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Die Druck-Temperatur-Deformations-Entwicklung des Ruhlaer Kristallins (Mitteldeutsche Kristallinzone) (1996)

Zeh, Armin

Stuttgart : Schweizerbart

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Call number: S 90.0073(86)

In: Geotektonische Forschungen

Type of Medium: Series available for loan

Pages: 212 S.

ISBN: 3510500520

ISSN: 0016-8548

Series Statement: Geotektonische Forschungen 86

Classification:

Petrology, Petrography

Language: German

Location: Lower compact magazine

Branch Library: GFZ Library

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The Malolotsha Klippe: Large‐Scale Subhorizontal Tectonics Along the Southern Margin of the Archean Barberton Greenstone Belt, Eswatini (2023)

Heubeck, Christoph ; Thomsen, Tonny B. ; Heredia, Benjamin D. ; [et al.]

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Publication Date: 2023-06-20

Description: Whether Archean tectonics were horizontally or vertically dominated is controversially discussed because arguments bear on the kinematics and thermal state of the Archean mantle and constrain the mode of formation of the earliest continental crust. Highly deformed strata of Archean greenstone belts figure prominently in this debate because they record long periods of time and multiple deformation phases. Among the best‐preserved greenstone belts counts the Barberton Greenstone Belt (BGB) of southern Africa. Geological mapping of part of the southern BGB in Eswatini (Swaziland), combined with U‐Pb zircon dating, shows that the region preserves a tightly re‐folded imbricate thrust stack in which metavolcanic and ‐volcaniclastic strata of the Onverwacht Group, deposited at 3.34–3.29 Ga, have been thrust on top of ca. 3.22 Ga siliciclastic strata of the Moodies Group. The structurally highest element, the Malolotsha Syncline, forms a tectonic klippe of substantial size and is 〉1,450 m thick. Forward modeling of a balanced cross section indicates that this thrust stack was part of a northwestward‐verging orogen along the southern margin of the BGB and records a minimum horizontal displacement of 33 km perpendicular to its present‐day faulted, ductily strained and multiply metamorphosed margin. Because conglomerate clasts indicate a significantly higher degree of prolate strain which extends further into the BGB than at its northern margin, late‐stage tectonic architecture of the BGB may be highly asymmetrical. Our study documents that the BGB, and perhaps other Archean greenstone belts, preserves a complex array of both vertically‐ and horizontally‐dominated deformation styles that have interfered with each other at small regional and short temporal scales.

Description: Plain Language Summary: Worldwide, only a few regions exist where ancient rock strata document how earth cooled, surface strata deformed, and continents grew. It is debated whether vertical movements dominated (akin to a lava lamp) and when major horizontal motions (as they dominate Earth today) began; certainly, there was also overlap between these regimes. Radiometric age dating of zircons extracted from strata along the southern margin of one of the best‐preserved ancient regions in southern Africa, the Barberton Greenstone Belt in Eswatini, show that older strata were thrust there over younger strata for at least 33 km distance subhorizontally. Then they were shingled, and then folded. The results show that even at a time when Earth's oldest continents were just forming, significant horizontal displacements existed already.

Description: Key Points: U‐Pb zircon dating and geological mapping confirm a folded thrust‐stack along part of the southern margin of the Archean Barberton Greenstone Belt (BGB). Forward modeling of a balanced cross‐section indicates 〉33 km of horizontal shortening toward the northwest. Vertically‐ and horizontally‐dominated tectonics interfered with each other in the BGB and may have done so in other Archean greenstone belts as well.

Description: Friedrich‐Schiller‐University Jena

Description: https://doi.org/10.5880/fidgeo.2022.037

Keywords: ddc:551.8 ; Greenstone Belt ; Archean ; Eswatini ; Klippe ; Barberton ; Swaziland

Language: English

Type: doc-type:article

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Results of 207Pb/206Pb single zirkon dating of granite porphyry dikes and a rhyolithe in the north-western Thuringian Forest (2003)

Zeh, Armin ; Brätz, H

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Publication Date: 2023-01-14

Keywords: Age, single Zirkon evaporation (Pb-Pb) (Kober, 1987); Description; Event label; Geological age; Geological age, standard deviation; Geological sample; GEOS; Hainfelsen, E Finsterberge, Thuringian Forest, Germany; Kiesgrube Wolfstal, Thuringian Forest, Germany; Kuppe des Reifstieges, Thuringian Forest, Germany; Lead-204/Lead-206, error; Lead-204/Lead-206 ratio; Lead-207/Lead-206, standard error; Lead-207/Lead-206 ratio; NE Kuppe Reifstieg, Thuringian Forest, Germany; Number of observations; ORDINAL NUMBER; Steinbruch E Etterwinden, Thuringian Forest, Germany; Talgrund NW Wachstein, Thuringian Forest, Germany; W Wachstein, Thuringian Forest, Germany; zeh98001; zeh98002; zeh98007; zeh98008; zeh98009; zeh98010; zeh98012; zeh98013; zeh98014; zeh98015; zeh98016; zeh98018; zeh98019

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Format: text/tab-separated-values, 544 data points

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(Table 3) Summary of Rb-Sr and Pb-Pb whole rock analysis from mafic and felsic/intermediate gneisses from the Shackleton Range

Will, Thomas M ; Frimmel, Hartwig E ; Zeh, Armin ; [et al.]

