Genesis of amethyst geodes in basaltic rocks of the Serra Geral Formation (Ametista do Sul, Rio Grande do Sul, Brazil): a fluid inclusion, REE, oxygen, carbon, and Sr isotope study on basalt, quartz, and calcite

Gilg, H. Albert; Morteani, G.; Kostitsyn, Yu. A.; Preinfalk, C.; Gatter, István; Strieder, Adelir José

doi:10.1007/s00126-002-0310-7

Cited by 67 publications

(46 citation statements)

References 46 publications

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“…The role of trace amounts of iron and radiation in the formation of its colour are generally established [11,12]. It is found in a variety of geological settings, e.g., epithermal veins, miarolitic cavities in granites and geodes in basaltic lavas.…”

Section: Introductionmentioning

confidence: 99%

“…It is found in a variety of geological settings, e.g., epithermal veins, miarolitic cavities in granites and geodes in basaltic lavas. Gem quality amethyst, e.g., from Brazil and Uruguay come from geodes in basaltic rocks of the Parana Continental Flood Basalt Province [12]. Published crystallisation temperatures of amethyst cover a wide range, e.g., (1) 370 to 420 • C from fluid inclusion studies of Brazilian geodes [13]; (2) <50 • C fluid inclusion data from Brazilian amethyst [14]; (3) stable oxygen isotope data from amethyst and agate hosted in the Prana-Etendka volcanics [14] and in Devonian and Tertiary volcanics of Scotland [15,16] indicate temperatures <150 • C; (4) Granite hosted amethyst veins from Thunder Bay, Canada, are considered to have formed between 40 and 90 • C [17]; (5) amethysts from epithermal polymetallic veins have formation temperatures ranging between 150 and 250 • C based on fluid inclusion studies [18][19][20] and (6) higher fluid-inclusion homogenization temperatures (280-400 • C) were reported from amethyst in granite miaroles of the Eonyang deposit, South Korea [21].…”

Section: Introductionmentioning

confidence: 99%

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Quartz-Amethyst Hosted Hydrocarbon-Bearing Fluid Inclusions from the Green Ridge Breccia in the Snoqualmie Granite, North Cascades, WA, USA

et al. 2017

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Abstract:The Green Ridge Breccia cuts the composite Miocene Snoqualmie Batholith in King County, WA, USA. The granite was emplaced at~5 km depth between~17 and 20 Ma and the crosscutting NW trending breccia contains large angular blocks of the host granite (<1 m in longest dimension). The brecciated granite blocks are cemented by quartz-amethyst euhedra (<10 cm in longest dimension) bearing vugs. A notable feature is the presence of centimetric scale amber coloured oil inclusions within the quartz-amethyst crystals. Fluid inclusion studies using Transmitted Light Petrography, UV Microscopy, Microthermometry, Laser Raman Microspectroscopy and Gas Chromatography-Mass Spectrometry record the presence and the fluid composition of three fluid inclusion types hosted by the euhedra: primary Type 1 (liquid rich two-phase (L + V) aqueous inclusions) and secondary Type 2 bituminous two-phase (S + L) inclusions and Type 3 amber coloured oil bearing two-phase immiscible liquid inclusions. The Green Ridge Breccia was the locus for convective hydrothermal fluid flow that formed the quartz-amethyst vugs formed at T~390 • C assuming a trapping pressure of~1.65 kb. Later, hydrocarbon fluids migrated downwards from the roof source rock (e.g., the Guye Sedimentary Member) and were trapped in the euhedra. This was followed by unroofing of the batholith and exposure of the Green Ridge Breccia. This study highlights the potential for other oil migrations into the Snoqualmie Batholith in areas where it forms the basement capped by the Guye Sedimentary Member.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Quartz-Amethyst Hosted Hydrocarbon-Bearing Fluid Inclusions from the Green Ridge Breccia in the Snoqualmie Granite, North Cascades, WA, USA

et al. 2017

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“…Oxygen stable isotope data shown by Fallick et al (1985), Juchem (1999) and Gilg et al (2003) on amethyst from druses in the basalts of the Serra Geral formation (Brazil) and by Harris (1989) on amethyst-bearing druses from the Karroo volcanics (Namibia) suggest a low temperature formation for amethyst (120-50°C) as well as for calcite (30°C). Oxygen and hydrogen isotope data of the water included in agate druses (enhydrous) indicate a meteoric origin (Matsui et al 1974).…”

