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RESUMOO presente trabalho objetivou avaliar as modificações anatômicas que ocorrem com a carbonização da madeira e determinar as propriedades anatômicas, densidade básica da madeira e densidade aparente do carvão vegetal de clones de Eucalyptus, além de elucidar as possíveis correlações significativas existentes. A microscopia eletrônica de varredura foi efetuada nas seções transversal, longitudinal tangencial e longitudinal radial da madeira e do carvão vegetal. Neste, foi feita a análise morfológica dos poros e densidade aparente. De uma forma geral, as características anatômicas como forma de poros, raios e fibras da madeira apresentaram pouca ou nenhuma modificação devido à carbonização, e a superfície do carvão apresentou estruturas bem definidas. As modificações nos elementos celulares da madeira foram principalmente referentes aos parâmetros quantitativos, como espessura da parede das fibras e diâmetro dos poros. Os clones avaliados apresentaram densidade básica da madeira satisfatória para a produção de carvão vegetal. Os parâmetros anatômicos correlacionaram-se significativamente com a densidade básica da madeira e densidade aparente do carvão vegetal, destacando-se, neste estudo, a fração parede das fibras. Palavras-chave: microscopia eletrônica de varredura; anatomia da madeira; carbonização; alterações microscópicas.
ABSTRACTThis study aimed to evaluate the anatomical changes that occur with charred wood and determine the anatomical properties, basic wood density and apparent density of charcoal Eucalyptus clones, besides elucidating the possible existing significant correlations. The scanning electron microscopy was performed in the transverse, longitudinal and tangential longitudinal and radial wood charcoal sections. In the morphological analysis of the pores and the apparent density was made. In general, the anatomical features such as pore radius and the wood fibers showed little or no change due to carbonization of coal surface and showed well defined structures. The changes in cellular elements of wood were mainly related to the quantitative parameters such as wall thickness and pore diameter fibers. The clones showed satisfactory
The recent availability of detailed geographic data permits terrain applications to process large areas at high resolution. However the required massive data processing presents significant challenges, demanding algorithms optimized for both data movement and computation. One such application is viewshed computation, that is, to determine all the points visible from a given point p. In this paper, we present an efficient algorithm to compute viewsheds on terrain stored in external memory. In the usual case where the observer's radius of interest is smaller than the terrain size, the algorithm complexity is θ(scan(n 2 )) where n 2 is the number of points in an n × n DEM and scan(n 2 ) is the minimum number of I/O operations required to read n 2 contiguous items from external memory. This is much faster than existing published algorithms.
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