Mutele, Litshedzani, Billay, Alazar, Hunt, John Paul (2017) Knowledge-Driven Prospectivity Mapping for Granite-Related Polymetallic Sn–F–(REE) mineralization, Bushveld Igneous Complex, South Africa. Natural Resources Research, 26 (4) 535-552 doi:10.1007/s11053-017-9325-8

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

	Absolom, S. (1986). The buffalo fluorspar deposit, Naboomspruit district. In C. R. Anhaeusser & S. Maske (Eds.), Mineral deposits of South Africa (Vol. II, pp. 1337–1341). Johannesburg: Geological Society of Southern Africa.
	Bailie, R.H., Robb, L.J. (2004) Polymetallic mineralization in the granites of the Bushveld Complex - examples from the central southeastern lobe. South African Journal of Geology, 107 (4) 633-652 doi:10.2113/gssajg.107.4.633
	Bonham-Carter, G. F. (1994). Geographic information systems for geoscientists: Modelling with GIS. Oxford: Pergamon.
	Borrok, David M., Kelser, Stephen E., Boer, Rudolf H., Essene, Eric J. (1998) The Vergenoeg magnetite-fluorite deposit, South Africa; support for a hydrothermal model for massive iron oxide deposits. Economic Geology, 93 (5) 564-586 doi:10.2113/gsecongeo.93.5.564
	Carranza, E. J. M. (2008). Geochemical anomaly and mineral prospectivity mapping in GIS. Handbook of exploration and environmental geochemistry (p. 368). Amsterdam.: Elsevier.
	Carranza, Emmanuel John M., Hale, Martin (2001) Natural Resources Research, 10 (2) Springer Science and Business Media LLC. 125-136 doi:10.1023/a:1011500826411
	Cawthorn, R. G., Eales, H. V., Walraven, F., Uken, R., & Watkeys, M. K. (2006). The bushveld complex. In M. R. Johnson, C. R. Anhaeusser, & R. J. Thomas (Eds.), The geology of South Africa (pp. 261–281). Johannesburg: Council for Geoscience.
	Champion, A.T. (1970). The mineralogy and related geology of the Albert Silver Mine, Bronkhorstspruit, Transvaal. Unpublished M.Sc. Thesis, University of Natal, p. 96.
	Not Yet Imported: Nonrenewable Resources - journal-article : 10.1007/BF02272809 If you would like this item imported into the Digital Library, please contact us quoting Journal ID 59624
	Coetzee, J.C. (1984). A geochemical and petrographical investigation of the low-grade tin deposit in the Bobbejaankop Granite at the Zaaiplaats Tin Mine. Unpublished M.Sc thesis, University of Pretoria, p. 126.
	Coetzee, J. C. (1986). The Lease Granite—a granophyric, miarolitic mineralised granite at the apical region of tin-tungsten system, Transvaal. Geological Society of South Africa, 89, 335–345.
	Crocker, I.T. (1976). Fluorite mineralization in the Bushveld granites southeast of Rooiberg, Transvaal. Unpubl. M. Sc thesis, Univ. Stellenbosch, pp 118.
	Crocker, I. T. (1979). Metallogenic aspects of the Bushveld granites: fluorite, tin and associated rare-metal carbonate mineralisation. Spec. Publ. Geol Soc. S. Afr., 5, 275–295.
	Crocker, I. T., Eales, H. V., & Ehlers, D. L. (2001). The fluorite, cassiterite and sulphide deposits associated with the acid rocks of the Bushveld complex. Memoir of the Council for Geoscience, 90, 151.
	Crocker, I. T., Martini, J. E. J., & Söhnge, A. P. G. (1988). The fluorspar deposits of the Republics of South Africa and Bophuthatswana. Geological Survey of South Africa Handbook, 11, 172.
	De Graaf, L. (1982). Regional geological and geochemical studies of the acid phase of the Bushveld Complex in the search for tin. Unpublished Ph.D thesis, University of Bristol, p. 306.
	de Quadros, Telmo F. P., Koppe, Jair C., Strieder, Adelir J., Costa, João F. C. L. (2006) Mineral-Potential Mapping: A Comparison of Weights-of-Evidence and Fuzzy Methods. Natural Resources Research, 15 (1) 49-65 doi:10.1007/s11053-006-9010-9
	DuToit, M. C., & Pringle, I. C. (1998). Tin. In M. G. C. Wilson & C. R. Anhaeusser (Eds.), The mineral resources of South Africa (pp. 613–620). Johannesburg: Handbook of the Council for Geoscience.
