The early detection of wood decays in high-value standing trees is very important in urban areas because mitigating control measures must be implemented long before tree failures result in property damage or injuries to citizens. Adverse urban environments increase physiological stresses in trees, causing greater susceptibility to attacks by decay fungi. The detection of fungal root rots in urban trees is particularly difficult because conventional detection tools, currently used for diagnosis of wood decays, are not feasible belowground. Portable electronic olfactory systems or electronic noses (e-noses), currently used in many different scientific fields and industries, have been tested previously for the early diagnosis of wood decay fungi and wood rots. We evaluated the accuracy and effectiveness of the portable PEN3 electronic nose to discriminate between healthy and decayed root segments of five shade trees species, artificially inoculated separately with three species of root-rot fungi and incubated in different soil types under laboratory conditions. The PEN3 e-nose discriminated between healthy and inoculated root fragments and between different decay fungi in different soil types, but the discrimination power of this e-nose varied depending on tree species and strain of root-rot fungus analyzed. These positive results suggest the need for further field testing of metal oxide semiconductor (MOS) e-nose detection of root decays within living trees in the urban setting.
Evaluation of a portable MOS electronic nose to detect root rots in shade tree species / M. Baietto, L. Pozzi, A.D. Wilson, D. Bassi. ((Intervento presentato al 16. convegno European Forum on Urban Forestry Conference : the Walking Urban Forest tenutosi a Milano nel 2013.
Evaluation of a portable MOS electronic nose to detect root rots in shade tree species
M. Baietto
;D. BassiUltimo
2013
Abstract
The early detection of wood decays in high-value standing trees is very important in urban areas because mitigating control measures must be implemented long before tree failures result in property damage or injuries to citizens. Adverse urban environments increase physiological stresses in trees, causing greater susceptibility to attacks by decay fungi. The detection of fungal root rots in urban trees is particularly difficult because conventional detection tools, currently used for diagnosis of wood decays, are not feasible belowground. Portable electronic olfactory systems or electronic noses (e-noses), currently used in many different scientific fields and industries, have been tested previously for the early diagnosis of wood decay fungi and wood rots. We evaluated the accuracy and effectiveness of the portable PEN3 electronic nose to discriminate between healthy and decayed root segments of five shade trees species, artificially inoculated separately with three species of root-rot fungi and incubated in different soil types under laboratory conditions. The PEN3 e-nose discriminated between healthy and inoculated root fragments and between different decay fungi in different soil types, but the discrimination power of this e-nose varied depending on tree species and strain of root-rot fungus analyzed. These positive results suggest the need for further field testing of metal oxide semiconductor (MOS) e-nose detection of root decays within living trees in the urban setting.Pubblicazioni consigliate
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