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Geological mapping and sampling of sediment-hosted copper-silver mineralization in NE Colombia identified the association of the Astronium graveolens tree (Diomate Gusanero) with the elevated presence of copper (up to 317 ppm) and silver (up to 24 ppm) in plant ash. During the dry season, when most plants lose their leaves, young Astronium graveolens seedlings growing along copper sulfide-rich showings retain their green foliage. This observation allowed authors to effectively use this plant as an exploration guide in search for copper mineralization and Astronium graveolens can be potentially considered as a geobotanical indicator plant. The observed resistance of Astronium graveolens to the presence of copper sulfides suggests that this tree could be also a potential excellent species for reforestation and reclamation of tailings and other mining waste.
Wydawca
Czasopismo
Rocznik
Tom
Strony
299--306
Opis fizyczny
Bibliogr. [26] poz., rys., tab.
Twórcy
autor
- Max Resource Corp., Vancouver, Canada
autor
- AGH University of Krakow, Faculty of Geology, Geophysics and Environmental Protection, Krakow, Poland
autor
- AGH University of Krakow, Faculty of Geology, Geophysics and Environmental Protection, Krakow, Poland
autor
- Max Resource Corp., Vancouver, Canada
- Max Resource Corp., Vancouver, Canada
Bibliografia
- Araujo M.A., Leite M.C.M., Camargos L.S. & Martins A.R., 2020. Tolerance evaluation and morphophysiological responses of Astronium graveolens, a native Brazilian Cerrado, to addition of lead in soil. Ecotoxicology and Environmental Safety, 195, 110524. https://doi.org/10.1016/j.ecoenv.2020.110524.
- Beard J.S., 1975. The vegetation survey of Western Australia. Vegetatio, 30(3), 179–187. https://doi.org/10.1007/BF02389706.
- Brummer J.J. & Woodward G.D., 1999. A history of ‘Zambian copper flower’ Beciumcentraficanum (B. homblei). Journal of Geochemical Exploration, 65(2), 33–140. https://doi.org/10.1016/S0375-6742(98)00068-5
- Caceres C.H., Camacho R. & Reyes J., 1980. Guidebook to the geology of the Ranchería Basin. [in:] Geotec (ed.), Geological field-trips, Colombia 1980–1981, Asociacion Colombiana de Geólogos y Geofísicos del Petroleo, Bogotá, 1–31.
- Cannon H.L., 1957. Description of Indicator Plants and Methods of Botanical Prospecting for Uranium Deposits on the Colorado Plateau a Contribution to the Geology of Uranium. United States Geological Survey Bulletin, 1030 –M, 399–516. https://doi.org/10.3133/b1030M.
- Cannon H.L., 1960. Botanical prospecting for ore deposit. Science, New Series, 132(3427), 591–598. http://www.jstor.org/stable/1705054.
- Cediel F., Shaw R.P. & Caceres C., 2003. Tectonic assembly of the Northern Andean Block. [in:] Bartolini C., Buffler R.T. & Blickwede J. (eds.), The Circum-Gulf of Mexico and the Caribbean: Hydrocarbon Habitats, Basin Formation, and Plate Tectonics, AAPG Memoir, 79, American Association of Petroleum Geologists, 815–848.
- Cochrane G.R., 1963. A physiognomic vegetation map of Australia. Journal of Ecology, 51(3), 639–656. https://doi.org/10.2307/2257752.
- Dunn C., 2007. Biochemistry in Mineral Exploration. Handbook of Exploration and Environmental Geochemistry, 9, Elsevier Science. https://doi.org/10.1016/S1874-2734(07)09001-8.
- Forero A., 1970. Estratigrafía del Precretácico en el flanco occidental de la Serranía de Perijá. Geología Colombiana, 7, 7–78.
- Frietsch R., Tuisku P., Martinsson O., Perdahl J.-A., 1997. Early Proterozoic Cu-(Au) and Fe ore deposits associated with regional Na-Cl metasomatism in northern Fennoscandia. Ore Geology Reviews, 12(1), 1–34. https://doi.org/10.1016/S0169-1368(96)00013-3.
- Godin L., 1976. Viscaria – en ny kopparmineralisering i Kirunagrönstenen. [in:] Svensson C. (ed.), Abstracts: XII Nordiska Geologvintermötet, Göteborg, 7–10 januari 1976, Geologiska institutionen, Chalmers tekniska högskola och Göteborgs, Göteborg, 17.
