Effect of the stage of maturity on the green self-life and the biochemical parameters of plantain (Musa AAB, var. Horn 1) stored in the improved shelter
Paper Details
Effect of the stage of maturity on the green self-life and the biochemical parameters of plantain (Musa AAB, var. Horn 1) stored in the improved shelter
Abstract
A study has been conducted in order to determine the efficacy of the improved shelters to retard the plantain ripening to reduce the post-harvests losses. Variety of plantain Horn 1 harvested at 65, 70, 75, 80, 85 and 90 days after floral apparition have been stored in the improved shelter and covered or not by dried leaves of plantain. The green self-life (GSL) was determined when the ripe fingers are withdrawn or maintained in the batches. The physicochemical changes were measured in terms of the loss of mass, firmness of pulp, dry matter, pH, titratable acidity (TA), total soluble solids (TSS), total sugars (TS) and reducing sugars (RS) fruit. The results of GSL of plantain range from 15 to 36 days for plantains non-covered by dried leaves and from 15 to 38 days when they are covered and when the ripe fingers are removed from the batches. Similarly, the GSL oscillates between 14 and 29 days for non-covered plantain and between 15 and 31 days for those covered with dried leaves when the ripe fingers are not removed from the batches. Concerning the GSL of the control samples stored outdoors, it is included between 4 and 9 days. The samples stored in improved shelter have higher GSL as control samples stored outdoors. The results of biochemical analysis show a decrease of firmness and pH during storage. However, we notice an increasing of percentage of loss of mass, dry matter, total and reducing sugars, titratable acidity, total soluble solids (TSS). The analysis of the data revealed that the improved shelters significantly prolonged the GSL of the fruit.
ANADER (Agence Nationale pour le Développement Rural). 2013. Etude de la filière banane plantain en Côte d’Ivoire, 66.
AOAC. 2000. Official method 942.15 (17th Edn). Acidity (Titratable) of fruit products read with A.O.A.C official method 920. 149, Preparation of test sample. Washington D. C.
Bernfeld P. 1955. Amylase β and α (Assay method), in methods in enzymology I. Colowick and Kaplan, Ed. New York: Academic press, 149-154.
Brady CJ. 1987. Fruit ripening. Annual Review Plant Physiology 38, 155-178.
Chaib J. 2007. Caractérisation des déterminants génétiques et moléculaires de composantes de la texture du fruit de tomate. Thèse de Doctorat, Ecole Nationale Supérieure Agronomique de Montpellier, France, 143.
Chamara D, Illeperuma K, Theja Galappatty P, Sarananda KH. 2000. Modified atmosphere packaging of ‘Kolikuttu’ bananas at low temperature. Journal of Horticultural Science and Biotechnology 75(1), 92-96.
Chen W, Wu Z, Su M, Zhu J. 2000. Technologie post-récolte, transport et commercialisation des bananes en Chine. Agrociencia (Mexique) 36(2), 169-180.
Chen NJ, Paull RE. 1989. Waxing and plastic wraps influence water loss from paraya fruit during storage and ripening. Journal of the American Society for Horticultural Science 114, 937-942.
Coulibaly S. 2008. Caractérisation physico-chimique, rhéologique et analyse des fruits de quelques cultivars de bananier (Musa AAB, AAAA, AAAB). Thèse de Doctorat, Université d’Abobo-Adjamé, Côte d’Ivoire, 171.
Dadzie BK, Orchard JE. 1997. Évaluation post-récolte des hybrides de bananiers et bananiers plantain: critères et méthodes. Guides techniques INIBAP 2, 77.
Dick E. 2006. Contribution à l’étude de la physiologie du mûrissement, de l’entreposage et de la conservation de la banane plantain après récolte. Thèse de Doctorat d’Etat, Université de Cocody-Abidjan, Côte d’Ivoire, 243.
Djioua T. 2010. Amélioration de la conservation des mangues 4ème gamme par application de traitements thermiques et utilisation d’une conservation sous atmosphère modifiée. Thèse de doctorat, Université d’Avignon et des Pays de Vaucluse, France, 169.
Dubois M, Gilles KA, Hamilton JK, Rebers PA, Smith F. 1956. Colorimetric method for determination of sugars and related substances. Analytical Chemistry 28, 350–356.
