline Deposits, p. 41-51.
  189. VANHOUTEN, F.B., 1965, Crystal crusts in Upper Triassic Lockalong and Burnswick Formations: Sedimentology, v. 4, p. 310-313.
  190. WARREN, J.K., 1989, Evaporite sedimentology : importance in hydrocarbon accumulation: Englewood Cliffs, N.J., Prentice Hall, xv, 285 p. p.
  191. WARREN, J.K., 1999, Evaporites: Their Evolution and Economics: Oxford, Blackwell Science, 438 p.
  192. WARREN, J.K., 2003, Interpreting ancient evaporites: Quaternary sabkhas and salinas are not the whole story: Seattle Annual Meeting, p. 133.
  193. WARREN, J.K., and KENDALL, C.G.S.C., 1985, Comparison of marine (subaerial) and salina (subaqueous) evaporites: modern and ancient: American Association of Petroleum Geologists Bulletin, v. 69, p. 1013-1023.
  194. WATSON, A., 1979, Gypsum crusts in deserts: Journal of Arid Environments, v. 2, p. 3-20.
  195. WEST, I.M., 1964, Evaporite diagenesis in the Lower Purbeck Beds of Dorset: Yourkshire Geological Society, v. 34, p. 315-330.
  196. WEST, I.M., 1965, Macrocell structure and enterolithic veins in British Purbeck gypsum and anhydrite: Proceedings of the Yorkshire Geological Society, v. 35, p. 47-58.
  197. WEST, I.M., 1973, Vanished evaporites - significance of strontium minerals: Journal Sedimentary Petrology, v. 43, p. 278-279.
  198. WEST, I.M., 1975, Evaporites and associated sediments of the basal Purbeck Formation (Upper Jurassic) of Dorse: Proceedings of the Geologists' Association, v. 86, p. 205-225.
  199. WEST, I.M., 1979, Review of evaporite diagenesis in the Purback Formation of Southern England: Symposium "Sedimentation jurassique W. europeen", p. 407-416.
  200. WEST, I.M., ALI, Y.A., and HILMY, M.E., 1979, Primary gypsum nodules in a modern sabkha on the Mediterranean coast of Egypt: Geology, v. 7, p. 354-358.
  201. WEST, I.M., ALI, Y.A., and HILMY, M.E., 1985, Facies associated with primary gypsum nodules of northern Egyptian sabkha: 6th International Symposium on Salt 1983, v. 1, p. 171-183.
  202. WEST, I.M., BRANDON, S., and SMITH, M., 1968, A tidal flat evaporitic facies in the Visean of Ireland: Journal of Sedimentary Petrology, v. 38, p. 1079-1093.
  203. WEST, I.M., LASHHAB, M.I., and MUHAN, I.M., 2000, North African sabkhas and lagoons compared to those of the Arabian Gulf, November 23-25th, 1999: Proceedings of the Sixth Mediterranean Petroleum Conference and Exhibition, p. 512-530.
  204. WILKINSON, B.H., and DRUMMOND, C.N., 2004, Facies mosaics across the Persian Gulf and around Antigua_Stochastic and deterministic products of shallow-water sediment at accumulation: Journal of Sedimentary Research, v. 74, p. 513-526.
  205. WILLS, L.J., 1970, The Triassic succession in the central Midlands in its regional setting: Quarterly Journal of the Geological Society of London, v. 52, p. 225-285.
  206. WOLFBAUER, C.A., 1973, Criteria for recognizing paleoenvironments in a playa-lake complex: the Green River Formation of Wyoming: 25ft. Field Conference, p. 87-91.
  207. WOOD, G.V., and WOLFE, M.J., 1969, Sabkha cycles in the Arab/Darb formation off the Trucial Coast of Arabia: Sedimentology, v. 12, p. 165-191.
  208. WOOD, W.W., and SANFORD, W.E., 2002, Hydrology and solute chemistry of the coastal-sabkhas aquifer in the Emirate of Abu Dhabi, in Barth, A.P., and Boer, eds., Sabkha Echosystems: Amsterdam, Netherlands, Kluwer Academic Publishers, p. 173-185.
  209. WOOD, W.W., SANFORD, W.E., and AL HABSHI, A.R.S., 2002, Source of solutes to the coastal sabkha of Abu Dhabi: Geological Society of America Bulletin, v. 114`, p. 259-268.
  210. YANTAT'EVA, O.K., 1955, Effects of aqueous solution of gypsum on dolomite in the presence of carbon dioxide: Akad. Nauk. SSSR, v. 101, p. 911-912.
  211. YOUNG, H.R., 1979, Evidence of former evaporites in the Cambro-Ordovician Durness Group, northwest Scotland: Sedimentological Geology, v. 22, p. 287-303.
  212. YOUNG, J., CHOW, N., FERGUSON, I., MARIS, V., MCDONALD, D., BENSON, D., and HALDEN, N., 1974, Gypsum Rosettes in Southern Manitoba: Tools for Environmental Analysis and Public Awareness: Canadian Geotechnical Journal, v. 8, p. 442-474.
Top 

Home About Us Education Khuff forum Personnel Research Services
  © 2001-2005 Carbonate Research Consulting, Inc. All rights reserved.
  Site design June 2001. Updated January 2004, January 2005 - F.O. Meyer