Upper Neoproterozoic-Lower Cambrian sedimentary successions in the Central Iberian Zone (Spain): sequence stratigraphy, petrology and chemostratigraphy. Implications for other European zones

Valladares, M.I.; Barba, Pedro; Ugidos, J. M.; Colmenero, Juan Ramón; Armenteros, Ildefonso Armenteros

doi:10.1007/s005310050314

Cited by 59 publications

(56 citation statements)

References 30 publications

(58 reference statements)

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“…The consequence was severe chemical alteration of the siliciclastic material, resulting in intense leaching of Ca and Na as well as the redistribution of some trace elements (principally Y and the rare earth elements). These chemical effects are found in detrital rocks underlying, and especially overlying, this regional-scale unconformity, and sequence stratigraphy predicts the presence of other such unconformities, notably at the lower boundary of the Upper Neoproterozoic sequence, with similar extreme compositional characteristics (Ugidos et al 1997a(Ugidos et al , b, 2003aValladares et al 1998Valladares et al , 2000. The important implication for the purposes of this present study is that the sedimentary succession that hosts the granites and was subject to Variscan high T/low P regional metamorphism contains at least one, and probably multiple, horizons that have suffered extreme chemical alteration.…”

Section: Geological Settingmentioning

confidence: 99%

“…The most conspicuous characteristics of these siliciclastic rocks are their petrological and geochemical homogeneity, together with their chemical maturity over an extensive region of more than 30,000 km 2 in western Spain. Furthermore, some chemical concentrations such as TiO 2 and Zr, together with some elemental ratios (e.g., Rb/Zr<0·65, Ti/Nb>400) and relatively high Nd values in the sequences of the Upper Neoproterozoic ( Nd > 4), are clearly distinct from those of the Lower Cambrian (Rb/Zr>0·7, Ti/Nb<400, Nd < 4), reflecting different sources for the siliciclastic materials of both sequences (Ugidos et al 1997a(Ugidos et al , b, 2003Valladares et al 1998Valladares et al , 2000.…”

Section: Geological Settingmentioning

confidence: 99%

“…143 Nd/ 44 Nd ratios were measured in multidynamic mode and corrected for mass fractionation using an exponential law and 146 Nd/ 144 Nd=0·7219. Repeat analyses of the internal laboratory standard (JM) gave 143 Nd/ Table 1 Granite emplacement levels in relation stratigraphic units derived from sequence stratigraphy analysis in the Central Iberian Zone W and S of Salamanca (Valladares et al 2000). The stratigraphic levels of some specific sample locations are also indicated.…”

Section: Analytical Techniquesmentioning

confidence: 99%

“…The Upper Neoproterozoic-Lower Cambrian boundary is an unconformity corresponding to a eustatic fall in sea level (Valladares et al 2000(Valladares et al , 2006 that led to the subaerial exposure of the uppermost Neoproterozoic. The consequence was severe chemical alteration of the siliciclastic material, resulting in intense leaching of Ca and Na as well as the redistribution of some trace elements (principally Y and the rare earth elements).…”

Section: Geological Settingmentioning

confidence: 99%

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A reactive assimilation model for regional-scale cordierite-bearing granitoids: geochemical evidence from the Late Variscan granites of the Central Iberian Zone, Spain

Ugidos¹,

Stephens

Carnicero³

et al. 2008

Earth and Environmental Science Transactions of the Royal Socie

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Regional scale biotite and cordierite-bearing granites (s.l.) in the Variscan of the Central Iberian Zone (CIZ) are spatially closely associated with cordierite-rich nebulites and cordierite-bearing two-mica granites, and with cordierite-rich high grade hornfelses and cordieritites (>60% cordierite) that are relatively common in the aureoles of these granites. Building on published field evidence, petrological data are presented which, combined with new chemical and isotopic (Sr-Nd) modelling, indicate that the cordierite-bearing granites cannot be derived by simple anatexis of regional sedimentary protoliths; but the data are consistent with a process of reactive assimilation that involves the interaction of biotite granite magma with high-grade host rocks ranging from cordierite nebulites to andalusite-bearing cordieritites. The contribution of the postulated cordieriterich contaminants to the diversity of cordierite granite compositions is modelled using the compositions of regional Lower Cambrian-Upper Neoproterozoic metasedimentary rocks that are generally chemically mature (CaO very rarely exceeds 1·4%). These rocks include specific horizons in which extreme chemical alteration is attributable to sediment reworking during eustatic falls in sea level. Such compositions may account for the presence of the high concentrations in Al that later produced cordieritites. Fractional crystallisation is also important, particularly in generating the more evolved cordierite granite and cordierite biotite muscovite granite compositions. Although assimilation in situ is normally regarded as a minor contributor volumetrically to evolving plutons, in this instance the emplacement of large volumes of granite magma into a high-T-low-P environment significantly increased the potential for reactive assimilation.

