Effect of packaging and cushioning material used during road transportation on ripening behavior and storage of alphonso mango fruits

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Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 International Journal of Current Microbiology and Applied Sciences ISSN: 2319-7706 Volume 7 Number 05 (2018) Journal homepage: http://www.ijcmas.com Original Research Article https://doi.org/10.20546/ijcmas.2018.705.309 Effect of Packaging and Cushioning Material Used During Road Transportation on Ripening Behavior and Storage of Alphonso Mango Fruits Z.M. Burondkar*, C.D. Pawar, P.M. Haldankar, M.M. Burondkar, P.B. Kardile, P.G. Borkar and J.S. Dhekale College of Agriculture, Dr. Balasaheb Sawant Konkan Krishi Vidyapeeth, Dapoli, Dist Ratnagiri, (M.S.)-415712, India *Corresponding author ABSTRACT Keywords Packaging, Cushioning, Alphonso mango Article Info Accepted: 20 April 2018 Available Online: 10 May 2018 The present post-harvest investigation, aimed at studying the interaction effect of different packaging and cushioning material used during road transportation on physical properties of fruits during ripening and storage of Alphonso mango fruits, was undertaken at Department of Horticulture, College of Agriculture, Dapoli, during mango cropping season of 2013-14, in Factorial randomized block design (FRBD), with three replications. Fruit harvested at “B” stage of physiological maturity, were packed in five different packaging materials (wooden box, bamboo basket (karandi), plastic crates, and corrugated fibre board boxes) and four cushioning materials (paddy straw, grass, tissue paper) followed by road transportation for 300km, were periodically assessed for different physical changes during ripening and storage. Result indicated that the weight, volume and specific gravity were more at harvest and all these characters decreased slightly at packing. There was (1.63%) loss in fruit weight and (2.11%) loss in fruit volume from time of harvest till time of packing, while specific gravity of fruits increased fractionally from (1.020 to 1.025), from harvest to packing. The earliest and maximum ripening of fruits at 7 DAP was observed in treatment combination P1C1-Wooden box with paddy straw (49.31%), followed by P 4C3CFB box with tissue paper (45.4%), similarly minimum percent of green fruits (6.25% and 9.03%) and minimum percent of diseased fruits (2.11% and 2.23%) were also observed in above treatment combinations, respectively. Whereas minimum ripening percent (9.72%), maximum percent of green fruits and diseased fruits percent (38.19% and 15.97% respectively) was recorded in treatment combination P 5C4- i.e. loose fruits without cushioning material. At 14 DAP, when fruits were more critically viewed for shriveled and diseased fruits, the minimum percent of green shriveled (2.39% and 2.47%) and half ripe shriveled (4.65% and 4.94%) was recorded in P 1C1-wooden box with paddy straw, followed by P4C3- CFB box with tissue paper respectively. Introduction Mango (Mangifera indica L.) undoubtedly is one of the oldest and choicest fruits in the tropics and is acclaimed as “King” of fruits. It is the third widely produced fruit crop after banana and citrus, and occupy relatively the same position in the tropics as the apple in Europe and North America due to its wide adaptability, high nutritive value, richness in 2667 Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 variety, delicious taste, pleasant flavour and attractive appearance. It enjoys the unique popularity among the masses and classes throughout the tropics. optimum ripening and quality of Alphonso mangoes. Konkan region on the west coast of Maharashtra is emerging as one of the largest mango growing belts in the country, which comprises four mango growing districts viz., Thane (43492 ha), Raigad (47400 ha), Ratnagiri (63500 ha) and Sindhudurga (25494 ha), occupying 1.65 lakh ha of area under mango (Anon., 2012f). This region which occupies