Nutritional and bioactive compounds in dried tomato processing waste

Abstract: This research investigated the nutritional and antioxidant composition of tomato processing waste with the aim to enable the development of new alternatives for the recycling of this by-product. The samples of dried tomato waste were found to contain 176.2 g/kg protein, 21.9 g/kg fat, 524.4 g/kg crude fiber and 42.1 g/kg ash. The essential amino acids represented 34.2% of total protein, the most abundant being leucine, followed by lysine and isoleucine. Unsaturated fatty acids represent 77.04% of the total fa… Show more

“…Carotenoids content (all-trans lutein, β-carotene and all-trans lycopene) of tomato waste powder obtained from organic tomatoes was higher than carotenoids content of that obtained from conventional ones (table 6). Also, βcarotene and all-trans lycopene content of tomato waste powders, within this study was higher than carotenoids content reported by Nour et al [23] (9.56 mg/100g β-carotene and 51.06 mg/100g lycopene).…”

“…Studies performed by Rubashvili et al (2018) showed that in case of tomato skin β-carotene content varied in the range 8.39 -12.75 μg/g, and lycopene content in the range 165.11 -179.56 μg/g [22]. According to the recent studies performed by Nour et al (2018) dried tomato wastes, consisting of about 22.2% seeds and 77.8% pulp residues and skins, have complex biochemical composition represented by: 946.5 g/kg dry matter, 176.2 g/kg crude protein, 21.9 g/kg crude fat, 524.4 g/kg crude fiber, 42.1 g/kg ash, 172.4 g/kg total amino acids, unsaturated fatty acids (represent 77.04% of the total fatty acids), saturated fatty acids (represent 22.72% of the total fatty acids), 1229.5 mg GAE/kg total phenolics, 415.3 mg QE/kg total flavonoids, 510.6 mg/kg lycopene, 95.6 mg/kg β-carotene [23]. Strati et al (2012) developed a method for carotenoids determination in tomato wastes by high-performance liquid chromatography (HPLC-DAD), using a YMC (Tokyo, Japan) C30 column (250 × 4.6 mm I.D., 5 μm particle).…”

Internal Validation of Rapid and Performant Method for Carotenoids Determination in Tomato Waste Powder by HPLC

“…Carotenoids content (all-trans lutein, β-carotene and all-trans lycopene) of tomato waste powder obtained from organic tomatoes was higher than carotenoids content of that obtained from conventional ones (table 6). Also, βcarotene and all-trans lycopene content of tomato waste powders, within this study was higher than carotenoids content reported by Nour et al [23] (9.56 mg/100g β-carotene and 51.06 mg/100g lycopene).…”

“…Studies performed by Rubashvili et al (2018) showed that in case of tomato skin β-carotene content varied in the range 8.39 -12.75 μg/g, and lycopene content in the range 165.11 -179.56 μg/g [22]. According to the recent studies performed by Nour et al (2018) dried tomato wastes, consisting of about 22.2% seeds and 77.8% pulp residues and skins, have complex biochemical composition represented by: 946.5 g/kg dry matter, 176.2 g/kg crude protein, 21.9 g/kg crude fat, 524.4 g/kg crude fiber, 42.1 g/kg ash, 172.4 g/kg total amino acids, unsaturated fatty acids (represent 77.04% of the total fatty acids), saturated fatty acids (represent 22.72% of the total fatty acids), 1229.5 mg GAE/kg total phenolics, 415.3 mg QE/kg total flavonoids, 510.6 mg/kg lycopene, 95.6 mg/kg β-carotene [23]. Strati et al (2012) developed a method for carotenoids determination in tomato wastes by high-performance liquid chromatography (HPLC-DAD), using a YMC (Tokyo, Japan) C30 column (250 × 4.6 mm I.D., 5 μm particle).…”

Internal Validation of Rapid and Performant Method for Carotenoids Determination in Tomato Waste Powder by HPLC

“…No significant differences were recorded for pressure on chlorogenic acid content (Table 3). High content of chlorogenic acid has been also found in tomato processing waste by Nour et al (2018).The effect of applying pressure on phenolic extraction was monitored using quercetin, epicatechin, catechin, naringenin and luteolin s markers. Data analysis highlighted how the increase in pressure led to a rise in the extraction performance of both epicatechin (respectively 1.08 mg/kg DW vs 2.83 mg/kg DW at 350 and 550 bar) and catechin (respectively 3.12 mg/kg DW vs 4.22 mg/kg DW at 350 and 550 bar).…”

Optimizing the supercritical fluid extraction process of bioactive compounds from processed tomato skin by-products

“…However, modern eco-compatible technologies offer more efficient strategies to recycle these by-products and reuse them as a sustainable source of different nutrients and highly biologically active compounds, such as amino acids, fatty acids, minerals and carotenoids. [1][2][3] Apart from carotenoids, i.e. lycopene and β-carotene found in major amounts, tomato by-products are also rich in phenolic compounds.…”

Effect of Microwave-Assisted Extraction on Polyphenols Recovery from Tomato Peel Waste