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Publication Date: 2023-05-12

Keywords: 127; 163; 227; 238; 292; 295; 301; 306; 554; 560; 602; 674; 676; after Chappell and White (1992); Age, dated; Area/locality; Arkell Cirque; Du Toit Nunatak; Event label; GEISHA; Latitude of event; Lead-206/Lead-204 ratio; Lead-206/Lead-204 ratio, error; Lead-207/Lead-204 ratio; Lead-207/Lead-204 ratio, error; Lead-208/Lead-204 ratio; Lead-208/Lead-204 ratio, error; Longitude of event; Lord Nunatak; Meade Nunatak; Northern Haskard Highlands; Number; Province; Rileyryggen Nunatak; ROCK; Rock sample; Rock type; Rubidium; Rubidium/Strontium ratio; ShackRange_127_ST; ShackRange_163_ST; ShackRange_227_NT; ShackRange_238_NT; ShackRange_292_NT; ShackRange_295_NT; ShackRange_301_NT; ShackRange_306_NT; ShackRange_554_NT; ShackRange_560_NT; ShackRange_602_ST; ShackRange_674_ST; ShackRange_676_ST; Strontium; Strontium-87/Strontium-86 ratio; Strontium-87/Strontium-86 ratio, error; Type

Type: Dataset

Format: text/tab-separated-values, 226 data points

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(Table 2b) Geochemical composition of felsic and intermediate rocks from the Shackleton Range, East Antarctica (2010)

Will, Thomas M ; Frimmel, Hartwig E ; Zeh, Armin ; [et al.]

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Publication Date: 2023-07-10

Keywords: 127; 214; 227; 238; 300; 301; 306; 316; 326; 519; 520; 535; 544; Aluminium oxide; Area/locality; Arkell Cirque; Barium; Barium/Niobium ratio; Barium/Tantalum ratio; Beryllium; Caesium; Calcium oxide; Cerium; Cerium/Lead ratio; Cerium/Zirconium ratio; Charterknattane Nunatak; Chondrite normalized (Sun and McDonough, 1989); Chromium; Cobalt; Dysprosium; Elements, total; Erbium; Europium; Europium anomaly; Event label; Freshfield Nunatak; Gadolinium; Gadolinium/Ytterbium ratio; Gallium; GEISHA; Hafnium; Holmium; Iron oxide, Fe2O3; LA-ICP-MS, Laser-ablation inductively coupled plasma mass spectrometer; Lanthanum; Lanthanum/Lutetium ratio; Lanthanum/Samarium ratio; Lanthanum/Ytterbium ratio; Latitude of event; Lead; Lindquist Nunatak; Longitude of event; Loss on ignition; Lutetium; Magnesium number; Magnesium oxide; Manganese oxide; Molybdenum; Neodymium; Nickel; Niobium; Niobium/Lanthanum ratio; Northern Haskard Highlands; Phosphorus; Phosphorus pentoxide; Potassium oxide; Praseodymium; Province; Rhenium; ROCK; Rock sample; Rock type; Rubidium; Samarium; Sample ID; Scandium; ShackRange_127_ST; ShackRange_214_NT; ShackRange_227_NT; ShackRange_238_NT; ShackRange_300_NT; ShackRange_301_NT; ShackRange_306_NT; ShackRange_316_NT; ShackRange_326_NT; ShackRange_519_ST; ShackRange_520_ST; ShackRange_535_ET; ShackRange_544_ST; Silicon dioxide; Sodium oxide; Strontium; Sulfur, total; Tantalum; Terbium; Thorium; Thorium/Niobium ratio; Thulium; Tin; Titanium dioxide; Uranium; Vanadium; X-ray fluorescence (XRF); Ytterbium; Yttrium; Zinc; Zirconium; Zirconium/Niobium ratio

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Format: text/tab-separated-values, 785 data points

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(Table 5) Lu-Hf isotope composition of zircon from granitic rocks from the Shackleton Range (2010)

Will, Thomas M ; Frimmel, Hartwig E ; Zeh, Armin ; [et al.]

