Polymers | Free Full-Text | Innovation in Wood Preservation
The wood preservation industry has depended on toxicity as a mechanism of effectiveness against decay fungi to extend the life of wood used in adverse conditions. An alternative to toxicity, however, is to study and understand the mechanism of fungal attack and stop it before it can start. Knowing that fungi need moisture for colonization, a new approach to wood preservation is to lower the cell wall moisture content below that needed for fungal attack. Acetylation chemistry is known to reduce the moisture content in the cell wall, and it was used to study moisture levels in the bulk cell wall and in the isolated cell wall polymers. Resistance to brown-rot was determined using a 12-week soil block test with Gloeophyllum trabeum. Weight loss was measured and an analysis of what was lost was determined.
Keywords:
moisture; preservative; mechanism; acetylation; decay; brown-rot fungus; wood; equilibrium moisture content; toxicity; acetyl content; sugar analysis; weight loss
moisture; preservative; mechanism; acetylation; decay; brown-rot fungus; wood; equilibrium moisture content; toxicity; acetyl content; sugar analysis; weight loss
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