Arnold R G,Equilibrium relations between pyrrhotite and pyrite from 325 ℃ to 743 ℃,Economic Geology,1962.
[2]
Brooker D D,Craig J R,Rimstidt J D,Ore metamorphism and pyrite porphyroblast development at the Cherokee Mine,Ducktown,Tennessee,Economic Geology,1987.
[3]
Chang Y F,Liu X G,On strata-bound skam deposits,Mineral Deposits,1983(1).
Chang Y F,Liu X P,Wu Y C,The copper-iron belt of the lower and middle reaches of the Changiiang River,北京:地质出版社,1991.
[24]
Craig J R,Vaughan D J,Ore microsocopy and ore petrography,New York:John Wiley and Sons,Inc,1981.
[25]
Craig J R,Vokes F M,Post-recrystallisation mobilisation phenomena in metamorphosed stratabound sulphide ores,Mineralogical Magazine,1993.
[26]
Gu L X,Xu K Q,On the South China-type massive sulphide deposits formed on marine fault depression troughs on the continental crust,Mineral Deposits,1986(2).
[27]
Gu L X,Zhen S J,Mao J Q,The intergrowth and origin of pyrrhotite polymorphs in the south China-type massive sulphide deposit at Mashan,Anhui Province,Collections in Mineralogy and Petrology,1988.
[28]
Gu L X,Magnetic colloid,a method for quick identification of pyrrhotite polymorphs,Geology and Prospecting,1989(2).
[29]
Gu L X,McClay K R,Pyrite deformation in stratiform leadzinc depositsof the Canadian Cordillera,Mineral Deposits,1992.
[30]
Gu L X,Yin L,Vokes F M,Intergrowths of hexagonal and monoclinic pyrrhotites and their genesis from massive sulfide deposits of Norway,Geological Journal of Universities,1995(1).
[31]
Gu L X,Vokes F M,Intergrowth of hexagonal and monoclinic pyrrhotites in some sulphide ores from Norway,Mineralogical Magazine,1996.
[32]
Gu L X,Hu W X,He J X,Ni P and Xu K Q,Regional variations in ore composition and fluid features of massive sulphide deposits in south China:Implications for genetic modeling,Episodes,2000.
[33]
Gu L X,Zheng Y C,Tang X Q,Wu C Z,Advances in research of sulphide re textures and their implications for ore genesis,Prcgress in Natural Science,2006(2).
[34]
Gu L X,Khin Zaw,Hu W X,Zhang K J Ni P He J X Xu Y T Lu J J and Lin C M,Distinctive features of Late Palaeozoic massive sulphide deposits in South China,Ore Geology Reviews,2007.
[35]
Gu L X,Zheng Y C,Tang X Q,Khin Zaw,Fernando D P,Wu C Z,Tian Z M,Lu J J,Ni P,Li X,Yang F T and Wang X W,Copper,gold and silver enrichment in ore mylonites within massive sulphide orebodies at Hongtoushan VHMS deposit,N.E.China,Ore Geology Reviews,2007.
[36]
He J X,Xu K Q,Gu L X,Recognition of different compositional textures of metamorphism-origin pyrrhotites from Mashan and Dabaoshan depoosits,Earth Sciences,.
[37]
Huang C K,Bai Y,Zhu Y S,Wang,H Z and Shang X Z,Copper deposits of China,北京:地质出版社,2001.
[38]
Huang M Z,TangSH,HuangXC,Zhang S Z,The genesis and evolution of pyrrhotite in some copper deposits in Tongling region,北京:地质出版社,1983.
[39]
Kissin S A,Scott S D,Phase relations involving pyrrhotite below 350℃,Economic Geology,1982.
[40]
更多...
[41]
Li H Y,Yang Z S,Meng Y F,Zeng P Sand Xu WY,Geological characteristics of massive sulfide deposits in Tongling ore concentration area,Anhui Province,Mineral Deposits,2004(3).
[42]
Li W D,Wang W B,Fan H Y,Dong P,Zhou T F and Xie H G,The conditions to form copper (gold) ore deposit concentrated areas and the possibilities to discover super gigantic copper (gold)ore deposit in middle-lower Yangtze area,Vocanology and Mineral Resources,1997(Supp).
[43]
Ling Q C,Liu C Q,The characteristics of ore-forming fluid of Dongguashan Strata-bound skarn Cu deposit and its significance for deposit genesis,Journal of Jiliin University,2002(3).
[44]
Liu Y Q,Liu Z L,Yang C X,Stable isotope studies of the Dongguashan copper deposit in Tongling prefeecture,Anhui Province,北京:地质出版社,1984.
[45]
Lu J J,Hua R M,Jiang S Y,Copper isotope study of copper and gold deposit of Dongguashan,China,Geochimica et Cosmochimica Acta,2003(18S).
Lu J J,Guo W M,Xu ZW,The genesis of Dongguashan deposit in Tongling,Anhui Province,Acta Mineralogica Sinica,2007(Supp).
[48]
Lu J J,Guo W M,Chen W F,Jiang S Y Li J Yan X R and Xu Z W,A metallogenic model for the Dongguashan Cu-Au deposit of Tongling,Anhui Province,Acta Petrologica Sinica,2008(8).
