Bird M I, Chivas A R, Radnell C J and Burton H R. 1991. Sedimentological and stable isotope evolution of lakes in the Vestfold Hills, Antarctica. Palaeogeography, Palaeoclimatology, Palaeoecology, 8(1?4): 109?130.
[15]
Camoin G, Casanova J, Rouchy J M, Blanc-valleronc M M and Deconinckd F. 1997. Environmental controls on perennial and ephemeral carbonate lakes: The Central Palaeo- Andean Basin of Bolivia during Late Cretaceous to early Tertiary times. Sediment Geology, 113(1?2): 1?26.
[16]
Cendón D I, Ayora C, Pueyo J J, Taberner C and Blanc-Valleronc M M. 2008. The chemical and hydro- logical evolution of the Mulhouse potash basin (France): Are “marine” ancient evaporates always representative of synchronous seawater chemistry? Chemical Geology, 252(3?4): 109?124.
[17]
Craig H. 1965. The measurement of oxygen isotope palaeotemperatures // Stable Isotopes in Oceanographic Studies and Palaeotemperatures. Laboratory of Geology of Nucl, Pisa, Italy: 9?130.
[18]
Deines P. 1980. The isotopic composition of reduced organic carbon // Fritz P and Fontes J. Handbook of Environmental Isotope Geochemistry. Amsterdam: Elsevier: 329?406.
[19]
Fairchild J, Marshall J D and Bertrand-Sarfati J. 1990. Stratigraphic shifts in carbon isotopes from Proterozoic stromatolitic carbonates (Mauritania): Influences of primary mineralogy and diagenesis. American Journal of Science, 290?A: 46?79.
[20]
Friedman I and O’nell J R. 1977. Compilation of stable isotope fractionation factors of geochemical interest // Fleischer M. Data of Geochemistry. Washington D C: U. S. Department of the Interior: 1?12.
[21]
Hendeson A C G, Holmes J A, Zhang J W, Leng M J and Carvalho L R. 2003. A carbon- and oxygen-isotope record of recent environmental change from Qinghai Lake, NE Tibetan Plateau. Chinese Science Bulletin, 48(14): 1463?1468.
[22]
Kaufman A J and Knoll A H. 1995. Neoproterozoic variations in the C-isotopic composition of seawater: Stratigraphic and biogeochemical implications. Precambrian Research, 73(1?4): 27?49.
[23]
Kaufman A J, Knoll A H and Awramik S M. 1992. Biostratigraphic and chemostratigraphic correlation of Neoproterozoic sedimentary successions: Upper Tindir Group, northwestern Canada, as a test case. Geology, 20: 181?185.
[24]
Keith M L and Weber J N. 1964. Carbon and oxygen isotopic composition of selected limestone and fossils. Geochimica et Cosmochimica Acta, 28: 1787?1816.
[25]
Kelts K and Talbot M. 1990. Lacustrine carbonates as geochemical archives of environmental change and biotic/abiotic interactions // Large Lakes. Springer Berlin Heidelberg: 288?315.
[26]
Khim B K, Woo S and Yoon S H. 2000. Comparison of oxygen isotope profile of a fossil bivalve with the modern hydrographic condition: Case study of the Seoguipo Formation (Korea). Geosciences Journal, 4(1): 15?24.
[27]
Knoll A H, Hayes J M, Kaufman A J, Swett K and Lambrrt I B. 1986. Secular variation in carbon isotope ratios from upper Proterozoic successions of Svalbard and East Greenland. Nature, 321: 832?838.
[28]
Li X Z, Liu W G and Xu L M. 2012. Carbon isotopes in surface-sediment carbonates of modern Lake Qinghai (Qinghai?Tibet Plateau): Implications for lake evolution in arid areas. Chemical Geology, 300?301: 88?96.
[29]
Lister G S, Kelts K, Chen K Z, Yua J Q and Niessena F. 1991. Lake Qinghai, China: Closed-lake basin levels and the oxygen isotope record for ostracoda since the latest Pleistocene. Palaeogeography, Palaeoclimatology, Palae- oecology, 84(1?4): 141?162.
