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Monday, November 23, 2009

A. R. Desai et al., Nature Geosci., Stronger winds over a large lake in response to weakening air-to-lake temperature gradient

Nature Geoscience, published online 15 November 2009; doi: 10.1038/ngeo693

Stronger winds over a large lake in response to weakening air-to-lake temperature gradient

Ankur R. Desai1, Jay A. Austin2, Val Bennington1 and Galen A. McKinley1


Abstract

The impacts of climate change on the world's large lakes are a cause for concern1, 2, 3, 4. For example, over the past decades, mean surface water temperatures in Lake Superior, North America, have warmed faster than air temperature during the thermally stratified summer season, because decreasing ice cover has led to increased heat input2, 5. However, the effects of this change on large lakes have not been studied extensively6. Here we analyse observations from buoys and satellites as well as model reanalyses for Lake Superior, and find that increasing temperatures in both air and surface water, and a reduction in the temperature gradient between air and water are destabilizing the atmospheric surface layer above the lake. As a result, surface wind speeds above the lake are increasing by nearly 5% per decade, exceeding trends in wind speed over land. A numerical model of the lake circulation suggests that the increasing wind speeds lead to increases in current speeds, and long-term warming causes the surface mixed layer to shoal and the season of stratification to lengthen. We conclude that climate change will profoundly affect the biogeochemical cycles of large lakes, the mesoscale atmospheric circulation at lake–land boundaries and the transport of airborne pollutants in regions that are rich in lakes.
  1. Department of Atmospheric & Oceanic Sciences, University of Wisconsin-Madison, 1225 West Dayton Street, Madison, WI 53706, U.S.A.
  2. Large Lakes Observatory and Department of Physics, University of Minnesota-Duluth, Duluth, MN 55812, U.S.A.
Correspondence to: Ankur R. Desai1 e-mail: desai@aos.wisc.edu

Link to abstract:  http://www.nature.com/ngeo/journal/vaop/ncurrent/abs/ngeo693.html

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