Section: Introduction and Problemmentioning

confidence: 95%

“…Landmesser (1984) explains the origin of the agate druses in Paleozoic to Mesozoic basaltic rocks, by a ''SiO 2 gel'' diffusion through the pores of the volcanic rocks. According to Leinz (1949), Juchem (1999), Juchem et al (1994, Meunier et al (1988), Gomes (1996), Scopel et al (1998), Gilg et al (2003) and Proust and Fontaine (2007a, b), the cavities (protodruses) hosting in the Serra Geral basalts (Brazil), the agate and amethyst druses, are produced by the exsolution of magmatic volatiles from the basalts. Corrêa et al (1994) explained the druse formation in the Serra Geral basalts of the Ametista do Sul area (Brazil) by a first phase in which volcanic gas bubbles produced protodruses that were filled later on in a second phase by hydrothermal solutions of either late magmatic or unknown origin.…”

Section: Introduction and Problemmentioning

confidence: 97%

“…The actual and the paleohydrogeology of the Guaraní aquifer has to be discussed in detail because the fluids originating from the Guaraní aquifer play a key role in the in the genesis of the present Uruguayan amethyst deposits, as already evidenced by Gilg et al (2003) for the amethystbearing geodes of the Arapey formation at Ametista do Sul in Brazil.…”

Section: Introduction and Problemmentioning

confidence: 99%

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The genesis of the amethyst geodes at Artigas (Uruguay) and the paleohydrology of the Guaraní aquifer: structural, geochemical, oxygen, carbon, strontium isotope and fluid inclusion study

Morteani¹,

Kostitsyn

Preinfalk

et al. 2009

Int J Earth Sci (Geol Rundsch)

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The amethyst-bearing geodes found in the flood basalts of the Arapey formation at Artigas (Uruguay) were formed as protogeodes by bubbles of CO 2 -rich basaltderived fluids. The formation of the celadonite rim and the lining of the geodes by agate followed by quartz and amethyst were driven by the artesian water of the Guaraní aquifer percolating the basalts from below. The temperature of the amethyst formation is estimated from fluid inclusion data to be between 50°and 120°C. Oxygen stable isotope data suggest a crystallization temperature of calcite of about only 24°C. The actual wellhead temperature of the water produced from the Guaraní aquifer in the study area is around 29°C.

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Microclimate processes characterization of the giant Geode of Pulpí (Almería, Spain): technical criteria for conservation

et al. 2006

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The giant Geode of Pulpí (Almería, Spain) can be considered as one of the most significant recent mineralogical discoveries in terms of geological heritage. Any tourist exploitation of this mining environment should be sustainable, and the first step is to determine the feasibility of opening the interior of the geode to visitors. To achieve this objective it was necessary to characterize the variation of physical parameters of the air and rock (gypsum crystals) during monitored visits, similar to the hypothetical visits that would occur if the geode were opened to the public. The main environmental impact of a continuous presence of people inside the geode is condensation on the surface of the gypsum crystals as a result of increased temperature and water vapor caused by respiration. The phenomenon of condensation on the gypsum crystals begins to occur with visits of two or three people for longer than 10 min. Condensation on the crystal surface brought about by this human presence could lead to the corrosion of the crystals. The total recovery time required after a visit of this type to resume the initial natural thermal and humidity conditions was 27 h. The results obtained from the environmental monitoring of the geode suggest that it is not feasible to allow visits inside it because of the mechanical impact of the visitors on the crystals and of the risk of condensation of water vapor.

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Genesis of amethyst geodes in basaltic rocks of the Serra Geral Formation (Ametista do Sul, Rio Grande do Sul, Brazil): a fluid inclusion, REE, oxygen, carbon, and Sr isotope study on basalt, quartz, and calcite

Cited by 67 publications

References 46 publications

Quartz-Amethyst Hosted Hydrocarbon-Bearing Fluid Inclusions from the Green Ridge Breccia in the Snoqualmie Granite, North Cascades, WA, USA

Quartz-Amethyst Hosted Hydrocarbon-Bearing Fluid Inclusions from the Green Ridge Breccia in the Snoqualmie Granite, North Cascades, WA, USA

The genesis of the amethyst geodes at Artigas (Uruguay) and the paleohydrology of the Guaraní aquifer: structural, geochemical, oxygen, carbon, strontium isotope and fluid inclusion study

Microclimate processes characterization of the giant Geode of Pulpí (Almería, Spain): technical criteria for conservation

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