Ostracod biostratigraphy in the Lower Cretaceous of the Iberian chain (eastern Spain)

Lower Cretaceous ostracod associations (marine and nonmarine) have been studied from 34 sections of the Iberian chain or, geologically spoken, the Iberian basin (eastern Spain), in order to contribute to the chronostratigraphic correlation of the various predominantly nonmarine lithostratigraphic units in the Cameros, Maestrazgo, and South Iberian sub-basins (and the Central Iberian high in between). We have combined 87 ostracod species from 22 genera to 11 associations, each typical for certain stratigraphic levels (mostly stages) and ecologies. Nonmarine associations (dominated by the genera Cypridea and Theriosynoecum) prevailed from the Berriasian to the Barremian interval, whereas marine-brackish associations (much more diverse on the generic level) prevailed during the Aptian and Albian, and to a lesser extent during the Berriasian and Barremian. In most cases, our new ostracod data are consistent with previous correlative charts, as based upon other biostratigraphic data, mainly from charophytes, but also from few marine fossils in marine intercalations, and on depositional sequence stratigraphy. But in a few cases, our results are more or less different from those of established charts, namely in the eastern Cameros sub-basin (the Urbión group considered Late Berriasian in age instead of Valanginian-Barremian, and the Enciso group considered Late Valanginian-Barremian instead of Late Barremian-Aptian), in the northeastern Maestrazgo sub-basin (the Polacos Formation considered Late Berriasian-Early Hauterivian instead of Late Berriasian only), and in the uppermost part of the Lower Cretaceous in the South Iberian sub-basin (the Contreras and El Caroig Formations considered Albian instead of Aptian). Finally, we evaluate the usability of ostracod biostratigraphy in the Lower Cretaceous of eastern Spain and conclude that, if treated with great care especially under consideration of the biogeography and reproduction/dispersal strategies of the various groups, it should be given priority over pure lithostratigraphic correlations in conflicting cases.Las asociaciones de ostrácodos del Cretácico Inferior (marino y no marino) han sido estudiadas en 34 secciones de la cadena Ibérica, o en términos geológicos, la cuenca Ibérica (este de España) con el fin de contribuir a la correlación cronoestratigráfica de las variadas unidades, predominantemente no marinas, de las subcuencas de Cameros, Maestrazgo y Suribéricas (así como el alto Centroibérico intermedio). Hemos descrito 87 especies de ostrácodos pertenecientes a 22 géneros e incluidos en 11 asociaciones, cada una de ellas características de un determinado nivel estratigráfico (pisos sobre todo) y con una paleoecología concreta. Las asociaciones no marinas (dominadas por los géneros Cypridea y Theriosynoecum) prevalecieron desde el Berriasiense hasta el Barremiense, mientras que las asociaciones marinas-estuarinas (mucho más diversificadas a nivel genérico) se desarrollaron durante el Aptiense y Albiense, y en un grado menor, durante el Berriasiense y Barremiense. En la mayoría de los casos, nuestros nuevos datos de los ostrácodos son consistentes con los esquemas de correlación previos, basados en otros datos bioestratigráficos, sobre todo en charofitas, aunque también en los pocos fósiles presentes en las intercalaciones marinas, así como en la estratigrafía secuencial. Sin embargo, en algunos casos nuestros resultados son más o menos diferentes de los esquemas establecidos, sobre todo para la subcuenca oriental de Cameros (el Grupo Urbión es considerado de edad Valanginiense Superior-Barremiense, en lugar de Barremiense Superior-Aptiense), en la subcuenca nordoriental del Maestrazgo (la Formación Polacos es considerada Berriasiense Superior-Hauteriviense Inferior, en lugar de solo Berriasiense Superior) y en la parte superior del Cretácico Inferior en la subcuenca Suribérica (las Formaciones Contreras y El Caroig son consideradas del Albiense en lugar del Aptiense). Finalmente evaluamos la utilidad de la bioestratigrafía basada en los ostrácodos en el Cretácico Inferior del este de España y concluimos en que, si se trata con cuidado y se toma en consideración la biogeografía y las estrategias de reproducción/dispersión de los diferentes grupos, en caso de conflicto se debería dar prioridad a la bioestratigrafía de ostrácodos sobre las correlaciones puramente litoestratigráficas

