Identification by gas chromatography-mass spectrometry of the volatile organic compounds emitted from the wood-rotting fungi Serpula lacrymans and Coniophora puteana, and from Pinus sylvestris timber

Richard J. EWEN; Peter R. H. JONES; Norman M. RATCLIFFE; Peter T. N. SPENCER-PHILLIPS

doi:10.1017/S095375620400022X

Abstract

Volatile organic compounds (VOCs) emitted by two wood-rotting basidiomycete fungi, Serpula lacrymans (dry rot fungus) and Coniophora puteana (cellar fungus), and the timber of Pinus sylvestris (Scots pine), were identified. Several volatile collection techniques were employed including dichloromethane solvent extraction, solid-phase microextraction (SPME) and thermal desorption of VOCs entrained on Tenax GR. In addition, a new method of solid sample injection (SSI) is described which utilises a low injector temperature and an all-glass deactivated injector liner designed to minimise both the formation of pyrolysis products and analyte degradation. All the volatile compounds collected were analysed using electron impact capillary gas chromatography-mass spectrometry (GC-MS) on HP-5, HP-Innowax and β-cyclodextrin columns. SSI and Tenax thermal desorption were found to be the most effective extraction methods. A total of 19 VOCs were observed from S. lacrymans grown on glass slides and pine, 15 from C. puteana grown on glass slides and 12 from P. sylvestris timber. S. lacrymans was found to emit, in low abundance, six unique VOCs, of which 2-methylbutanal was the greatest. The major volatile compound emitted by S. lacrymans was 1-octen-3-ol, which was also found in lower abundance from C. puteana. Six VOCs, including diethylene glycol and 4-methyl methylbenzoate, were found to be unique to C. puteana, all in medium abundance. From P. sylvestris, the major volatiles identified were S-α-pinene and 3-carene.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

2005. Current literature in mass spectrometry. Journal of Mass Spectrometry, Vol. 40, Issue. 2, p. 277.

Hamilton, S. Hepher, M.J. and Sommerville, J. 2006. Detection of Serpula lacrymans infestation with a polypyrrole sensor array. Sensors and Actuators B: Chemical, Vol. 113, Issue. 2, p. 989.

Combet, Emilie Eastwood, Daniel C. Burton, Kerry S. Combet, Emilie Henderson, Janey Henderson, Janey and Combet, Emilie 2006. Eight-carbon volatiles in mushrooms and fungi: properties, analysis, and biosynthesis. Mycoscience, Vol. 47, Issue. 6, p. 317.

Hynes, Juliet Müller, Carsten T. Jones, T. Hefin and Boddy, Lynne 2006. Changes in Volatile Production During the Course of Fungal Mycelial Interactions Between Hypholoma fasciculare and Resinicium bicolor. Journal of Chemical Ecology, Vol. 33, Issue. 1, p. 43.

Garner, Catherine E. Smith, Stephen Lacy Costello, Ben White, Paul Spencer, Robert Probert, Chris S. J. and Ratcliffem, Norman M. 2007. Volatile organic compounds from feces and their potential for diagnosis of gastrointestinal disease. The FASEB Journal, Vol. 21, Issue. 8, p. 1675.

De Lacy Costello, B Ewen, R Ewer, A K Garner, C E Probert, C S J Ratcliffe, N M and Smith, S 2008. An analysis of volatiles in the headspace of the faeces of neonates. Journal of Breath Research, Vol. 2, Issue. 3, p. 037023.

Evans, Jennifer A. Eyre, Catherine A. Rogers, Hilary J. Boddy, Lynne and Müller, C.T. 2008. Changes in volatile production during interspecific interactions between four wood rotting fungi growing in artificial media. Fungal Ecology, Vol. 1, Issue. 2-3, p. 57.

Thakeow, P. Angeli, S. Weissbecker, B. and Schutz, S. 2008. Antennal and Behavioral Responses of Cis boleti to Fungal Odor of Trametes gibbosa. Chemical Senses, Vol. 33, Issue. 4, p. 379.