about 1 per cent of the total land area of the country, accounts for 7 per cent of the total area under mango in the country. Out of total area under mango in Konkan, more than 80 per cent is occupied by a single largest growing mango variety „Alphonso‟, locally called as „Hapus‟ with a major export share to the tune of over 30 per cent. But mango is perishable in nature and there are many occasions for it to get spoiled till the fruit reaches consumer‟s table. Spoilage of fruit is the bottleneck problem of meagre export of Alphonso mangoes though its production is very large. The principle causes for postharvest losses are by infections of pathogens, rough handling, improper packaging, improper mode of transportation and unhygienic storage conditions. It is estimated that the total losses due to spoilage may be nearly 20-30 per cent of fruit harvest.As far packaging is concerned, up till now the wooden boxes, bamboo baskets and CFB boxes are most commonly used in all over India for mangoes. But the pioneer work has done by Joshi and Roy (1985) on corrugated fibre board boxes for packaging of Alphonso mangoes now leads to an effective alternative packaging material for mangoes. The present investigation on Effect of different packaging and cushioning material on quality and shelf life of mango (Mangifera indica L.) Fruits Cv. Alphonso was undertaken in Department of Horticulture, College of Agriculture, Dapoli during mango cropping season of 2013-14 and it was conducted in FRBD with three replications, During the investigation, major emphasis was given on studying the effect of different packaging material in combination with different cushioning material on changes in physical parameters, ripening pattern, shrivelling, spoilage and shelf life of Alphonso mango fruits during packaging and ripening. Alphonso mangoes were obtained from orchard of Department of Horticulture, College of Agriculture, Dapoli (M.S) India. Fruits were harvested by Nutan mango nipper in early morning hours. These harvested mangoes were then taken to packing house. At the packing house all the harvested mangoes were checked for their full maturity carefully which was done by dipping them in water at ambient temperature. The fruits which sunk in water (specific gravity > 1.0) were selected for experiment and the fruits which floated were discarded. care was taken that no diseased, deformed or immature fruits were selected to carry out experiment. A total number of 2880 Alphonso mango fruits were selected.To study effect of packaging and cushioning material, the wooden box, bamboo basket (karandi), plastic crates, and corrugated fibre board boxes were used as a packaging material and paddy straw, grass, tissue paper was used as cushioning material. All these materials were procured from local market and university far. In order to examine effect of different packaging and cushioning treatments on brusing and impact damage which normally occur to fruit during long distance road In the view of all these, the present study on “Effect of different packaging and cushioning material on quality and shelf life of mango (Mangifera indica L.) fruits Cv. Alphonso was conducted with objective to find out best packagingand cushioning material material for Materials and Methods 2668 Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 transportation, further all the packed fruits in their respective packaging and cushioning material were loaded in a mini truck and these fruits were transported from dapolito Ratnagiri and back to Dapoli (total 300 kilometers on same day of packaging and were moved to storage room). Table.1 Number of treatment combinations: twenty (20) as below Sr. No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Treatment No. P1C1 P1C2 P1C3 P1C4 P2C1 P2C2 P2C3 P2C4 P3C1 P3C2 P3C3 P3C4 P4C1 P4C2 P4C3 P4C4 P5C1 P5C2 P5C3 P5C4 Packaging and cushioning material used Wooden box with paddy straw Wooden box with dry grass Wooden box with tissue paper Wooden