Abstract
A comparison between tin-bearing granitoids in an anorogenic setting (Bushveld Complex) and an orogenic setting (Blue Tier Batholith, Tasmania) reveals a number of genetically important similarities. These include: in situ fractional crystallization characterised by marked decrease in Ba and Sr and increase in Rb; the accumulation of late melt in a sheet-like form near the roof zone; the association of barren pegmatites overlying the ore; and of aplites; and the occurrence of conformable tin-bearing sheets, often exhibiting greisenization. These features allow the formulation of the following genetic model. A crustally-derived granitoid magma is emplaced and undergoes fractional crystallization from the margins inwards, with bottom crystallization dominating. Disruption of earlier formed solids by rest liquid commonly occurs. Continued fractional crystallization causes enrichment in volatiles and incompatible elements in the late rest melts, which have a sheet-like habit. The efficiency of enrichment of incompatible elements is critically dependant on the degree of separation of melt from solids throughout crystallization. An early, tin-poor vapour may separate after initial water-saturation of the magma is achieved, and this collects under the roof, commonly forming an impermeable barrier to later tin-bearing fluids. Continued fractional crystallization on the floor further enriches incompatible elements, and at a very late stage a Sn-rich vapour separates within the intercumulus phase and becomes concentrated by progressive crystallization of the intercumulus melt. At a late stage of solidification, this vapour loses equilibrium with the earlier formed feldspars and greisenization ensues, accompanied by the crystallization of cassiterite and other ore minerals. The nature of the mineralization changes if through-going fractures tap the late fluids. This model predicts systematic changes in trace element geochemistry with crystallization which provide useful tools for assessing the tin potential of a granitoid, and for indicating the direction of crystallization of the magma, and hence the location of possible ore.
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References
Bailey, J. C.: Fluorine in granitic rocks: a review. Chem. Geol. 19, 1–42 (1977)
Brooks, C.: The rubidium-strontium ages of some Tasmanian igneous rocks. J. geol. Soc. Aust. 13, 457–469 (1966)
Brooks, C., Compston, W.: The age and initial 87Sr/86Sr of the Heemskirk Granite, Western Tasmania. J. Geophy. Res. 70, 6249–6262 (1965)
Button, A.: Stratigraphy and relations of the Bushveld floor in the eastern Transvaal. Geol. Soc. S. Afr., Trans. 79, 1–12 (1976)
Cousins, C. A.: The structure of the mafic portion of the Bushveld Igneous Complex. Geol. Soc. S. Afr. Trans. 62, 179–201 (1959)
Davies, R. D., Allspp, H., Erlank, A. J., Manton, W. I.: Sr isotopic studies on various layered intrusions in southern Africa. Geol. Soc. S. Afr. Spec. Pub. 1., (editors D. J. L. Visser and G. von Gruenwaldt) 576–593 (1970)
De Waal, S. A.: The Bushveld granites in the Zaaiplaats area. Geol. Soc. S. Afr. Trans. 75, 135–148 (1972)
Fourie, P. J.: Die geochemie van granitiese gesteentes van die Bosveldstollingskompleks. Unpubl. D. Sc. Thesis. Univ. Pretoria. 289 pp (1969)
Gee, R. D., Groves, D. I.: Structural features and mode of emplacement of part of the Blue Tier Batholith in north-east Tasmania. J. geol. Soc. Aust. 18, 41–56 (1971)
Groves, D. I.: The geochemical evolution of tin-bearing granites in the Blue Tier Batholith, Tasmania. Econ. Geol. 67, 445–457 (1972a)
- The zoned mineral deposits of the Scamander — St. Helens district. Geol. Surv. Tasm. Bull. 53, (1972b)
- The geology, geochemistry and mineralization of the Blue Tier Batholith in The Blue Tier Batholith. Geol. Surv. Tasm. Bull. 55, (1977)
Groves, D. I., Martin, E. L., Murchie, H., Wellington, H. K.: A century of tin mining at Mount Bischoff, 1871–1971. Geol. Surv. Tasm. Bull. 54, (1972)
Groves, D. I., Taylor, R. G.: Greisenization and mineralization at Anchor tin mine, northeast Tasmania. Trans. Instn. Mining Metall. 82B, 135–146 (1973)
Hamaguchi, H., Kuroda, R.: Tin in Handbook of Geochemistry. II-2. Berlin-Heidelberg-New York: Springer 1970
Harris, P. G., Kennedy, W. Q. and Scarfe, C. M.: Volcanism versus plutonism — the effect of chemical composition. In Mechanism of igneous intrusion (Ed. G. Newall and N. Rast) 187–200 (1970)
Hosking, K. F. G.: The primary tin deposits of South-east Asia. Min. Sci. Eng. 2, 24–50 (1970)
Hunter, D. A.: Some enigmas of the Bushveld Complex. Econ. Geol. 71, 229–248 (1976)
Hunter, D. R., Lenthall, D. H.: A preliminary review of tin mineralization with particular reference to the Bushveld Igneous Complex. Econ. Geol. Res. Unit. Univ. Wits. Inf. Circ. 61, (1971)
