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Although major progress has been made, much more needs to be learned.

More focussed efforts are needed world-wide to provide a long-term climate measuring system. This must be backed by a commitment to continue such measurements over many decades.

Focussed research into climate processes must be continued. Theories must

be formulated and re-evaluated in the light of newer data. To reduce uncertainty, climate modeling efforts must receive resources that are in balance with the broader scientific programs.

The U.S. Global Change Research Program is making excellent progress on these fronts. However, sustained efforts will be required in the years ahead. This is particularly true for measuring climate change. This needs a long-term commitment that is not yet evident. Without a better climate-change measuring system, neither our research nor our predictions can be properly evaluated.

Personally, I believe that the state of knowledge of the wide range of possible impacts and costs of climate change is far less certain than are the predictions for the climate system. An investment for research in this climate impact arena will pay large dividends and greatly aid policy planning.

Through long-term research and measurements, uncertainties will decrease and confidence for predicting climate changes will increase. However, surprises inevitably will hit us that may either decrease or increase the predicted effects. I predict with high confidence that society's demand for detailed climate change predictions will continue to increase faster than we can provide them.

In summary, the greenhouse warming effect is quite real. The state of the science is strong, but important uncertainties remain. Finally, it is a "virtually certain" bet that this problem will refuse to go away, no matter what is said or done about it over the next five years.

Thank you.

Mr. ROHRABACHER. Thank you very much, doctor.

Dr. Michaels?

STATEMENT OF DR. PATRICK J. MICHAELS, ASSOCIATE PROFESSOR, DEPARTMENT OF ENVIRONMENTAL SCIENCE, UNIVERSITY OF VIRGINIA

Dr. MICHAELS. Thank you, Mr. Chairman. I should say that I am an Associate Professor.

Mr. ROHRABACHER. Doctor, could you turn your microphone on and sort of lean into there.

Dr. MICHAELS. There we go.

Mr. ROHRABACHER. I want to make sure everybody can hear. Maybe pull it a little closer to you.

Dr. MICHAELS. I should say I am Associate Professor of Environmental Sciences, and at 4:00 o'clock today, I will be given my promotion seminar, so hopefully that will change in a very short period.

Controversy surrounding the issue of global warming is a classic example of what I think is the normal and creative scientific tension that exists between those who formulate models or hypotheses and those who evaluate such models with observed data.

Unfortunately, this issue has evolved in a highly politicized climate. For the last decade, a community of scientists, often referred to as a small minority, has argued that, based upon the data on climate change, the modeled warming was too large, and therefore any intrusive policy would not be based upon reliable models of global warming.

This view has been cast in a very negative political light, which has had a chilling effect on scientific free speech.

At the same time, testimony has repeatedly been given in front of this Congress that the modeled and observed temperatures were broadly consistent. This view has been amply rewarded. Nonetheless, these two views have never been reconciled scientifically.

The early suite of models produced an average warming of about 4 degrees celsius for doubling carbon dioxide, and the data suggested a much lower number, about 1 to 1.5 degrees of additional warming.

The most important development in the last two years is that it is now acknowledged that the community that argued for the lower numbers appears more likely to be correct. Moreover, it is apparent that the climate model that was most heavily cited by the United Nations in a special 1992 supplementary report on climate change, which was prepared specifically to provide technical backing for the framework convention on climate change, it is now known that that model was known to be making large errors in the forecast of current temperature at the time of the adoption of the framework convention.

And yet this never entered into the debate surrounding that issue.

These observations strongly suggest that the scientific review process that bases these international agreements has been highly flawed, or there may have simply been omissions in communicating to responsible individuals how large the errors in these calculations

were.

A recent paper in the Journal of Climate by J.F.B. Mitchell shows that the models of that type are off by at least 1.3 and as much as 2.3 degrees Celsius today.

And I would like to show you a couple of slides that demonstrate this problem, if I could. I will need to borrow your microphone. [Pause.]

In 1979, we put up a series of satellites that measure the temperature with a great deal of accuracy, and the bottom line there, the one that does not change, is the temperature history for the southern half of the planet which, by the way, correlates at 97 percent with the mean temperature between 5,000 feet and 30,000 feet in the atmosphere. The satellite finds no warming in that layer.

The top graph is the warming predicted by the model that was most cited in the United Nations' document specifically designed to produce the backing for the Rio Climate Treaty.

And if we go to the northern hemisphere, the situation gets even worse because the northern hemisphere of course is predicted to warm more rapidly than the southern hemisphere because it has more land in it.

Now, if we run that model backwards-and this appeared in the refereed literature at the time that the treaty was being ratifiedyou can see the open circles, which are the observed temperatures of the northern hemisphere, and the closed circles are the modeled temperatures by that particular model.

Ladies and gentlemen, this is a large and propagating error that I believe should have been known to this Congress at the time of the 1992 Framework Convention, but it was not.

Anyway, these models also produce very, very large polar warming. This is the warming projected in the high latitude by that model, and here is the warming of the polar region that has been observed.

You can see in fact there is a warming. The only problem is it occurs before 1940 which is before the greenhouse effect changed very much. Since then, between then and now, there is very little. Well, the good news, and I will finish up with this, is that the so-called skeptics turn out to have been right.

Here is the first sentence from a paper by J.F.B. Mitchell that appeared August 10th in Nature Magazine. "Climate models suggest that increases in greenhouse gas concentrations should have produced a larger mean warming than has been observed.”

That is a very polite way of saying that those people who were derided as a small minority in fact were correct. The models were too warm.

And Mitchell's paper is a very interesting one. I will finish on what it says because there is an interesting flip on the end of this discussion.

Mitchell's model incorporates the effect of sulfate aerosol along with greenhouse gases in the atmosphere. When he does not do that, his model is too warm, even though it only predicts a net warming of doubling carbon dioxide of 2.5 degrees.

You can take Mitchell's numbers and you will see that the net warming that he is predicting for doubling carbon dioxide is 1.7 degrees. And he states that his model correctly tracked the last 40

to 50 years, in which the surface records showed a warming of .4 degrees.

How much warming does that leave out to the end of the next century? 1.7 - 1.4 degrees or 1.3 degrees?

That is precisely the number that the so-called skeptics, whenever they were fortunate enough to be brought here in front of this Congress, had been saying for the last seven years-1 to 1.5 degrees.

Finally, I would just like to close and show you a little bit of this model.

The top graph is the one; the model without the sulfates in it for the year 2040 to 2050. You can see the consistent high warming of the high latitudes of our hemisphere.

And the middle graph is a sulfate plus greenhouse model. The middle graph clearly shows large warming in the high latitudes also.

And it became apparent to me, when I saw this chart-and we can turn the lights back on-when I saw this chart, which was in the United Nation's 1995 update document on climate change, that this model was making the same error that the other ones were making that it was producing too much warming in the higher latitudes.

So I requested from the United Nations that they send me the data that went into that model, and I was denied.

I wrote back, and I said this is a horrible breach of scientific ethic. You must send me the data because I have been asked by the United Nations to review their own work. I was denied.

I informed the Director of the U.S. Global Change Research Program. He said he would call them. The data never showed up.

There were six separate requests to provide a proper review of this document. They were all denied.

Therefore, any policy statements or any impact statements that are made on these new, more reliable models are based upon models that were not subject to review by those who were known to provide critical review in the process.

Thank you.

[The prepared statement and attachments of Dr. Michaels follow:]

23-558 96-2

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