box without cushioning material Bamboo basket (karandi) with paddy straw Bamboo basket (karandi) as cushioning material with dry grass Bamboo basket (karandi) with tissue paper Bamboo basket (karandi) without cushioning material Plastic crate with paddy straw Plastic crate with dry grass Plastic crate with tissue paper Plastic crate without cushioning material Corrugated fibre board box with paddy straw Corrugated fibre board box with dry grass Corrugated fibre board box with tissue paper Corrugated fibre board box without cushioning material Loose fruits with paddy straw Loose fruits with dry grass Individual fruit wrappedin tissue paper Loose fruits without cushioning material Experimental design No. of replications No. of fruits per treatment per replication Total No. of fruits studied Factorial RBD Three 48 2880 Results and Discussion Weight of fruit The results of the investigation are presented and discussed in this chapter under the following subheads. The periodical data regarding weight of Alphonso mango fruits illustrated in figure 1. It was revealed that at 7 DAP, irrespective of cushioning material used; all the packaging materials significantly influenced the weight. Among the five packaging materials, P4-CFB box (27.30g), registered significantly less drop Effect of packaging and cushioning material on changes in physical characteristics of Alphonso mango fruits during storage. 2669 Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 in fruit weight; whereas significantly highest drop in weight was observed in P5-loose fruits (35.41g). Similar trend continued till 14DAP. As minimum loss in weight was recorded again by P4- CFB Box (48.98g), followed by P1-wooden box (49.76g), which were at par with each other. This could be attributed to higher loss of moisture with early onset of hydrolytic processes and respiration, which may lead to inevitable loss in weight (Lee et al., 1995; Giovannoni, 2001; Wills et al., 2007). Amongst the four methods adopted, the weight loss at 7 DAP was significantly lowest in C1-Paddy straw (28.99g), followed by C3Tissue paper (29.46g), which were at par with each other. Whereas the significantly highest weight loss (34.53 g) was noted in C4-loose fruits. At 14 DAP, maximum loss in weight was observed in C4-fruits without cushioning material(58.27g)whereas significantly lower loss in weight was noticed in C3-tissue paper (46.76g), followed by C1- paddy straw (48.01g) which were at par with each other. Packaging X Cushioning At 14 DAP, among all treatment combinations tried, significantly lower weight loss of fruit (42.32g) was recorded in P4C3- CFB box with tissue paper, followed by P1C1-Wooden box with paddy straw (44.22g), P3C1- plastic crate with paddy straw (46.09g), P2C1- bamboo basket with paddy straw (46.82g), and P2C3bamboo basket with tissue paper (47.03g). Whereas, maximum loss was recorded in P5C4- loose fruits without cushioning material (65.25g) which may be attributed to inevitable loss in weight under the influence of higher transpiration and respiration (Lee et al., 1995; Giovannoni, 2001; Wills et al., 2007). Volume of fruit At 7 DAP; irrespective of cushioning material used, all the packaging materials significantly influenced the fruit volume. Among the five packaging materials, P4-CFB box (10.63 ml), registered significantly less drop in volume loss, followed by P2-bamboo basket (12.19 ml) and P1- wooden box (12.22 ml), which were at par with each other. Whereas significantly the highest volume loss was reported in P4-loose fruits (14.55ml), which may be attributed to facilitation for higher transpiration and respiration, which may lead to inevitable loss in volume (Lee et al., 1995; Giovannoni, 2001; Wills et al., 2007). At 14 DAP also, P4- CFB box recorded significantly lowest loss in volume (48.07 ml), followed by P1- wooden box (48.83 ml), which were at par with each other. Whereas significantly maximum loss in fruit volume was observed in P5- loose fruits (52.35 ml). At 14 DAP, the loss in fruit volume was observed to be significantly minimum in C3- tissue paper (45.89 ml), followed by C1- paddy straw (47.12 ml) which were at par with each other whereas, significantly maximum volume loss was observed in C4-loose fruits without cushioning material (57.19ml). These results are in accordance with those reported earlier by Padhye (1997) and Anila et al., (2003) in Cv. Alphonso. Packaging X Cushioning At 14 DAP, P5C4-loose fruits without cushioning material (64.03 ml) recorded significantly maximum loss in volume; whereas minimum volume loss were reported in P4C3-CFB box with tissue paper (41.53 ml), followed by P1C1- wooden box with paddy straw (43.40 ml), P3C1- plastic crate with paddy straw (45.23 ml), P5C3-loose fruits with tissue paper (12.07 ml), P2C1- bamboo basket with paddy straw (45.95 ml), P2C3 and P5C3 which were all at par with each other. Similar trend in volume loss of mango fruits under influence of packaging and cushioning material was also reported by Padhye (1997) in Alphonso mangoes, Carrillo-Lopez et al., (2000) in Cv. Haden, and Masalkar et al., 2670 Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 (2006) and Mane (2013) in Cv. Alphonso. Continuously higher relative humidity around fruits in CFB boxes which substantially inhibit transpiration losses, could have contributed for observing minimum loss in volume and weight of mango fruits as also reported earlier by Padhye (1997) in Alphonso mangoes Carrillo-Lopez et al., (2000) in Cv. Haden, Masalkar et al., (2006) and Mane (2013) in Cv. Alphonso. recorded in P4C3-CFB box with tissue paper, which was closely followed by P1C1-wooden box with paddy straw (10.32%), P4C1- CFB box with paddy straw (10.56%), P4C4Corrugated fibre board box without cushioning material and P1C2- wooden box with dry grass (10.74%), which were at par with each other. Whereas, significantly higher PLW was noticed in P5C4-loose fruits without cushioning material which was as high as (15.95%). Physiological loss in weight (%) (PLW) The data further revealed that, at 7 DAP, irrespective of cushioning material used; all the packaging material significantly influenced the PLW. Among the five packaging material, P4-CFB box registered significantly lowest PLW (10.83%). Whereas, significantly the highest PLW (14.83%) was found in P5-loose fruits. At 14 DAP, following the same trend, significantly the lowest PLW was observed in P4-CFB Boxes (17.95%); whereas maximum PLW was recorded in P5loose fruits (22.42%). The similar trend of lowest PLW due to P4CFB boxes was also reported earlier by Pandey and Singh (2007), Rathore et al., (2007) and Tefera et al., (2007). The low PLW under tissue paper (C3) and paddy straw (C1) could be attributed to high surface humidity around the fruits that might have slowed down the rate of transpiration and respiration (Verma, 2012). At 14 DAP also, minimum PLW was recorded in P4C3-CFB box with tissue paper (14.02%), followed by P1C1-Wooden box with paddy straw (15.65%), which were at par with each other. Whereas, significantly maximum PLW was found in P5C4-Loose fruits without any cushioning material (25.33%).These results are in accordance with those reported by Pandey and Singh (2007) in mango, Rathore et al., (2007) in Cv. Dashehari and Tefera et al., (2007) in Cv. Baneshan. Colour of fruit The chromacity value of change in fruit skin colour in terms of “L”, “a” and “b” was measured at 0, 7 and 14 DAP is presented in Table 1. The significant difference in all values was recorded in all treatment combinations only at 7th day, as discussed here under. Lightness “L" value Similar trend of PLW was followed till 14 DAP as significantly the lowest PLW was recorded in C3-tissue paper (17.89%) and significantly maximum PLW was noticed in C4-fruits without cushioning material (23.89%). Packaging X Cushioning Significantly lower PLW (9.02 %) was The chroma value “L” indicates lightness which extends from 0 (black) to 100 (white). Irrespective of packaging and cushioning material used, the Chroma value “L” increased rapidly from 0 days (42.16) to 7 days of packaging (48.19) and then increased slightly from 7 days of packaging up to 14 days of storage (48.34). 2671 Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 75 65 55 45 35 25 15 5 26 WOODEN BOX BAMBOO BASKET PLASTIC CRATE CFB BOX LOOSE TREATMENTS PADDY STRAW DRY GRASS TISSUE PAPER NO CUSHION Fig-2. Effect of packaging and cushioning material on spoilage % of alphonso mango fruit during storage at 14 DAP SPOILAGE (%) Fig.3.effect of packaging and cushioning material on visible shrivellage (%) of alphonso mango fruits during storage at14 DAP 22 20 18 16 14 12 10 8 6 4 2 VISIBLE SHRIVELLAGE (%) WEIGHT LOSS (g) Fig.1. effect of packaging and cushioning material on weight loss (g) of alphonso mango fruit during storage at 14 DAP 24 22 20 18 16 14 12 10 8 6 4 2 WOODEN BOX BAMBOO BASKET PLASTIC CRATE CFB BOX LOOSE PADDY STRAW TREATMENTS PADDY STRAW DRY GRASS TISSUE PAPER NO CUSHION 2672 TISSUE PAPER TREATMENTS DRY GRASS NO CUSHION Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 Table.2 Effect of packaging and cushioning material on chroma value “b” of colour on Alphonso mango fruits during storage TREATMENTS O DAYS 7 DAYS 14 DAYS “b” value “b” value “b” value C1 C2 C3 C4 MEAN C1 C2 C3 C4 MEAN C1 C2 C3 C4 MEAN P1 17.86 17.89 17.47 17.85 17.77 30.44 25.72 27.44 23.72 26.83 24.27 26.18 24.43 24.45 24.83 P2 17.65 17.48 17.57 17.31 17.50 24.67 25.58 26.40 23.83 25.12 24.45 24.22 24.45 24.27 24.35 P3 17.46 18.00 16.48 17.19 17.28 24.72 23.33 26.87 21.67 24.15 24.45 24.22 24.27 24.31 24.31 P4 17.04 17.11 17.45 17.73 17.33 26.87 26.50 29.11 25.94 27.11 24.31 23.73 24.31 24.22 24.14 P5 18.34 18.45 16.73 17.71 17.81 25.12 26.31 25.11 19.63 24.04 24.21 24.31 24.27 24.27 24.26 Mean 17.67 17.79 17.14 17.56 17.54 26.36 25.49 26.99 22.96 25.45 24.34 24.53 24.34 24.30 24.38 Source of variation Packaging (P) SE± CD at 5 % SE± CD at 5 % SE± CD at 5 % 0.206 (NS) 0.458 1.311 0.227 (NS) Cushioning (C) 0.184 (NS) 0.410 1.173 0.203 (NS) Interaction (PXC) 0.412 (NS) 0.916 2.622 0.455 (NS) P1: Wooden box C1: Paddy straw P2: Bamboo basket C2: Grass P3: Plastic crates C3: Tissue paper P4: CFB box C4: Fruits without cushioning material 2673 P5: Loose fruit Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 Packaging X Cushioning At 7 DAP, chroma value “L” was significantly influenced by the interaction of packaging and cushioning conditions. Among the different treatment combinations tried, fruits ripened in P1C1-Wooden box with paddy straw (53.97), P4C3-CFB box with tissue paper (51.85), P4C1- CFB box with paddy straw (51.81), which were at par with each other, significantly had sharp colour brightness owing to high Chroma value “L”. Whereas, significantly lowest Chroma value “L” was observed in P5C4-Loose fruits without any cushioning material (41.40). At 14 DAP, irrespective of packaging and cushioning material used, differences in Chroma value “L” were non-significant among all treatment combinations. paper (10.47), P4C1- CFB box with paddy straw (9.90), P5C3- loose fruits with tissue paper (9.64), and P1C2-Wooden box with grass (9.08), P4C4-CFB box without cushioning material (8.64) which were at par with each other had significantly higher Chroma value “a”. Blueness to yellowness “b” value The data on influence of various packaging materials and different cushioning materials on colour intensification in terms of chroma value “b” of fruits, recorded at 0, 7 and 14 DAP Presented in Table 1. It could be observed from the data that, irrespective of packaging and cushioning material used, the Chroma value “b” were positive and increased from 0 days (17.54) to 7 DAP (25.45) and then decreased till 14 DAP (24.38). Greenness to redness “a" value The chroma value “a” indicates turning fruits from greenness to redness. Positive (+ve) values indicate that fruits are turning towards redness; while negative (-ve) values indicate fruits turning towards greenness. The data regarding influence of packaging materials and different cushioning materials on change in chroma value “a” during 0 to 7 DAP and 7 to 14 DAP. Data indicated that all the treatments significantly differed for chroma value “a” only at 7 DAP, and values ranged from (-4.51) at 0 days to (12.60) at 14 DAP, irrespective of packaging and cushioning material used. Packaging X Cushioning Chroma value “a” was significantly influenced by the interaction of packaging and cushioning conditions at 7DAP. Among different treatment combination tried, fruits ripened in P1C1-wooden box with paddy straw (11.34), P4C3- CFB box with tissue This indicated that fruits under any treatment never had blue colour in the skin but had varying degree of yellowness which was significantly noticed at 7 DAP. Packaging X Cushioning Chroma value “b” recorded at 7 DAP, was found to significantly influence by the interaction of packaging and cushioning material. Among the all treatment combinations tried, significantly highest intensification of yellowness as measured in terms of chroma value “b”, was recorded in P1C1-wooden box with paddy straw(30.44), followed by P4C3-CFB box with tissue paper (29.11), which were at par with each other; whereas, significantly lower Chroma value “b” was noticed in P5C4-Loose fruits without cushioning material (19.63). At 14 DAP, no significant differences were observed regarding chroma value “b”, in all treatment combinations which becomes visible with advancement of ripening (Kays, 2674 Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 1999; Niemann, 2005; Wills et al., 2007). The similar trend in the colour change during the ripening was also observed by Cocozza et al., (2004) in Cv. Tommy Atkins, Singh et al., (2008) in Cvs. Chausa, Langra and Dashehari, Mane (2013) in Cv. Alphonso and Zaharah and Singh (2013) in Cv. Kensington Pride (Table 2). Visible shrivellage (%) The periodical data regarding shrivellage of Alphonso mango fruits as influenced by various packaging materials and different cushioning materials are illustrated in figure 3. This revealed that none of the treatments developed any sign of shrivellage till 7 DAP, but visible and significant differences among the treatments for percent shrivellage were observed after 14DAP. Packaging X Cushioning Data on fruit shrivellage, as observed at 14 DAP, was found significantly influenced by the interaction of packaging and cushioning conditions. Among the different treatment combinations, significantly lower shrivellage of fruits was recorded in P1C1-Wooden box with paddy straw (6.97%), followed by P4C3CFB box with tissue paper (7.41%), P4C1CFB box with paddy straw (8.73%) and P4C2CFB box with dry grass (8.90%), which all were at par with each other. Whereas, significantly higher shrivellage was observed in P5C4-Loose fruits without cushioning material (24.30%). Same type of observations also reported by Laxminarayana et al., (1974), Joshi (1983), Padhye (1997) and Mane (2013). Spoilage (%) The periodical data regarding spoilage of Alphonso mango fruits as influenced by various packaging material and different cushioning material (Fig. 2). Packaging X Cushioning Perusal of data regarding spoilage of fruits at 7 DAP indicated that percent spoilage of fruits was significantly influenced by the interaction of packaging and cushioning conditions. A maximum spoilage was noticed in P5C4-Loose fruits without cushioning material (15.97%), whereas it was meager in P1C1-Wooden box with paddy straw (2.11%) and P4C3- CFB box with tissue paper (2.23%) which was at par with each other. Similar trend was observed at 14 DAP as maximum spoilage percentage was recorded in P5C4loose fruits without cushioning material (20.14%) and minimum spoilage percentage was observed in P1C1-wooden box with paddy straw (10.11%)followed by P4C3-CFB box with tissue paper (10.12%),which were at par with each other. Efficacy of CFB box as packing material and tissue paper as cushioning