Your search keyword '"Nadja Sadar"' showing total 3 results

1. A review and new insights from the European Horticultural Congress 2024

Author

Elias M. Holzknecht, Daniela Hey, Stefanie Maria Primisser, Peter Robatscher, Nadja Sadar, Angelo Zanella, Cameron Cullinan, Michele Guillino, and Sundus Riaz

Subjects

ehc2024, european horticulture congress, horticulture, fruit production, viticulture, defoliation, breeding, apples, strawberries, digitalisation, presition farming, computer vision, post harvest technologies, dca, biosensors, sustanability, multispectral, sensors, dendrometer, Agriculture

Published

2024

2. A Study on the Potential of IAD as a Surrogate Index of Quality and Storability in cv. ‘Gala’ Apple Fruit

Author

Nadja Sadar and Angelo Zanella

Subjects

non-destructive methods, spectrometry, chlorophyll index, maturity, firmness, malus x domestica, Agriculture

Abstract

The decline of relative chlorophyll contents during fruit ripening is considered to be an important indicator of fruit physiological condition. The recent availability of low-cost portable visible spectrum (VIS) spectrometers has spurred research interest towards optical sensing of chlorophyll changes in intact fruit, with many scientists attempting to link the shifts in optical signals, attributed to chlorophyll changes, to different maturity and quality parameters. One of the widely available portable devices for non-destructive estimation of relative chlorophyll contents is the DA meter, which provides a maturity index that is calculated as a difference between absorption at 670 nm (near the chlorophyll-a absorption peak) and 720 nm (background of the spectrum), abbreviated as IAD. In the present study, the evolution of IAD and its relation to starch pattern index (SPI) and fruit flesh firmness (FFF) was monitored in fruit of two cv. ‘Gala’ clones during maturation and storage, aiming to identify a potential existence of a usable IAD range for the assessment and prediction of the optimal harvest window and storage potential. In both clones, canopy positions, fruit sides, and seasons IAD, SPI, and FFF generally changed in a linear fashion over time, but with partially very different slopes, i.e., they were changing at different rates. What all of these parameters had in common was the presence of a very high biological variability, which is typical of apple fruit. Significantly powerful estimations of SPI (r2 > 0.7, p < 0.005) and pre- and post-storage FFF (r2 > 0.6, p < 0.005) were achieved. However, the very large biological variability could not be neutralized, which means that the predictions always included large confidence intervals of up to 0.46−0.59 units for SPI and 0.82−1.1 kgF FFF, which ultimately makes them unusable for practical applications. Experiments done under real-life conditions in a commercial fruit storage facility on several different fruit batches confirmed that IAD measured at harvest cannot be used indiscriminately for predicting post-storage FFF of cv. ‘Gala’ originating from different orchards. Nevertheless, mean IAD values that were obtained at optimal maturity from samples of the same orchards remained stable over seasons (0.8−1.2), which strongly suggests that, provided that the calibrations and validations are not only cultivar, but also orchard-specific, IAD has a potential for estimating maturity and storability of apple fruit. In this case, IAD could replace standard maturity indices, otherwise it would be suited for use as a supplementary index for determining fruits physiological maturity status.

Published

2019

3. USO DELLA SPETTROSCOPIA DI RIFLETTANZA RISOLTA NEL TEMPO PER DISTINGUERE MELE CON DIVERSA TEXTURE

Author

Anna Rizzolo, Maristella Vanoli, Fabio Lovati, Maurizio Grassi, Marina Buccheri, Nadja Sadar, Alessandro Torricelli, Angelo Zanella, and Lorenzo Spinelli

Subjects

SPETTROSCOPIA, TEXTURE, MELE

Abstract

Frutti con diversa texture sono caratterizzati da proprietà ottiche diverse della polpa. I coefficienti di assorbimento (?a) e di scattering ridotto (?'s), misurati in modo non distruttivo mediante Spettroscopia di Riflettanza risolta nel tempo (TRS), sono legati alle proprietà sensoriali, meccaniche ed acustiche della polpa dei frutti. Allo scopo di studiare la possibilità di utilizzare la tecnica TRS per selezionare mele 'Braeburn' aventi caratteristiche qualitative e sensoriali differenti, 270 frutti raccolti a 3 epoche diverse sono stati misurati individualmente mediante TRS (670-1040 nm) dopo 1, 7 e 14 giorni di shelf life. Dagli spettri di assorbimento e di scattering sono stati ricavati i contenuti di clorofilla (CHL) e di acqua (H2O) e lo scattering (?'s). Le stesse mele sono state analizzate per le proprietà sensoriali, meccaniche, acustiche e per gli spazi intercellulari (RISV). Gli attributi sensoriali (durezza, succosità, farinosità, croccantezza) sono stati sottoposti all'Analisi dei Cluster ottenendo 3 profili sensoriali (W1, W2, W3). Le mele W1, di texture farinosa, avevano i valori più alti di ?'s e RISV e i valori più bassi di H2O e delle proprietà meccaniche ed acustiche. Le mele W3, di texture croccante, presentavano i valori più bassi di ?'s e RISV e i valori più alti di CHL, H2O e delle proprietà acustiche e meccaniche. L'analisi discriminante basata sulle proprietà ottiche ha permesso di classificare correttamente il 73% dei frutti W1, l'85% dei frutti W3 e il 49% dei frutti W2 (texture intermedia). Sono stati studiati anche modelli di classificazione dell'intensità (molto bassa, bassa, media, alta, molto alta) dei singoli attributi sensoriali. La performance di tali modelli variava dal 50% per la croccantezza al 61% per la durezza, anche se più del 70% delle mele appartenenti alle classi molto o poco farinose e delle mele molto o poco dure erano classificate correttamente.

Published

2016