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Observations of fluxes over heterogeneous surfaces

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Abstract

This study analyzes data collected from repeated aircraft runs 30 m over alternating regions of irrigated and dry nonirrigated surfaces, each region on the order of 10 km across, during the California Ozone Deposition Experiment (CODE). After studying the scale dependence of the flow, the variables and their fluxes are decomposed into means for sublegs defined in terms of irrigated and nonirrigated regions and deviations from such subleg means. Since the repeated runs were flown over the same track, compositing the eight flight legs for each of the two days allows partial isolation of the influences of surface heterogeneity and transient mesoscale motions.

A variance analysis is carried out to quantify the relative importance of surface heterogeneity and transient mesoscale motions on the variability of the turbulence fluxes. The momentum and ozone fluxes are more influenced by transient mesoscale motions while fluxes of heat, moisture and carbon dioxide are more influenced by surface heterogeneity. The momentum field is also influenced by a quasi-stationary mesoscale front and larger scale velocity gradients.

For the present case, the mesoscale modulation of the turbulent flux is numerically more important than the direct mesoscale flux. This spatial modulation of the turbulent fluxes leads to extra Reynolds terms which act to reduce the area-averaged turbulent momentum flux and enhance the area-averaged turbulent heat flux.

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Authors and Affiliations

  1. Oceanic and Atmospheric Sciences, Oregon State University, 97331, Corvallis, OR, USA

    L. Mahrt

  2. Flight Research Laboratory, National Research Council, K1A 0R6, Ottawa, ON, Canada

    J. I. Macpherson

  3. Centre for Land and Biological Resource Research, Agriculture Canada, K1A 006, Ottawa, ON, Canada

    Ray Desjardins

Authors
  1. L. Mahrt
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  2. J. I. Macpherson
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  3. Ray Desjardins
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Mahrt, L., Macpherson, J.I. & Desjardins, R. Observations of fluxes over heterogeneous surfaces. Boundary-Layer Meteorol 67, 345–367 (1994). https://doi.org/10.1007/BF00705438

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