J. Fontan scite author profile

An experiment was conducted in a pine forest in southwestern France during late spring 1992. The aim was fourfold: testing various flux measurement methodologies for chemically reactive species; quantifying the exchanges between the forest and the atmosphere; analyzing the involved mechanisms; and studying their influence on the chemistry of the surface boundary layer. This paper presents preliminary results obtained on the dry deposition of ozone and submicronic aerosol particles, measured using eddy correlation. Once properly normalized, the spectra and cospectra of all scalar species exhibit universal shapes over the whole frequency range. However, evidence is provided that under some meteorological conditions the time series of turbulent variables can be affected by nonstationary trends, or low‐frequency fluctuations that do not contribute to vertical transfer but whose presence can induce large errors in the calculated fluxes. The time variations of the deposition velocities for ozone and aerosol particles are then presented over 2 days with different meteorological conditions. The deposition velocities are shown to be consistent with other reported studies. Dry deposition of ozone appears to be mainly governed by the stomatal resistance, whereas friction velocity and atmospheric instability in the boundary layer seem to govern the deposition of aerosol particles.

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Experimental Studies of the Turbulence Structure Parameters of the Convective Boundary Layer

Druilhet¹,

Frangi²,

Guédalia³

et al. 1983

J. Climate Appl. Meteor.

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Seasonal trends of ozone in equatorial Africa: Experimental evidence of photochemical formation

Cros¹,

Delmas²,

Nganga³

et al. 1988

J. Geophys. Res.

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Surface ozone measurements obtained at Brazzaville, Congo (4°20′S, 15°20′E), from 1983 to 1986 are summarized. In addition, results from aircraft surveys (1985 and 1986) from Brazzaville to the Atlantic coast and results from a shipboard expedition (1986) along the Atlantic coast at the Equator are presented. On the basis of the data, there appears to exist a seasonal cycle with the highest values in early spring (southern) which compare with the mid‐latitude values observed in the northern hemisphere. The data suggest that during the dry season, emission of precursor gases from biomass burning leads to high ozone values in the boundary layer. Ozone mixing ratios approached levels as high as 100 parts per billion by volume in a layer residing just above the monsoon. In the wet season, the data suggest that biogenic, organic emissions may act as precursors to photochemical ozone production and may contribute to the fairly high ozone burden of the lower troposphere over Equatorial Africa.

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Comparison between weekend and weekday ozone concentration in large cities in France

Pont

Fontan

2001

Atmospheric Environment

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J. Fontan

The Landes experiment: Biosphere‐atmosphere exchanges of ozone and aerosol particles above a pine forest

Experimental Studies of the Turbulence Structure Parameters of the Convective Boundary Layer

Seasonal trends of ozone in equatorial Africa: Experimental evidence of photochemical formation

Comparison between weekend and weekday ozone concentration in large cities in France

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