Degrading palsa mires in northern Europe : changing vegetation in an altering climate and its potential impact on greenhouse gas fluxes

The on-going global warming is projected to have large impacts on the arctic and subarctic environment. Especially vulnerable are ecosystems with narrow climatic envelopes and with small possibilities of adaptation. An example of this is the palsa mires, subarctic mire complexes with patches of perm...

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Bibliographic Details
Main Author: Karlgård, Julia
Format: Other/Unknown Material
Language:English
Published: Lunds universitet/Institutionen för naturgeografi och ekosystemvetenskap 2008
Subjects:
geography
physical geography
palsa mires
northern Europe
greenhouse gas fluxes
Earth and Environmental Sciences
Arctic
Norway
Stordalen
Climate change
Global warming
Ice
Northern Sweden
palsa
palsas
permafrost
Subarctic
Online Access:http://lup.lub.lu.se/student-papers/record/1890250
Description
Summary:The on-going global warming is projected to have large impacts on the arctic and subarctic environment. Especially vulnerable are ecosystems with narrow climatic envelopes and with small possibilities of adaptation. An example of this is the palsa mires, subarctic mire complexes with patches of permafrost. Palsas are peat mounds with a frozen core, formed by the expansion and upheaval of the segregating ice. Due to the dryer and more nutrient poor conditions on top of the mounds, the palsa vegetation differs from the wet surroundings, creating a mosaic of different microhabitats within the mire. The occurrence of palsas is determined by several environmental and climatological factors, such as air temperature, precipitation, snow depth and peat thickness. Hence, increasing precipitation and air temperature may induce thawing of the frozen peat and subsidence of the peat surface, resulting in a thicker active layer and wetter conditions. Consequently the vegetation may change, adapting to the increased wetness. This study investigates changes in the vegetational patterns associated with degradation of palsas on a regional scale, and its impacts on greenhouse gas fluxes (GHG). Field observations from fifteen sites in northern Sweden, Finland and Norway showed that the observed vegetational changes related to palsa degradation at the Stordalen mire (northern Sweden) can be considered a general phenomena on a regional scale. Thus the GHG flux measurements from the Stordalen mire may be used to quantify the potential change in GHG fluxes associated with climate induced degradation of palsa mires in the region. A simple model was built to estimate the areal change in palsa vegetation with a future climate change. The modeling results showed a rapid decrease in areas suitable for palsas within the first 30-60 years: by 2020 the area suitable for palsas was reduced by 50%, and by 2050 no areas suitable for palsas were left. The model projected areas dominated by the dryer palsa vegetation to decrease to the benefit of ...

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