	Elliott, B. A., Verma, R., Kyle, J. R. (2016) Prospectivity Modeling for Cambrian–Ordovician Hydraulic Fracturing Sand Resources Around The Llano Uplift, Central Texas. Natural Resources Research, 25 (4) 389-415 doi:10.1007/s11053-016-9291-6
	Ford, Arianne, Miller, John M., Mol, Augusto G. (2016) A Comparative Analysis of Weights of Evidence, Evidential Belief Functions, and Fuzzy Logic for Mineral Potential Mapping Using Incomplete Data at the Scale of Investigation. Natural Resources Research, 25 (1) 19-33 doi:10.1007/s11053-015-9263-2
	Freeman, L.A. (1998). The nature of hydrothermal fluids associated with granite-hosted polymetallic mineralisation in the eastern lobe of the Bushveld Complex. Unpubl. PhD thesis, Univ Wits, Jhb, pp. 333
	Graedel, T. E., Gunn, G., & Tercero, E. (2014). Metal resources, use and criticality. In G. Gunn (Ed.), Critical metal handbook (p. 439). Hoboken: Wiley.
	Graupner, Torsten, Mühlbach, Caroline, Schwarz-Schampera, Ulrich, Henjes-Kunst, Friedhelm, Melcher, Frank, Terblanche, Hennie (2015) Mineralogy of high-field-strength elements (Y, Nb, REE) in the world-class Vergenoeg fluorite deposit, South Africa. Ore Geology Reviews, 64. 583-601 doi:10.1016/j.oregeorev.2014.02.012
	Groves, D.I., McCarthy, T.S. (1978) Fractional crystallization and the origin of tin deposits in granitoids. Mineralium Deposita, 13 (1) doi:10.1007/bf00202905
	Hagemann, S.G., Lisitsin, V.A., Huston, D.L. (2016) Mineral system analysis: Quo vadis. Ore Geology Reviews, 76. 504-522 doi:10.1016/j.oregeorev.2015.12.012
	Hall, M., & Liebenberg, L. (2011). Mokopane Tin Project, South Africa: independent technical report. pp. 379
	Hartzer, F. J. (1994). Geology of transvaal inliers in the Bushveld Complex (p. 222). Memoire: Council for Geoscience.
	Hoshino, M., Watanabe, Y., Moritz, R., Ovtcharova, M., Spangenberg, J., & Putlitz., B. (2014) Magmatic, hydrothermal and weathering REE mineralization of the Blokspruit fluorite prospect, Bushveld granitic complex, South Africa. In Symposium 2: Mineralogy, Petrology, Geochemistry. Swiss Society of Mineralogy and Petrology (SSMP)
	Hunt, J.P. (2005). Geological characteristics of Iron Oxide Copper Gold (IOCG) type mineralisation in the Western Bushveld Complex. Unpublished M.Sc. Thesis. University of the Witwatersrand, pp. 250
	Huston, David L., Mernagh, Terrence P., Hagemann, Steffen G., Doublier, Michael P., Fiorentini, Marco, Champion, David C., Lynton Jaques, A., Czarnota, Karol, Cayley, Ross, Skirrow, Roger, Bastrakov, Evgeniy (2016) Tectono-metallogenic systems — The place of mineral systems within tectonic evolution, with an emphasis on Australian examples. Ore Geology Reviews, 76. 168-210 doi:10.1016/j.oregeorev.2015.09.005
	Kinnaird, J.A., Kruger, F.J., & Cawthorn, R.G. (2003). An isotopic study of Fluorite related to the granites of the Bushveld Complex. Information circular no. 373, Economic Geology Research Institute Hugh Allsopp Laboratory, University of the Witwatersrand, Johannesburg, pp. 22.
