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Arctic microorganisms respond more to elevated UV-B radiation than CO2

David Johnson (), Colin D. Campbell, John A. Lee, Terry V. Callaghan and Dylan Gwynn-Jones
Additional contact information
David Johnson: University of Sheffield
Colin D. Campbell: The Macaulay Land Use Research Institute
John A. Lee: University of Sheffield
Terry V. Callaghan: University of Sheffield
Dylan Gwynn-Jones: Institute of Biological Science, University of Wales

Nature, 2002, vol. 416, issue 6876, 82-83

Abstract: Abstract Surface ultraviolet-B radiation and atmospheric CO2 concentrations have increased as a result of ozone depletion and burning of fossil fuels1,2. The effects are likely to be most apparent in polar regions3 where ozone holes have developed and ecosystems are particularly sensitive to disturbance4. Polar plant communities are dependent on nutrient cycling by soil microorganisms, which represent a significant and highly labile portion of soil carbon (C) and nitrogen (N). It was thought5 that the soil microbial biomass was unlikely to be affected by exposure of their associated plant communities to increased UV-B. In contrast, increasing atmospheric CO2 concentrations were thought to have a strong effect as a result of greater below-ground C allocation6. In addition, there is a growing belief that ozone depletion is of only minor environmental concern because the impacts of UV-B radiation on plant communities are often very subtle7. Here we show that 5 years of exposure of a subarctic heath to enhanced UV-B radiation both alone and in combination with elevated CO2 resulted in significant changes in the C:N ratio and in the bacterial community structure of the soil microbial biomass.

Date: 2002
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DOI: 10.1038/416082a

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