Geochemistry and genesis of the Lengenbach Pb-Zn-As-Tl-Ba-mineralisation, Binn Valley, Switzerland

Hofmann, Beda A.; Knill, M. D.

doi:10.1007/bf02280795

Cited by 66 publications

(42 citation statements)

References 44 publications

(41 reference statements)

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“…Cosmic dust, although insignificant compared to other fl uxes, is another potential source of dissolved oceanic thallium with a maximum concentration of 150 ng g -1 (13). In the world there are a few areas with naturally high thallium concentrations such as the southwestern Guizhou Province in China (16), Allchar mine in Kavadarci, Macedonia (17), Lengenbach in Switzerland (18), and Rotokawa in New Zealand (19).…”

Section: Natural Sourcesmentioning

confidence: 99%

Thallium Toxicity in Humans

Cvjetko

Pavlica

2010

Archives of Industrial Hygiene and Toxicology

166

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Thallium is a naturally occurring trace element, widely distributed in the earth's crust, but at very low concentrations. It does not have a known biological use and does not appear to be an essential element for life. It has been considered one of the most toxic heavy metals. Occasionally, there are reports on thallium poisoning as results of suicide or murder attempt or accident. The main threat to humans is through occupational exposure, environmental contamination, and accumulation in food, mainly in vegetables grown on contaminated soil. Increasing use in emerging new technologies and demanding high-tech industry constantly raise concern about exposure risk to all living organisms. Thallium is considered a cumulative poison that can cause adverse health effects and degenerative changes in many organs. The effects are the most severe in the nervous system. The exact mechanism of thallium toxicity still remains unknown, although impaired glutathione metabolism, oxidative stress, and disruption of potassium-regulated homeostasis may play a role. The lack of data about mutagenic, carcinogenic, or teratogenic effects of thallium compounds in humans calls for further research.

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Section: Natural Sourcesmentioning

confidence: 99%

Thallium Toxicity in Humans

Cvjetko

Pavlica

2010

Archives of Industrial Hygiene and Toxicology

166

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“…Fortey and Beddoe-Stephens 1982). There is also a distinct lack in the zoisite-celsian gneiss of Fe, Mn and other base metals, which are commonly associated with such processes (Hofmann and Knill 1996 and references therein).…”

Section: Discussionmentioning

confidence: 95%

“…Barium anomalies in sedimentary rocks are common in black shales, in which up to 6,000 ppm Ba have been reported (Morand 1990;Vine and Tourtelot 1970), or in syn-sedimentary exhalative-type deposits associated with white smokers (Hofmann and Knill 1996). Anomalies in igneous rocks are lower than those in sedimentary environments, and are typically associated with intermediate to granitic rocks (i.e.…”

Section: Barium In the Geological Realmmentioning

confidence: 98%

The chemistry of barium anomalies in the Berisal Complex, Simplon Region, Switzerland

Hetherington

Lundmark

Graeser

et al. 2007

Int J Earth Sci (Geol Rundsch)

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The petrographic and geochemical features of two zoisite-celsian gneiss outcrops from the Berisal Complex, characterised by a syn-kinematic mineral assemblage that contains celsian and barium white micas and a maximum whole-rock BaO content of 8.36 wt%, are described. The outcrops are enclosed in a larger body of garnet-bearing two-mica augen-gneiss, which has intrusive contacts with the surrounding garnet-biotite-muscovite paragneiss, and also contains small outcrops of two-mica clinozoisite gneiss. The zoisite-celsian gneisses are strongly enriched in all alkaline-earth elements, are depleted in the alkali elements, and have high Zr/Hf and Nb/Ta ratios compared with the surrounding gneisses. The zoisitecelsian, two-mica clinozoisite, and garnet-bearing twomica augen-gneisses have Al/CNK molar ratios >1, and the zoisite-celsian gneisses are also enriched in Zr, Y, and Nb. Chondrite-normalised patterns for the rare earth elements (REE) show light REE enrichment, with a negative Eu anomaly. On the basis of field and geochemical data it is argued that the barium anomalies in the Berisal complex are the result of igneous fractionation of barium into anorthosite-dominated cognate inclusions within a larger volume of calcalkaline peraluminous melt. On the basis of U-Pb zircon ages, a conservative estimate for the age of magma crystallisation is placed at 460 ± 10 Ma, and thus was related to significant late Ordovician granitoid magmatism in Gondwana-derived microcontinents during collision between Avalonia-Cadomia and Gondwana.

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“…The plausibility of basement rocks as the deep-seated source of Pb in the studied ore deposits is supported by the similarity of Pb isotopic ratios between the Late Miocene igneous rocks and the abovementioned deposits, as well as the presence of jordanite, orpiment and realgar minerals. Jordanite is also present in the Lengenbach Pb-Zn-As-Tl-Ba deposits, which are hosted in Triassic dolostones in the Swiss Alps, for which it was proven that Pb and other metals were leached from basement rocks [24]. Another support for the plausibility of basement rocks as the deep-seated source of radiogenic Pb in the studied deposits is the presence of inherited faults connected to deep-seated faults cutting the Mesozoic-Cenozoic cover and the Triassic salts (Figure 3) and Pb for the Pb-Zn deposits in Jalta, Jebel Ghozlane, Jebel Hallouf, Oued Maden and Fedj Hassene compared to the Late Miocene igneous rocks and sedimentary country rocks from the Nefza area [21].…”

Section: Source(s) Of Metalsmentioning

confidence: 99%

Lead Isotopes as Tracers of Metal Sources and Timing of the Carbonate-Hosted Pb-Zn Deposits in the Nappes Zone, Northern Tunisia

Jemmali¹,

Souissi²

2018

Contributions to Mineralization

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The polymetallic deposits in the Nappes zone, Northern Tunisia occur in the contact between Triassic-Miocene/Eocene carbonate rocks and in the Upper Cretaceous limestones. They can be divided into two groups: one is Pb-Zn mineralization with Hg and As in fractures with local intrusions of Neogene volcanics (e.g., Fej Hassene, Oued Maden), and the second is stratabound and karst Pb-Zn mineralization with arsenic and antimony hosted in the continental Neogene strata or situated immediately below them (Aïn Allega, Sidi Embarek, Jebel Hallouf-Sidi Bou Aouane, Bazina, Jalta and Jebel Ghozlane). Pb-isotopic compositions of galenas display a homogeneous Pb isotope signature. Generally, Pb isotope ratios on ores from the Jalta, Jebel Ghozlane, Jebel Hallouf, Oued Maden and Fedj Hassene plot between samples of the Late Miocene igneous rocks and the sedimentary country rocks of the Nefza area and between the upper crust and orogen curves. This intermediate position may imply potential mixing between end-member sources. Because the Pb-Zn mineralization is fault-controlled and spatially associated with the post-nappe Miocene series and the calculated model age is about 10.86 Ma, one is led to argue that the mineralization in the Nappes zone deposits occurred during the last paroxysmal phase of the Alpine folding (i.e., Miocene age).

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Geochemistry and genesis of the Lengenbach Pb-Zn-As-Tl-Ba-mineralisation, Binn Valley, Switzerland

Cited by 66 publications

References 44 publications

Thallium Toxicity in Humans

Thallium Toxicity in Humans

The chemistry of barium anomalies in the Berisal Complex, Simplon Region, Switzerland

Lead Isotopes as Tracers of Metal Sources and Timing of the Carbonate-Hosted Pb-Zn Deposits in the Nappes Zone, Northern Tunisia

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