	Kinnaird, J. A. (2004) Rb-Sr and Nd-Sm isotopes in fluorite related to the granites of the Bushveld Complex. South African Journal of Geology, 107 (3) 413-430 doi:10.2113/107.3.413
	KLEEMANN, G. J., TWIST, D. (1989) The Compositionally-zoned Sheet-like Granite Pluton of the Bushveld Complex: Evidence Bearing on the Nature of A-type Magmatism. Journal of Petrology, 30 (6) 1383-1414 doi:10.1093/petrology/30.6.1383
	Kreuzer, O. P., Etheridge, M. A., Guj, P., McMahon, M. E., Holden, D. J. (2008) Linking Mineral Deposit Models to Quantitative Risk Analysis and Decision-Making in Exploration. Economic Geology, 103 (4) 829-850 doi:10.2113/gsecongeo.103.4.829
	Labuschagne, L. S. (2004). Evolution of the ore–forming fluids in the Rooiberg Tin Field, South Africa. Memoir of the Council for Geoscience, South Africa, 96, 126.
	Lenthall, D.H., & Hunter, D.R. (1977). The geology, petrography and geochemistry of the Bushveld granites and felsites in the Potgietersrust tin field: Inform. Circular. Econ. Geol. Research Unit. University of Witwatersrand, 110, p. 91.
	Lisitsin, V.A., González-Álvarez, I., Porwal, A. (2013) Regional prospectivity analysis for hydrothermal-remobilised nickel mineral systems in western Victoria, Australia. Ore Geology Reviews, 52. 100-112 doi:10.1016/j.oregeorev.2012.04.001
	Lusty, P. A. J., Scheib, C., Gunn, A. G., Walker, A. S. D. (2012) Reconnaissance-Scale Prospectivity Analysis for Gold Mineralisation in the Southern Uplands-Down-Longford Terrane, Northern Ireland. Natural Resources Research, 21 (3) 359-382 doi:10.1007/s11053-012-9183-3
	McCuaig, T. Campbell, Beresford, Steve, Hronsky, Jon (2010) Translating the mineral systems approach into an effective exploration targeting system. Ore Geology Reviews, 38 (3) 128-138 doi:10.1016/j.oregeorev.2010.05.008
	McKay, G., Harris, J. R. (2016) Comparison of the Data-Driven Random Forests Model and a Knowledge-Driven Method for Mineral Prospectivity Mapping: A Case Study for Gold Deposits Around the Huritz Group and Nueltin Suite, Nunavut, Canada. Natural Resources Research, 25 (2) 125-143 doi:10.1007/s11053-015-9274-z
	McNaughton, N. J., Pollard, P. J., Groves, D. I., Taylor, R. G. (1993) A long-lived hydrothermal system in Bushveld granites at the Zaaiplaats tin mine; lead isotope evidence. Economic Geology, 88 (1) 27-43 doi:10.2113/gsecongeo.88.1.27
	Nykänen, V., Groves, D. I., Ojala, V. J., Eilu, P., Gardoll, S. J. (2008) Reconnaissance-scale conceptual fuzzy-logic prospectivity modelling for iron oxide copper – gold deposits in the northern Fennoscandian Shield, Finland. Australian Journal of Earth Sciences, 55 (1) 25-38 doi:10.1080/08120090701581372
	Ollila, J. T. (1984). The crystallisation of a tin-bearing granite suite. The Bushveld granites in the Zaaiplaats area, South Africa. Bullettin Geological Society, 56(1–2), 75–88.
	Not Yet Imported: - book : 10.1007/978-3-642-75671-9 If you would like this item imported into the Digital Library, please contact us quoting Book ID 9783642756733
	Pollard, P. J., Andrew, Anita S., Taylor, R. G. (1991) Fluid inclusion and stable isotope evidence for interaction between granites and magmatic hydrothermal fluids during formation of disseminated and pipe-style mineralization at the Zaaiplaats tin mine. Economic Geology, 86 (1) 121-141 doi:10.2113/gsecongeo.86.1.121
	Pollard, P. J., Taylor, R. G. (1986) Progressive evolution of alteration and tin mineralization; controls by interstitial permeability and fracture-related tapping of magmatic fluid reservoirs in tin granites. Economic Geology, 81 (7) 1795-1800 doi:10.2113/gsecongeo.81.7.1795
	Pollard, P. J., Taylor, R. G., Tate, N. M. (1989) Textural evidence for quartz and feldspar dissolution as a mechanism of formation for Maggs Pipe, Zaaiplaats tin mine, South Africa. Mineralium Deposita, 24 (3) 210-218 doi:10.1007/bf00206444
	Porwal, Alok, Carranza, E. J. M., Hale, M. (2003) Natural Resources Research, 12 (1) Springer Science and Business Media LLC. 1-25 doi:10.1023/a:1022693220894
	Pringle, I. C. (1986). The Zwartkloof fluorite deposit, Warmbaths district. In C. R. Anhaeusser & S. Maske (Eds.), Mineral deposits of South Africa (Vol. II, pp. 1343–1349). Johannesburg: Geological Society of Southern Africa.