[49]
Lydon J W,A synopsis of the current understanding of the geological environment of the Sullivan deposit,British Columbia Geological Association of Canada,Mineral Deposits Division,Special Publication,2000.
[50]
Mao J W,Stein H,Du A D,Zhou T F Mei Y X Li Y F Zang W Sand Li J W,Re-Os precise dating for molybdenite from CuAu-Mo deposits in the middle-lower reacbes of Yangtze River belt and its implications for mineralization,Acta Geologica Sinica,2004(1).
[51]
Mao J W,Wang Y T,Lehmann B,Yu J J Du A D Mei Y X Li Y F Zang W S Holly J S and Zhou T F,Molybdenite Re-Os and albite 40Ar/39Ar dating of Cu-Au-Mo and magnetite porphyry systems in the Yangtze River valley and metallogenic implications,Ore Geology Reviews,2006.
[52]
Marshall B,Gilligan L B,An introduction to remobilization:Information from ore-body geometry and experimental considerations,Ore Geology Reviews,1987.
[53]
Moore D W,Young L E,Modene J S,Plahuta J T,Geologic setting and genesis of the Red Dog zinc-lead-silver deposit,westem Brooks range,Alaska,Economic Geology,1986.
[54]
Pan Y,DongP,The lower Changjiang (Yangzi/Yangtze River) metallogenic belt,east central China:Intrusion and wall rockhosted Cu-Fe-Au,Mo,Zn,Pb,Ag deposits,Ore Geology Reviews,1999.
[55]
Scott S D,Both R A,Kissin S A,Sulfide petrology of the Broken Hill region,New South Wales,Economic Geology,1977.
[56]
Tang Y C,Wu Y C,Chu G Z,Xing F M,Wang Y M and Cao F Y,Geology of copper-gold polymetallic deposits in the along Changjiang area of Anhui Province,北京:地质出版社,1998.
[57]
Wu C L,Zhou X R,Huang X C,Zhang C H and Huang W M,40Ar/39Ar chronology of intrusive rocks from Tongling,Acta Petrologica et Mineralogica,1996.
[58]
Xu K Q,Zhu J C,Origin of the sedimentary-(or volcano sedimentary-) iron-copper deposits in some fault depression belts in southeast China,Fujian Geology,1978.
[59]
Xu X C,Lu S M,Xie Q Q,Lou J W and Chu P L,Trace element geochemical characteristics of fluid inclusions of Dongguashan ore deposit in Tongling,Anhui Province,and their geological implications,Acta Petrologica Sinica,2008(8).
[60]
Xu X C,Lu S M,Xie Q Q,Bai L and Chu G Z,SHRIMP zicon U-Pb dating for the magmatic rocks in Shizishan ore field of Tonglng,Anhui Province,and its geological implications,Acta Geologica Sinica,2008(4).
[61]
Xu Z W,Lu J J,Lu X C,Gao J F Liu S M Luo Q C and Jiang Z P,The geological features and genesis of Dongguashan Cu-Au deposit in Tongling,Anhui Province,Bulletin of Mineralogy Petrology and Geochemistry,2000.
[62]
Xu Z W,Huang S S,Ni P,Lu X C Lu J J Fang C Q Hua M and Jiang S Y,Characteristics and evolution of ore fluids in Dongguashan copper deposit,Anhui Province,China,Geological Review,2005(1).
[63]
Xu Z W,Lu X C,Gao G,Fang C Q Wang Y J Yang X N Jiang S Yand Chen B G,Isotope geochemistry and mineralization in the Dongguashan stratified copper deposit,Tongling area,Geological Review,2007(1).
[64]
Yund R A,Hall H T,Kinetics and mechanism of pyrite exsolution from pyrrhotite,Journal of Petrology,1970.
[65]
Zeng P S,Yang Z S,Meng Y F,Pei R F Wang Y B Wang X C Xu W Y Tian S H and Yao X D,Temporal-spatial configuration and mineralization of Yanshanian magmatic fluid systems in Tongling ore concentration area,Anhui Province,Mineral Deposits,2004(3).
[66]
Zeng P S,Pei R F,Hou Z Q,Meng Y F Yang Z S Tian S H Xu WY and Wang X C,The Dongguashan deposit in the Tongling mineralization cluster area,Anhui:A large-sized super impositiontype copper deposit,Acta Geologica S in ica,2005(1).
[67]
Zhai Y S,Yao S Z,Lin X D,Zhou X R,Wan T F,Jin F Q and Zhou Z G,Fe-Cu (Au) metallogeny of the middle-lower Changjiang region,北京:地质出版社,1992.
[68]
Zhou B,Gu L X,Xu Z H,Comparative study of pyrrhotite textures in two massive sulfide deposits,Fujian Province,Acta Petrologica et Mineralogica,1998.
[69]
Zhou T F,Yue S C,Yuan F,Liu X D and Zhao Y,Two series of copper-gold deposits in the middle and lower reaches of the Yangtze River area (MLYRA) and the hydrogen,oxygen,sulfur and lead isotopes of their ore-forming hydrothermal systems,Science in China(Series D),2000(Supp).
