Abstract
In response to the market demand for low processed vegetables, high-pressure treatments (400,600 MPa; 1,5 min) were applied on zucchini slices and compared to a traditional blanching treatment. Histological observations, texture and color analysis, pectinmethylesterase (PME) and antioxidant (DPPH) activities were measured and compared to untreated samples. The histological observations revealed that the longer high-pressure treatments (5 min) led to more extended cell lysis and dehydration than the shorter ones (1 min) and blanching. High-pressure treatments resulted less effective than blanching on PME inactivation, with the best results obtained at 400 MPa for 1 min. Comparable texture parameters were observed for high-pressured and blanched samples. The negative correlation found between PME activity and the texture parameter ‘distance of the first peak force’ revealed an effect of PME on the texture recovery after treatments. High pressure led to a general browning of zucchini parenchyma and to DPPH drop. The correlations found between DPPH and color suggest the common nature of the phenomena. The influence of pressure and time on the studied parameters was revealed by two-way ANOVA. Principal component analysis clustered together the four high-pressure-treated samples, being clearly divided by blanched and untreated ones.
Highlights
Fruit and vegetables (F&V) consumption is mainly linked with a healthy diet [1]
This study aims to investigate the effect of HP treatments at 400 and 600 MPa for 1 and 5 min on the quality parameters of zucchini slides
Principal component analysis (PCA) did not find any difference among the four HP treatments, clustering them in the same group
Summary
Fruit and vegetables (F&V) consumption is mainly linked with a healthy diet [1]. Consumers, aim to purchase organoleptically inviting F&V with an adequate nutritional content [2]. To meet the current market needs, novel non-thermal technologies are being studied [3, 4] with the aim to stabilize the products avoiding the detrimental effect of temperature [5]. In this context, high-pressure processing (HPP), applying pressure in the range between 100 and 1000 MPa for small periods of time, can deactivate pathogens and spoiling microorganisms, avoiding the detrimental effect of temperature [6]. The effect of this technology on the quality of whole or pre-cut F&V is less debated
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