High-frequency physical observations from 40 temperate lakes were used to examine the relative contributions of wind shear (u *) and convection (w *) to turbulence in the surface mixed layer. Seasonal patterns of u * and w * were dissimilar; u * was often highest in the spring, while w * increased throughout the summer to a maximum in early fall. Convection was a larger mixed-layer turbulence source than wind shear (u * /w * <0.75) for 18 of the 40 lakes, including all 11 lakes<10ha. As a consequence, the relative contribution of convection to the gas transfer velocity (k, estimated by the surface renewal model) was greater for small lakes. The average k was 0.54mday -1 for lakes<10ha. Because u * and w * differ in temporal pattern and magnitude across lakes, both convection and wind shear should be considered in future formulations of lake-air gas exchange, especially for small lakes. © 2012 by the American Geophysical Union.
CITATION STYLE
Read, J. S., Hamilton, D. P., Desai, A. R., Rose, K. C., MacIntyre, S., Lenters, J. D., … Wu, C. H. (2012). Lake-size dependency of wind shear and convection as controls on gas exchange. Geophysical Research Letters, 39(9). https://doi.org/10.1029/2012GL051886
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