Post-Glacial History of Sea-Level and Environmental Change in the Southern Baltic Sea

A new palaeoenvironmental record of the post-glacial history of the southern Baltic Sea (~14 ka to present) is presented. During this period, large water level and salinity changes occurred in the Baltic Basin due to opening and closing of connections to the North Atlantic. Previous attempts to esta...

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Bibliographic Details
Main Author: Kortekaas, Marloes
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Department of Geology, Lund University 2007
Subjects:
Geology
kartografi
klimatologi
Geofysik
fysisk oceanografi
physical oceanography
meteorology
Sedimentologi
Stratigrafi
Stratigraphy
Baltic Sea
geokemi
Petrologi
mineralogi
geochemistry
mineralogy
Petrology
greigite
mineral magnetics
sea-level changes
Holocene
Littorina transgression
geomorphology
pedology
cartography
climatology
meteorologi
Geophysics
Sedimentology
Optically Stimulated Luminescence (OSL)
Fysisk geografi
geomorfologi
marklära
Physical geography
North Atlantic
Online Access:https://lup.lub.lu.se/record/548242
https://portal.research.lu.se/files/4878320/3163568.pdf
Description
Summary:A new palaeoenvironmental record of the post-glacial history of the southern Baltic Sea (~14 ka to present) is presented. During this period, large water level and salinity changes occurred in the Baltic Basin due to opening and closing of connections to the North Atlantic. Previous attempts to establish a detailed chronology for these palaeoenvironmental changes have been conducted mainly in coastal settings, where organic material for 14C dating is abundant. Many of these records are, however, discontinuous due to large water level fluctuations. In the relatively deep water of the Arkona Basin (45 m deep) in the southern Baltic Sea the sediment record is expected to be more or less continuous, but lack of organic material for 14C dating has impeded previous studies. Here, palaeoenvironmental change in the Arkona Basin is reconstructed on the basis of geochemical, sedimentological, mineral magnetic and palaeontological investigations. Additionally, independent physically based chronological control is, for the first time, obtained using Optically Stimulated Luminescence (OSL) dating on fine quartz sand from a ~10.86 m long sediment core. Tests of luminescence characteristics confirmed the suitability of the material for OSL dating and the ages agree well with the available AMS 14C ages on shells; in contrast, bulk sediment 14C ages are generally ~1000 years too old. Stratigraphic marker horizons in this deep basin are now absolutely dated, allowing comparison and testing of existing models of post-glacial Baltic Sea regional development. Glacial varved clay was deposited during the Baltic Ice Lake stage and a sand layer representing the Baltic Ice Lake drainage to the North Atlantic is dated to ~11.6 ka. This event is followed by a period of low water level and enhanced influence from the Oder River. A period of very rapid sedimentation occurs between ~10.9 and ~10.4 ka and is attributed to the Ancylus Lake transgression. A first anomalous slightly brackish water inflow is recorded at ~9.8 ka, but there is no ...

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