บทคัดย่องานวิจัย

Electronic nose-based discrimination among spring onions grown on two different soils at three water-deficit stress levels

L. Abbey, D.C. Joyce, J. Aked, B. Smith

ISHS Acta Horticulturae 600: 479-484.

2003

บทคัดย่อ

Electronic nose-based discrimination among spring onions grown on two different soils at three water-deficit stress levels

Quality discrimination for spring o­nions using conventional methods of sensory appraisal and analytical tests is difficult, expensive and time-consuming. Discrimination of spring o­nion characteristics with electronic nose (E-nose) technology was investigated. Plants of cv. White Lisbon were grown in a glasshouse in pots containing clay (Alluvial gley) or sandy loam (Brown earth). Irrigation regimes were regular watering to near field capacity (-0.01 MPa soil water potential, SWP) or re-watering to near field capacity when available moisture level was depleted to either < 50% (-0.80 MPa SWP) or < 25% (-1.19 MPa SWP). The E-nose sensor response (%dR/R) was significantly (P<0.01) influenced by irrigation, with %dR/R decreasing in association with reducing soil water availability. Effects of soil type and irrigation regime x soil type interaction for %dR/R were not significant (P>0.05). Two-dimension Principal Component Analysis (PCA) plots showed significant (D2>3.0) differences among data set clusters. Increases in water-deficit level reduced separations between data set clusters for plants grown o­n both clay and o­n sandy loam. Regular irrigation increased pyruvic acid concentration by 43% o­n the clay as compared with 8% increase in mild water-deficit stressed plants o­n clay versus severely stressed plants. In contrast, pyruvic acid concentration was reduced by 8% in regularly watered plants grown o­n the sandy loam as compared with 8% increase in mild water-deficit stressed plants o­n sandy loam versus severely stressed plants. In conclusion, significant (D2>3.0) separations of data set clusters in association with water-deficit stress but not soil type were evident o­n the 2D PCA plots. However, while the E-nose has demonstrated potential for discrimination of spring o­nion quality, further detailed work is required to characterise the interactions of spring o­nion volatile components with conducting polymer sensors.