Icing the Medieval Warm Period
by Daniel Bailey, Skeptical Science, March 4, 2011
"It's cold out!"
Not strange to hear that during the winter, here in the Northern Hemisphere. But strange to hear that raised as an objection in the warming world in which we live today. How much warmer it's going to get and what are the related impacts is what science is currently debating.
Not strange to hear that during the winter, here in the Northern Hemisphere. But strange to hear that raised as an objection in the warming world in which we live today. How much warmer it's going to get and what are the related impacts is what science is currently debating.
One of the commonly raised objections from those who would have us debate even the existence of gravity is that "It was warmer in the Medieval Warm Period." This is an innocent, but untrue, claim clearly unsupported by the available literature. Indeed, Martín-Chivelet et al. reveals the 20th century as the time with highest surface temperatures of the last 4,000 years.
The Medieval Warm Period (MWP) was a period of supposedly warm climate during the early part of the past thousand years. How long it lasted, what areas were affected and even if it existed have been questioned. Some areas seem to have been affected more by changes in precipitation than in temperature.
A study has been published recently which sheds new light on this debate. Koch and Clague, in their paper, "Extensive glaciers in northwest North America during Medieval time," provide new evidence showing that several glaciers in western North America and elsewhere in the world advanced during Medieval time and that some of these glaciers achieved extents similar to those at the peak of the Little Ice Age, a very cold period many hundreds of years later.
What the authors' research finds is that these glacial responses could not have happened in a world with a climate similar to ours today. Indeed, recent studies (here and here) by Mauri Pelto show that glaciers without a consistent accumulation zone (where the glacier "packs on weight") will not survive. This helps explain why today's glaciers (responding to today's warming world) are retreating to their smallest areas in many thousands of years, exposing their longer histories in the form of buried datable material for scientists like Koch and Clague to decode.
What this means for the MWP is that if summers were as warm then as today, glaciers globally should have retreated significantly. Changes affecting glaciers around the world require global effects. Since that did not happen, global temperatures then could only have been warm for a part of the MWP.
So what else could explain these glacier advances in a supposedly warm world? The most likely answer is that changes in factors besides temperatures played a significant role. Koch and Clague find a linked response between:
- increased winter precipitation
- changes in solar activity
- changes in the El Niño/La Niña (a Pacific Ocean weather pattern affecting the entire globe) in response to variations in solar activity
As a result of these linked responses, Koch and Clague suggest that glaciers were able to advance during the MWP because warm regional areas were interrupted by periods of cooling, interspersed with variable patterns of precipitation. Given the length and breadth of the information we now know, Koch and Clague make a substantial case that the MWP should be more aptly named the Medieval Climate Anomaly.
Acknowledgements:
To glaciologist Mauri Pelto, for being kind enough to lend his perspectives and expertise.
To the many other contributing authors at Skeptical Science for their valued efforts as well. Many thanks, all.
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