material in reducing the spoilage percentage during ripening and storage of mangoes was earlier reported by Padhye (1997) in Alphonso mangoes Carrillo-Lopez et al., (2000) in Cv. Haden, Masalkar et al., (2006) and Mane (2013) in Cv. Alphonso. Shelf-life Data further revealed that fruit shelf life was significantly influenced by the interaction of packaging and cushioning conditions. Packaging X Cushioning Among the all treatment combinations, at 14 DAP significantly maximum shelf life at 14 DAP with minimum spoilage was observed in P1C1-Wooden box with paddy straw (10.11%) followed by P4C3-CFB box with tissue paper (10.12%) as its spoilage was less than the average spoilage of 12 per cent. Following results regarding better shelf life of packed fruits and minimum shelf life of 2675 Int.J.Curr.Microbiol.App.Sci (2018) 7(5): 2667-2677 unpacked fruits was earlier reported by Padhye (1997) in Alphonso mangoes CarrilloLopez et al., (2000) in Cv. Haden, Masalkar et al., (2006) and Mane (2013) in Cv. Alphonso. From the present investigation, it could be concluded that: Amongst the 4 types of packaging material evaluated, CFB boxes (P4), proved to be more efficient and found widely more compatible with different cushioning materials used than any other packaging material; whereas; among three types of cushionings, tissue paper (C3) and paddy straw (C1) found equally good and compatible with different packaging materials for realising better fruit quality and shelf life of ripe Alphonso mango fruits. Handling fruits loose (P5C4)during distant transportation and ripening, found most inadvisable practice, as this not only adversely affected course of normal ripening and final fruit quality of ripe fruits, but also caused heavy PLW, shrivellage, and spoilage of fruits, leading to severe reduction in the shelf-life of fruits. References Anila R. and T. Radha (2003). Physicochemical analysis of mango varieties under Kerala condition. J. Trop. Agril., 41 (2003): 20-22. Cocozza, F. M., Jorge, J. T., Alves, R. E., Filgueiras, H. A. C., DSantos and M. E. C. Pereira (2004). Sensory and physical evaluations of cold stored „Tommy Atkins‟ mangoes influenced by 1- MCP and modified atmosphere packaging. Acta Hort., p.645. Giovannoni, J. (2001). Molecular biology of fruit maturation and ripening.Pl. Mol. Biol., 52: 725-749. Joshi, G. D. and Roy, S. K. (1985). Effect of integrated post-harvest handling on biochemical changes in Alphonso mango fruits. Prog. Hort., 17(1): 56-63. Joshi, G.D. (1983). Studies on changes in Alphonso mango (Mangifera indica L.) fruits during transport and storage. A. Ph.D. thesis submitted to Indian Agricultural Research Institute, New Delhi. Kays, S.J., (1999). Pre-harvest factors affecting appearance. Post-harvest Biol. Technol., 15: 233-247. Lee, L., J. Arul, R. Leneki, and Castaigne (1995). A review on modified atmosphere packaging and preservation of fresh fruits and vegetables: Physiological basis and practical aspects. Part I Packaging Technol. Sci., 8: 315-331. Lopez, A. C., Ramirez-Bustamante, F., J. B. Jaldez-Torres, and S, R. Rojas-Villegas (2000). Ripening and quality changes in mango fruit as affected by coating with an edible film. International J. Food Quality, 23: 479-486. Mane, A.V. (2013). Influence of 1methylcyclopropene (1-MCP) on postharvest physiology and physicochemical changes in Alphonso mango (Mangifera indica L.). A Ph.D thesis submitted to UAS, Dharwad. Masalkar, S. D., R. S. Gaikwad, and J. K. Dhemre (2006). Effect of post harvest treatment on shelf life and quality of Alphonso mango fruits in cool chamber and ambient condition. The Orissa J. Hort., 34(2): 69-73. Niemann, N., (2005). The effect of 1-MCP, controlled atmosphere and heat treatments on santa tomatoes. Ph.D. Thesis, University of Johannesburg. Padhye, P.B., (1997). Studies on some aspects of post-harvest handling of mango (Mangifera indica L.) Cv. Alphonso. M.Sc. (Agri.) Thesis submitted to 2676
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