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Temperature modulates intra-plant growth of Salix polaris from a high Arctic site (Svalbard).

Authors :
Buchwal, Agata
Rachlewicz, Grzegorz
Fonti, Patrick
Cherubini, Paolo
Gärtner, Holger
Source :
Polar Biology; Sep2013, Vol. 36 Issue 9, p1305-1318, 14p, 2 Charts, 6 Graphs
Publication Year :
2013

Abstract

Arctic ecosystems are important carbon sinks. Increasing temperatures in these regions might stimulate soil carbon release. Evidence suggests that deciduous shrubs might counteract these carbon losses because they positively respond to increasing temperature, but their role in ecosystem carbon budgets remains uncertain. Many studies dealing with large-scale tundra greening and carbon sequestration in relation to increasing temperature have usually based their estimations on the aboveground components, but very little is known about belowground growth. In this context, annual rings can provide a retrospective insight into intra-plant temperature responses and seasonal growth allocation. This study presents a 70-year-long and annually resolved intra-plant analysis of ring width and missing ring distribution from a comprehensive serial sectioning, including 142 cross-sections and the measurements of 471 radii from ten Salix polaris Wahlenb. dwarf shrubs growing in the high Arctic on Svalbard. Results indicate a high intra-plant and inter-annual growth variation, characterized by a high proportion of partially (13.6 %) and completely (11.2 %) missing rings. The annual growth and the frequency of completely missing rings were evenly distributed inside the plant and mainly controlled by summer temperatures. Radial growth in the belowground parts appeared to be proportionally higher during long and warm summers and lower in cold early growing seasons than in the aboveground parts. The results reveal a diverging allocation between aboveground and belowground growth depending on the climatic conditions. Favorable years promoted root allocation since root radial growth occurs after aboveground growth. The observed belowground responses suggest that shrub carbon allocation might be higher than estimated only from the aboveground compartments. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
07224060
Volume :
36
Issue :
9
Database :
Complementary Index
Journal :
Polar Biology
Publication Type :
Academic Journal
Accession number :
89583616
Full Text :
https://doi.org/10.1007/s00300-013-1349-x