Effect of accelerated ripening agent on nutrient and antinutrient composition of banana

Food safety especially of fruits is important for a healthy and sustainable food system. Though accelerated ripening of fruits is common in Nigeria, its effect on nutritional quality of fruits remains underexplored. This study was conducted to investigate the changes in the nutrient and antinutrient composition of banana ripened with Calcium carbide (CaC2). In this study, mature bunches of freshly harvested green bananas were grouped separately and allowed to ripen naturally and artificially (with CaC2). At the end of the ripening stage, the nutritional parameters (proximate, minerals, vitamins) and antinutritional parameters were determined using relevant analytical methods, and the results obtained were compared across groups. The results showed that the proximate composition of the artificially ripened samples increase in ash (1.49), fat (0.76), and moisture (69.86) while carbohydrate (23.92) and protein (1.88) contents declined. Similarly, Na, K, Ca, Mg, P, Fe and Zn (mg/100 g) contents were higher in calcium carbide ripened than naturally ripened sample. Naturally ripened samples contained the higher amount of Vitamins C (28.87 mg/100 g), niacin (0.89 mg/100 g), pantothenic acid (0.27 mg/100 g) and pyridoxine (0.29mg/100 g). The β-carotene (127 mcg/100 g), Vitamin E (2.9 mg/100 g) and Vitamin K (0.31 mg/100 g) increased significantly in the artificially ripened samples, when compared to the naturally ripened samples. The use of calcium carbide as a ripening agent increases moisture and phlobatannin content, and loss in protein, carbohydrate, fibre, niacin, pantothenic acid, and pyridoxine composition of Cavendish banana.

Physiological Response of Mature Green Tomatoes to Treatment with Ethylene at High Temperature

This study investigated the effect of ethylene treatment at high temperatures of 30 to 40 °C for up to 72 hours on subsequent ripening-associated processes in mature green ‘Sunny’ and ‘Agriset 761’ tomatoes (Solanum lycopersicum). Compared with ethylene-treated fruit at 20 °C, ethylene exposure at 30 or 35 °C stimulated ripening in terms of ethylene biosynthesis and color development, but the ethylene effect was only apparent after transfer to air at 20 °C. There were no negative effects on ripe tomato quality related to ethylene exposure at 30 or 35 °C. However, ethylene production of tomatoes was permanently impaired by ethylene exposure at 40 °C for 48 or 72 hours even after transferring fruit to air at 20 °C; these fruit exhibited slow softening and color development. Our results suggest that tomatoes perceive ethylene at 30 to 35 °C despite impairment of ripening at those temperatures, with the accelerated ripening response becoming apparent only after transferring the tomatoes to air at lower temperature.

Accelerated Ripening Agents and Their Effect on the Quality of Avocado (Persia americana M.) and Mango (Mangifera indica L.) Fruits

The natural process of fruit ripening is a combination of physiological, biochemical and molecular processes which can be activated or accelerated artificially by using different chemical agents. This study was carried out to examine the effects of three ripening process on the quality of avocado and mango fruits. Freshly unripe mango and avocado fruits were treated with calcium carbide powder, kerosene fumes and ripening in woven polypropylene bags. Calcium carbide treated fruits were stored for 48 hrs and all the samples were fully ripened except avocado fruit. The kerosene fumed fruits were stored for 24 hrs and then exposed to open air for another 24 hrs. Fruits ripened in empty plastic rice got ripened within 4 and 5 days for mango and avocado, respectively. The fruits were then analyzed for their physicochemical properties and sulphide and sulphate distributions using standard methods. The result revealed a decrease in TTA, pH, carbohydrate and vitamin C contents on ripening. On the other hand, moisture and TSS was observed to increase. However, accelerated ripening had no significant (p<0.05) effect on the moisture and vitamin C content of the fruits. Mango samples treated with calcium carbide recorded higher acidity (0.92%) and low pH (3.08) than those treated with kerosene (0.29% and 3.71%, respectively). Sulphide and sulphate distribution of avocado was found to increase after accelerated ripening with kerosene fumes. A decrease for sulphate (outer distribution) and increase for sulphate (inner) and sulphide (outer) was observed for mango fruits. The results also showed that ripening in woven polypropylene had no significant (p<0.05) effect on the TTA of the fruits while pH, moisture and TSS varied significantly (p<0.05) with fruit type. The use of calcium carbide for fruit ripening is not advisable.