Sedimentary record of coseismic subsidence in Hersek coastal lagoon (Izmit Bay, Turkey) and the late Holocene activity of the North Anatolian Fault

This research was funded by the European Union in the framework of the REL.I.E.F. (Reliable Information on Earthquake Faulting) project (EVG1‐CT‐2002‐00069). Copyright @ 2011 American Geophysical Union.The late Holocene activity of a restraining bend of the northern strand of the North Anatolian Fault in Izmit Bay was investigated by a sedimentological, geochemical, and paleoecological analysis of sediment cores from Hersek coastal lagoon, NW Turkey. The sediment cores show a succession of sedimentary sequences composed of three units separated by gradual transitions. The first unit is composed of a thin layer of shell debris-rich sediment in abrupt contact with the underlying organic-rich deposits. This unit is over-lain by a thick foraminifera-rich mud deposit, and the sequences are capped by an organic-rich mud unit. These sequences are interpreted as silting up, shallowing upward deposits, typical of a lagoon becoming isolated from the sea. We suggest that they represent the sedimentary signature of coseismic subsidence, which was caused by reverse slip at the Hersek bend, and tsunamis in Izmit Bay. Our radiocarbon-dated paleoseismological record indicates (1) the atypical collapse of the hanging wall during the 740 earthquake and (2) subsidence of the footwall during the 987, 1509, and 1719 earthquakes. This study contributes to the understanding of the dynamics of restraining bends, and it highlights the potential of coastal sediments for reconstructing past earthquakes and tsunamis in regions dominated by strike-slip deformations.This article is available through the Brunel Open Access Publishing Fun

Intra-trackway morphological variations due to substrate consistency: the El Frontal dinosaur tracksite (Lower Cretaceous, Spain).

An ichnological and sedimentological study of the El Frontal dinosaur tracksite (Early Cretaceous, Cameros basin, Soria, Spain) highlights the pronounced intra-trackway variation found in track morphologies of four theropod trackways. Photogrammetric 3D digital models revealed various and distinct intra-trackway morphotypes, which reflect changes in footprint parameters such as the pace length, the track length, depth, and height of displacement rims. Sedimentological analyses suggest that the original substrate was non-homogenous due to lateral changes in adjoining microfacies. Multidata analyses indicate that morphological differences in these deep and shallow tracks represent a part of a continuum of track morphologies and geometries produced by a gradient of substrate consistencies across the site. This implies that the large range of track morphologies at this site resulted from similar trackmakers crossing variable facies. The trackways at the El Frontal site present an exemplary case of how track morphology, and consequently potential ichnotaxa, can vary, even when produced by a single trackmaker

DRILL CORE MINERAL ANALYSIS BY MEANS OF THE HYPERSPECTRAL IMAGING SPECTROMETER HySpex, XRD AND ASD IN PROXIMITY OF THE MÝTINA MAAR, CZECH REPUBLIC

Imaging spectroscopy is increasingly used for surface mapping. Therefore different expert systems are being utilized to identify surface cover materials. Those expert systems mainly rely on the spectral comparison between unknown and library spectra, but their performances were only limited qualified. This study aims on the comparative analysis of drill core samples from the recently discovered maar system in the Czech Republic. Drill core samples from the surrounding area of the Mýtina maar were analyzed by X-Ray diffraction (XRD) and the hyperspectral spectrometer HySpex. Additionally, soil samples were measured in-situ by the ASD FieldSpec4 and in the laboratory by the HySpex VNIR/SWIR spectrometer system. The data was then analyzed by the MICA-algorithm and the results were compared to the results of the XRD -analysis. The XRD-analysis served here as validation basis. The results of the hyperspectral and the XRD analyses were used to densify a volcanic map that also integrates in-situ soil measurements in the surrounding area of Mýtina. The comparison of the XRD- and solaroptical remote sensing results showed a good correlation of qualified minerals if the soil organic carbon content was significantly low. Contrary to XRD, smectites and muscovites were also straightforward identified that underlines the overall performance of the approach to identify minerals. Basically, in this work an operable approach is proposed that enables the fast, repeatable and detailed analysis of drill cores, drill core samples and soil samples and, hence, provides a higher performance than state-of-the-art XRD-analyses