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Publication Date: 2023-07-14

Keywords: 165; 333; 593; Age, dated; Age, dated standard error; Du Toit Nunatak; Event label; GEISHA; Hafnium-176/Hafnium-177; Hafnium-176/Hafnium-177, error; Hafnium-178/Hafnium-177; Hafnium-180/Hafnium-177; HM1; Identification; Laser ablation multicollector - ICP-MS (LA-MC-ICP-MS); Latitude of event; Longitude of event; Lutetium-176/Hafnium-177; Lutetium-176/Hafnium-177, error; N4-3; Northern Haskard Highlands; ROCK; Rock sample; ShackRange_165_ST; ShackRange_333_NT; ShackRange_593_ET; ShackRange_HM1_NT; ShackRange_N4-3_NT; Signal; Skiltvagta Nunatak; Two-stage Hafnium model age; Ytterbium-176/Hafnium-177; Ytterbium-176/Hafnium-177, error; ε-Hafnium; ε-Hafnium, standard deviation; ε-Hafnium (T)

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Format: text/tab-separated-values, 1967 data points

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(Table 4) Sm-Nd isotope composition of mafic amphibolites and felsic orthogneisses from the Shackleton Range, East Antarctica (2010)

Will, Thomas M ; Frimmel, Hartwig E ; Zeh, Armin ; [et al.]

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Publication Date: 2023-07-14

Keywords: 127; 158; 163; 188; 210; 227; 238; 288; 292; 295; 300; 301; 306; 325; 326; 334; 344; 350; 504; 535; 554; 560; 602; 606; 674; 676; Age, dated; Age model; Area/locality; Arkell Cirque; Charterknattane Nunatak; Comment; Du Toit Nunatak; Event label; GEISHA; Latitude of event; Lindquist Nunatak; Longitude of event; Lord Nunatak; Meade Nunatak; Neodymium; Neodymium-143/Neodymium-144 ratio; Neodymium-143/Neodymium-144 ratio, error; Northern Haskard Highlands; Poldervaart Edge; Province; Rileyryggen Nunatak; ROCK; Rock sample; Rock type; Samarium; Samarium/Neodymium ratio; Samarium-147/Neodymium-144 ratio; Sample comment; Sauria Buttress; ShackRange_127_ST; ShackRange_158_ST; ShackRange_163_ST; ShackRange_188_ST; ShackRange_210_ST; ShackRange_227_NT; ShackRange_238_NT; ShackRange_288_NT; ShackRange_292_NT; ShackRange_295_NT; ShackRange_300_NT; ShackRange_301_NT; ShackRange_306_NT; ShackRange_325_NT; ShackRange_326_NT; ShackRange_334_NT; ShackRange_344_NT; ShackRange_350_NT; ShackRange_504_ST; ShackRange_535_ET; ShackRange_554_NT; ShackRange_560_NT; ShackRange_602_ST; ShackRange_606_ST; ShackRange_674_ST; ShackRange_676_ST; TDM age after Goldstein et al. (1984); ε-Neodymium (0); ε-Neodymium (T)

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Format: text/tab-separated-values, 355 data points

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Lithogeochemical and isotope (Rb-Sr, Sm-Nd, Pb-Pb whole rock and Lu-Hf zircon) composition of samples from the Shackleton Range, East Antarctica (2010)

Will, Thomas M ; Frimmel, Hartwig E ; Zeh, Armin ; [et al.]

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In: Supplement to: Will, Thomas M; Frimmel, Hartwig E; Zeh, Armin; Le Roux, P; Schmädicke, Esther (2010): Geochemical and isotopic constraints on the tectonic and crustal evolution of the Shackleton Range, East Antarctica, and correlation with other Gondwana crustal segments. Precambrian Research, 180(1-2), 85-112, https://doi.org/10.1016/j.precamres.2010.03.005

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Publication Date: 2023-10-28

