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Gravity anomalies in the KTB area and their structural interpretation with special regard to the granites of the northern Oberpfalz (Germany) (1997)

Casten, U. ; Götze, H.-J. ; Plaumann, S. ; [et al.]

Springer

Geologische Rundschau 86 (1997), S. S79

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ISSN: 0016-7835

Keywords: Key words Bouguer map ; Crustal structure ; Vertical gradient map ; Depth estimation ; 3D forward modeling

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract By fieldwork within the frame of the KTB project a new set of 1800 gravity data has become available. Prominent Bouguer anomalies are produced by the ZEV (high with −6 mGal), the Grafenwöhr block (low with −24 mGal) and the granites (low with −46 mGal). The vertical gradient map gives information about the near-surface structure. In addition, spectral analysis and upward continuation of the field data give information about depth extension of the granites and other units. The density structure of the crust is outlined by 3D interactive forward modeling. Regional anomalies are caused by the Erbendorf body and the dipping Moho. Local and dominating anomalies have different sources: (a) the foreland sediments with an underlying deep structure (possibly of ZEV material); (b) the ZEV metamorphic units (gneisses and metabasites); and (c) the granites. The ZEV units are controled by the steeply inclined SE1 reflector as a tectonic element. The Falkenberg granite provides two thirds of the total granitic volume and its depth reaches 6.5 km, whereas other granites reach depths of 2–3 km. The nature of the crustal material below the granites and of the Erbendorf body remains unknown.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00014667

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Granitoid magmatism of the NW Bohemian massif revealed: gravity data, composition, age relations and phase concept (1997)

Siebel, W. ; Trzebski, R. ; Stettner, G. ; [et al.]

Springer

Geologische Rundschau 86 (1997), S. S45

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ISSN: 0016-7835

Keywords: Key words Biotite chemistry ; Bohemian massif ; Geochemistry ; Geochronology ; Granitoid magmatism ; Gravity data

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract The late Variscan granitoids of the NW Bohemian massif (northeast Bavaria, west Bohemia) constitute four partly contiguous granitoid complexes: Fichtelgebirge, northern Oberpfalz, Waidhaus-Rozvadov and Bor, incorporating more than 20 intrusive units. Based on gravity data, the granites can be modeled as steeply inclined slab- and wedge-like bodies with thicknesses between 2 and 8 km. A rough estimate of the total volume of the granites is approximately 18 000 km3. Within the four areas named above, composition ranges from less evolved dioritic rocks, known as the redwitzite suite, to highly evolved granites. The redwitzites comprise metaluminous rocks with dominant I type features. These rocks yield aberrantly old Rb–Sr ages (545–415 Ma), low initial Sr ratios (0.706–0.708) and high and variable ɛNd(T) values (1 to –4). Sr–Nd isotopes of the redwitzites show contamination trends towards the granites suggesting mixing between mantle magma and crustal granitic melts. An older plutonic association (granites of Bor, Leuchtenberg, Weissenstadt-Marktleuthen, Zainhammer) is mildly peraluminous, displaying features of both I and S type granitoids. These granites are characterized by Lower Carboniferous ages (Rb–Sr, K–Ar, U–Pb), low to intermediate initial Sr ratios (0.707–0.708) and high ɛNd(T) values (–2 to –4) which overlap with those of paragneisses from the Zone of Erbendorf-Vohenstrauss (ZEV) and from the western part of the Teplá Barrandian. It is postulated that the older granites were formed either by partial melting of ZEV or Teplá Barrandian crust, or alternatively, of preexisting mature crust contaminated by mantle material. The younger granites are strongly peraluminous and of S type. They yield Upper Carboniferous Rb–Sr and K–Ar ages and exhibit a range towards high initial Sr ratios (0.710–0.720) and low ɛNd(T) values (–4 to –8). Similar values are found in Moldanubian paragneisses and in Saxothuringian metasediments, both of which provide potential source–rock lithologies for these granites. The age and isotope data discussed herein suggest episodic rather than continuous magmatic activity. From a combination of field and analytical data, a three-stage cycle of granitoid intrusion is proposed: (a) a first phase (∼350–325 Ma) of two contrasting magma types coexisting in a close spatial context, the redwitzites (phase Ia) and the older granites (phase Ib), (b) a second phase with emplacement ages of 315–310 Ma comprising all younger granites of the northern Oberpfalz and the Waidhaus-Rozvadov complex and (c) a third phase with emplacement ages of 305–295 Ma restricted to the Fichtelgebirge.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00014665

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