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Section: Geological Settingmentioning

confidence: 99%

Section: Geological Settingmentioning

confidence: 99%

Section: Analytical Techniquesmentioning

confidence: 99%

Section: Geological Settingmentioning

confidence: 99%

See 2 more Smart Citations

A reactive assimilation model for regional-scale cordierite-bearing granitoids: geochemical evidence from the Late Variscan granites of the Central Iberian Zone, Spain

Ugidos¹,

Stephens

Carnicero³

et al. 2008

Earth and Environmental Science Transactions of the Royal Socie

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“…The SchistGreywacke Complex is a thick turbidite sequence aged Ediacaran to Cambrian that occupies the major part of the Central Iberian Zone. Two main units have been recognized: a lower unit aged Ediacaran and an upper unit aged Early Cambrian (Valladares et al, 2000;Ugidos et al, 2010;Pereira et al, 2012). In Portugal these two units were nominated Beiras Group (BG) and Douro Group (DG) respectively (Sousa, 1984) (Fig.…”

Section: Geological Settingmentioning

confidence: 99%

LP-HT anatectic processes and lithological heterogeneity in the Mindelo Migmatite Complex (NW Portugal)

Areias¹,

Ribeiro²,

Santos³

et al. 2014

Estud. geol.

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Magnetotelluric Imaging of the Lithosphere Across the Variscan Orogen (Iberian Autochthonous Domain, NW Iberia)

et al. 2017

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A new magnetotelluric (MT) survey comprising 17 MT soundings throughout a 30 km long N30°W transect in the Iberian autochthons domain of NW Iberia (Central Iberian Zone) is presented. The 2‐D inversion model shows the resistivity structure of the continental crust up to 10 km depth, heretofore unavailable for this region of the Variscan Orogen. The MT model reveals a wavy structure separating a conductive upper layer underlain by a resistive layer, thus picturing the two main tectonic blocks of a large‐scale D2 extensional shear zone (i.e., Pinhel shear zone). The upper layer represents a lower grade metamorphic domain that includes graphite‐rich rocks. The lower layer consists of high‐grade metamorphic rocks that experienced partial melting and are associated with granites (more resistive) emplaced during crustal thinning. The wavy structure is the result of superimposed crustal shortening responsible for the development of large‐scale D3 folds (e.g., Marofa synform), later deflected and refolded by a D4 strike‐slip shear zone (i.e., Juzbado‐Penalva do Castelo shear zone). The later contribution to the final structure of the crust is marked by the intrusion of postkinematic granitic rocks and the propagation of steeply dipping brittle fault zones. Our study demonstrates that MT imaging is a powerful tool to understand complex crustal structures of ancient orogens in order to design future prospecting surveys for mineral deposits of economic interest.

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Upper Neoproterozoic-Lower Cambrian sedimentary successions in the Central Iberian Zone (Spain): sequence stratigraphy, petrology and chemostratigraphy. Implications for other European zones

Cited by 59 publications

References 30 publications

A reactive assimilation model for regional-scale cordierite-bearing granitoids: geochemical evidence from the Late Variscan granites of the Central Iberian Zone, Spain

A reactive assimilation model for regional-scale cordierite-bearing granitoids: geochemical evidence from the Late Variscan granites of the Central Iberian Zone, Spain

LP-HT anatectic processes and lithological heterogeneity in the Mindelo Migmatite Complex (NW Portugal)

Magnetotelluric Imaging of the Lithosphere Across the Variscan Orogen (Iberian Autochthonous Domain, NW Iberia)

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