Search results for "xylogenesis intensification"

showing 1 items of 1 documents

Direct exposure to solar radiation causes radial growth eccentricity at the beginning of the growing season in Robinia pseudoacacia

2020

Abstract Our study investigated the effect of stem temperature increase on xylem formation in Robinia pseudoacacia tree-trunks, caused by direct exposure to solar radiation. It is important to determine factors which may improve the concentricity of deposited wood tissue and intensify xylogenesis because a strong irregularity of wood tissue deposited in the radial direction in mature trees of R. pseudoacacia reduces the commercial value of the wood. Samples of vascular cambium along with adjacent tissues were collected from the southern (illuminated) and northern (shaded) side of tree-trunks growing in the inner and peripheral (thus exposed to direct sunlight) zones of the research plot. Sa…

0106 biological sciencessecondary xylemvascular cambiumsolar radiationGrowing seasonPlant ScienceBiologyRadiation01 natural sciencesCambial derivatives formation03 medical and health sciencesVascular cambium030304 developmental biologySunlight0303 health sciencesfungiRobiniatemperatureXylemForestryxylogenesis intensificationbiology.organism_classificationHorticultureDirect exposurering-porousDeposition (chemistry)010606 plant biology & botanyIAWA Journal
researchProduct