The Tepla(?)/Saxothuringian suture in the Karkonosze–Izera massif, western Sudetes, central European Variscides

Mazur, Stanisław; Aleksandrowski, Paweł

doi:10.1007/s005310000146

Cited by 92 publications

(131 citation statements)

References 24 publications

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“…The belt,which resulted from continent-continent collision, shows the emplacement of many granitic bodies (Finger et al 1997). The greatest magmatic activity took place during the Late Carboniferous and was related to transpressional-transtensional tectonics (Finger and Steyrer 1990;Diot et al 1995;Mazur and Aleksandrowski 2001). The plutons located at the northern extreme of the Bohemian Massif were emplaced during this period.…”

Section: Variscan Magmatism Of Saxo-thuringian Zone Of the Bohemian Mmentioning

confidence: 99%

U-total Pb timing constraints on the emplacement of the granitoid pluton of Stolpen, Germany

Lisowiec¹,

Budzyń²,

Słaby³

et al. 2014

Acta Geologica Polonica

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ABSTRACT:Lisowiec, K., Budzyń, B., Słaby, E., Schulz, B., and Renno, A.D. 2014. Th-U-total Pb timing constraints on the emplacement of the granitoid pluton of Stolpen, Germany. Acta Geologica Polonica, 64 (4), 457-472. Warszawa.Monazite from the Stolpen monzogranite (SE Germany) was studied to constrain the Th-U-total Pb age of pluton formation. Monazite grains demonstrate subtle to distinct patchy zoning related to slight compositional variations. Textural and compositional characteristics indicate that the monazite formed in a single magmatic event in a slightly heterogeneous system, and was only weakly affected by secondary alteration, which did not disturb the Th-U-Pb system. Chemical dating of the monazite gave a consistent age of 299 ± 1.7 Ma. The current study presents the first geochronological data for the Stolpen granite. It provides evidence that Stolpen is the youngest Variscan granitic intrusion in the Lusatian Granodiorite Complex and indicates that magmatic activity related to post-collisional extension in this region lasted at least 5my longer than previously assumed.

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Section: Variscan Magmatism Of Saxo-thuringian Zone Of the Bohemian Mmentioning

confidence: 99%

U-total Pb timing constraints on the emplacement of the granitoid pluton of Stolpen, Germany

Lisowiec¹,

Budzyń²,

Słaby³

et al. 2014

Acta Geologica Polonica

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“…It com prises two main el e ments: the Variscan Karkonosze gran ite in tru sion and its Neoproterozic-Pa leo zoic meta mor phic cover. The lat ter shows remark able di ver sity in stra tig ra phy and meta mor phic his tory, which en able dis tinc tion of four con sec u tive struc tural units: Izera-Kowary, Ješted, South Karkonosze and Leszczyniec, arranged as a stack of nappes formed in the Late De vo nian and re-ar ranged in the early Car bon if er ous (for de tails see Mazur and Aleksandrowski, 2001). Dur ing the Variscan orog eny the nappe struc ture was in truded by the Karkonosze gran ite which re sulted in the for ma tion of an ex ten sive con tact au re ole (Mierzejewski and Oberc-Dziedzic, 1990).…”

Section: Geological Settingmentioning

confidence: 99%

Isotopic Re-Os age of molybdenite from the Szklarska Poręba Huta Quarry (Karkonosze, SW Poland)

Mayer

Creaser

Mochnacka

et al. 2012

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. (2012) -Iso to pic Re-Os age of mo lyb de nite from the Szklarska Porêba Huta Quarry (Karkonosze, SW Po land). Geol. Quart., 56 (3): 505-512, doi: 10.7306/gq.1036New Re/Os iso to pic data for mo lyb de nite from the Szklarska Porêba Huta Quarry pro vide ages of 307 ± 2 Ma and 309 ± 2 Ma, re spectively. The quarry is dom i nated by the por phy ritic ("cen tral") and equigranular ("ridge") va ri et ies of the Karkonosze gran ite. Ore min erali sa tion hosted in aplogranite in cludes an as sem blage of sulphides, sulphosalts, ox ides and var i ous rare phases. The mo lyb de nite ages ob tained are con sis tent with a pre vi ously pub lished iso to pic age of leucogranite (aplogranite?) from the same quarry and are only slightly older than a re cently pub lished, re fined 206 Pb/ 238 U age of un treated zir cons from the Szklarska Porêba Huta por phy ritic gran ite. The age of the mo lyb de nite cor re sponds mod er ately well to the youn ger stage of post-mag matic, pneumatolitic/hy dro ther mal ac tiv ity of the Karkonosze gran ite (about 312 Ma).

