Tuesday, February 19, 2013

New paper finds IPCC models fail to simulate the most important natural weather patterns

A new paper published in Global and Planetary Change finds that IPCC climate models are unable to reproduce either the El Nino Southern Oscillation [ENSO] or the Indian summer monsoon, the two most influential  natural weather patterns on Earth, both of which have large effects upon global climate. The authors therefore caution that, given these large uncertainties of natural variation, current models cannot be relied upon to project future global warming from greenhouse gases. According to the authors, "More research in improving the current day simulations, improving model capacity to simulate better by improving the greenhouse gases (GHG) and aerosols in the models are some of the important and immediate steps that are necessary."


Revisiting the Indian summer monsoon-ENSO links in the IPCC AR4 projections: A cautionary outlook


  • Centre for Climate Change Research, Indian Institute of Tropical Meteorology, Pune, India

Abstract

The climate change experiments under the fourth Assessment Report (AR4) of the Intergovernmental Panel on Climate Change (IPCC), namely the twentieth century simulations (20C3M) and Special Report on Emissions Scenarios (SRES) A1B, are revisited to study whether these models can reproduce the ENSO and ENSO Modoki patterns as the gravest two modes from statistical linear analysis as observed. The capability of the models in simulating realistic ENSO/ENSO Modoki teleconnections with the Indian summer monsoon, and also the implications for the future is also explored. Results from the study indicate that only ~ 1/4th of the models from 20C3M capture either ENSO or ENSO Modoki pattern in JJAS. Of this 1/4th, only two models simulate both ENSO and ENSO Modoki as important modes. Again, out of these two, only one model simulates both ENSO and ENSO Modoki as important modes during both summer and winter.
It is also shown that the two models that demonstrate ENSO Modoki as well as ENSO associated variance in both 20C3M and SRESA1B represent the links of the ISMR with ENSO reasonably in 20C3M, but indicate opposite type of impacts in SREA1B. With the limited skills of the models in reproducing the monsoon, the ENSO and ENSO Modoki, it is difficult to reconcile that the teleconnections of a tropical driver can change like that. All this indicates the challenges associated with the limitations of the models in reproducing the variability of the monsoons and ENSO flavors, not to speak of failing in capturing the potential impacts of global warming as they are expected to. More research in improving the current day simulations, improving model capacity to simulate better by improving the Green House Gases (GHG) and aerosols in the models are some of the important and immediate steps that are necessary.

7 comments:

  1. Then of course there is the basic assumption in the models showing AGW, that water vapor is the real culprit, providing a feedback that causes temperature to increase 2 to 3 times as much as the temp increase brought on by co2.

    ... and nobody knows whether the water vapor feedback is even positive, let alone 3 X that of temp increase brought on by co2 increase.

    There are strong arguments that cloud cover (one aspect of water vapor) actually provides a NEGATIVE feedback. And then there are those recent satellite readings which indicate that when the planet is warmer, more heat escapes to space.

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  2. What about clouds?

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  3. Are clouds not important in model simulations?

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    1. Absolutely, and the models also fail on reproducing clouds

      http://hockeyschtick.blogspot.com/search?q=clouds&max-results=20&by-date=true

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  4. http://nipccreport.org/articles/2013/may/29may2013a3.html

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  5. http://stevengoddard.wordpress.com/2013/10/11/shock-news-warming-and-cooling-cycles-have-nothing-to-do-with-co2/

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  6. http://www.nipccreport.org/articles/2013/nov/12nov2013a3.html

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