Models, observations not so far apart on planet's response to greenhouse gas emissions
http://www.washington.edu/news/2017/04/17/models-observations-not-so-far-apart-on-planets-response-to-greenhouse-gas-emissions/[font face=Serif]April 17, 2017
[font size=5]Models, observations not so far apart on planets response to greenhouse gas emissions[/font]
[font size=3]How hot our planet will become for a given amount of greenhouse gases is a key number in climate change. As the calculation of how much warming is locked in by a given amount of emissions, it is crucial for global policies to curb global warming.
It is also one of the most hotly debated numbers in climate science. Observations in the past decade seem to suggest a value that is lower than predicted by models. But a University of Washington study shows that two leading methods for calculating how hot the planet will get are not as far apart as they have appeared.
In climate science, the climate sensitivity is how much the surface air temperature will increase if you double carbon dioxide from pre-Industrial levels and then wait a very long time for the Earths temperature to fully adjust. Recent observations predicted that the climate sensitivity might be less than that suggested by models.
The
new study, published April 17 in
Nature Climate Change, focuses on the lag time in Earths response. According to most models of climate change, during the early stages of global warming the sensitivity to greenhouse gas emissions is relatively small. As the ocean catches up and feedbacks kick in, however, the sensitivity increases and the warming rate speeds up. The new study shows that when this difference is factored in, the observations and climate models are in agreement, with recent observations supporting a previously accepted long-term climate sensitivity of about 2.9 degrees Celsius.
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http://dx.doi.org/10.1038/nclimate3278