Adachi M, Yamamoto K and Sugisaki R. 1986. Hydrothermal chart and associated siliceous rocks from the northern Pacific: Their geological significance as indication of ocean ridge activity[J]. Sedimentary Geology, 47: 125-148.
[2]
Bostroem K, Harold R and Oiva J. 1973. Provenance and accumulation rates of opaline silica, Al, Fe, Tl, Mn, Cu, Ni and Co in Paci[ic pelagic secliment[J]. Chem. Geol. , 11 : 123-148.
[3]
Bureau of Geology and Mineral Resources of Inner Mongolia. 1991. Inner Mongolia Geological Mark[M]. Beijing: Geol. Pub. House. 27-29.
[4]
Ding T P,Jiang S Y ,Wan D F, Li Y H, Li J C, Song H B, Liu Z J and Yao X M. 1994. silicon isotope geochemistry[M]. Beijing: Geol. Pub. House. 31-42.
[5]
Douthitt C B. 1982. The geochemistry of *he stable isotopes of the silicon[J]. Geochim. Cosmochim. Acta, 16: 129-139.
[6]
Gromet L P, Dymek R F, Haskin L A and Korotev L R. 1984. The "North American shale composite": Its composition, major and trace element characteristics[J]. Geochim. Cosmochim. Acta, 48 : 2469-2482.
[7]
Han F and Hutchinson R W. 1989. Evidence for exhalative origin for rocks and ores of the Dachang tin polymetallic field: The ore-bearing formation and hydrothemlal exhalative sedimentary rocks [J]. Mineral Deposits, 8(2): 25 -40.
[8]
Li D X, Zhao Y M, Feng C Y, Wu L S and Chen W M. 2008a. SHRIMP U-Pb zircon dating of Mesoproterozoic anatase-rich ore beds and granite in the Yangtizishan-Moshishan anatase deposit, In ner Mongolia, and its geological significance[J]. Mineral Deposits, 27 (4) : 449-458.
[9]
Li D X,Zhao Y M,Wang P H and Feng C Y. 2008b. Petrology and geochemical characteristics of amphibolites in Yangtizishan-Moshishan anatase ore deposit, Inner Mongolia [J]. Mineral Deposits, 27 (4): 474-482.
[10]
Li Y H,Ding T P and Wan D F. 1994. Experimental study of silicon isotope dynamic fractionation and its geological application[J]. Mineral Deposits, 13(3) :282-288.
[11]
Lv Z C, Liu C Q, Liu J J and Wu F C. 2004. Geochemical studies on the Lower Cambrian witherite-bearing cherts in the northern Daba Mountains[J]. Acta Geologica Sinica, 78 ( 3 ) : 390-406.
[12]
Murray R W, Brink M R B and Gerlach D C. 1990. Rare earth elements as indicators of different marine depositional environments in chert and shale[J]. Geology, 18(3):268-271.
[13]
Murray R W, Buchholtz T , Brink M R, Gerlach D C, Russ G P and Jones D L. 1991. Rare earth, major, and trace elements in chert from the Franciscan comlex and Monterey Group, California: Assessing REE sources to fine-grained marine sediments[J]. Geochim. Cosmochim. Acta, 55: 1875-1895.
[14]
Murray R W, Jones D L, Buchholtz Ten and Brink M R. 1992. Diagenetic formation of bedded chert: Evidence from chemistry of chertshale couplet[J]. Geology, 20: 271-274.
[15]
Murray R W. 1994. Chemical criteria to identify the depositional environment of chert: General principle sand application[J]. Sedimentary Geology, 90: 213-232.
[16]
Song T R and Ding T P. 1989. The new attempt of application the sillcon isotope (δ^30 Si) of cherts to the facies analysis [J]. Chinese Science Bulletin, 34 ( 18 ) : 1408 - 1411.
[17]
Taylor S R and Mclennan S M. 1985. The continental crust: Its composition and evolution[M]. Oxford: Blackwell Scientific Publications. 312p.
[18]
Kui H M. 1991. Occurring characteristics and source of the silica in the stratabound Pb-Zn (Cu) deposits of Fengtai orefield, Qinling[J]. Mineral Deposits, 10(4):300-312.
[19]
Xu B. 1999. Proterozoic chronostratigrap hical framework on the northern continental margin of north China plate[J]. Geoscience, (2) : 219-220.
[20]
Yamamoto K. 1983. Geochemical study of Triassic bedded cherts from Kamiaso , Gifu Prefecture[J]. J. Geol. Soc. Japan, 89: 117-128.
[21]
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[22]
Yamamoto K. 1987. Geochemical characteristics and depositional environments of cherts and associated rocks in the Franciscan and Shimamo terranes[J]. Sedimentary Geology, 52: 65-108.
[23]
Yan S H, Yu J J, Zhao Y X, Xu Z Z,Wang A J and Su D K. 2003. Geological and geochemical characteristics of ore-hosted soliceous rocks in Meiduo antimony deposit, Tibet [J]. Mineral Deposits, 22 (2) : 149-157.
[24]
Yao L B,Gao Z M,Yang Z S and Long H B, 2002. Origin of seleniumrich soliceous rocks in Yutangba selenium deposit [J]. Science in China(Series D), 32 ( 1 ) : 54-63.
[25]
Zhao Y M,Li D X,Chen W M,Feng C Y and Sun W H. 2006. Yangtizishan metamorphosed sedimentary titanium deposit: Discovery of new genetic type of titanium deposit [J]. Mineral Deposits, 25 (2) : 113-122.
[26]
Zhao Y M, Li D X, Wu L S, Chen W M, Feng C Y, Wang P H and Gao X D. 2008a. Geology and geochemistry of Yangtizishan-Moshishan anatase deposit in Zhenglanqi County, Inner Mongolia: A Summary of exploration and investigation work [J]. Mineral Deposits, 27 (4) : 425-448.
[27]
Zhao Y M, Li D X, Han J Y and Yu J. 2008b. Mineralogical characteris tics of anatase, ruffle and ilmenite in Yangtizishan-Moshishan titani urn ore deposit, Inner Mongolia[J]. Mineral Deposits, 27 (4) : 466-473.