Ducroquet H. 2002. L’agriculture ivoirienne à la luope (1). Le professionnel agricole 3, 10-12.
Happi ET, Wathelet B, Paquot M. 2008. Changements texturaux et biochimiques des fruits du bananier au cours de la maturation. Leur influence sur la préservation de la qualité du fruit et la maîtrise de la maturation. Biotechnologie, Agronomie, Société, Environnement 12(1), 89-98.
FAO. 2009. Food and Agriculture Organization of the United Nations, Rome. Productions 2008. FAOSTAT, FAO Statiscal Databases. Downloaded from http://faostat.fao.org on 18/7/2013.
Fisher R, Bennett A. 1991. Role of cell wall hydrolases in fruit ripening. Annual Review of Plant Physiology and Plant Molecular Biology 42, 675-703.
Gire A. 1994. Relation entre la résistance partielle du bananier à Cercospora figiensis et une composante cellulaire constitutive de nature polyphénolique. Mémoire de (DEA), Université Montpellier II, France, 14.
Gomez M, Lajalo F, Cordenunsi B. 2002. Evolution of soluble sugars during ripening of papaya fruit and its relation to sweet taste. Journal of Food Science 67(1), 442-447.
Gowen S. 1995. Ripening and biochemistry of the fruit. In: Chandler S, Ed. Bananas and plantains. Chapman and Hall, London, UK, 567.
Guillemot J. 1976. Le bananier plantain en Côte d’Ivoire. Fruits 31, 684-687.
Hailu M, Workneh TS, Belew D. 2013. Review on postharvest technology of banana fruit. African Journal of Biotechnology 12(7), 635-647.
Hsiao C, Siebert K. 1999. Modeling the inhitory effects of organic acids on bacteria. International Journal of Food and Microbiology 45(3), 189-201.
Inaba A, Nakamura R. 1988. Numerical expression for estimating the minimum ethylene exposure time necessary to induce ripening in banana fruit. Journal of American Society of Horticol Science 113(4), 561-564.
Jullien A, Malézieux É, Michaux-Ferrière N, Chillet M, Ney B. 2001. Within-bunch variability in banana fruit weight. Importance of development lag between fruits (Musa spp. AAA group cv. Grande Naine (Cavendish subgroup). Annals of Botany 87, 101–108.
Ketsa S, Daengkanit T. 1999. Firmness and activities of polygalacturonase, pectinesterase, β-galactosidase and cellulase in ripening durian harvested at different stages of maturity. Scientia Horticultuarae 80, 181-188.
Kouadio KKA, Coulibaly S, Soro LC, Ocho AAL. 2013. Determination of the optimal point of cut fruit of plantain hybrids PITA 3, PITA 8 and varieties of plantain Lorougnon and Horn 1. International Journal of Agriculture and Food Science 3(1), 16-21.
Lepengué NA, Mouaragadja I, Dick E, Mbatchi B, Ake S. 2010. Amélioration de la durée de conservation des bananes plantain aux températures ambiantes. International Journal of Biology Chemistry and Sciences 4(3), 730-737.
Lescot T. 2006. Estimation de la production et du commerce bananier mondial. FruiTrop 140, 6–9.
Lii C, Chang SM, Young YL. 1982. Investigation of the physical and chemical properties of banana starches. Journal of Food Science 47, 1493-1497.
Maniga W, Coulibaly S, Yao NB, Thiemele DFE, Tano K. 2015. Nutritional and anti-nutritional compositions of 9 local cultivars of plantain (Musa spp.) cultivated in Côte d’Ivoire. International Journal of Development Research 5(12), 6116-6124.
Narayana CK, Mustafa MM, Sathiamoorthy S. 2002. Influence de l’emballage et du stockage sur la durée de vie et la qualité des bananes de la variété Karpuravalli. Indian Journal of Horticulture 59(2), 113-117.
N’da AA, Lassoudière A, Tchango TJ. 1997. La banane plantain: importance du stade de récolte dans la filière et quelqeus aspects de la conservation. Fruits, 51(6), 397-406.
