Editorial Type:
Article
Article Type:
Research Article

Vertical Velocities and Available Potential Energy Generated by Landscape Variability—Theory

M. Baldi Institute of Biometeorology, IBIMET–CNR, Rome, Italy, and Department of Atmospheric Science, Colorado State University, Fort Collins, Colorado

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G. A. Dalu Institute of Biometeorology, IBIMET–CNR, Rome, Italy, and Department of Atmospheric Science, Colorado State University, Fort Collins, Colorado

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R. A. Pielke Sr. Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, Colorado

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Print Publication:
01 Feb 2008
Collections:
Impacts of Land Use and Land Cover Change on the Atmosphere
DOI:
https://doi.org/10.1175/2007JAMC1539.1
Page(s):
397–410
Restricted access

Abstract

It is shown that landscape variability decreases the temperature in the surface layer when, through mesoscale flow, cool air intrudes over warm patches, lifting warm air and weakening the static stability of the upper part of the planetary boundary layer. This mechanism generates regions of upward vertical motion and a sizable amount of available potential energy and can make the environment of the lower troposphere more favorable to cloud formation. This process is enhanced by light ambient wind through the generation of trapped propagating waves, which penetrate into the midtropospheric levels, transporting upward the thermal perturbations and weakening the static stability around the top of the boundary layer. At moderate ambient wind speeds, the presence of surface roughness changes strengthens the wave activity, further favoring the vertical transport of the thermal perturbations. When the intensity of the ambient wind is larger than 5 m s−1, the vertical velocities induced by the surface roughness changes prevail over those induced by the diabatic flux changes. The analysis is performed using a linear theory in which the mesoscale dynamics are forced by the diurnal diabatic sensible heat flux and by the surface stress. Results are shown as a function of ambient flow intensity and of the wavelength of a sinusoidal landscape variability.

Corresponding author address: Marina Baldi, IBIMET–CNR, Via Taurini, 19-00185, Rome, Italy. Email: m.baldi@ibimet.cnr.it

This article included in the Impacts of Land Use and Land Cover Change on the Atmosphere special collection.

Abstract

It is shown that landscape variability decreases the temperature in the surface layer when, through mesoscale flow, cool air intrudes over warm patches, lifting warm air and weakening the static stability of the upper part of the planetary boundary layer. This mechanism generates regions of upward vertical motion and a sizable amount of available potential energy and can make the environment of the lower troposphere more favorable to cloud formation. This process is enhanced by light ambient wind through the generation of trapped propagating waves, which penetrate into the midtropospheric levels, transporting upward the thermal perturbations and weakening the static stability around the top of the boundary layer. At moderate ambient wind speeds, the presence of surface roughness changes strengthens the wave activity, further favoring the vertical transport of the thermal perturbations. When the intensity of the ambient wind is larger than 5 m s−1, the vertical velocities induced by the surface roughness changes prevail over those induced by the diabatic flux changes. The analysis is performed using a linear theory in which the mesoscale dynamics are forced by the diurnal diabatic sensible heat flux and by the surface stress. Results are shown as a function of ambient flow intensity and of the wavelength of a sinusoidal landscape variability.

Corresponding author address: Marina Baldi, IBIMET–CNR, Via Taurini, 19-00185, Rome, Italy. Email: m.baldi@ibimet.cnr.it

This article included in the Impacts of Land Use and Land Cover Change on the Atmosphere special collection.

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