	Not Yet Imported: Nonrenewable Resources - journal-article : 10.1007/BF01782265 If you would like this item imported into the Digital Library, please contact us quoting Journal ID 59624
	Robb, L. J. (2005). Introduction to ore-forming processes (p. 373). Hoboken: Blackwell.
	Robb, L. J., Freeman, L. A., Armstrong, R. A. (2000) Nature and longevity of hydrothermal fluid flow and mineralisation in granites of the Bushveld Complex, South Africa. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 91 (1). 269-281 doi:10.1017/s0263593300007434
	Robb, L. J., Robb, V. M., & Walraven, F. (1994). The Albert Silver Mine revisited: toward a model for polymetallic mineralisation in granites of the Bushveld Complex, South Africa. Exploration and Mining Geology, 3, 219–230.
	Rozendaal, A., Misiewicz, J.E., Scheepers, R. (1995) The tin zone: sediment-hosted hydrothermal tin mineralization at Rooiberg, South Africa. Mineralium Deposita, 30 (2) doi:10.1007/bf00189347
	Rozendaal, A., Toros, M. S., & Anderson, J. R. (1986). The Rooiberg tin deposits, west-central Transvaal. In C. R. Anhaeusser & S. Maske (Eds.), Mineral deposits of South Africa (Vol. II, pp. 1307–1327). Johannesburg: Geological Society of Southern Africa.
	Schürmann, L.W., & Harmer, R.E. (1998). Rare earth elements. In: Wilson, M.G.C., & Anhaeusser, C.R. (Eds.), The mineral resources of South Africa. Handbook of the Council for Geoscience, 16, pp. 259–266.
	Schweitzer, J. K., Hatton, C. J. (1995) Chemical alteration within the volcanic roof rocks of the Bushveld Complex. Economic Geology, 90 (8) 2218-2231 doi:10.2113/gsecongeo.90.8.2218
	Schweitzer, J. K., Hatton, C. J., & De Waal, S. A. (1995). Regional lithochemical stratigraphy of the Rooiberg Group, Upper Transvaal Supergroup: a proposed new subdivision. South African Journal of Geology, 98, 245–255.
	Smits, G. (1986). Hydrothermal copper mineralisation of the Rooibokkop-Boschhoek prospect, Eastern Bushveld Complex. In C. R. Anhaeusser & S. Maske (Eds.), Mineral deposits of South Africa (Vol. II, pp. 1329–1335). Johannesburg: Geological Society of Southern Africa.
	Strauss, C. A. (1954). The geology and mineral deposits of the Potgietersrus tin-fields. Geological Survey of South Africa Memior, 46, 241.
	Taylor, R. G., & Pollard, P. J. (1989). Pervasive hydrothermal alteration in tin-bearing granites and implications for the evolution of ore-bearing magmatic fluids. Canada Institute of Mining and Metallurgy Specification, 39, 86–95.
	Twist, David (1985) Geochemical evolution of the Rooiberg silicic lavas in the Loskop Dam area, southeastern Bushveld. Economic Geology, 80 (4) 1153-1165 doi:10.2113/gsecongeo.80.4.1153
	Venkataraman, G., Madhavan, B. Babu, Ratha, D. S., Antony, Joju P., Goyal, R. S., Banglani, S., Roy, S. Sinha (2000) Natural Resources Research, 9 (1) Springer Science and Business Media LLC. 27-42 doi:10.1023/a:1010157613023
	Von Gruenewaldt, Gerhard, Sharpe, Martin R., Hatton, Christopher J. (1985) The Bushveld Complex; introduction and review. Economic Geology, 80 (4) 803-812 doi:10.2113/gsecongeo.80.4.803
	Von Gruenewaldt, G., & Strydom, J. H. (1985). Geochemical distribution patterns surrounding tin-bearing pipes and the origin of the mineralizing fluids at the Zaaiplaats Tin Mine. Potgietersrus district, Economic Geology, 80, 1202–1211.
