X-ray fluorescence (XRF) measurements of two sediment cores from the Ceara Rise

Die XRF-Daten wurden an Archivhälften der Schwerelotkerne GeoB4402-2 und GeoB4407-3 erhoben, die am Nordwest-Hang des Ceará-Rückens gezogen wurden. Der Ceará-Rücken liegt im westlichen, äquatorialen Atlantik im Ablagerungsgebiet des Amazonas. Die Messdaten wurden mit dem XRF-Kern-Scanner "CORETEX (Corescanner Texel)" im Marum in Bremen erhoben, der auf dem Prinzip der Röntgenfluoreszenzanalyse beruht (gemessene Auflösung: 1 cm). Der Sedimenteintrag, speziell der Eintrag von terrigenem Material (durch Verwitterung entstandenes Material auf den Kontinenten), in die Ozeane ist ein immer noch schlecht verstandener Prozess, der aber für eine Vielzahl von geologischen Fragestellungen von entscheidender Bedeutung ist. Der terrigene Sedimenteintrag am Ceará-Rücken ist nahezu ausschließlich vom Amazonas geprägt. Die abgelagerten Sedimente auf dem Ceará-Rücken können als Zwei-Komponentensystem beschrieben werden. Eine Quelle ist der terrigene Eintrag aus dem Amazonas. Die zweite Quelle ist biogenes Kalziumkarbonat, dass vom kalkigen Plankton (vor allem Coccolithophoriden und zum Teil Foraminiferen) aus der oberen Wassersäule stammt. Heutzutage ist der westliche, tropische Atlantik die Hauptpassage des Transfers von warmem Oberflächenwasser vom Süd- in den Nordatlantik. Die Abgabe von Wärme und Feuchtigkeit aus den Tropen könnte im Zusammenhang mit kurzfristigen Klimawechseln stehen. Untersuchungen an Hand von Aufzeichnungen aus der nördlichen Hemisphäre weisen darauf hin, dass kurzfristige Klimaschwankungen der Nordhemisphäre zu Veränderungen der atmosphärischen Zirkulation in niedrigen Breiten auf einer Zeitskala von nur wenigen Tausenden Jahren führen können. Eine wichtige Frage dabei ist, wie der spätpleistozäne Eintrag von Terrigen-Material durch den Amazonas gesteuert ist durch Klimaschwankungen in den Tropen in Wechselwirkung mit den Vereisungs- und Abschmelzphasen der Nordhemisphäre. Hierbei sind sowohl die Glazial-Interglazial Zyklen als auch kurzfristige Klimaschwankungen wie die Dansgaard-Oeschger-Zyklen und die mit ihnen verbundenen Heinrich-Ereignisse von Bedeutung.

X-ray fotos of 10 sediment cores from the Baltic Sea

Various types of trace fossils have been studied on radiographs of sediment cores from the Western Baltic since the early nineteen sixties. lnvestigations on the endo- und epifauna including their habitats and population densities carried out independently by biologists helped to identify the processes of their formation and classify the structures. Biogenic traces are ubiquitous in both sandy and muddy sediments of the Great Belt, where the bottom waters are weil oxygenated through inflows from the North Sea (through Kattegat-Skagerrak). Almost all types of bioturbation structures encountered in the Kiel Bay are also observed in a variety of shapes and forms, and can be considered as representative for the Western Baltic area. Polychaetes, bivalves and echinoderms were recorded at the sediment surface of the cores, and also in living positions in the sediment. The different types of burrows having distint outlines ('trace fossis'), and those having indistinct outlines ('biodeformational strctures'), and their varying abundance encountered in the area have been linked, wherever possible, to the sediment type, and to the macro-benthos.

Planktic foraminiferal abundance and stable oxygen isotope ratios of sediment cores from the Southern California Borderlands

A variety of evidence suggests that average sea surface temperatures (SSTs) during the last glacial maximum in the California Borderlands region were significantly colder than during the Holocene. Planktonic foraminiferal delta18O evidence and average SST estimates derived by the modern analog technique indicate that temperatures were 6°-10°C cooler during the last glacial relative to the present. The glacial plankton assemblage is dominated by the planktonic foraminifer Neogloboquadrina pachyderma (sinistral coiling) and the coccolith Coccolithus pelagicus, both of which are currently restricted to subpolar regions of the North Pacific. The glacial-interglacial average SST change determined in this study is considerably larger than the 2°C change estimated by Climate: Long-Range Investigation, Mapping, and Prediction (CLIMAP) [1981]. We propose that a strengthened California Current flow was associated with the advance of subpolar surface waters into the Borderlands region during the last glacial.

Charcoal records of two sediment cores off SW Africa

We analyze sedimentary charcoal records to show that the changes in fire regime over the past 21,000 yrs are predictable from changes in regional climates. Analyses of paleo- fire data show that fire increases monotonically with changes in temperature and peaks at intermediate moisture levels, and that temperature is quantitatively the most important driver of changes in biomass burning over the past 21,000 yrs. Given that a similar relationship between climate drivers and fire emerges from analyses of the interannual variability in biomass burning shown by remote-sensing observations of month-by-month burnt area between 1996 and 2008, our results signal a serious cause for concern in the face of continuing global warming.

Paleomagnetic and radiocarbon-based chronologies of sediment cores MD99-2269 and MD99-2322

We report the intercalibration of paleomagnetic secular variation (PSV) and radiocarbon dates of two expanded postglacial sediment cores from geographically proximal, but oceanographically and sedimentologically contrasting settings. The objective is to improve relative correlation and chronology over what can be achieved with either method alone. Core MD99-2269 was taken from the Húnaflóaáll Trough on the north Iceland shelf. Core MD99-2322 was collected from the Kangerlussuaq Trough on the east Greenland margin. Both cores are well dated, with 27 and 20 accelerator mass spectrometry 14C dates for cores 2269 and 2322, respectively. Paleomagnetic measurements made on u channel samples document a strong, stable, single-component magnetization. The temporal similarities of paleomagnetic inclination and declination records are shown using each core's independent calibrated radiocarbon age model. Comparison of the PSV records reveals that the relative correlation between the two cores could be further improved. Starting in the depth domain, tie points initially based on calibrated 14C dates are either adjusted or added to maximize PSV correlations. Radiocarbon dates from both cores are then combined on a common depth scale resulting from the PSV correlation. Support for the correlation comes from the consistent interweaving of dates, correct alignment of the Saksunarvatn tephra, and the improved correlation of paleoceanographic proxy data (percent carbonate). These results demonstrate that PSV correlation used in conjunction with 14C dates can improve relative correlation and also regional chronologies by allowing dates from various stratigraphic sequences to be combined into a single, higher dating density, age-to-depth model.