Kazemi, S. M., Dickinson, D. J., Murphy, R. J. (2001). Effects of Initial Moisture Content on Wood Decay at Different Levels of Gaseous Oxygen Concentrations. , 3(4), 293-304.
S. M. Kazemi; D. J. Dickinson; R. J. Murphy. "Effects of Initial Moisture Content on Wood Decay at Different Levels of Gaseous Oxygen Concentrations". , 3, 4, 2001, 293-304.
Kazemi, S. M., Dickinson, D. J., Murphy, R. J. (2001). 'Effects of Initial Moisture Content on Wood Decay at Different Levels of Gaseous Oxygen Concentrations', , 3(4), pp. 293-304.
Kazemi, S. M., Dickinson, D. J., Murphy, R. J. Effects of Initial Moisture Content on Wood Decay at Different Levels of Gaseous Oxygen Concentrations. , 2001; 3(4): 293-304.

Effects of Initial Moisture Content on Wood Decay at Different Levels of Gaseous Oxygen Concentrations

Journal of Agricultural Science and Technology
Article 8, Volume 3, Issue 4, 2001, Pages 293-304    PDF (92.57 K)
Authors
S. M. Kazemi* 1; D. J. Dickinson2; R. J. Murphy2
1College of Natural Resources of Mazandaran University, Sari, Islamic Republic of Iran.
2Timber Technology Research Group, Department of Biology, Imperial College, London SW7 2BB, UK.
Abstract
The influence of initial moisture content on wood decay at different levels of atmospheric
oxygen concentration was studied. Three fungi, Coriolus versicolor (C. versicolor) a
white rot, Coniophora puteana (C. puteana) a brown rot, and Chaetomium globosum (C.
globosum) a soft rot, were chosen. The mycelia of the fungi were inoculated in to mini
blocks of Fagus sylvatica (beech) and Pinus sylvestris (Scots pine). Incubation was conducted
under four levels of oxygen concentration (1,5,10, and 21% O2) at 22o C. At low
oxygen concentrations, an increase of moisture content had a negative effect on the wood
decay process by both the Basidiomycetes (C. versicolor and C. puteana) in Scots pine and
beech. In air, the effect of initial moisture content on wood decay by these fungi depended
on the characteristics of the fungi and the wood species (such as fungal biology and physiology).
When C. globosum was used as a colonizer, increasing moisture content generally
increased weight loss in the wood blocks (especially in beech). When the moisture content
in the wood blocks was increased, more sporulations by C. globosum were also observed
on the wood samples. However, the role of oxygen in inceasing wood decay was more important
than the moisture content effect.
Keywords
Fungal physiology; Moisture content; Oxygen concentration; Wood decay
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