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7765373 
Journal Article 
Industrial Processing Affects Product Yield and Quality of Diced Tomato 
De Sio, F; Rapacciuolo, M; De Giorgi, A; Sandei, L; Giuliano, B; Tallarita, A; Golubkina, N; Sekara, A; Stoleru, V; Cuciniello, A; Morano, G; Caruso, G 
2021 
MDPI AG 
11 
English 
WOS:000633160600001 
The tomato industry has been searching for new genotypes with improved fruit production, both in the field and industrially processed, together with high-quality performance under sustainable management conditions. This research was carried out in Southern Italy with the aim of assessing the effects of industrial processing on the yield and quality of four tomato hybrids grown according to organic farming methods and addressed at dicing. MAX 14111 and HMX 4228 showed the highest values of field and processing yield as well as reduced sugars and fructose. MAX 14111 had the highest values of total solids and soluble solids, titratable acidity, fiber, energetic value, polyphenols, and also rutin, though not significantly different from Impact. HMX 4228 performed best in terms of sugar ratio, color and naringenin. Concerning the diced products, the sensorial qualities of the four hybrids differed significantly. Total polyphenols, naringenin and rutin in the tomato fruits were higher in the processed than in the raw product. The appreciable fruit yield and quality resulting from both field and processing phase represent a promising perspective for identifying improved tomato genotypes addressed at dicing. © 2021 by the authors. Licensee MDPI, Basel, Switzerland. 
Solanum lycopersicum L.; round-prismatic fruit genotypes; field and processed production; color; sugars; polyphenols; rutin; naringenin; lycopene