Abstract
The mitigation of postharvest losses in the Sub-Saharan Africa (SSA) tomato industry has the potential to improve profit margins, livelihoods and food security. This review focuses on the current status of postharvest handling of tomatoes in SSA. Recent peer-reviewed, industry, government and non-governmental organisations’ documents were consulted. Descriptive and quantitative approaches were used to present the information from the literature. Postharvest losses in the fresh tomato supply chain in SSA occur predominantly at the pre-consumer level, in contrast to similar supply chains in developed countries. Overall, recent estimations of losses in fresh market tomatoes were similar across SSA; 9.5 % in East Africa, 9.8 % in Central and Southern Africa, and 10.04 % in West Africa. Examples of individual countries showed estimated losses of 10.1 % in Kenya, 10.2 % in South Africa and 13.4 % in Nigeria representing multi-million dollar losses from these supply chains. Inadequate monitoring and quantifying of losses was noted in SSA. This document identifies postharvest challenges and presents possible interventions and opportunities for both large and small-scale producers. Overall, the implementation of any solutions in the SSA tomato supply chains will have to account for the specific contexts of each chain and level of production.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Notes
Thomas vd Meulen. Engineer at ZZ2, Mooketsi, South Africa, April, 2014
Thomas vd Meulen. Engineer at ZZ2, Mooketsi, South Africa, April, 2014
References
Aba, P. I., Gana, M. Y., Ogbonnaya, C., & Morenikeji, O. O. (2012). Simulated transport damage study on fresh tomato (Lycopersicon esculentum) fruits. CIGR Journal, 14(2), 119–126.
Adedeji, O., Taiwo, K. A., Akanbi, C. T., & Ajani, R. (2006). Physicochemical properties of four tomato cultivars grown in Nigeria. Journal of Food Processing and Preservation, 30, 79–86.
Adeoye, I. B., Odeleye, O. M. O., Babalola, S. O., & Afolayan, S. O. (2009). Economic analysis of tomato losses in Ibadan Metropolis, Oyo State, Nigeria. African Journal of Basic and Applied Sciences, 1(5–6), 87–92.
Adepoju, A. O. (2014). Post-harvest losses and welfare of tomato farmers in Ogbomosho, Osun state, Nigeria. Journal of Stored Products and Postharvest Research, 5(2), 8–13.
Afari-Sefa, V., Tenkouano, A., Ojiewo, C. O., Keatinge, J. D. H., & Hughes, J.’. A. (2012). Vegetable breeding in Africa: constraints, complexity and contributions toward achieving food and nutritional security. Food Security, 4, 115–127.
Affognon, H., Mutungi, C., Saginga, P., & Borgmeister, C. (2015). Unpacking postharvest losses in Sub-Saharan Africa: a meta-analysis. World Development, 66, 49–68.
Ahmed, L., Martin-Diana, A. B., Rico, D., & Barry-Ryan, C. (2013). Effect of delactosed whey permeate treatment on physic-chemical, sensorial, nutritional and microbial properties of wholes tomatoes during postharvest storage. LWT- Food Science and Technology, 51(1), 367–374.
Ajagbe, B.O., Oyediran, W.O., Omoare, A.M. & Sofowora, O.O. (2014). Assessment of post-harvest practices among tomato (Solanum lycopersicum) farmers/processors in Abeokuta North local government area of Ogun State, Nigeria. International Journal of Education and Research, 2, 1–12.
Akbudak, B., Akbudak, N., Seniz, V., & Eris, A. (2007). Sequential treatments of hot water and modified atmosphere packaging in cherry tomatoes. Journal of Food Quality, 30(6), 896–910.
Akbudak, B., Akbudal, N., Seniz, V., & Eris, A. (2012). Effect of pre-harvest hairpin and modified atmosphere packaging on quality of cherry tomato cultivars ‘Alona’ and ‘Cluster’. British Food Journal, 114(2), 180–196.
Akponipke, I. P. B., Wima, K., Yacouba, H., & Mermoud, A. (2011). Reuse of domestic wastewater treated in macrophyte ponds to irrigate tomato and eggplant in semi-arid West-Africa: benefits and risks. Agricultural Water Management, 98, 834–840.
