Abstract
A seven-year long, two-factorial experiment using elevated temperatures (5 °C) and CO2 (concentration doubled compared to ambient conditions) designed to test the effects of global climate change on plant community composition was set up in a Subarctic ecosystem in northernmost Sweden. Using point-frequency analyses in permanent plots, an increased abundance of the deciduous Vaccinium myrtillus, the evergreens V. vitis-idaea and Empetrum nigrum ssp. hermaphroditum and the grass Avenella flexuosa was found in plots with elevated temperatures. We also observed a possibly transient community shift in the warmed plots, from the vegetation being dominated by the deciduous V. myrtillus to the evergreen V. vitis-idaea. This happened as a combined effect of V. myrtillus being heavily grazed during two events of herbivore attack—one vole outbreak (Clethrionomys rufocanus) followed by a more severe moth (Epirrita autumnata) outbreak that lasted for two growing seasons—producing a window of opportunity for V. vitis-idaea to utilize the extra light available as the abundance of V. myrtillus decreased, while at the same time benefitting from the increased growth in the warmed plots. Even though the effect of the herbivore attacks did not differ between treatments they may have obscured any additional treatment effects. This long-term study highlights that also the effects of stochastic herbivory events need to be accounted for when predicting future plant community changes.
Highlights
Over the past 135 years, the mean global temperature has increased by 0.85 ◦C and the atmospheric CO2 concentration has increased by about 120 ppmv
As is typical for the heath forest types of the region (Carlsson, Karlsson & Svensson, 1999), mountain birches (Betula pubescens ssp. czerepanovii (Orlova) Hämet-Ahti) were sparsely distributed and the field layer dominated by the three ericaceous dwarf shrubs Vaccinium myrtillus L., V. vitis-idaea L., and Empetrum nigrum ssp. hermaphroditum (Hagerup) Böcher
The vegetation in the plots consisted of a typical birch heath forest field layer with Vaccinium myrtillus, V. vitis-idaea, Empetrum nigrum ssp. hermaphroditum, Avenella flexuosa and Linnaea borealis being present in all plots, the two former being the most common
Summary
Over the past 135 years, the mean global temperature has increased by 0.85 ◦C and the atmospheric CO2 concentration has increased by about 120 ppmv. Climatic changes associated with continued increases in atmospheric CO2 are projected to be marked in the boreal-tundra Arctic system Tundra ecosystems contain huge stores of carbon in soil organic matter (Jones et al, 2014), and any shifts in the balance. The increased greenness is proposed to partly be due to an increased shrub cover (Myers-Smith et al, 2011). This is supported by experimental research done over the last 20 years. Tundra ecosystems show a general increase in vegetation stature and in the cover of shrubs and graminoids and a decrease in the cover of mosses and lichens (Hollister, Webber & Tweedie, 2005). Many of the responses are site-specific as well as species-specific
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