Evaluate the Effect of Different Packaging Materials on the Shelf Life and Quality of Banana Fruit

The experiment was carried out to determine the impact of shelf life on banana cv. grand naine under various packing materials during storage for the current study in the Department of Horticulture lab at ITMU from October to December 2022. In this experiment, low-density polybags and black newspaper bags were employed as packing materials. paper bag, cardboard gunny bag high-density polybag white paddy straw with banana leaves Banana samples were taken at intervals of four days after each treatment to test a range of biological and physical traits, including pH, physiological weight, and peel colour. As these values were given for the analyses of variance and ANNOVA, the treatment group showed the greatest physiological weight reduction as compared to the control group; however, the Treatment T6 high-density white polybag showed the lowest physiological weight loss and the most appealing colour. is recorded in the treatment T6 high-density white polybag, whereas the peel's least yellow hue is observed throughout treatment to regulate the highest total soluble solid brix value was recorded in Treatment T1 low-density black polybag, and the minimum values recorded for these parameters are found in Treatment T0 control, while the maximum ph value was recorded in Treatment T7 banana leaf and the minimum ph value was noted in Treatment T0 control. According to the observational data, the banana fruit's pH rose as it ripened, further from the present experimental findings. The best packaging material suitable for the enhancement of shelf life and maintenance of visual appearance and quality for bananas is low-density black polythene Treatment T1.

Perfis de compostos voláteis de banana submetidos a diferentes tratamentos pós-colheita e suas correlações com a expressão diferencial dos receptores de etileno / Volatile compounds profile of bananas submitted to different post-harvest treatments and its correlations to differential expression of ethylene receptors

O aroma de frutos é um atributo fortemente associado à qualidade, e quaisquer alterações ambientais ou tratamentos pós-colheita podem alterar a sua composição. Acredita-se que a biossíntese de voláteis seja um dos processos regulados pelo etileno. Estudos indicam que a expressão diferencial dos elementos que compõem os receptores de etileno desempenha importante papel na sinalização dos processos ligados ao amadurecimento, entre eles a formação do aroma. Os objetivos deste trabalho são: caracterizar as alterações decorrentes de tratamentos pós-colheita no aroma de banana durante o amadurecimento, e correlacionar com as variações nos padrões de expressão gênica diferencial dos receptores de etileno. Bananas pré-climatéricas variedade Nanicão foram divididas em quatro grupos: controle (não tratado), etileno (100ppm/12h), 1-MCP (100ppb/12h), armazenados a 20°C, e grupo frio (armazenado por 15 dias a 13°C). Foram analisados diariamente a produção de etileno e de CO2 por CG. Foram analisadas a cor da casca, açúcares solúveis e amido. Os compostos voláteis foram isolados por microextração em fase sólida (SPME) em frutos inteiros e polpas e analisados em CG-MS. Para confirmar os resultados e verificar se as alterações encontradas se repetem em outras variedades de bananas, o estudo foi repetido no Horticultural Sciences Department, na Universidade da Florida (EUA), em bananas var. 'Grand Naine'. Em paralelo, realizou-se a quantificação relativa da expressão dos receptores de etileno (ETR1, ERS1, ERS2 e ERS3) por PCR em tempo real. Com relação ao perfil de voláteis, os resultados indicam que os frutos não se diferenciam no período pré-climatérico. Porém, o perfil de voláteis do grupo controle foi significativamente diferente do grupo frio, tanto na polpa quanto no fruto inteiro no período climatérico. Esse efeito foi mais pronunciado na Nanicão do que na 'Grand Naine'. Compostos típicos como o acetato de isoamila foram drasticamente reduzidos nos frutos submetidos ao frio, e não foram encontrados na Nanicão. Não houve diferenças significativas com relação ao perfil de aromas entre o grupo controle e o grupo etileno. Com relação aos frutos tratados com 1-MCP observou-se o atraso na formação de alguns compostos sem alterar, contudo, o perfil final de voláteis. Com relação ao padrão de transcrição dos receptores de etileno, o frio reduziu o acúmulo dos transcritos do ETR1, ERS2 e ERS3 em todos os pontos. ERS1 parece estar correlacionado com a síntese de esteres. Os resultados sugerem que o mecanismo pelo qual o etileno regula o metabolismo de biossíntese de aromas parece contar com a participação relevante de determinados tipos de receptores. A correlação temporal encontrada entre as alterações no perfil de transcritos de três destes e os efeitos sobre a produção de compostos voláteis reforçam esta hipótese

Fruit aroma is an attribute strongly associated to quality, and any change in the environment or post-harvest treatment could affect its composition. Volatile biosynthesis is a process that is believed to be regulated by ethylene. Studies demonstrate that differential expression of ethylene receptors have an important role in fruit ripening processes, including aroma synthesis. The aims of this study are: evaluate modifications due to post-harvest treatment on the aroma of banana fruit during ripening, and correlate to variations on differential expression of ethylene receptors. Pre climacteric bananas of 'Nanicão' variety were divides in four groups: control (without treatment), ethylene (100ppm/12h), 1-MCP (100ppb/12h), stored at 20°C, and cold storage group (stored for 15 days at 13°C). Daily measurements were conducted of ethylene production and respiration using GC. Peel color, soluble sugars and starch were analyzed. Volatile compounds were isolated by solid phase microextraction (SPME) in whole fruits and pulp and analyzed by GCMS. To confirm the results ant to verify if the findings repeat in another banana variety, this study was repeated at Horticultural Sciences Department, at University of Florida (EUA), under supervision of Dr. Jeffrey K. Brecht, in bananas Cavendish cv. 'Grand Naine'. Also, relative quantification of the expression of ethylene receptors (ETR1, ERS1, ERS2 and ERS3) was analyzed using real time PCR. Regarding the volatile profile, groups did not differentiated in pre-climacteric period. But the volatile profile of control group significantly differentiates from cold storage group, in both pulp and whole fruit, in post climacteric period. This effect was more pronounced in bananas 'Nanicão' than 'Grand Naine'. Typical banana aroma compounds like isoamyl acetate were drastically reduced in fruits under cold storage, and were not found in 'Nanicão'. There were not any significant differences between control group and ethylene treated. Regarding 1-MCP treated fruits, there was a delay on the synthesis of some compounds without affecting the final volatile profile. Regarding the transcription pattern of ethylene receptors, cold storage reduced mRNA of ETR1, ERS2 and ERS3 in all samples. ERS1 receptor seems to be correlated to ester synthesis. These results suggest that the mechanism whereby the ethylene regulates the biosynthesis of aroma, seems to count with relevant participation of some receptors. The temporal correlation found in the differential expression of three receptors and the effect on volatile compounds synthesis reinforces this hypothesis