Your search keyword '"Mauz, Barbara"' showing total 2 results

1. Holocene environmental reconstruction of sediment-source linkages at Crummock Water, English Lake District, based on magnetic measurements.

Author

Zhixiong Shen, Bloemendal, Jan, Mauz, Barbara, Chiverrell, Richard C., Dearing, John A., Lang, Andreas, and Qingsong Liu

Subjects

HOLOCENE stratigraphic geology, MAGNETIC measurements, ARABLE land, ROCK-forming minerals, SEDIMENTS, MAGNETIC properties, HUMAN activity recognition, GLOBAL environmental change

Abstract

To reconstruct Lateglacial and Holocene environmental changes in the British uplands, two c. 5.8 m long sediment cores from Crummock Water (NW England), together with several hundred soil samples from the Crummock Water catchment, were studied using magnetic techniques. Optically stimulated luminescence (OSL) dating using fine silt quartz and 14C dating of terrestrial plant macrofossils were used to establish a chronology for the lake sediments. A good agreement between optical and 14C ages indicates first, that the OSL dating method can be used to date lake sediments in the British Isles; second that macrofossil-based 14C dating can be used to avoid the problem of 'old carbon' error associated with bulk sample 14C dating of lake sediments and third, that the established chronology is robust. The lake sediment magnetic properties indicate a series of changes in sediment composition during the Holocene, which correlate well with sediment lithology, water content and weight-loss-on-ignition. The first change corresponds to the Lateglacial/Postglacial climatic shift at around 11 400 years ago; the subsequent suite of changes corresponds to a probable regional onset of human activity at 2000 BC, and particularly to the intensification of human activity at around AD 900. A comparison of the lake sediment magnetic properties and those of the catchment soils shows a clear linkage for the Lateglacial period, and for the period after AD 900. In contrast, detailed magnetic measurements of the early- through mid-Holocene sediments suggest that their magnetic properties are dominated by bacterial magnetosomes. [ABSTRACT FROM AUTHOR]

Published

2008

2. Denudation of the continental shelf between Britain and France at the glacial–interglacial timescale.

Author

Mellett, Claire L., Hodgson, David M., Plater, Andrew J., Mauz, Barbara, Selby, Ian, and Lang, Andreas

Subjects

*CHEMICAL denudation, *CONTINENTAL shelf, *GLACIAL climates, *TIMESCALE number

Abstract

Abstract: The erosional morphology preserved at the sea bed in the eastern English Channel dominantly records denudation of the continental shelf by fluvial processes over multiple glacial–interglacial sea-level cycles rather than by catastrophic flooding through the Straits of Dover during the mid-Quaternary. Here, through the integration of multibeam bathymetry and shallow sub-bottom 2D seismic reflection profiles calibrated with vibrocore records, the first stratigraphic model of erosion and deposition on the eastern English Channel continental shelf is presented. Published Optical Stimulated Luminescence (OSL) and 14C ages were used to chronometrically constrain the stratigraphy and allow correlation of the continental shelf record with major climatic/sea-level periods. Five major erosion surfaces overlain by discrete sediment packages have been identified. The continental shelf in the eastern English Channel preserves a record of processes operating from Marine Isotope Stage (MIS) 6 to MIS 1. Planar and channelised erosion surfaces were formed by fluvial incision during lowstands or relative sea-level fall. The depth and lateral extent of incision was partly conditioned by underlying geology (rock type and tectonic structure), climatic conditions and changes in water and sediment discharge coupled to ice sheet dynamics and the drainage configuration of major rivers in Northwest Europe. Evidence for major erosion during or prior to MIS 6 is preserved. Fluvial sediments of MIS 2 age were identified within the Northern Palaeovalley, providing insights into the scale of erosion by normal fluvial regimes. Seismic and sedimentary facies indicate that deposition predominantly occurred during transgression when accommodation was created in palaeovalleys to allow discrete sediment bodies to form. Sediment reworking over multiple sea-level cycles (Saalian–Eemian–early Weichselian) by fluvial, coastal and marine processes created a multi-lateral, multi-storey succession of palaeovalley-fills that are preserved as a strath terrace. The data presented here reveal a composite erosional and depositional record that has undergone a high degree of reworking over multiple sea-level cycles leading to the preferential preservation of sediments associated with the most recent glacial–interglacial period. [Copyright &y& Elsevier]

Published

2013