Reconstructing High Arctic growing season intensity from shoot length growth of a dwarf shrub

S. Weijers, F. Wagner-Cremer, U.G.W. Sass, R. Broekman, J. Rozema

Research output: Contribution to journalArticleAcademicpeer-review

22 Citations (Scopus)

Abstract

Annual shoot length of the circumarctic dwarf shrub Cassiope tetragona has proved to be a reliable proxy for past and ongoing climate change in the Arctic. This is based on its strong linear relationship with monthly climate parameters. Monthly means are, however, coarse units for prediction of growth in marginal regions with short growing seasons. An alternative to monthly averages are parameters that quantify the growing season length (GSL) and its intensity (growing degree-days; GDD5). GDD5 is defined as the cumulative daily mean temperature above 5°C. GSL is defined as the number of days on which the average temperature exceeds 5°C. The aims of this study were to test whether these parameters are a better predictor of growth than monthly means and to reconstruct past High Arctic growing season climate. Correlative analysis shows that GDD5 is a better predictor of annual shoot length growth than mean monthly temperatures and GSL, both at C. tetragona’s European northern and southern distribution limit, as well as at its assumed climatic optimum. Svalbard Airport GDD5 was reconstructed back to 1857. The reconstruction shares 61% of variance with the instrumental record. This opens the possibility to obtain an Arctic network of climate reconstructions with high temporal and spatial resolution through construction of C. tetragona shoot length chronologies.
Original languageEnglish
Pages (from-to)721-731
JournalHolocene
Volume23
Issue number5
DOIs
Publication statusPublished - 2013

Keywords

  • surface air-temperature
  • core delta-o-18 records
  • cassiope-tetragona
  • summer temperature
  • retrospective analysis
  • ice variability
  • climate signals
  • salix-arctica
  • baffin-island
  • svalbard

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