Please use this identifier to cite or link to this item:
|Title: ||Environmental change in the Limfjord, Denmark (ca 7500-1500 cal yrs BP): a multiproxy study|
|Authors: ||Lewis, Jonathan P.|
Ryves, David B.
Knudsen, Karen L.
Petersen, Kaj S.
Leng, Melanie J.
|Issue Date: ||2013|
|Citation: ||LEWIS, J. ... et al, 2013. Environmental change in the Limfjord, Denmark (ca 7500-1500 cal yrs BP): a multiproxy study. Quaternary Science Reviews, 78, pp.126-140.|
|Abstract: ||The Limfjord region of northern Jutland, Denmark, supports a rich archaeological record dating back to the Mesolithic, which documents long-term change in human practices and utilisation of marine resources since approximately 7500 BP. The presence and availability of marine resources in the Limfjord is sensitively regulated by environmental parameters such as salinity, sedimentary regime, nutrient status and primary productivity, but long-term changes in these parameters are currently poorly understood. In this study a multiproxy approach (including sedimentary parameters, diatoms, molluscs, foraminifera, sedimentary pigments, C and O stable isotopes and plant macrofossils) has been adopted to assess environmental change over the period ca 7500–1500 cal yrs BP at Kilen, a coastal fjord (before AD 1856) situated in the Western Limfjord. A diatom-based salinity transfer function based on a pan-Baltic training set has been applied to the fossil diatom dataset for quantitative assessment of salinity change over the study period. This study demonstrates that large-scale shifts in salinity are a common feature of the Limfjord's long-term history and are driven by the level of connection with the North Sea and the Skagerrak respectively, which in turn is likely driven by the complex interplay between climate, sea-level change, current velocity and rates of erosion/sedimentary accretion. Three shifts in state at Kilen are identified over the study period: a deep, periodically stratified fjord with medium–high salinity (and high productivity) between ca 7500–5000 BP, followed by a gradual transition to a shallow benthic system with more oceanic conditions (i.e. higher salinity, lower productivity, slower sedimentary accumulation rate and poorer fossil preservation) after ca 5000 BP and no stratification after ca 4400 BP, and lastly, within this shallow phase, an abrupt shift to brackish conditions around 2000 BP. Environmental–societal interactions are discussed on the basis of the data presented in this study and current environmental hypotheses for cultural change are challenged.|
|Description: ||This article was published under a Creative Commons CC-BY licence.|
|Sponsor: ||Funding from Loughborough University Development Fund (Ph.D. funding for JPL), Quaternary Research Association (QRA) New Researchers' Award (for sedimentary pigments to JPL) and NERC Isotope Geosciences Facilities Steering Committee (NIGFSC; award no. IP/1080/1108, for isotope analysis to DBR and JPL) and the Geological Survey of Denmark and Greenland (for funding several 14C-datings) are gratefully acknowledged.|
|Publisher Link: ||http://dx.doi.org/10.1016/j.quascirev.2013.05.020|
|Appears in Collections:||Published Articles (Geography and Environment)|
Files associated with this item:
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.