Anon (2013a). The fresh fruit and vegetable markets of East Africa: An assessment of regional value chain actors, activities and constraints in Kenya, Uganda and Tanzania Report No. EEM-I-00-07-00008-00. Washington DC: Chemonics International Inc..
Anon. (2013b). Using the IDV to study produce in West Africa. [Internet]. Available at: http://www.unidata.ucar.edu/blogs/news/entry/studying_produce_transport_in_west (Accessed: 11th Feb 2015).
Asgedom, S., Struik, P. C., Heuvelink, E., & Arala, W. (2011). Opportunities and constraints of tomato production in Eritrea. African Journal of Agricultural Research, 6(4), 956–967.
Aulakh, J, Regmi, A, Fulton, JR and Alexander, C .(2013). Estimating post-harvest food losses: Develo** a consistent global estimation framework. Agricultural and applied economics association annual meeting, August 4–6, Washington, D.C. USA.
Austin, J. (2009). Study on marketing, post harvest and trade opportunities for fruit and vegetables in Rwanda Report No. 1ESAD04. Virginia: JE Austin Associates Inc..
Balibrea, M. E., Martinez-Andujar, C., Cuartero, J., Bolarin, M. C., & Perez-Alfocea, F. (2006). The high fruit soluble sugar content in wild Lycopersicon species and their hybrids with cultivars depends on sucrose import during ripening rather than on sucrose metabolism. Functional Plant Biology, 33, 279–288.
Baliyan, S. P. & Rao, M. S. (2013). Evaluation of tomato varieties for pest and disease adaptation and productivity in Botswana. International Journal of Agricultural and Food Research, 2(3), 20–29.
Bari, M. L., Sabina, Y., Isobe, S., Umemura, T., & Isshiki, K. (2003). Effectiveness of electrolyzed acidic water in killing Escherichia coli 0157:H7, Salmonella enteriditis and Listeria moncytogenes on the surfaces of tomatoes. Journal of Food Protection, 4(7), 542–548.
Batu, A. (2004). Determination of acceptable firmness and colour values of tomatoes. Journal of Food Engineering, 61, 471–475.
Beckles, D. M. (2012). Factors affecting the postharvest soluble solids and sugar content of tomato (Solanum lycopersicum) fruit. Postharvest Biology and Technology, 63, 129–140.
Berna, A. Z., Lammertyn, J., Saevels, S., Di Natale, C., & Nicolai, B. M. (2004). Electronic nose systems to study the shelf life and cultivar effect on tomato aroma profile. Sensors and Actuators B, 97, 324–333.
Bertolini, M., Bottani, E., Rizzi, A., Volpi, A., & Renzi, P. (2013). Shrinkage reduction in perishable food supply chain by means of an RFID-based FIFO management policy. International Journal of RF Technologies, 5, 123–136.
Brackett, R. E. (1999). Incidence, contributing factors and control of bacterial pathogens in produce. Postharvest Biology and Technology, 15, 305–311.
Bremmen, N. (2014). She Leads Africa is taking these 8 female entrepreneurs to pitch in the US. [Internet]. Ventureburn, Cape Town, South Africa. Available from: http://ventureburn.com/2014/11/leads-africa-taking-8-female-entrepreneurs-pitch-us/ [Accessed: 16 July 2015].
Bruckner, S., Albrecht, A., Petersen, B., & Kreyenschmidt, J. (2013). A predictive shelf life model as a tool for the improvement of quality management in pork and poultry chains. Food Control, 29, 451–460.
Bureau, S., Page, D., Boge, M., & Renard, C. M. G. (2015). Mid-infrared spectroscopy as a rapid and convenient tool for the characterisation of tomato purees. Acta Horticulturae, 1081, 317–322.
Buyukbay, E. O., Uzunoz, M., & Bal, G. S. H. (2011). Post-harvest losses in tomato and fresh bean production in Tokat province of Turkey. Scientific Research and Essays, 6(7), 1656–1666.
Buzby, J., Hyman, C., Stewart, J., & Wells, H. H. F. (2011). The value of retail- and customer-level fruit and vegetable losses in the United States. Journal of Consumer Affairs, 45(3), 492–515.
Chikazunga, D. (2013). Determinants of smallholder farmers’ participation in modern food markets: The case of tomato supply chains in Limpopo. In S. Greenberg (Ed.), Smallholders and agro-food value chains in South Africa: Emerging practices, emerging challenges Ch. 3, 15–22. Cape Town: Institute for Poverty, Land and Agrarian Studies.
