[1] Rahimpour Bonab, H., and Kalantarzadeh, Z., "Origin of secondary potash deposites; a case from Miocene evaporate of NW central Iran", Journal of Asian Earth Sceience 25 )2005) 157-166
[2] Tucker, M.E., "Sabkha cycles, stacking and controls, Gachsaran (Lower Fars/Fata) Formation, Miocen, Mesopotamian basin, Iraq", Neues jahrbuch Geologisch und Plaonatologisch Abhandlung 124 (1999) 45-69
]3[ آقا نباتی، ع.، 1385، زمینشناسی ایران، سازمان زمینشناسی و اکتشافات معدنی کشور، چاپ دوم، 603 صفحه
[4] Gill, W.D., and Ala, M.A., "Sedimentology of Gachsaran Formation Lower Fars Series Southwest Iran", AAPG 56 (1974) 1965-1974
[5] Hearst, J.R., Nelson, P.H., and Paillett, F.L, "Well Logging for physical properties, A hand book for Geophysists, Geologist and Enginerrs", Wiley, second edition (2000) 492 p.
[6] Benison, K.C., and Goldstein., R.H, "Permian paleoclimate data from fluid inclusions in halite", Chemical Geology 154 (1999) 113-132
[7] Warren, J.K., "Evaporite Sedimentology", Prentice Hall, Englewood Cliffs, New Jersey (1989) 285p.
[8] Sarg, J.F., "The sequence stratigraphy, sedimentology, and economic importance of evaporate- carbonate transitions، a review", Sedimentary Geology 140 (2001) 9-34
[9] Satterfield, C.L, Lowenstein, T.K, Vreeland, R.H., and Rosenzweig., W.D., "Paleobrine temperatures, chemistries, and paleoenvironment of Silurian Salina Formation F-1 Salt, Michigan Basin, USA., From petrography and fluid inclusion in halite", Journal of Sedimentary Reasearch 75 (2005) 534-546
[10] Yechieli, Y., and Wood, W.W, "Hydrogeologic processes in saline systems, playas, sabkhas, and saline lake", Earth Science Reviews 58 (2002) 343–365.
[11] Benison, K.C., and Goldstein., R.H., "Sedimentology of ancient saline pan: an example from the Permian Opeche Shale, Williston Basin, North Dokota, U.S.A.", Journal of Sedimentary Research 70) 2000) 159-169.
[12] Lowenstain, T.K., and Hardie, L.A., "Criteria for the recognition of salt-pan evaporate", Sedimentology 32 (1985) 627-644.
[13] Schereiber, B. C., El Tabakh, M., "Depositional and early alteration of evapotate", Sedimentology 47 (2000) 215-238.
[14] Warren, J.K., "The hydrological setting, occurrence and significance of gypsum in late Quaternary salt lakes in South Australia", Sedimentology 29 (1982) 609-637.
[15] Kendall, A.C., and Harwood, G.M, "Marine Evaporates: Arid Shorelines and Basins", Oxford, Blackwell Sciencific Publication (1995) 688 p.
[16] Warren, J.k., "Evaporate: their Evolution and Economic", Blackwell, Scientific Oxford (1999) 438p.
[17] Tucker, M.E.,"Evaporites in a sequence stratigraphic context", Biuletyn Pafstwowego Instytutu Geologicznego 387 (1999) 67-68.
[18] Melvin, J.L,"Evaporates, Petroleum and Mineral Resources", Elsevier Science Publishing Company (1991) 556p.
[19] Handford, R.C, "Halite depositional facies in a solar salt pond: a key to interpreting physical energy and water depth in ancient deposits?", Geology 18 (1990) 691–694.
[20] Tucker, M.E, "Sequence stratigraphy of carbonate-evaporite basins: models and application to the Upper Permian (Zechstein) of northeast England and adjoining North Sea", Journal of the Geological Society, London 148 (1991)1019-1036
[21] Sonnefeld, P., "Brines and Evaporates", Acadamic Press, Orlando (1984) 613p.
[22] Casas, E., and Lowenstein, T.K., "Diagenesis of salinepan halite: comparison of petrographic features of modern, Quaternary, and Permian halites", Journal of Sedimentary Petrolology, 59 (1989) 724–739.
[23] Martill, D.M., Loveridge, R., and Heimhofer, U., "Halite pseudomorphs in the Crato Formation (Early Cretaceous, Late Aptiane), Araripe Basin, northeast Brazil: further evidence for hypersalinity", Cretaceous Research 28 (2007) 613-620.
[24] Warren, J.k., "Evaporates: Sediments, Resources and Hydrocarbons", Springer-Verlag Berlin (2006) 1035p.
[25] Wilson, T.P., and Long, D.T., "Geochemistry and isotope chemistry of Ca–Na–Cl brines in Silurian Strata, Michigan Basin, USA", Applied Geochemistry 8 (1993( 507–524.
[26] Moller, P., Rosenthal, E., Fleyer, A., and Geyer, S., "Chemical evolution of saline waters in the Jordan-Dead Sea transform and in adjoining areas", Internationl Journal of Earth Science 96 (2007( 541-566
[27] Alavi M.," Regional stratigraphy of the Zagros fold-thrust belt of Iran and proforland evolution", American Journal of Sciences 304 (2004) 1-20.
[28] Mial, A.D., "The Geology of Stratigraphic Sequence", Speringer-Verlag, Berlin (1997) 433 p.
[29] Rosen, M.R., "The importance of ground water in playas: a review of classifications and sedimentology and hydrology of playas", Geological Society of America, Special Paper, 289 (1994) 1–18.
[30] Bahroudi, A., and Koey, H.A.," Tectono-sedimentary framework of the Gachsaran Formation in the Zagros foreland basin", Marine and Petroleum Geology 21 (2004) 1295-1310
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