Multistage magma emplacement and progressive strain accumulation in the shallow‐level Krkonoše‐Jizera plutonic complex, Bohemian Massif

Žák, Jiří; Verner, Kryštof; Sláma, Jiří; Kachlík, Václav; Chlupáčová, Marta

doi:10.1002/tect.20088

Cited by 60 publications

(25 citation statements)

References 117 publications

(119 reference statements)

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“…It shows the close spatial relationships of shallow-level plutonic bodies with volcanic or subvolcanic facies. The Křenov ignimbrite/tuff complex (312.39 ± 0.10 Ma) overlaps in age with 312.5 ± 0.3 to 312.2 ± 0.3 Ma ID-TIMS ages (Kryza et al 2014) of S-type granites of the Krkonoše-Jizera Pluton (Žák et al 2013(Žák et al , Kusiak et al 2014, Pluton. SHRIMP U-Pb zircon ages of 312.8 ± 2.8 Ma and 312.4 ± 4 Ma for andesite dykes and lamprophyres cutting older acid volcanic and subvolcanic rocks, suggest that mantle-derived mafic melts are closely spatio-temporaly related to the crustally-derived acid melts.…”

Section: Volcanic Activity Of the Intra-sudetic And Krkonoe-piedmont mentioning

confidence: 99%

Re-assessment of lithostratigraphy, biostratigraphy, and volcanic activity of the Late Paleozoic Intra-Sudetic, Krkonoše-Piedmont and Mnichovo Hradiště basins (Czech Republic) based on new U-Pb CA-ID-TIMS ages

Opluštil¹,

Schmitz²,

Kachlík³

et al. 2016

Bull. Geosci.

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Section: Volcanic Activity Of the Intra-sudetic And Krkonoe-piedmont mentioning

confidence: 99%

Re-assessment of lithostratigraphy, biostratigraphy, and volcanic activity of the Late Paleozoic Intra-Sudetic, Krkonoše-Piedmont and Mnichovo Hradiště basins (Czech Republic) based on new U-Pb CA-ID-TIMS ages

Opluštil¹,

Schmitz²,

Kachlík³

et al. 2016

Bull. Geosci.

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“…It is built mainly of Proterozoic to Early Palaeozoic Construction of new houses on a uranium vein outcrop: a case study from the Czech Republic metamorphic rocks. The area is penetrated by the large Krkonoše-Jizera (K-J) granite pluton of the Carboniferous age (317-320 Ma) [7]. The south--western part of the K-J pluton is composed of Tanvald alkaline granite, which differs geochemically and also by the content of radioactive elements; it is a real 'uranium granite'.…”

Section: Occurrence Of Uranium Mineralization At a Construction Sitementioning

confidence: 99%

Construction of new houses on a uranium vein outcrop: a case study from the Czech Republic

et al. 2016

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Abstract. Signifi cant uranium mineralization represented by a typical assemblage of uranyl supergene minerals in a quartz-uraninite vein hosted in the exocontact zone of the Variscan-Tanvald granite was found at a new construction site in the municipality of Jablonec n. Nisou. Activities of 222 Rn in soil gas reached 1 MBq/m 3 around two houses, with a maximum of 3.33 MBq/m 3 between them on a uranium ore lens outcrop. The uranium content reaches up to 291 ppm eU (3595 Bq/kg 226 Ra), and it is possible to fi nd many 'hot' pieces of uranium ore fragments with a high percentage of uranium in the Quaternary cover in this place. This unfavourable situation is a result of an improper spatial planning process. The constructor was given the permission to construct the building even though the construction site did not meet safety requirements and the geological survey had failed. Not only geological prospecting was underestimated, but also the radon risk assessment was undervalued.

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“…Research regarding the structural record emplacement mechanisms and growth of magmatic plutons represents an integral part of the decadelong effort of earth scientists to understand magmatic systems, exchange of matter, and heat in the lithosphere and tectonic evolution of regions including magmatic activity. The mode of emplacement and internal flow dynamics of concentrically zoned granitic plutons has been recently discussed in terms of pulse-like, incremental growth by amalgamation of successive melt batches (Barboni et al, 2013;Leuthold et al, 2012;Stearns & Bartley, 2014;Miller et al, 2011;Žák et al, 2013) rather than emplacement of large volumes of magma at once (Marsh, 1982;Miller & Paterson, 1999;Paterson & Vernon, 1995;Weinberg, 1996;Weinberg & Podladchikov, 1994). Paterson and Vernon (1995) suggested that the fabric pattern in such granitic bodies, also called concentrically expanded plutons (CEPs), do not reflect ballooning in terms of late inflation of a diapirically ascended pluton (Mahon et al, 1988;Marsh, 1982;Ramberg, 1972), but were emplaced as syntectonic nested diapirs.…”

Section: Introductionmentioning

confidence: 99%

Crystal Mush Flow in Small Concentrically Expanded Pluton (Castle Crags Pluton; Klamath Mountains, CA, USA)

Machek

Závada

Roxerová

et al. 2019

Geochem Geophys Geosyst

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Understanding of the processes of magmatic fabric formation in crystal‐rich magmas and their reflection in rock magnetic properties are important for understanding pluton formation and intrusion mechanisms. On the example of small concentrically zoned Castle Crags pluton in the Klamath Mountains (CA, USA) we provide reconstruction of the flow/deformation mechanisms of the crystal‐rich magma and pluton growth based on detailed structural mapping and microstructural analysis employing the anisotropy of magnetic susceptibility, microstructural analysis, and crystallographic preferred orientation. Our study reveal microstructural evidence for progressive development of magmatic textures in the pluton core transitioning to submagmatic and eventually subsolidus fabric at the pluton periphery, that is interpreted in terms of the flow/deformation of the crystal mush. The documented magmatic textures are linked to anisotropy of magnetic susceptibility parameters and orientation. The recorded anomalous degree of anisotropy of magnetic susceptibility found in the pluton is attributed to tiling and plastic deformation of magnetite grains by the surrounding phenocrysts. The concentric structure of the pluton resulted from horizontal compaction and margin parallel stretching of the dense crystal mush around the vertically intruding trondhjemite magma in the pluton core. The Castle Crags pluton is interpreted as a concentrically expanded pluton, which grew at least by two increments of granodiorite and trondhjemite magma emplacement.

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Multistage magma emplacement and progressive strain accumulation in the shallow‐level Krkonoše‐Jizera plutonic complex, Bohemian Massif

Cited by 60 publications

References 117 publications

Re-assessment of lithostratigraphy, biostratigraphy, and volcanic activity of the Late Paleozoic Intra-Sudetic, Krkonoše-Piedmont and Mnichovo Hradiště basins (Czech Republic) based on new U-Pb CA-ID-TIMS ages

Re-assessment of lithostratigraphy, biostratigraphy, and volcanic activity of the Late Paleozoic Intra-Sudetic, Krkonoše-Piedmont and Mnichovo Hradiště basins (Czech Republic) based on new U-Pb CA-ID-TIMS ages

Construction of new houses on a uranium vein outcrop: a case study from the Czech Republic

Crystal Mush Flow in Small Concentrically Expanded Pluton (Castle Crags Pluton; Klamath Mountains, CA, USA)

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