Assessment of the use of dynamic mechanical analysis to investigate initial onset of brown rot decay of Scots pine (Pinus sylvestris L.)

Graham Ormondroyd; Gry Alfredsen; Durai Raghavalu Thirumalai; Simon Curling; Bronia Stefanowski; Morwenna Spear; Lone Ross Gobakken

doi:10.1016/j.ibiod.2017.02.002

Assessment of the use of dynamic mechanical analysis to investigate initial onset of brown rot decay of Scots pine (Pinus sylvestris L.)

Graham Ormondroyd, Gry Alfredsen, Durai Raghavalu Thirumalai, Simon Curling, Bronia Stefanowski, Morwenna Spear, Lone Ross Gobakken

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Abstract

Microbiological degradation of wood by decay fungi can cause a rapid change in the structural properties of timber which can result in both strength and mass loss. Traditional techniques for the evaluation of decay (e.g. mass loss) lack the sensitivity to evaluate the effects of the very first stages of the decay process. This paper describes the effects of initial brown rot decay, defined by the amount of Poria
placenta genomic DNA (gDNA) present in the samples, on the dynamic mechanical properties of the timber. It was found that there is a correlation between the mean storage modulus of the timber and the amount of P. placenta gDNA present, and therefore the level of decay. This shows that using dynamic mechanical analysis is a viable technique that can be used to study initial decay processes.

Original language	English
Pages (from-to)	1-5
Number of pages	5
Journal	International Biodeterioration and Biodegradation
Volume	120
Early online date	8 Feb 2017
DOIs	https://doi.org/10.1016/j.ibiod.2017.02.002
Publication status	Published - May 2017

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Plants and Architecture
Ormondroyd, G. (PI)
1/12/14 → 1/08/19
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title = "Assessment of the use of dynamic mechanical analysis to investigate initial onset of brown rot decay of Scots pine (Pinus sylvestris L.)",

abstract = "Microbiological degradation of wood by decay fungi can cause a rapid change in the structural properties of timber which can result in both strength and mass loss. Traditional techniques for the evaluation of decay (e.g. mass loss) lack the sensitivity to evaluate the effects of the very first stages of the decay process. This paper describes the effects of initial brown rot decay, defined by the amount of Poriaplacenta genomic DNA (gDNA) present in the samples, on the dynamic mechanical properties of the timber. It was found that there is a correlation between the mean storage modulus of the timber and the amount of P. placenta gDNA present, and therefore the level of decay. This shows that using dynamic mechanical analysis is a viable technique that can be used to study initial decay processes.",

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AU - Ormondroyd, Graham

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AU - Raghavalu Thirumalai, Durai

AU - Curling, Simon

AU - Stefanowski, Bronia

AU - Spear, Morwenna

AU - Gobakken, Lone Ross

PY - 2017/5

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AB - Microbiological degradation of wood by decay fungi can cause a rapid change in the structural properties of timber which can result in both strength and mass loss. Traditional techniques for the evaluation of decay (e.g. mass loss) lack the sensitivity to evaluate the effects of the very first stages of the decay process. This paper describes the effects of initial brown rot decay, defined by the amount of Poriaplacenta genomic DNA (gDNA) present in the samples, on the dynamic mechanical properties of the timber. It was found that there is a correlation between the mean storage modulus of the timber and the amount of P. placenta gDNA present, and therefore the level of decay. This shows that using dynamic mechanical analysis is a viable technique that can be used to study initial decay processes.

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JO - International Biodeterioration and Biodegradation

JF - International Biodeterioration and Biodegradation

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Assessment of the use of dynamic mechanical analysis to investigate initial onset of brown rot decay of Scots pine (Pinus sylvestris L.)

Abstract

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