N’ganzoua KR, Camara B, Dick E. 2010. Evaluation des changements physico-chimiques caractérisant le mûrissement au cours de l’entreposage de trois variétés de bananes Musa spp. (AAB, cv. Corne 1; AAA, cv. Poyo et AA, cv. Figue Sucrée). Sciences & Nature 7(2), 155–163.
Nkendah R, Akeyeampong E. 2003. Données socioéconomiques sur la filière plantain en Afrique Centrale et de l’Ouest. Infomusa 12(1), 8-13.
N’kendah R. 2001. L’essor du marché de plantain au Cameroun: une alternative de lutte contre la pauvreté. Proposition de recherche. Document CRBP N° 230/CRBP/2001.
Odah K, Aziadekey M, Tozo K, Akpavi S, Koukouma R, Guelly A, Kokou K, Assignon K, Akogo Y, Aidam A, Akpagana K, Kenny L, Ait-Oubahou A, Zinsou C, Gbeassor M. 2013. La diversité génétique des bananiers plantains cultivés dans la zone Ouest de la Région des Plateaux au Togo. International Journal of Biological and Chemical Sciences 7(5), 1910-1918.
Pesis E. 2004. Respiration and ethylene. International Research and Development on Postharvest Biology and Technology. Israel: The Volcani Center.
Proulx E, Cecilia M, Nunes N, Emond JP, Brecht JK. 2005. Quality attributes limiting papaya postharvest life at chilling and non-chilling temperatures. Proceedings of the Florida State Horticultural Society 118, 389-395.
Satyan SH, Patwardhan MV. 1984. Purification and regulatory properties of phosphoenolpyruvate carboxylase from banana fruits of Dwarf Cavendish. Journal of Food Sciences and Technology 21, 135-138.
Sisler EC, Serek M. 1997. Inhibitors of ethylene responses in plants at the receptor level: Recent developments. Physiologia Plantarum, 100(3), 577-582.
Sugri I, Johnson PNT. 2009. Effect of two storage methods on the keeping and sensory qualities of four plantain varieties. African journal of Food Agriculture Nutrition and Development 9(4), 1091-1109.
Tano K, Oulé MK, Doyon G, Lencki RW, Arul J. 2007. Comparative evaluation of the effect of storage temperature fluctuation of modified atmosphere packages of selected fruit and vegetables. Postharvest Biology and Technology 46, 212–221.
Varoquaux P, Gouble B, Ducamp MN, Self G. 2002. Méthode permettant d’optimiser l’emballage des fruits sous atmosphère modifiée. Fruits 57(5-6), 313-322.
Yao KA. 2015. Contribution à la réduction des pertes post-récoltes de la banane plantain (Musa AAB) et du manioc (Manihot esculentus Crantz) par des approches technologiques de conservation et de transformation. Thèse unique de Doctorat, Université Félix Houphouet Boigny, Côte d’Ivoire, 149.
Yao KA, Koffi DM, Irié ZB, Niamké SL. 2014. Conservation de la banane plantain (Musa AAB) à l’état vert par l’utilisation de films de polyéthylène de différentes épaisseurs. Journal of Animal and Plant Sciences 23(3), 3677-3690.
Yao NB, Tano K, Assemand EF, Nevry KR, Bédié KG, Amani G. 2011. Effect of the maturity stage and storage temperature on the posharvest quality of Carica papaya L. variety Solo 8. Fresh Produce 5(1), 15-21.
Brou Koffi Siméon, Yao N’zué Benjamin, Kouamé Akissi Françoise, Yué Bi Yao Clément, Kouamé Fils David Vincent, Edi Edi Janequin, Tano Kablan (2017), Effect of the stage of maturity on the green self-life and the biochemical parameters of plantain (Musa AAB, var. Horn 1) stored in the improved shelter; JBES, V10, N6, June, P6-18
https://innspub.net/effect-of-the-stage-of-maturity-on-the-green-self-life-and-the-biochemical-parameters-of-plantain-musa-aab-var-horn-1-stored-in-the-improved-shelter/
Copyright © 2017
By Authors and International
Network for Natural Sciences
(INNSPUB) https://innspub.net
This article is published under the terms of the
Creative Commons Attribution License 4.0