
Johannes Edvardsson
Researcher

Holocene climate change and peatland dynamics in southern Sweden based on tree-ring analysis of subfossil wood from peat deposits
Author
Summary, in English
peatlands over large parts of North-west Europe. Nine additional RW chronologies, each about 200 years in length, were developed from pine, oak (Quercus robur L.) and alder (Alnus glutinosa L.). Most of these RW chronologies were dated by radiocarbon (14C). An approach combining bog-tree RW, replication and mean-age data, with peat stratigraphic records was explored to provide information about local hydrology, depositional history and peatland development. Registration of growth position of individual trees allowed assessment of the
spatial dynamics of tree populations in response to hydrological changes and peatland development. Major bog-tree establishment and degeneration phases reflect changes in bog-surface wetness, often in response to climate-controlled groundwater fluctuations. Tree establishment phases coincide with stratigraphic layers of increased
peat humification locally, and periods of increasing temperatures and widespread lake-level lowering regionally in southern Sweden. When conditions become more humid at the end of the HTM, increased lateral peatland expansion was recorded. This process could be studied in detail based on trees buried in the marginal zone of a peatland. An independent test of the hypothesis that bog-tree growth variability is controlled by effective moisture was performed by comparing RW data with tree-ring carbon (δ13C) and oxygen (δ18O) isotope records. Variations in the isotopic records confirm that growth depressions coincided with moister atmospheric conditions and reveal a lag of about three years in the growth response with respect to the isotopic signals, likely due to slow hydrologic response in the peatlands. This thesis demonstrates the usefulness of the South Swedish subfossil bog-tree material as a climate proxy with particular potential for decadal- to centennial-scale reconstructions of humidity fluctuations. It also demonstrates that subfossil bog-trees in combination with peat
stratigraphy can be used for detailed reconstructions of peatland development and local groundwater variability, which are also highly relevant in a long-term regional palaeoclimatic context.
Department/s
- Quaternary Sciences
Publishing year
2013
Language
English
Publication/Series
Lundqua thesis
Issue
68
Full text
- Available as PDF - 20 MB
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Document type
Dissertation
Publisher
Department of Geology, Lund University
Topic
- Geology
Keywords
- The Holocene.
- Peatland development
- Scots pine
- Palaeoclimatology
- Dendrochronology
- Subfossil trees
- Raised bog
- Palaeohydrology
Status
Published
Supervisor
- Dan Hammarlund
- Hans Linderson
- Mats Rundgren
- Hans Linderholm
ISBN/ISSN/Other
- ISSN: 0281-3033
- ISSN: 0281-3033
Defence date
22 March 2013
Defence time
13:15
Defence place
Pangea, Geocentrum II, Sölvegatan 12, Lund
Opponent
- Bernd Kromer (Dr)