This is a question asked by a commenter, Skeptic517, on my blog yesterday.
It is a good question, one that I suspect most climate activists can not answer.
Certainly, none of the responders knew the answer.
So what do you think? Are long-term climate predictions hokum?
And now the answer.
Climate prediction is possible and reasonable because the nature of the prediction is very different than weather forecasting.
If you like technical terms, forecasting weather is an initial value problem, while climate prediction is predominantly a boundary value problem. I will explain this in a second.
And the nature of the prediction is very different.
For weather prediction, we predict the exact state of the atmosphere at a certain time. The high in Spokane will be 68F next Thursday. The low center will be 978 hPa and located in central Iowa. Specific in time and space.
An 84-h weather forecast of sea level pressure (solid lines) and precipitation (shading)
For climate prediction, we don't forecast the surface weather map for 4 AM on January 4, 2090. That would be nonsensical.
Instead, we forecast mean conditions, often over a broader area. Will the average temperatures in spring over Washington State be warmer or cooler than current values? Will the precipitation averaged over ten years of winter be greater at the end of the century than the recent ten-year average?
Projected change in annual mean surface air temperature from the late 20th century to the middle 21st century
That kind of thing.
The essential insight you need is to understand the different natures of weather versus climate prediction.
Weather forecasting: an initial value problem
Weather prediction, an initial-value problem, starts with a comprehensive, 3-D description of the atmosphere called the initialization. Then large supercomputers are used to solve the equations describing atmospheric physics to forecast the exact state of the atmosphere in the future at specific times.
Forecast accuracy declines with time and by roughly two weeks nearly all predictability is lost.....something described theoretically by Professor Edward Lorenz of MIT.
Here is a plot of the loss of forecast skill over time for the U.S. models(for around 18,000 ft over the northern hemisphere). The blue color is for the leading U.S. global model, the GFS. Forecast kill drops rapidly between 5 and 10 days.
Climate forecasting: a boundary value problem
Forecast skill for specific weather features is lost after roughly 2 weeks because the atmosphere essentially loses memory of the initial observed state of the atmosphere.
In climate forecasts for extended periods of time, the key constraint is not the initial conditions, but the amount of radiation coming into and out of the atmosphere. If we know, how much radiation is coming into and out of the top of the atmosphere, the climate models can produce a realistic average climate for those conditions.
The amount of radiation emitted and absorbed by the atmosphere is greatly controlled by the composition of the atmosphere....which we have to assume (e.g., how much CO2, methane, and particles in the atmosphere).
Such projections are only as good as our estimate of the amount of greenhouse gases in the atmosphere in 50 or 100 years. Big uncertainty! But we do the best we can.
So climate prediction DOES make sense.
I am skipping some subtleties: for example, the initial state can have some influence on climate simulations. But you can try to deal with that issue by running an ensemble of many climate predictions each starting slightly differently.
Anyway, now you know the answer!
