Salaam Jansbaka Adams , Emmanuel Daanoba Sunkari , John Emmanuel Kobina Hanson , Kingsley Kwaah Tandoh , Samuel Edem Kodzo Tetteh , Prosper Mackenzie Nude , Daniel Kwadwo Asiedu , Samuel Boakye Dampare
{"title":"加纳南部温尼巴-曼科阿泽伟晶岩的地球化学:伟晶岩岩石成因的线索","authors":"Salaam Jansbaka Adams , Emmanuel Daanoba Sunkari , John Emmanuel Kobina Hanson , Kingsley Kwaah Tandoh , Samuel Edem Kodzo Tetteh , Prosper Mackenzie Nude , Daniel Kwadwo Asiedu , Samuel Boakye Dampare","doi":"10.1016/j.oreoa.2024.100051","DOIUrl":null,"url":null,"abstract":"<div><p>The Birimian Supergroup (2195–2135 Ma) of Ghana was affected by the Eburnean Tectono-thermal Event at approximately 2195 Ma. The latest stage of this event resulted in pegmatitic veining in the Birimian Supergroup of Ghana at 2072 Ma. Deposits of pegmatites have been reported by many researchers in the south-western coast of Ghana. However, their mineralogy and economic potential remain fully unexplored. This study determined the geochemical characteristics and mineralogical composition of the pegmatites in the Winneba-Mankoadze area using field observations, petrographic studies, and major and trace element data. From the field work and petrographic data, the pegmatites can be classified as rare-element type, LCT family. The modal composition of the major minerals are spodumene (0.0–30.0 %), muscovite (0.0–20.0 %), garnet (0.0–5.0 %), microcline (0.0–20.0 %), plagioclase (6.0–70.0 %), and quartz (20.0–85.0 %). The geochemical data indicates that the pegmatites are enriched in Rb (2.8–3465 ppm), Cr (22–1803 ppm), Sr (1.2–314 ppm), Ba (13–501 ppm) and the light rare-earth elements (LREE). The pegmatites are highly fractionated accounting for the enrichment in the LREE than the MREE and HREE. They are also depleted in K and Ti. The pegmatites are peraluminous with calc-alkaline trend and are late-orogenic to post-orogenic. Therefore, the source of the pegmatites is the Birimian meta-sedimentary rocks, and the source lithology is upper-to-middle crust supracrustal rocks.</p></div>","PeriodicalId":100993,"journal":{"name":"Ore and Energy Resource Geology","volume":"17 ","pages":"Article 100051"},"PeriodicalIF":0.0000,"publicationDate":"2024-04-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Geochemistry of the Winneba-Mankoadze pegmatites in Southern Ghana: A clue to the petrogenesis of the pegmatites\",\"authors\":\"Salaam Jansbaka Adams , Emmanuel Daanoba Sunkari , John Emmanuel Kobina Hanson , Kingsley Kwaah Tandoh , Samuel Edem Kodzo Tetteh , Prosper Mackenzie Nude , Daniel Kwadwo Asiedu , Samuel Boakye Dampare\",\"doi\":\"10.1016/j.oreoa.2024.100051\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>The Birimian Supergroup (2195–2135 Ma) of Ghana was affected by the Eburnean Tectono-thermal Event at approximately 2195 Ma. The latest stage of this event resulted in pegmatitic veining in the Birimian Supergroup of Ghana at 2072 Ma. Deposits of pegmatites have been reported by many researchers in the south-western coast of Ghana. However, their mineralogy and economic potential remain fully unexplored. This study determined the geochemical characteristics and mineralogical composition of the pegmatites in the Winneba-Mankoadze area using field observations, petrographic studies, and major and trace element data. From the field work and petrographic data, the pegmatites can be classified as rare-element type, LCT family. The modal composition of the major minerals are spodumene (0.0–30.0 %), muscovite (0.0–20.0 %), garnet (0.0–5.0 %), microcline (0.0–20.0 %), plagioclase (6.0–70.0 %), and quartz (20.0–85.0 %). The geochemical data indicates that the pegmatites are enriched in Rb (2.8–3465 ppm), Cr (22–1803 ppm), Sr (1.2–314 ppm), Ba (13–501 ppm) and the light rare-earth elements (LREE). 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引用次数: 0
摘要
加纳的比里勉超群(2195-2135 Ma)在大约 2195 Ma 时受到埃伯恩构造热事件的影响。这一事件的最新阶段导致加纳比里米亚超群在 2072 年出现伟晶岩脉。加纳西南海岸的许多研究人员都报告了伟晶岩矿床。然而,它们的矿物学和经济潜力仍未得到充分勘探。本研究通过实地观察、岩相学研究以及主要和微量元素数据,确定了温内巴-曼科阿泽地区伟晶岩的地球化学特征和矿物组成。根据野外工作和岩石学数据,伟晶岩可归类为稀有元素型 LCT 家族。主要矿物的模态成分为橄榄石(0.0-30.0%)、黝帘石(0.0-20.0%)、石榴石(0.0-5.0%)、微晶石(0.0-20.0%)、斜长石(6.0-70.0%)和石英(20.0-85.0%)。地球化学数据表明,伟晶岩富含 Rb(2.8-3465 ppm)、Cr(22-1803 ppm)、Sr(1.2-314 ppm)、Ba(13-501 ppm)和轻稀土元素(LREE)。伟晶岩的分馏程度很高,因此 LREE 元素的富集程度高于 MREE 和 HREE 元素。它们的 K 和 Ti 含量也很低。伟晶岩为过铝质,有钙碱性趋势,属于晚成因至后成因。因此,伟晶岩的成因是桦甸元沉积岩,成因岩性为中上地壳超壳岩。
Geochemistry of the Winneba-Mankoadze pegmatites in Southern Ghana: A clue to the petrogenesis of the pegmatites
The Birimian Supergroup (2195–2135 Ma) of Ghana was affected by the Eburnean Tectono-thermal Event at approximately 2195 Ma. The latest stage of this event resulted in pegmatitic veining in the Birimian Supergroup of Ghana at 2072 Ma. Deposits of pegmatites have been reported by many researchers in the south-western coast of Ghana. However, their mineralogy and economic potential remain fully unexplored. This study determined the geochemical characteristics and mineralogical composition of the pegmatites in the Winneba-Mankoadze area using field observations, petrographic studies, and major and trace element data. From the field work and petrographic data, the pegmatites can be classified as rare-element type, LCT family. The modal composition of the major minerals are spodumene (0.0–30.0 %), muscovite (0.0–20.0 %), garnet (0.0–5.0 %), microcline (0.0–20.0 %), plagioclase (6.0–70.0 %), and quartz (20.0–85.0 %). The geochemical data indicates that the pegmatites are enriched in Rb (2.8–3465 ppm), Cr (22–1803 ppm), Sr (1.2–314 ppm), Ba (13–501 ppm) and the light rare-earth elements (LREE). The pegmatites are highly fractionated accounting for the enrichment in the LREE than the MREE and HREE. They are also depleted in K and Ti. The pegmatites are peraluminous with calc-alkaline trend and are late-orogenic to post-orogenic. Therefore, the source of the pegmatites is the Birimian meta-sedimentary rocks, and the source lithology is upper-to-middle crust supracrustal rocks.
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