Assessment and Adoption of Tomato Charcoal Cooler Storage Bin for Farmers in The Tropics

https://doi.org/10.22146/agritech.54561

Chukwuemeka Jude Ohagwu(1*), Amarachukwu Violet Ohagwu(2), Nwaeze Joel Nwakaire(3)

(1) Department of Agricultural and Bioresources Engineering, University of Nigeria, Nsukka
(2) Department of Agricultural Extension, University of Nigeria, Nsukka
(3) Department of Agricultural and Bioresources Engineering, University of Nigeria, Nsukka
(*) Corresponding Author

Abstract


The study tends to study the postharvest technological evaluation of different tomato storage environments/media for domestic preservation of fresh and fleshy tomato quality to improve its shelf life with emphasis on charcoal cooler storage bin (CCB). It involved the preliminary investigation of farmers’ knowledge and skill with regard to tomato preservation and storage with different tomato storage environments, adoption of developed CCB: design capacity was 40kg/batch storage for 7days in Nsukka. These were conducted between April to September, 2019. The field studies were carried out through structured questionnaire to know the adaptive knowledge and skill of farmers with regard to tomato preservation and storage. Comparative study of the developed CCB with other environmental storage conditions namely: open-air (ambient) storage (OAS), refrigerator (RF), freezer (FR), (room) laboratory storage (LS), and thatched house storage (THS) were carried out. The four varieties of fresh and fleshy harvested tomato fruits: Copra, Nindo F1, Yolings, and UTC locally cultivated were set into the 6 treatments (media), each treatment was replicated twice. The study showed that the quality attributes such as cracking, yellowing, weight loss, rottening, hardness, and brix value were determined. Based on the physicomechanical parameters of the tomatoes under seven days investigation, FR (0 °C,95%) and RF (10 °C, 85%) had better quality and prolonged shelf life, followed closely by the tomato CCB storage (12 °C,85%) and THS(12 °C,78%) then LS(25 °C,78%) and OAS(30 °C,78%). FR storage inhibited/delayed (cold stress) ripening with minimum weight loss, as compared to the other treatments in terms of stability in all parameters. Similarly, CCB was close to RF storage and performed significantly better than ambient OAS and LS. OAS and LS exhibited higher weight loss, and rapid ripening to deterioration due to tropical temperature and relative humidity fluctuation. Therefore, CCB is recommended for rural small scale farmers.

Keywords


Charcoal cooler storage bin; farmers’ knowledge and skills; postharvest tomato storage environments; tomato varieties

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References

Abimbola, O. (2014). Postharvest losses and welfare of tomato farmers in Ogbomosho, Osun state, Nigeria. Journal of Stored Products and Postharvest Research, 5 8-13 10.5897/JSPPR2014.0160.

Abolusoro P. F., Ogunjimi S. I., and Abulosoro S. A. (2014). Farmers’ perception on the strategies for increasing tomato production in Kabba-Bunu Local Government Area of Kogi State, Nigeria. Agrosearch, 14(2), 144-153.

Arah, K. I, Kumah, E. K. Anku, E. K., and Amaglo, H. (2015). An overview of postharvest losses in tomato production in Africa: causes and possible prevention strategies. Journal of Biology, Agriculture and Healthcare, 5(16), 78–88.

Ezeibe, A. B. C, Okonkwo, N. A, Opata, P. I. Dennis, O. E., and Diogu, A. N. (2017). Analysis of entrepreneurship development in agriculture among female groundnut farmers in Enugu state. European Journal of Business and Management, 9(32).

FAO/World Bank Work (2010). Reducing postharvest losses in grain supply chains in Africa: lessons learned and practical guidelines. FAO/World Bank Work FAO Headquarters 18–19 Rome, Italy.

Food and Agricultural Organisation (FAO) (2008). Basic harvest and postharvest handling considerations for fresh fruits and vegetables handling and preservation, FAO, Rome, Italy, 2008.

Food and Agricultural Organisation Statistic FAOSTAT (2013). Global tomato production in 2013, FAO, Rome, Italy

Kiaya, V. (2014). Postharvest losses and strategies to reduce them. Action Contre La Faim (ACF). Retrieved from http://www.academia.edu/download/45278162/post_harvest_losses.pdf

Oduro-Ofori E., Aboagye, A. P., and Acquaye N. A. E. (2014). Effects of education on the agricultural productivity of farmers in the offinso municipality. International Journal of Development Research, 4(9), 19511960.

Odesola, I. F. and O. Onyebuchi. (2009). A review of porous evaporative cooling for the preservation of fruits and vegetables. Pacific Journal of Science and Technology. 10(2):935- 941.

Sekumade A.B and Toluwase S.O.W. (2014). Profitability and production efficiency of indigenous tomato cultivation among farmers in Osun State, Nigeria. Journal of Agriculture and Veterinary Science, (IOSR-JAVS), 7(11), 13-23

Tadesse, T. N., Ali, M. I., and Wosene G. A., (2015) Degradation and formation of fruit color in tomato (Solanum lycopersicum L.) in response to storage temperature. American Journal of Food Technology, 10: 147-157. Doi: 10.3923/ajft.2015.147.157



DOI: https://doi.org/10.22146/agritech.54561

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