Temporal trends and variability in a high-arctic ecosystem in Greenland: multidimensional analyses of limnic and terrestrial ecosystems |
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Authors: | Lars O. Mortensen Erik Jeppesen Niels Martin Schmidt Kirsten S. Christoffersen Mikkel P. Tamstorf Mads C. Forchhammer |
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Affiliation: | 1. Department of Bioscience, Aarhus University, Roskilde, Denmark 3. Greenland Climate Research Centre, Greenland Institute of Natural Resources, Nuuk, Greenland 2. Department of Bioscience, Arctic Research Centre, Aarhus University, Aarhus, Denmark 4. Department of Bioscience, Centre for Informatics Research on Complexity in Ecology (CIRCE), Aarhus University, Aarhus, Denmark 5. Freshwater Biological Laboratory, Department of Biology, Copenhagen University, Copenhagen, Denmark 6. The Polar Centre, Penn State University, University Park, PA, USA
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Abstract: | The high arctic is undergoing a faster change in climate than most other regions of the planet, with already observed ecological consequences. Combined with the characteristics of high-arctic ecosystems, such as low species redundancy, high seasonality and weather extremes, shifts in individual species performance and phenology may lead to altered interaction dynamics through trophic mismatch and cascades. An ecosystem approach is therefore desirable in the attempt to understand the multidimensional impacts of climate. Here, we present ecosystem-wide trend analyses of a long-term dataset on terrestrial and limnic biota with focus on the distribution of observed trends and associated variation across the ecosystem. We used 114 time series drawn from 11 abiotic variables, 19 terrestrial and 7 limnic biotic species/taxa and compared temporal trends, changes and abrupt shifts in the variation within and across the two biota. A total of 36 % of the time series analysed showed a significant trend during the study period with a higher frequency of trends occurring within performance variables. Overall, the changes tended to be negative, indicating advances in phenology but reduced species performance. General system variance was also higher in the limnic biota than in the terrestrial biota, both exhibiting increasing variance up through the trophic system. Overall, our results suggest that multiple biotic responses to the climatic changes in this high-arctic ecosystem are not synchronised across trophic levels and may differ qualitatively and quantitatively between terrestrial and limnic biota. |
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