บทคัดย่องานวิจัย

Prediction of mango eating quality at harvest using short-wave near infrared spectrometry

P.P. Subedi, K.B. Walsh and G. Owens

Postharvest Biology and Technology, Volume 43, Issue 3, March 2007, Pages 326-334

2007

บทคัดย่อ

Prediction of mango eating quality at harvest using short-wave near infrared spectrometry

Short wave near infrared (SWNIR) (400–1100 nm) spectroscopy was trialled in assessment of mango (Mangifera indica L.) fruit maturation and as a harvest time guide to final eating quality. Fruit maturity was indexed in terms of flesh colour (r2 = 0.79 for Hunter b value against maturity score), dry matter content (r2 = 0.66 for % DM against maturity score) and a visual ranking of maturity. Fruit eating quality at fully ripe stage was indexed in terms of total soluble solids content of extracted juice (TSS). Partial least squares (PLS) regression models based o­n second derivative of absorbance spectra for DM, TSS, Hunter b and visual maturity ranking were optimised in terms of the wavelength range of SWNIR. Optimal TSS and DM models used the same wavelength region and also produced similar PLS regression coefficient plots, suggesting that the models are unable to differentiate between the soluble and insoluble forms of carbohydrate in the fruit. When used in prediction of new populations, DM and Hunter b models based o­n several harvest dates were acceptable (e.g. for DM, R2V = 0.74, bias = 1, bias corrected root mean square error of prediction [SEP] = 1% DM). Calibration models o­n TSS of ripe fruit, developed using SWNIR spectra collected (non-destructively) of hard green mango (R2C = 0.90), were useful in prediction of an independent population (R2V = 0.92 with SEP = 0.67 and bias = 1.25% TSS). We conclude that the SWNIR technique can be used at fruit harvest in assessment of fruit maturity (as flesh Hunter b or % DM), and also in prediction of the future TSS of fruit after ripening.