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Quantification of Dry Matter Content in Hass Avocado by Near-Infrared Spectroscopy (NIRS) Scanning Different Fruit Zones

Pablo Rodríguez, Jairo Villamizar, Luís Fernando Londoño, Thierry Tran, Fabrice Davrieux

2023Plants14 citationsDOIOpen Access PDF

Abstract

Accurate dry matter determination (DM) in Hass avocados is vital for optimal harvesting and ensuring fruit quality. Predictive models based on NIRS need to capture fruit DM gradient. This work aimed to determine the DM content in Hass avocado whole by NIRS scanning different fruit zones. Spectra were recorded for each zone of the fruit: peduncle (P), equator (E), and base (B). The calibration and validation included fruit from different orchards in two harvest cycles. The results show a DM gradient within the fruit: 24.47% (E), 24.68% (B), and 24.79% (P). The DM gradient was observed within the spectra using the RMSi (root mean square) criterion and PCA. The results show that at least one spectrum per fruit zone was needed to represent the variability within the fruit. The performances of the calibration using the whole set of data were R2: 0.74 and standard error of cross-validation (SECV) = 1.18%. In the validation stage using independent validation sets, the models showed similar performance (R2: 0.75, SECV 1.15%) with low values of the standard error of prediction (SEP): 1.62%. These results demonstrate the potential of near-infrared spectroscopy for high-throughput sorting of avocados based on their commercial quality.

Topics & Concepts

Dry matterCalibrationHorticultureNear-infrared spectroscopyCross-validationSortingChemistryAnalytical Chemistry (journal)BotanyMathematicsChromatographyBiologyStatisticsAlgorithmNeuroscienceSpectroscopy and Chemometric AnalysesLeaf Properties and Growth MeasurementHorticultural and Viticultural Research