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“…This part of the Sudetes is associated with the Saxothuringian zone (e.g., Franke and Żelaźniewicz 2002) which is believed to plunge eastward beneath the Teplá-Barrandian domain, now buried below the infill of the intra-Sudetic basin, only to be re-exposed within an accretionary wedge in front of the Brunia domain (East Avalonia; e.g., Mazur and Aleksandrowski 2001;Chopin et al 2012;Mazur et al 2015;Szczepański and Ilnicki 2014).…”

Section: Outline Of Geological Settingmentioning

confidence: 99%

“…1). The Izera orthogneisses are embedded in a metasedimentary succession (mica schists with paragneisses, quartzofeldspatic rock, amphibolites, calc-silicates, crystalline limestones) and together they were interpreted as a single tectonic entity, the Izera-Kowary unit (Mazur and Aleksandrowski 2001). The succession is also split by the Karkonosze pluton and its major part is located to the south (the Velká Úpa group of Chaloupský et al 1989), whilst to the north it forms four, roughly sub-parallel and narrow belts (Textfigs 1, 2) with the southernmost (the Szklarska Poręba belt) hornfelsed by the intrusion.…”

Section: Outline Of Geological Settingmentioning

confidence: 99%

“…1) where several magma batches were emplaced in a dextral strike-slip regime during the initiated extensional collapse, uplift and unroofing of the host rocks initiated at ca. 335-337 Ma (Aleksandrowski et al 1997;Mazur and Aleksandrowski 2001;Marheine et al 2002). During the intrusion the envelope of the granite, comprising Palaeozoic metavolcanic-sedimentary successions, developed a pronounced, ca.…”

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confidence: 99%

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Magmatic and post-magmatic phenomena in the Karkonosze granite and its metamorphic envelope (West Sudetes, SW Poland)

Kozłowski

Ilnicki

Matyszczak

et al. 2016

Acta Geologica Polonica

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The Karkonosze granitoid, one of the biggest plutonic bodies in the Sudetes, is located in the marginal part of the present-day Bohemian Massif. Due to its internal complexity, textural diversity and abundance of mineral species, the pluton has intrigued and captured the interest of generations of geologists, mineralogists, petrologists and enthusiasts of Earth sciences. The intrusion belongs to a younger, late-to post-orogenic Magmatic and post-magmatic Mineralogical studies of the Karkonosze granite (ca. 322-312 Ma) and its surroundings in West Sudetes (SW Poland) have provided data on Nb-Ta-REE minerals from pegmatites in the NE part of the pluton and several new finds of Ag minerals and 15 oxygenic Bi phases, hitherto not reported from the massif. The Karkonosze pegmatites are enriched in HREE as fergusonite-(Y) or xenotime-(Y) appear in almost every studied pegmatite, together with a subordinate assemblage of the aeschynite, euxenite or columbite group. The abundance of LREE minerals such as allanite-(Ce) and the monazite group, correlates inversely with the Nb-Ta-Ti minerals, whilst an early generation of monazite-(Ce) revealed an exceptionally high amount of Nd (up to 22 wt.% of Nd 2 O 3 ). The physical and chemical conditions during the magmatic and post-magmatic processes were reconstructed and the effects of contact metamorphism in amphibolites from hornfelsed zones examined. Changes in solution composition and concentration at the early magmatic stage (825-920ºC), pegmatitic stage overlapping with hydrothermal (560°C which ended at 160-90°C) and clearly hydrothermal stage (400 to 110°C) were studied in detail by means of melt and fluid inclusions in quartz. Furthermore, post-magmatic fluids, including some enriched in Li and B, were identified in rock-forming quartz from the whole pluton. In turn, study of the amphibolites indicates that the pair cummingtonite + anorthite or the presence of Ca-rich plagioclase with actinolite seem to be reliable mineral proxies of the thermal impact of the granitoid body on amphibolites in its envelope. The inferred conditions of the contact processes (450-550°C, 2.5-4.8 kbar) point to an elevated geothermal gradient (ca. 32-45°C/km) probably reflecting the heat flow induced by the Karkonosze intrusion. Moreover, despite the textural and mineral changes imposed by regional and contact metamorphism, the amphibolites have their pre-metamorphic (magmatic) geochemical features undisturbed.Key words: Karkonosze pluton; Melt and fluid inclusions; Nb-Ta-REE pegmatites; Contact zone amphibolites.Acta Geologica Polonica, Vol. 66 (2016) phase (325-290 Ma) of the intense granitoid magmatism in the Sudetes (ca. 340-290 Ma) which produced several large plutons (cf. e.g., Mazur et al. 2007; ObercDziedzic et al. 2013). The formation of the intrusion is correlated with a relatively early stage of that phase in Late Carboniferous times (Awdankiewicz et al. 2010) due to coupled tectonic and magmatic processes involving both mantle and crustal sources . As a consequence, the batholith...

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The Tepla(?)/Saxothuringian suture in the Karkonosze–Izera massif, western Sudetes, central European Variscides

Cited by 92 publications

References 24 publications

U-total Pb timing constraints on the emplacement of the granitoid pluton of Stolpen, Germany

U-total Pb timing constraints on the emplacement of the granitoid pluton of Stolpen, Germany

Isotopic Re-Os age of molybdenite from the Szklarska Poręba Huta Quarry (Karkonosze, SW Poland)

Magmatic and post-magmatic phenomena in the Karkonosze granite and its metamorphic envelope (West Sudetes, SW Poland)

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