Rare-earth element geochemistry of banded iron formations and associated amphibolite from the Sargur belts, south India

Journal of Southeast Asian earth sciences Pub Date : 1996-10-01 DOI:10.1016/S0743-9547(96)00054-2

Yasuhiro Kato , Takanori Kawakami , Takashi Kano , Keitaro Kunugiza , N.S. Swamy

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引用次数: 41

Abstract

Major and rare-earth elements (REE) of banded iron formations (BIFs) and associated amphibolite from the Sargur belts, the oldest schist belts in the Dharwar craton, were determined by X-ray fluorescence and inductively coupled plasma mass spectrometry (ICP-MS). The chondrite-normalized REE patterns of BIFs are light REE-enriched with a striking positive Eu anomaly, resembling those of modern hydrothermal solutions from the mid-oceanic ridge. Amphibolite is flat and chondritic in the REE plot. The $Al_{2} O_{3} TiO_{2}$ ratio of BIFs is about the same as that of amphibolite and is different from that of terrigenous clastics. These facts suggest that the BIFs were of hydrothermal origin and had a genetic relation to amphibolite, which may have originated from the Archaean mid-oceanic ridge basalt. Subtle negative or no Ce anomaly of BIFs indicates that contemporary seawater was less oxic than today.

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印度南部萨格带带状铁地层及其角闪岩的稀土元素地球化学

采用x射线荧光和电感耦合等离子体质谱(ICP-MS)对达瓦尔克拉通最古老片岩带Sargur带的带状铁层及其角闪岩进行了主稀土元素(REE)测定。其球粒陨石归一化稀土模式为轻稀土富集模式，具有明显的正Eu异常，与洋中脊现代热液异常相似。角闪石呈扁平球粒状。bif碎屑的al2o3 - tio2比值与角闪岩基本相同，与陆源碎屑的al2o3 - tio2比值不同。这些事实表明该裂口为热液成因，与角闪岩有成因关系，角闪岩可能起源于太古宙洋中脊玄武岩。bif的细微负Ce异常或无Ce异常表明当代海水的含氧量低于今天。

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Journal of Southeast Asian earth sciences

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