Articles | Volume 13, issue 18
https://doi.org/10.5194/bg-13-5315-2016
https://doi.org/10.5194/bg-13-5315-2016
Research article
 | 
23 Sep 2016
Research article |  | 23 Sep 2016

Impacts of a decadal drainage disturbance on surface–atmosphere fluxes of carbon dioxide in a permafrost ecosystem

Fanny Kittler, Ina Burjack, Chiara A. R. Corradi, Martin Heimann, Olaf Kolle, Lutz Merbold, Nikita Zimov, Sergey Zimov, and Mathias Göckede

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Cited articles

ACIA: Impacts of a Warming Arctic: Arctic Climate Impacts Assessment, Cambridge, 2004.
Aurela, M., Laurila, T., and Tuovinen, J.-P.: The timing of snow melt controls the annual CO2 balance in a subarctic fen, Geophys. Res. Lett., 31, 826–837, 2004.
Aurela, M., Riutta, T., Laurila, T., Tuovinen, J.-P., Vesala, T., Tuittila, E. S., Rinne, J., Haapanala, S., and Laine, J.: CO2 exchange of a sedge fen in southern Finland – the impact of a drought period, Tellus B, 59, 826–837, 2007.
Beer, C.: Soil science – The Arctic carbon count, Nat. Geosci., 1, 569–570, 2008.
Billings, W. D., Luken, J. O., Mortensen, D. A., and Peterson, K. M.: Arctic Tundra – a Source or Sink for Atmospheric Carbon-Dioxide in a Changing Environment, Oecologia, 53, 7–11, 1982.
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Short summary
We compared growing season CO2 fluxes of a wet tussock tundra ecosystem from an area affected by decadal drainage and an undisturbed area on the Kolyma floodplain in northeastern Siberia. The results show systematically reduced CO2 uptake within the drained area, caused by increased respiration, and that the local permafrost ecosystem is capable of adapting to significantly different hydrologic conditions without losing its capacity to act as a net sink for CO2.
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