Description: Three distinct, spatially separated crustal terranes have been recognised in the Shackleton Range, East Antarctica: the Southern, Eastern and Northern Terranes. Mafic gneisses from the Southern Terrane provide geochemical evidence for a within-plate, probably back-arc origin of their protoliths. A plume-distal ridge origin in an incipient ocean basin is the favoured interpretation for the emplacement site of these rocks at c. 1850 Ma, which, together with a few ocean island basalts, were subsequently incorporated into an accretionary continental arc/supra-subduction zone tectonic setting. Magmatic underplating resulted in partial melting of the lower crust, which caused high-temperature granulite-facies metamorphism in the Southern Terrane at c. 1710-1680 Ma. Mafic and felsic gneisses there are characterised by isotopically depleted, positive Nd and Hf initials and model ages between 2100 and 2000 Ma. They may be explained as juvenile additions to the crust towards the end of the Palaeoproterozoic. These juvenile rocks occur in a narrow, c. 150 km long E-W trending belt, inferred to trace a suture that is associated with a large Palaeoproterozoic accretionary orogenic system. The Southern Terrane contains many features that are similar to the Australo-Antarctic Mawson Continent and may be its furthermost extension into East Antarctica. The Eastern Terrane is characterised by metagranitoids that formed in a continental volcanic arc setting during a late Mesoproterozoic orogeny at c. 1060 Ma. Subsequently, the rocks experienced high-temperature metamorphism during Pan-African collisional tectonics at 600 Ma. Isotopically depleted zircon grains yielded Hf model ages of 1600-1400 Ma, which are identical to Nd model ages obtained from juvenile metagranitoids. Most likely, these rocks trace the suture related to the amalgamation of the Indo-Antarctic and West Gondwana continental blocks at ~600 Ma. The Eastern Terrane is interpreted as the southernmost extension of the Pan-African Mozambique/Maud Belt in East Antarctica and, based on Hf isotope data, may also represent a link to the Ellsworth-Whitmore Mountains block in West Antarctica and the Namaqua-Natal Province of southern Africa. Geochemical evidence indicates that the majority of the protoliths of the mafic gneisses in the Northern Terrane formed as oceanic island basalts in a within-plate setting. Subsequently the rocks were incorporated into a subduction zone environment and, finally, accreted to a continental margin during Pan-African collisional tectonics. Felsic gneisses there provide evidence for a within-plate and volcanic arc/collisional origin. Emplacement of granitoids occurred at c. 530 Ma and high-temperature, high-pressure metamorphism took place at 510-500 Ma. Enriched Hf and Nd initials and Palaeoproterozoic model ages for most samples indicate that no juvenile material was added to the crust of the Northern Terrane during the Pan-African Orogeny but recycling of older crust or mixing of crustal components of different age must have occurred. Isotopically depleted mafic gneisses, which are spatially associated with eclogite-facies pyroxenites, yielded late Mesoproterozoic Nd model ages. These rocks occur in a narrow, at least 100 km long, E-W trending belt that separates alkaline ocean island metabasalts and within-plate metagranitoids from volcanic arc metabasalts and volcanic arc/syn-collisional metagranitoids in the Northern Terrane. This belt is interpreted to trace the late Neoproterozoic/early Cambrian Pan-African collisional suture between the Australo-Antarctic and the combined Indo-Antarctic/West Gondwana continental blocks that formed during the final amalgamation of Gondwana.

Keywords: Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas; SPP1158

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Format: application/zip, 4 datasets

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Timing of Upper Carboniferous-Permian horst-basin formation and magmatism in the NW Thuringian Forest, central Germany: a review (2007)

Zeh, Armin ; Bratz, Helene

In: Geological Society Special Publication 223: 319-334.

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Publication Date: 2007-10-08

Description: During Late Carboniferous-Early Permian times dextral transtensional movements along the NW-trending Franconian Fault System and parallel faults caused complex block faulting in the Thuringian Forest region, Germany, accompanied by intense magmatism. This is well constrained by geochronological data (207Pb/206Pb single zircon, SHRIMP, 40Ar/39Ar mica, zircon fission-track ages), field relations, and the sedimentary record from the Ruhla Crystalline Complex (RCC) and surroundings. The combined dataset indicates that the Ruhla Crystalline Complex was faulted into three nearly N-S-trending segments, which underwent different exhumation histories during Late Carboniferous-Permian times. The central segment of the RCC was exhumed by several kilometres as a horst block, while the eastern and western segments subsided simultaneously, forming the basement to the Oberhof and Eisenach molasse basins, respectively. Late Carboniferous-Permian uplift of the central segment is constrained by 40Ar/39Ar cooling ages of 311 {+/-} 3 (muscovite) and 294-288 {+/-} 3 Ma (biotite), a weighted zircon fission-track age of 272 {+/-} 7 Ma and overlying Zechstein sediments. In contrast, the eastern segment shows much older 40Ar/39Albiotite cooling ages between 336 {+/-} 4 and 323 {+/-} 3 Ma, was exposed at c. 300 Ma, and subsequently covered by molasse sediments and volcanic rocks between 300 and c. 275 Ma. A similar Late Carboniferous evolution is inferred for the western segment, as it is also overlain by Lower Permian volcanic rocks and has a 297 {+/-} 29 Ma single zircon fission-track age. Simultaneous horst and basin formation is additionally constrained by granite pebbles in conglomerates of the Oberhof and Eisenach basins. These pebbles can partly be derived from granites in the central segment of the RCC. Age data and the orientation of granitoid bodies and dykes in the Ruhla Crystalline Complex and its surroundings provide evidence for the opening of NE-trending structures between 300 and 294 Ma, and formation or reactivation of W- to NW-trending structures between 290 and 275 Ma. Magmatic activity in the Thuringian Forest region may have been caused by widespread mantle upwelling in central Europe during the Late Carboniferous-Early Permian.

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