1. Lidar Measurement of Boundary Layer Evolution to Determine Sensible Heat Fluxes.
- Author
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Eichinger, W. E., Holder, H. E., Cooper, D. I., Hipps, L. E., Knight, R., Kustas, W. P., Nichols, J., and Prueger, J. H.
- Subjects
HEAT transfer ,SOIL testing ,SOIL moisture ,PLANT canopies ,BOUNDARY layer (Aerodynamics) - Abstract
The Soil Moisture–Atmosphere Coupling Experiment (SMACEX) was conducted in the Walnut Creek watershed near Ames, Iowa, over the period from 15 June to 11 July 2002. A main focus of SMACEX is the investigation of the interactions between the atmospheric boundary layer, surface moisture, and canopy. A vertically staring elastic lidar was used to provide a high-time-resolution continuous record of the boundary layer height at the edge between a soybean and cornfield. The height and thickness of the entrainment zone are used to estimate the surface sensible heat flux using the Batchvarova–Gryning boundary layer model. Flux estimates made over 6 days are compared to conventional eddy correlation measurements. The calculated values of the sensible heat flux were found to be well correlated (R
2 = 0.79, with a slope of 0.95) when compared to eddy correlation measurements in the area. The standard error of the flux estimates was 21.4 W m-2 (31% rms difference between this method and surface measurements), which is somewhat higher than a predicted uncertainty of 16%. The major sources of error were from the estimates of the vertical potential temperature gradient and an assumption that the entrainment parameter A was equal to the ratio of the entrainment flux and the surface heat flux. [ABSTRACT FROM AUTHOR]- Published
- 2005
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