Análise da influência da topografia do terreno na organização da turbulência dentro e acima de um dossel florestal amazônico

Abstract

The turbulent flow that occurs inside and immediately above the vegetation canopies has become an important object of study because of its crucial role in the mass and energy exchanges between the vegetation and the atmospheric boundary layer. The variation in surface roughness affects the air layer passing over it, causing momentum and scalar fluxes to be modified by the new surface conditions. Based on this, the objective of this study was to evaluate the structure of turbulence within and above a forest canopy located in central Amazonia for different topography and roughness conditions and at different times of day and night. For this, estimates were made of different statistical moments of turbulence, such as: variances, covariance, skewness and kurtosis, correlation coefficients, dissipation rate of turbulent kinetic energy. Quadrant analyzes were also used to better understand the role of intrusions and ejections for different surface roughness conditions. In addition, the height of the atmospheric boundary layer was estimated using sensitive heat flux profiles and data from a ceilometer. In order to investigate the aspects of topographic variability of the experimental site analyzed, we compared the characteristics of turbulence in two different wind directions: the first where the terrain is more wavy, with a rougher surface, and the second, where the surface is less irregular. The data set used here was collected in the ATTO-IOP-I campaign, held from October to November 2015 at the ATTO experimental site in São Sebastião do Uatumã. The results indicate that the topography of this region has a strong influence on the organization of turbulence, turbulent flows and even the height of the boundary layer. For the direction of flow where surface roughness is higher, turbulent exchanges at the forest-atmosphere interface are more intense and the atmospheric boundary layer is deeper.