Hachem, Caroline Fazio, Paul Rao, Jiwu Bartlett, Karen and Chaubey, Yogendra P. 2009. Identification and transport investigation of microbial volatile organic compounds in full-scale stud cavities. Building and Environment, Vol. 44, Issue. 8, p. 1691.

Bäck, Jaana Aaltonen, Hermanni Hellén, Heidi Kajos, Maija K. Patokoski, Johanna Taipale, Risto Pumpanen, Jukka and Heinonsalo, Jussi 2010. Variable emissions of microbial volatile organic compounds (MVOCs) from root-associated fungi isolated from Scots pine. Atmospheric Environment, Vol. 44, Issue. 30, p. 3651.

Baietto, Manuela Wilson, Alphus D. Bassi, Daniele and Ferrini, Francesco 2010. Evaluation of Three Electronic Noses for Detecting Incipient Wood Decay. Sensors, Vol. 10, Issue. 2, p. 1062.

Hachem, C. Chaubey, Y. Fazio, P. Rao, J. and Bartlett, K. 2010. Statistical Analysis of Microbial Volatile Organic Compounds in an Experimental Project: Identification and Transport Analysis. Indoor and Built Environment, Vol. 19, Issue. 2, p. 275.

Sankaran, Sindhuja Mishra, Ashish Ehsani, Reza and Davis, Cristina 2010. A review of advanced techniques for detecting plant diseases. Computers and Electronics in Agriculture, Vol. 72, Issue. 1, p. 1.

Irbe, Ilze Andersone, Ingeborga Andersons, Bruno Noldt, Guna Dizhbite, Tatiana Kurnosova, Nina Nuopponen, Mari and Stewart, Derek 2011. Characterisation of the initial degradation stage of Scots pine (Pinus sylvestris L.) sapwood after attack by brown-rot fungus Coniophora puteana. Biodegradation, Vol. 22, Issue. 4, p. 719.

Ouyang, Gangfeng Vuckovic, Dajana and Pawliszyn, Janusz 2011. Nondestructive Sampling of Living Systems Using in Vivo Solid-Phase Microextraction. Chemical Reviews, Vol. 111, Issue. 4, p. 2784.

Hübert, Thomas Tiebe, Carlo and Stephan, Ina 2011. Detection of fungal infestations of wood by ion mobility spectrometry. International Biodeterioration & Biodegradation, Vol. 65, Issue. 5, p. 675.

Xia, Yongjun Zhang, Baorong Li, Weijiang and Xu, Ganrong 2011. Changes in volatile compound composition of Antrodia camphorata during solid state fermentation. Journal of the Science of Food and Agriculture, Vol. 91, Issue. 13, p. 2463.

Umasankar, Yogeswaran Rains, Glen C. and Ramasamy, Ramaraja P. 2012. Electroanalytical studies on green leaf volatiles for potential sensor development. The Analyst, Vol. 137, Issue. 13, p. 3138.

Asensio, Dolores Yuste, Jorge Curiel Mattana, Stefania Ribas, Àngela Llusià, Joan and Peñuelas, Josep 2012. Litter VOCs induce changes in soil microbial biomass C and N and largely increase soil CO2 efflux. Plant and Soil, Vol. 360, Issue. 1-2, p. 163.

Wilson, Alphus 2013. Diverse Applications of Electronic-Nose Technologies in Agriculture and Forestry. Sensors, Vol. 13, Issue. 2, p. 2295.

Download full list

Article contents

Identification by gas chromatography-mass spectrometry of the volatile organic compounds emitted from the wood-rotting fungi Serpula lacrymans and Coniophora puteana, and from Pinus sylvestris timber

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Identification by gas chromatography-mass spectrometry of the volatile organic compounds emitted from the wood-rotting fungi Serpula lacrymans and Coniophora puteana, and from Pinus sylvestris timber

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests