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Model assessment of the role of natural variability in recent global warming


SINCE the late nineteenth century, the global mean surface air temperature has been increasing at the rate of about 0.5 °C per century1–3, but our poor understanding of low-frequency natural climate variability has made it very difficult to determine whether the observed warming trend is attributable to the enhanced green-house effect associated with increased atmospheric concentrations of greenhouse gases4,5. Here we evaluate the observed warming trend using a 1,000-year time series of global temperature obtained from a mathematical model of the coupled ocean–atmosphere–land system. We find that the model approximately reproduces the magnitude of the annual to interdecadal variation in global mean surface air temperature. But throughout the simulated time series no temperature change as large as 0.5 °C per century is sustained for more than a few decades. Assuming that the model is realistic, these results suggest that the observed trend is not a natural feature of the interaction between the atmosphere and oceans. Instead, it may have been induced by a sustained change in the thermal forcing, such as that resulting from changes in atmospheric greenhouse gas concentrations and aerosol loading.

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Stouffer, R., Manabe, S. & Vinnikov, K. Model assessment of the role of natural variability in recent global warming. Nature 367, 634–636 (1994).

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