Mehrdad Ghodskhah Daryaei scite author profile

The impacts of white-rot fungi on altering wood chemistry have been studied mostly in vitro. However, in vivo approaches may enable better assessment of the nature of interactions between saprotrophic fungi and host tree in nature. Hence, decayed and sound wood samples were collected from a naturally infected tree (Carpinus betulus L.). Fruiting bodies of the white rot fungus Trametes versicolor grown on the same tree were identified using rDNA ITS sequencing. Chemical compositions (cellulose and lignin) of both sound and infected wood were studied. FT-IR spectroscopy was used to collect spectra of decayed and un-decayed wood samples. The results of chemical compositions indicated that T. versicolor reduced cellulose and lignin in similar quantities. Fungal activities in decayed wood causes serious decline in pH content. The amount of alcohol-benzene soluble extractives was severely decreased, while a remarkable increase was found in 1% sodium hydroxide soluble and hot water extractive contents in the decayed wood samples, respectively. FT-IR analyses demonstrated that T. versicolor causes simultaneous white rot in the hornbeam tree in vivo which is in line with in vitro experiments.

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A comparison between decay patterns of the white‐rot fungusPleurotus ostreatusin chestnut–leaved oak (Quercus castaneifolia) shows predominantly simultaneous attack bothin vivoandin vitro

Bari

Karim

Oladi

et al. 2017

Forest Pathology

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Summary In this research, we examined decay patterns occurring in Quercus castaneifolia wood under natural conditions compared with controlled decay in vivo. Pleurotus ostreatus‐infected oak wood was obtained from the Sari forests in the north of Iran. The species causing decay was verified as P. ostreatus using rDNA‐ITS sequencing of pure cultures from infected sapwood. In addition to P. ostreatus, two wood‐inhabiting Ascomycota, Trichoderma harzianum and T. lixii, were present. Mass loss in oak sapwood samples exposed to P. ostreatus for 60 days was around 10 per cent. Samples were prepared from both naturally decayed wood and wood decayed under controlled conditions and examined using microscopy. P. ostreatus was found to produce a simultaneous white‐rot decay pattern in both conditions.

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Mehrdad Ghodskhah Daryaei

Decay of Carpinus betulus wood by Trametes versicolor - An anatomical and chemical study

In vivo investigation of chemical alteration in oak wood decayed by Pleurotus ostreatus

Influence of xylem ray integrity and degree of polymerization on bending strength of beech wood decayed by Pleurotus ostreatus and Trametes versicolor

Natural decomposition of hornbeam wood decayed by the white rot fungus Trametes versicolor

A comparison between decay patterns of the white‐rot fungusPleurotus ostreatusin chestnut–leaved oak (Quercus castaneifolia) shows predominantly simultaneous attack bothin vivoandin vitro

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