[30]
Lowenstein T K, Spencer R J and Pengxi Z. 1989. Origin of Ancient Potash Evaporates: Clues from the Modem Nonmarine Qaidam Basin of Western China. Science, 4222(245): 1090?1092.
[31]
Paz J D S and Rossetti D F. 2006. Paleohydrology of an Upper Aptian lacustrine system from northeastern Brazil: Integration of facies and isotopic geochemistry. Palaeo- geography, Palaeoclimatology, Palaeoecology, 241(9): 247?266.
[32]
Qing H and Veizer J. 1994. Oxygen and carbon isotopes of the Ordovician articulate brachiopods: Implication for the isotopic composition of Ordovician seawater. Geochimica et Cosmochimica Acta, 58(20): 4429?4442.
[33]
Sinha R and Raymahashay B C. 2004. Evaporite mineralogy and geochemical evolution of the Sambhar Salt Lake, Rajasthan, India. Sedimentary Geology, 166: 59?71.
[34]
Suwanich P. 1993. Clay-mineral assemblages from some levels of K-118 drill core of Maha Sarakham evaporites, northeastern Thailand. Journal of Southeast Asian Earth Sciences, 8(1?4): 369?381.
[35]
Talbot M R. 1990. A review of the palaeohydrological interpretation of carbon and oxygen isotopic ratios in primary lacustrine carbonates. Chemical Geology: Isotope Geoscience Section, 80(4): 261?279.
[36]
Talbot M R and Kelts K. 1990. Paleolimnological signatures from carbon and oxygen isotopic ratios in carbonates from organic carbon-rich lacustrine sediments. AAPG, 50: 61?76.
Hite R J. 1974. Evaporate deposits of the Korat plateau, Northeastern Thailand // Fourth Symposium on Salt. Northern Ohio Geological Society, 1: 135?146.
[41]
Hite R J and Japakssetr T. 1979. Potash deposits of the Khorat plateau, Thailand and Laos. Economic Geology, 74(2): 448?458.
[42]
Hoefs J. 1980. Stable Isotope Geochemistry. Berlim: Springer Verlag: 208.
[43]
Kaufman A J, Hayes J M, Knell A H and Germs G J B. 1991. Isotopic compositions of carbonates and organic carbon from upper Proterozoic successions in Namibia: Stratigraphic variation and the effects of diagenesis and metamorphism. Precambrian Research, 49: 301?327.
[44]
Tan H B, Ma H Z, Li B K, Zhang X Y and Xiao Y K. 2010. Strontium and boron isotopic constraint on the marine origin of the Khammuane potash deposits in southeastern Laos. Chinese Science Bullentin, 55(27?28): 3181?3188.
[45]
Uyha-Aroon C. 1993. Continental Origin of the Maha Sarakham Evaporates, Northeastern Thailand. Southeast Asian Earth Sciences, 8(1?4): 193?203.
[46]
Valero-Gracēs B L, Kelts K and Ito E. 1995. Oxygen and carbon isotopes trends and sedimentological evolution of a meromictic and saline lacustrine system: The Holocene Medicine Lake basin, North American Great Plains, USA. Palaeogeography, Palaeoclimatology, Palaeoecology, 177(3?4): 253?278.
[47]
Veizer J. 1983. Chemical diagenesis of carbonate rocks: Theory and application of trace element technique, in Stable isotopes in sedimentary geology. Society of Economic Paleontologists and Mineralogists, Tulsa, Oklahoma: 10.
[48]
Warren K. 1999. Evaporates: Their Evolution and Economics. Hoboken: Wiley-Blackwell: 235?239.
[49]
Xu H, AI L, Tan L C and An Z S. 2006. Stable isotopes in bulk carbonates and organic matter in recent sediments of Lake Qinghai and their climatic implications. Chemical Geology, 235: 262?275.
[50]
Zhang X Y, Ma H Z, Ma Y Q, Tang Q L and Yuan X L. 2013. Origin of the late Cretaceous potash-bearing evaporites in the Vientiane Basin of Laos: δ11B evidence from borates. Journal of Asian Earth Sciences, 62: 812?818.