Itsikson, M. I.: The distribution of tinore deposits within folded zones. Int. Geol. Rev. 2, 397–417 (1960)
Jahns, R. H., Burnham, C. W.: Experimental studies of pegmatite genesis: I. A model for the derivation and crystallization of granitic pegmetities. Econ. Geol. 64, 843–864 (1969)
Klomínský, J., Absolonová, E.: Geochemistry of the Karlovy Vary granite massif (Czechoslovakia). I. G. C. P. Symposium, M. A. W. A. M., 1, 189–196 (1974)
Leaman, D. E., Symonds, P. A.: Gravity survey of North-eastern Tasmania. Geol. Surv. Tasm. Pap. 2, (1975)
Liebenberg, L.: The sulphides in the layered sequence of the Bushveld Igneous Complex. Spec. Pub. Geol. Soc. S. Afr. (ed. D. J. L. Visser and A. van Gruenewaldt) 1, (1970)
McCarthy, T. S.: The crystallization of a granitic melt as deduced from Ba distribution. Submitted to Trans. geol. Soc. S. Afr. (1977)
McCarthy, T. S. and Groves, D. I.: The geology and geochemistry of the Blue Tier Batholith. In preparation
McCarthy, T. S., Hasty, R. A.: Trace element distribution patterns and their relationship to the crystallization of granitic melts. Geochim. Cosmochim. Acta. 40, 1351–1358 (1976)
McDougall, I., Leggo, P. J.: Isotopic age determinations on granitic rocks from Tasmania. J. geol. Soc. Aust. 12, 295–332 (1965)
Mitchell, A. H. G., Garson, M. S.: Relationship of porphyry copper and circum-Pacific tin deposits to palaeo-Benioff zones. Trans. Instn. Mining Metall. 81B, 10–25 (1972)
Reid, A. M., Henderson, Q. J.: Blue Tier tin field. Geol. Surv. Tasm. Bull. 38 (1928)
Rhodes, R. C.: Petrochemical characteristics of Bushveld granite and Rooiberg felsite. Geol. Soc. S. Afr. Trans. 77, 93–98 (1974)
Richards, J. R., White, D. A., Webb, A. W., Branch, C. D.: Isotopic ages of acid igneous rocks in the Cairns Hinterland, north Queensland. Bull. Bur. Min. Res. Aust. 88, (1966)
Schuiling, R. D.: Tin belts on the continents around the Atlantic Ocean. Econ. Geol. 62, 540–550 (1967)
Sillitoe, R. H., Halls, C., Grant, J. N.: Porphyry tin deposits in Bolivia. Econ. Geol. 70, 913–927 (1975)
Solomon, M., Groves, D. I., Klomínský, J.: Metallogenic provinces and districts in the Tasman orogenic zone of eastern Australia. Proc. Australas. Inst. Mining Metall. 242, 9–24 (1972)
Stemprok, M., Sulcek, Z.: Geochemical profile through an ore-bearing lithium granite. Econ. Geol., 64, 392–404 (1969)
Strauss, C. A.: The geology and mineral deposits of the Potgietersrus Tinfields. Mem. Geol. Surv. S. Afr. 46, 241 pp. (1954)
Strauss, C. A. and Truter, F. C.: The Bushveld granites of the Zaaiplaats Tin Mining area. Geol. Soc. S. Afr. Trans. 47, 47–78 (1944)
Taylor, R. G.: Metallogenic provinces as an approach to the problems of classification and genesis of tin deposits with special reference to Eastern Australia. I. G. C. P. Symposium, M. A. W. A. M., 1, 71–79 (1974)
— Porphyry tin deposits in Bolivia: Discussion. Econ. Geol. 71, 1064–1065 (1976)
Thomas, D. E.: The Blue Tier tinfield in Edwards, A. B. (ed.): Geology of Australian ore deposits, 5th Emp. Mining Metall. Congr. 1, 1213–1221 (1953)
Tischendorf, G.: The metallogenetic basis of tin exploration in the Erzgebirge. Trans. Instn. Mining Metall. 82B, 9–24 (1973)
- Geochemical and petrographic characteristics of silicic magmatic rocks associated with rare element mineralization. I. G. C. P. Symposium, M. A. W. A. M., 2 (1977)
Turneure, F. S.: The Bolivian tin-silver province. Econ. Geol. 66, 215–225 (1971)
Van der Merwe, M. J.: The layered sequence of the Potgietersrus limb of the Bushveld Complex. Econ. Geol. 71, 1337–1351 (1976)
Vermaak, C. F.: The geology of the lower portion of the Bushveld Complex and its relationship to the floor rocks in the area west of the Pilanesberg, western Transvaal. Spec. Pub. Geol. Soc. S. Afr. 1 (ed. D. J. L. Visser and A. von Gruenewaldt). 242–265 (1970)
— The nickel pipes of Vlakfontein and vicinity, western Transvaal. Econ. Geol. 71, 261–286 (1976)
Webb, E. A., McDougall, I.: The geochronology of the igneous rocks of Eastern Queensland. J. geol. Soc. Aust. 15, 313–346 (1968)
Willemse, J.: A brief outline of the geology of the Bushveld Igneous Complex. In Haughton, S. H. The geology of some ore deposits in southern Africa. Geol. Soc. S. Afr. 2, 91–128 (1964)
— The geology of the Bushveld Igneous Complex, the largest repository of magmatic ore deposits in the world. In: Wilson, H. D. B. ed. Magmatic ore deposits: Econ. Geol. Mem. 4, 1–22 (1969)
Wolhuter, L. E.: Major and trace elements in the Opemisca Lake granite pluton, Quebec, Canada. Geol. Soc. S. Afr. Spec. Pub. 3, 387–410 (1973)
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Groves, D.I., McCarthy, T.S. Fractional crystallization and the origin of tin deposits in granitoids. Mineral. Deposita 13, 11–26 (1978). https://doi.org/10.1007/BF00202905
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DOI: https://doi.org/10.1007/BF00202905