Table 1 – Physico-chemical attribut

Table 1 – Physico-chemical attributes of green chillies at low temperature (8 W 1 8C) storage in different packaging films (mean W SD, n = 3).
Parameters Storage time
(days) Control Microporous PE-LD Polyolefin RD 45
Firmness (N) 0 6.31 Æ 0.12ax 6.54 Æ 0.28bx 6.63 Æ 0.16bx 6.84 Æ 0.08cx 6.65 Æ 0.12bx 14 3.66 Æ 0.11ay 3.46 Æ 0.23ay 3.84 Æ 0.11by 4.16 Æ 0.15cy 4.45 Æ 0.20dy 28 1.06 Æ 0.04az 1.15 Æ 0.07az 1.62 Æ 0.05bz 2.04 Æ 0.07cz 2.66 Æ 0.18dz
Total phenolics
(mg gallic acid Eq./100 g)
Total flavonoids
(mg catechin Eq./100 g)
0 144.35 Æ 1.20ax 144.28 Æ 1.05ax 144.82 Æ 1.02ax 144.45 Æ 1.05ax 144.81 Æ 1.01ax 14 154.55 Æ 1.10ay 148.70 Æ 1.01by 146.1 Æ 0.91cy 145.54 Æ 1.08dy 145.48 Æ 1.35dy 28 161.86 Æ 1.03az 158.9 Æ 1.11bz 155.59 Æ 1.50cz 154.93 Æ 1.30dz 151.51 Æ 1.19ez
0 28.74 Æ 1.02ax 28.84 Æ 0.96ax 28.24 Æ 0.82bx 28.09 Æ 0.05cx 29.07 Æ 0.74bx 14 24.37 Æ 1.12ay 24.53 Æ 1.07ay 24.74 Æ 1.11ay 25.24 Æ 1.07by 25.85 Æ 1.20by 28 19.26 Æ 1.0az 20.19 Æ 0.94az 20.69 Æ 0.99az 22.66 Æ 0.79bz 23.71 Æ 0.89cz
Antioxidant activity (%) 0 40.41 Æ 0.68ax 40.85 Æ 0.77ax 40.87 Æ 0.72ax 40.80 Æ 0.74ax 40.21 Æ 1.04ax 14 68.17 Æ 0.88ay 67.80 Æ 1.03ay 65.32 Æ 0.90by 62.02 Æ 0.85cy 60.94 Æ 0.82dy 28 49.44 Æ 0.97az 50.16 Æ 0.87az 52.96 Æ 0.64bz 54.26 Æ 0.66cz 57.08 Æ 0.86dz
Capsaicin content (%) 0 0.244 Æ 0.53ax 0.267 Æ 0.71ax 0.268 Æ 0.92ax 0.268 Æ 0.46ax 0.269 Æ 0.21ax 14 0.37 Æ 0.52ay 0.368 Æ 0.64ay 0.345 Æ 0.41ay 0.349 Æ 0.87ay 0.341 Æ 0.36ay 28 0.258 Æ 0.71az 0.243 Æ 0.69az 0.263 Æ 0.36az 0.262 Æ 0.28az 0.266 Æ 0.43az
Note: The first superscript letter (a–e) shows a significant difference ( p < 0.05) along a particular row, and the second superscript letter (x–z) shows the significant difference ( p < 0.05) down a particular column for a specific attribute.
wall organization and render the wall pectins accessible to the pectinases, causing loss of firmness during postharvest life (Nohl, 1994). Under modified atmosphere, the respiration rate is slowed down; and therefore, there is less generation of radicals. Low O2 and high CO2 concentrations in packed chillies reduced the activation of the tissue softening enzymes allowing retention of firmness during storage. Low tempera- ture storage also restrict tissue softening which may be due to reduction in respiration and transpiration rates, inhibition of cell-wall hydrolytic enzymes (polygalacturonase – PG, pectin- methylesterase – PME) as well as decreased ethylene produc- tion. Modified atmosphere packaging has been found to reduce the loss of firmness in the case of bell peppers at 10 8C (Manolopoulou, Xanthopoulos, Douros, & Lambrinos,
2010). Similar results were obtained by Cheng et al. (2008) and Edusei et al. (2012) in the case of C. annuum during storage.
3.5. CIE colour values, chlorophyll and carotenoids
Chillies undergo profound changes during the course of senescence during postharvest storage showing conversion of existing pigments. The green colour of the fruit is principally due to the presence of chlorophyll and during maturation and senescence, the chloroplast pigments disappear, while exclu- sively carotenoid chromoplast pigments are synthesized and esterified by fatty acids (Howard, Talcott, Brenes, & Villalon, 2000; Hortensteiner, 2006). A significant ( p < 0.05) difference in colour values were observed in the chillies packed in different films during storage. The L* value increased for both the modified atmosphere packed and unpacked samples with progress in senescence during storage. The control samples showed change in colour after 15 days of storage while the chillies packed in anti-fog (RD45) film maintained pigment stability up to 28 days of storage owing to its optimum OTR (oxygen transmission rate) and CTR (CO2 transmission rate) which generated optimum modified atmosphere in the packets lowering the respiration rates of the chillies (Table 2).
The retention of green pigment in anti-fog (RD45) film packed chillies, may be due to limited chlorophyll degradation which is responsible for the green colour (a* value), this can be due to the elevated CO2 and/or O2 in package concentrations (Manolo- poulou et al., 2012). The b* value increased in all the samples, with increase in the storage period irrespective of the packaging film. Low temperatures restrict the rate of ripening and deterioration in fruits and vegetables (Edusei et al., 2012). The retention of green colour in the modified atmosphere (MA) packed chillies may be due to reduced respiration rate caused by modified atmosphere within the package. Slow respiration rate resulted in restricted breakdown of chlorophyll and decreased the rate of synthesis of carotenoids, which occur during senescence process. The chlorophyll and carotenoid contents of chillies can also vary in composition and concentration owing to differences in genetics and maturation (Conforti & Totty, 2007; Howard et al., 2000). The carotenoid content varied significantly ( p < 0.05) among the variously packed chillies. There was a sharp increase in carotenoid content in all the chilli samples during storage, the control samples and microporous film packed chillies showing highest carotenoid content due to faster ripening followed by the chillies packed in other films. Biosynthesis of carotenoids during ripening has been found paralleled by the degradation of chlorophyll pigment (Deepa, Kaur, George, Singh, & Kapoor, 2007). Similar results were also observed by Deepa et al. (2007) for green chillies and Xing et al.
(2011) in bell peppers.
3.6. Ascorbic acid
Ascorbic acid is one of the most important hydrophilic antioxidant that scavenges harmful free radicals and other ROS and also regenerates other antioxidants like tocopherol to its functional state (Manas, Bandopadhyay, Chakravarty, Pal, & Bhattacharya, 2013). The ascorbic acid had shown a decreasing trend in all the samples during storage at 8 Æ 1 8C. Ascorbic acid content declined progressively with