Analysis of Permafrost Thermal Dynamics and Response to Climate Change in the CMIP5 Earth System Models

@article{Koven2013AnalysisOP,
  title={Analysis of Permafrost Thermal Dynamics and Response to Climate Change in the CMIP5 Earth System Models},
  author={Charles D. Koven and W. J. Riley and A. J. Stern},
  journal={Journal of Climate},
  year={2013},
  volume={26},
  pages={1877-1900}
}
AbstractThe authors analyze global climate model predictions of soil temperature [from the Coupled Model Intercomparison Project phase 5 (CMIP5) database] to assess the models’ representation of current-climate soil thermal dynamics and their predictions of permafrost thaw during the twenty-first century. The authors compare the models’ predictions with observations of active layer thickness, air temperature, and soil temperature and with theoretically expected relationships between active… 
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341 Citations

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  • C. KovenE. Schuur M. Turetsky
  • Environmental Science
    Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
  • 2015
We present an approach to estimate the feedback from large-scale thawing of permafrost soils using a simplified, data-constrained model that combines three elements: soil carbon (C) maps and profiles

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54 References

Diagnosing Present and Future Permafrost from Climate Models

AbstractPermafrost is a characteristic aspect of the terrestrial Arctic and the fate of near-surface permafrost over the next century is likely to exert strong controls on Arctic hydrology and

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We have considered the spatial and temporal characteristics of the temperature distribution in the active layer in Russia, where an annual cycle of long and deep seasonal freezing/thawing is a

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A spatially distributed thermal model has been developed that simulates thermal processes at the surface of the tundra, within the active layer, and in the underlying permafrost. This model was

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The thawand release of carbon currently frozen in permafrost will increase atmospheric CO2 concentrations and amplify surface warming to initiate a positive permafrost carbon feedback (PCF) on

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