Claim: Adding Fudge Factors Makes Climate Models Scarier

Page 6, Propagation of Error and the Reliability of Global Air Temperature Projections by Pat Frank

Guest essay by Eric Worrall

h/t Willie Soon – Climate models do a poor job of reproducing observed climate. But climate scientists seem to think they can produce more accurate projections by adding fudge factors to their models, to force better agreement between models and observations.

The most accurate climate change models predict the most alarming consequences, study finds

By Chris Mooney December 6 at 1:00 PM

The climate change simulations that best capture current planetary conditions are also the ones that predict the most dire levels of human-driven warming, according to a statistical study released in the journal Nature Wednesday.

The study, by Patrick Brown and Ken Caldeira of the Carnegie Institution for Science in Stanford, Calif., examined the high-powered climate change simulations, or “models,” that researchers use to project the future of the planet based on the physical equations that govern the behavior of the atmosphere and oceans.

The researchers then looked at what the models that best captured current conditions high in the atmosphere predicted was coming. Those models generally predicted a higher level of warming than models that did not capture these conditions as well.

Read more:

The abstract of the study;

Greater future global warming inferred from Earth’s recent energy budget

Patrick T. Brown & Ken Caldeira
Nature 552, 45–50 (07 December 2017)

Climate models provide the principal means of projecting global warming over the remainder of the twenty-first century but modelled estimates of warming vary by a factor of approximately two even under the same radiative forcing scenarios. Across-model relationships between currently observable attributes of the climate system and the simulated magnitude of future warming have the potential to inform projections. Here we show that robust across-model relationships exist between the global spatial patterns of several fundamental attributes of Earth’s top-of-atmosphere energy budget and the magnitude of projected global warming. When we constrain the model projections with observations, we obtain greater means and narrower ranges of future global warming across the major radiative forcing scenarios, in general. In particular, we find that the observationally informed warming projection for the end of the twenty-first century for the steepest radiative forcing scenario is about 15 per cent warmer (+0.5 degrees Celsius) with a reduction of about a third in the two-standard-deviation spread (−1.2 degrees Celsius) relative to the raw model projections reported by the Intergovernmental Panel on Climate Change. Our results suggest that achieving any given global temperature stabilization target will require steeper greenhouse gas emissions reductions than previously calculated.

Read more (Paywalled):

Force fitting a model to observations is potentially a worthwhile exercise, to help explore the impact of model errors. What I’m concerned about is the apparent attempt to draw premature real world conclusions from this arbitrary force fitting exercise.

Consider the diagram at the top of the page, from Pat Frank’s paper “Propagation of Error and the Reliability of Global Air Temperature Projections”. Cloud forcing is a major component of the climate system, which climate models clearly get very wrong. Producing the expected result with hind casting despite major errors is not evidence that scientists are correctly modelling the Earth’s climate system.

Scientists occasionally get lucky, but the odds of getting it right without any real understanding of why models get the climate so wrong is like the odds of winning a lottery. Announcing the real world implications of an arbitrary force fitting exercise is like telling everyone you have the winning lottery ticket before the draw – not impossible, but very unlikely.

via Watts Up With That?

December 6, 2017 at 09:15PM

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