Differentiation of Agaricus species and other homobasidiomycetes based on volatile production patterns using an electronic nose system

Garima KESHRI; Mike CHALLEN; Tim ELLIOTT; Naresh MAGAN

doi:10.1017/S0953756203007743

Abstract

Comparisons of the qualitative volatile production patterns between seven species of Agaricus, and between two of Volvariella and Pleurotus and one Coprinus species when grown at 25 °C on agar media for 14 d were made. There was good reproducibility between the volatile production patterns of the same species using an electronic nose unit with a 14 conducting sensor polymer array. Principle Component Analysis (PCA) showed that it was possible to discriminate between five of the seven Agaricus species, but that some overlap occurred between the others. Cluster analysis showed that there was also overlap between some species with the tropical collection of A. bitorquis separating out from the others. The volatile production profile of the commercial A. bisporus was close to that of a wild species, A. campestris. A. bisporus could be readily differentiated from other non-Agaricus species. This study demonstrates the potential for using electronic nose systems to rapidly differentiate mycelial cultures of homobasidiomycete mushrooms.

Crossref Citations

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

2003. When Physics Meets Biology: High-Resolution Laser-Based Techniques to Study Plant-Microbe Interactions. Mycological Research, Vol. 107, Issue. 8, p. 899.

Ewen, Richard J. Jones, Peter R.H. Ratcliffe, Norman M. and Spencer-Phillips, Peter T.N. 2004. 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. Mycological Research, Vol. 108, Issue. 7, p. 806.

Turner, Anthony P.F. and Magan, Naresh 2004. Electronic noses and disease diagnostics. Nature Reviews Microbiology, Vol. 2, Issue. 2, p. 161.

Pinzari, Flavia Fanelli, Corrado Canhoto, Olinda and Magan, Naresh 2004. Electronic Nose for the Early Detection of Moulds in Libraries and Archives. Indoor and Built Environment, Vol. 13, Issue. 5, p. 387.

Falasconi, Matteo Gobbi, Emanuela Pardo, Matteo Della Torre, Matteo Bresciani, Andrea and Sberveglieri, Giorgio 2005. Detection of toxigenic strains of Fusarium verticillioides in corn by electronic olfactory system. Sensors and Actuators B: Chemical, Vol. 108, Issue. 1-2, p. 250.

Moens, M. Smet, A. Naudts, B. Verhoeven, J. Ieven, M. Jorens, P. Geise, H.J. and Blockhuys, F. 2006. Fast identification of ten clinically important micro-organisms using an electronic nose. Letters in Applied Microbiology, Vol. 42, Issue. 2, p. 121.

Ahn, Ji-Yun Lee, Hyun-Jung Moon, Mi-Kyung Kim, Su-Na and Ha, Tae-Youl 2008. Inhibition of Inducible Nitric Oxide Synthase by Agaricus bisporus Extract in RAW 264.7 Macrophages. Preventive Nutrition and Food Science, Vol. 13, Issue. 4, p. 362.

Torri, Luisa Sinelli, Nicoletta and Limbo, Sara 2010. Shelf life evaluation of fresh-cut pineapple by using an electronic nose. Postharvest Biology and Technology, Vol. 56, Issue. 3, p. 239.

Cosio, M.S. Scampicchio, M. and Benedetti, S. 2012. Chemical Analysis of Food: Techniques and Applications. p. 219.

Akram, Kashif Ahn, Jae-Jun Yoon, Sung-Ran Kim, Gui-Ran and Kwon, Joong-Ho 2012. Quality attributes of Pleurotus eryngii following gamma irradiation. Postharvest Biology and Technology, Vol. 66, Issue. , p. 42.

Akram, Kashif Ahn, Jae‐Jun Baek, Ji‐Yeong Yoon, Sung‐Ran and Kwon, Joong‐Ho 2013. Absorbed‐dose estimation and quality attributes of gamma‐irradiated fresh shiitake mushrooms. Journal of the Science of Food and Agriculture, Vol. 93, Issue. 3, p. 634.

Fujioka, Kouki Shimizu, Nobuo Manome, Yoshinobu Ikeda, Keiichi Yamamoto, Kenji and Tomizawa, Yasuko 2013. Discrimination Method of the Volatiles from Fresh Mushrooms by an Electronic Nose Using a Trapping System and Statistical Standardization to Reduce Sensor Value Variation. Sensors, Vol. 13, Issue. 11, p. 15532.

Guthrie, Brian 2017. Springer Handbook of Odor. p. 55.

Jung, Mun Yhung Lee, Da Eun Cheng, Hong Yu Chung, Il‐Min Kim, Seung‐Hyun Han, Jae‐Gu and Kong, Won‐Sik 2019. Characterization of Volatile Profiles of Six Popular Edible Mushrooms Using Headspace‐Solid‐Phase Microextraction Coupled with Gas Chromatography Combined with Chemometric Analysis. Journal of Food Science, Vol. 84, Issue. 3, p. 421.

Ferreira, Inês Dias, Teresa Melo, Juliana Mouazen, Abdul Mounem and Cruz, Cristina 2023. First Steps in Developing a Fast, Cheap, and Reliable Method to Distinguish Wild Mushroom and Truffle Species. Resources, Vol. 12, Issue. 12, p. 139.

Ferreira, Inês Dias, Teresa Mouazen, Abdul M. and Cruz, Cristina 2023. Using Science and Technology to Unveil The Hidden Delicacy Terfezia arenaria, a Desert Truffle. Foods, Vol. 12, Issue. 19, p. 3527.

Rai, Pratiksha and Hasan Saeed, Syed 2023. Toxic gases detection using PARAFAC and PCA to protect the environment. Materials Today: Proceedings,

Article contents

Differentiation of Agaricus species and other homobasidiomycetes based on volatile production patterns using an electronic nose system

Abstract

Access options

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

Article contents

Differentiation of Agaricus species and other homobasidiomycetes based on volatile production patterns using an electronic nose system

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