	Walraven, F. (1988). Notes on the age and genetic relationships of the Makhutso granite, Bushveld complex, South Africa. Chemical Geology, 72, 17–28.
	Walraven, F, Armstrong, R.A, Kruger, F.J (1990) A chronostratigraphic framework for the north-central Kaapvaal craton, the Bushveld Complex and the Vredefort structure. Tectonophysics, 171 (1) 23-48 doi:10.1016/0040-1951(90)90088-p
	Walraven, F., & Hattingh, E. (1993). Geochronology of the Nebo granite, Bushveld Complex. South African Journal of Geology, 96, 31–41.
	Wyborn, L.A.I., Heinrich, C.A., Jaques, A.L., 1994. Australian Proterozoic mineral systems: essential ingredients and mappable criteria (abs.). In: Hallenstein, P.C. (Ed.), Australian Mining Looks North—the Challenges and Choices. Australian Institute of Mining and Metallurgy Publication Series, vol. 5, pp. 109–115.
	Zadeh, L. A. (1965). Fuzzy sets. Institute of Electric and Electronic Engineering, Information and Control, 8, 338–353.

See Also

These are possibly similar items as determined by title/reference text matching only.

	Mutele, Litshedzani, Hunt, John Paul (2022) Investigation of hydrothermally altered “Mantos” zones in granites of the southwestern Bushveld complex, South Africa: Insight into their mode of formation and F-REE mineralisation. Journal of African Earth Sciences, 194. 104629 doi:10.1016/j.jafrearsci.2022.104629
	Tessema, Abera (2017) Mineral Systems Analysis and Artificial Neural Network Modeling of Chromite Prospectivity in the Western Limb of the Bushveld Complex, South Africa. Natural Resources Research, 26 (4) 465-488 doi:10.1007/s11053-017-9344-5
	Mutele, Litshedzani, Misra, Saumitra (2021) Geochemical evolution of the Lebowa Granite Pluton in western Bushveld Igneous Complex, South Africa: More insight into the evolution of bimodal A‐type granitoid. Geological Journal, 56 (7) 3557-3583 doi:10.1002/gj.4117
	Carranza, Emmanuel John M., Sadeghi, Martiya, Billay, Alazar (2015) Predictive mapping of prospectivity for orogenic gold, Giyani greenstone belt (South Africa) Ore Geology Reviews, 71. 703-718 doi:10.1016/j.oregeorev.2014.10.030
	Zuo, Renguang (2017) Machine Learning of Mineralization-Related Geochemical Anomalies: A Review of Potential Methods. Natural Resources Research, 26 (4) 457-464 doi:10.1007/s11053-017-9345-4
	Nykänen, V., Niiranen, T., Molnár, F., Lahti, I., Korhonen, K., Cook, N., Skyttä, P. (2017) Optimizing a Knowledge-driven Prospectivity Model for Gold Deposits Within Peräpohja Belt, Northern Finland. Natural Resources Research, 26 (4) 571-584 doi:10.1007/s11053-016-9321-4
	Yousefi, Mahyar (2017) Analysis of Zoning Pattern of Geochemical Indicators for Targeting of Porphyry-Cu Mineralization: A Pixel-Based Mapping Approach. Natural Resources Research, 26 (4) 429-441 doi:10.1007/s11053-017-9334-7
	Li, Tongfei, Xia, Qinglin, Zhao, Mengyang, Gui, Zhou, Leng, Shuai (2020) Prospectivity Mapping for Tungsten Polymetallic Mineral Resources, Nanling Metallogenic Belt, South China: Use of Random Forest Algorithm from a Perspective of Data Imbalance. Natural Resources Research, 29 (1) 203-227 doi:10.1007/s11053-019-09564-8
	Liu, Yue, Zhou, Kefa, Xia, Qinglin (2018) A MaxEnt Model for Mineral Prospectivity Mapping. Natural Resources Research, 27 (3) 299-313 doi:10.1007/s11053-017-9355-2
	Carranza, John (2017) Book Review. Natural Resources Research, 26 (2) 237-240 doi:10.1007/s11053-017-9326-7
	Carranza, Emmanuel John M. (2017) Natural Resources Research Publications on Geochemical Anomaly and Mineral Potential Mapping, and Introduction to the Special Issue of Papers in These Fields. Natural Resources Research, 26 (4) 379-410 doi:10.1007/s11053-017-9348-1