one publication added to basket [383292] | Quaternary sediments of the southern North Sea – core analyses in aid of paleo-reconstructions. A case study of the Brown Bank, The Netherlands
Demeestere, K. (2024). Quaternary sediments of the southern North Sea – core analyses in aid of paleo-reconstructions. A case study of the Brown Bank, The Netherlands, in: Mees, J. et al. Book of abstracts – VLIZ Marine Science Day, 6 March 2024, Oostende. VLIZ Special Publication, 91: pp. 27-28 In: Mees, J.; Seys, J. (Ed.) (2024). Book of abstracts – VLIZ Marine Science Day, 6 March 2024, Oostende. VLIZ Special Publication, 91. Flanders Marine Institute (VLIZ): Oostende. vii + 130 pp. https://dx.doi.org/10.48470/71, more In: VLIZ Special Publication. Vlaams Instituut voor de Zee (VLIZ): Oostende. ISSN 1377-0950, more | |
Available in | Author | | Document type: Summary
|
Keyword | | Author keywords | Econstruction; Paleoenvironment; North Sea, Netherlands; Brown Bank; Multi-proxy, Micropaleontology, Sedimentology; Parametric Echosounder Sub-bottom Profiler; Dating; Sea-level Rise; Holocene; Mesolithic; Peat |
Abstract | The Brown Bank (BB), a sand ridge located midway between the Dutch and British coastlines of the southern North Sea, is a site of interest thanks to the recovery of archeological and paleontological material, including tools, human remains, etc., of Mesolithic age (10–7.5 ka BP) (Peeters & Amkreutz, 2020; Missiaen et al., 2021). They were found ex situ by e.g. dredging a large area, which emphasizes the need to advance paleo-landscape research to pinpoint areas of archeological potential, where these artifacts could be retrieved in situ (Missiaen et al., 2021).This master thesis research combines ultra-high-resolution parametric echosounder sub-bottom profiler (PES) and core data obtained during several surveys (2018–2022). Core data include lithological descriptions, multi-sensor core logging (MSCL) data (density and magnetic susceptibility), micropaleontological analyses of pollen, ostracods, foraminifers and diatoms, as well as optically stimulated luminescence (OSL) and radiocarbon dates. Interpretation of this dataset yields four acoustic units (AU), which represent eleven lithological units (LU). Paleoenvironmental analysis of the fossil content and correlation between cores further aid in determining the environmental evolution of the BB area.During past glacial periods (e.g. the last glacial MIS4-2), sea levels were globally more than 100 m lower than today, with the southern North Sea subaerially exposed and consisting of a low-lying area in which large rivers coalesced and drained the European continent. Around 11–9.5 ka, based on 14C-dates, rising groundwater levels, caused by rising sea level, led to freshwater peat development in vegetated slow-flowing and stagnant water bodies, along with deposition of organic-rich sands. Previously analyzed pollen data indicate pine trees prevailing in a marsh environment, with increasing amounts of deciduous trees. Around c. 9.5 ka, two small sandy, dominantly freshwater deposits with a small brackish signal in the diatom composition, hint to a first phase of tidal influence in these rivers. Shortly after, fine laminae of clay and fine sand and brackish microfossils indicate widespread estuarine tidal flats, creeks and shallow rivers until c. 8.5 ka. The approaching coastline is marked by an increase in salinity and depositional energy. For this period, the pollen data indicate the presence of marsh conditions at the edge of a pine, elm, oak and hazel forest. After a period of erosion, from c. 8 ka onwards, shelly sands indicate high-energy marine conditions.Some important conclusions and hypotheses result from this reconstruction. (1) The presence of dominantly freshwater deposits above the peat layer has hitherto not been described in the literature. Their origin requires more research. A possible explanation is an estuarine system comparable to that of the river Scheldt (Belgium) today, where the tidal influence reaches far inland, but with predominantly fresh environmental conditions. (2) The freshwater peat can be used as a limiting point for sea-level reconstructions. (3) Preliminary mapping of the tidal sediments suggests a complex channel network. Its orientation allows to hypothesize that the first marine influence entered the area from estuaries north of the BB area. (4) From our acoustic data, there appears to be no indication that the BB was already a topographic upstanding feature during the Mesolithic, as suggested by Missiaen et al. (2021).A special thank you goes to M. Grant for the pollen analysis, J. Whittaker for the ostracod and foraminifera determination and T. Hill for part of the diatom analysis. |
|