- Gregory R.P. & Bradshaw A.D., 1965. Heavy metal tolerance in populations of Agrostis tenuis Sibth. and other grasses. New Phytologist, 64(1), 131–143. https://doi.org/10.1111/j.1469-8137.1965.tb05381.x.
- Hallberg A., Bergman T., Gonzalez J., Morris G.A., Perdahl J.A., Reginiussen H. & Ripa M., 2016. Sweden. [in:] Boyd R., Bjerkgård T., Nordahl B. & Schiellerup H. (eds.), Mineral Resources in the Arctic: An Introduction, Geological Survey of Norway Special Publication, NGU – Geological Survey of Norway, 260–315.
- Hernandez R., Ramirez V. & Reyes J., 2003. Evolución Geohistórica de las Cuencas del Norte de Colombia. [in:] VIII Simposio Bolivariano – Exploración petrolera en las Cuencas Subandinas, Cartagena de Indias, Colombia, setiembre 21-24, 2003: Memorias, 2, Asociación Colombiana de Geólogos y Geofísicos del Petróleo, 256–263. https://doi.org/10.3997/2214-4609-pdb.33.Paper79.
- Lee J., Jonasson I.R. & Goodfellow W.D. & 1984. Metal accumulation by bryophytes in some zinc-rich blanket bogs, Selwyn Mountains, Yukon Territory. Canadian Journal of Botany, 62, 722–728. https://doi.org/10.1139/b84-105.
- Lugo J. & Mann P., 1995. Jurassic-Eocene Tectonic Evolution of Maracaibo Basin, Venezuela. [in:] Tankard A.J., Suarez R. & Welsink H.J. (eds.), Petroleum Basins of South America, AAPG Memoir, 62, American Association of Petroleum Geologists, 699–725. https://doi.org/10.1306/M62593C38
- Martin W.A. & Flores E.M., 2003. Astronium graveolens Jacq. [in:] Vozzo J.A. (ed.), Tropical Tree Seed Manual, Agriculture Handbook, 721, U.S. Department of Agriculture, Forest Service, 311–314.
- Martinsson O. & Wanhainen C. (eds.), 2013. Mineral Deposit Research for a High-tech World: Excursion Guidebook. Fe oxide and Cu-Au deposits in the northern Norrbotten ore district. Excursion held 16–20 August 2013. SWE5. Sveriges geologiska undersökning, Uppsala.
- Mora A. & Garcia A., 2006. Cenozoic tectono-stratigraphic relationships between the Cesar Sub-Basin and the Southeastern Lower Magdalena valley basin of Northern Colombia. [in:] Annual Convention of the American Association of Petroleum Geologists 2006: Perfecting the Search – Delivering on Promises, April 9–12, 2006, Houston, Texas, USA, American Association of Petroleum Geologists, 402–407.
- Nordal I., Haraldsen K.B., Ergon A. & Eriksen A.B., 1999. Copper resistance and genetic diversity in Lychnis alpina (Caryopphyllaceae) population on mining sites. Folia Geobotanica, 34, 471–481. https://doi.org/10.1007/BF02914923.
- Reilly C., 1969. The uptake and accumulation of copper by Becium Homblei (De Wild.) Duvig. and Plancke. New Phytologist, 68(4), 1081–1087. https://www.jstor.org/stable/2430272.
- Roman F., De Liones E., Sautu A., Deago J. & Hall J.S., 2012. Guía para la Propagación de 120 Especies de Árboles Nativos de Panamá y el Neotrópico. Smithsonian Tropical Research Institute & Environmental Leadership and Training Initiative, Ciudad de Panamá.
- Sanchez J. & Mann P., 2015. Integrated structural and basinal analysis of the Cesar-Ranchería Basin, Colombia: Implications for it is tectonic history and petroleum systems. [in:] Bartolini C. & Mann P. (eds.), Petroleum Geology and Potential of the Colombian Caribbean Margin, AAPG Memoir, 108, American Association of Petroleum Geologists, 431–470. https://doi.org/10.1306/M1081307.
- Spikings R., Cochrane R., Villagomez D., Van der Lelij R., Vallejo C., Winkler W. & Beate B., 2015. The geological history of northwestern South America: from Pangaea to the early collision of the Caribbean Large Igneous Province (290–75 Ma). Gondwana Research, 27(1), 95–139. https://doi.org/10.1016/j.gr.2014.06.004.
- Ujueta G. & Llinas R., 1990. Reconocimiento geológico de la parte más Septentrional de la Sierra de Perijá. Geología Colombiana, 17, 197–209.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a65008cc-27d5-4b5c-a5cf-963e9764b295
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