Collen, C. (2013). Spanish tomato exports rise. Eurofruit. [Internet]. Available at: http://www.fruitnet.com/eurofruit/article/159289/spanish-tomato-exports-rise (Accessed: 31st July 2014).
Dabrowski, J. M., Shadung, J. M., & Wepener, V. (2014). Prioritizing agricultural pesticides used in South Africa based on their environmental mobility and potential human health effects. Environmental International, 62, 31–40.
DAFF (2009). Report of the ministerial interim committee on the restructuring of fresh produce markets in South Africa (p. 32). Pretoria: National Department of Agriculture.
DAFF (2013). South African varieties list as maintained by the registrar of plant improvement (p. 25). Pretoria: National Department of Agriculture.
DAFF (2014a). Trends in the agricultural sector (vol. 52, pp. 49–50). Pretoria: National Department of Agriculture.
DAFF (2014b). Production guidelines for tomato (p. 22). Pretoria: National Department of Agriculture.
Davila-Avina, J. E., Villa-Rodriguez, J. A., Villegas-Ochoa, M. A., Tortoledo-Ortiz, O., Olivas, G. I., Ayala-Zavala, J. F., et al. (2014). Effect of edible coatings on bioactive compounds and antioxidant capacity of tomatoes at different maturity stages. Journal of Food Science and Technology, 51(10), 2706–2712.
Directorate Marketing (2013). A profile of the South African tomato market value chain. Department of Agriculture, Forestry and Fisheries, Pretoria, South Africa.
Eichen, Y., Haarer, D., Feuerstack, M. and Jannasch, U. (2008). What it takes to make it work: the Onvu TTI. In Cold Chain-Management, 3rd International Workshop¸ Bonn, Germany, 2–3 June 2008, pp. 106–113.
El Yasmine, A. S. L., Ghani, B. A., Trentesaux, D., & Beldjilali, B. (2014). Supply chain management using multi-agent systems in the agri-food industry. Service Orientation in Holonic and Multi-Agent Manufacturing and Robotic Studies in Computational Intelligence, 544, 145–155.
Etebu, E., Nwauzoma, A. B., & Bawo, D. D. S. (2013). Postharvest spoilage of tomato (Lycopersicon esculentum Mill.) and control strategies in Nigeria. Journal of Biology, Agriculture and Healthcare, 3(10), 51–61.
European Commission (2012). Monitoring agri-trade policy: the EU and major world players in fruit and vegetable trade. Belgium: Brussels.
Fanadzo, M., Chiduza, C., & Mnkeni, P. N. S. (2010). Overview of smallholder irrigation schemes in South Africa: relationship between farmer crop management practices and performance. African Journal of Agricultural Research, 5(25), 3514–3523.
FAOSTAT (2014). Online statistical database of the Food and Agricultural Organisation of the United Nation. [Internet]. Available at: http://faostat.fao.org/. Accessed: 31st July 2014)
FAOSTAT (2015). Online statistical database of the Food and Agricultural Organisation of the United Nation. [Internet]. Available at: http://faostat.fao.org/. Accessed: 16th March 2015).
Farneti, B., Schouten, R. E., Qian, T., Dieleman, J. A., Tijskens, L. M. M., & Woltering, E. J. (2013). Greenhouse climate control affects postharvest tomato quality. Postharvest Biology And Technology, 86, 354–361.
Flores, K., Sanchez, M. T., Marin-Perez, D., Guerrero, J. E., & Garrido-Varo, A. (2009). Feasibility in NIRS instruments for predicting internal quality in intact tomato. Journal of Food Engineering, 91, 311–318.
Gangwar, L. S., Singh, D., & Singh, D. B. (2007). Estimation of post-harvest losses in Kinnow Mandarin in Punjab using a modified formula. Agricultural Economics Research Review, 20(2), 315–331.
Garcia-Garcia, I., Taboada-Rodriguez, A., Lopez-Gomez, A., & Marin-Iniesta, F. (2013). Active packaging of cardboard to extend the shelf-life of tomatoes. Food and Bioprocess Technology, 6, 754–761.
Gastelum-Barrios, A., Borquez-Lopez, R. A., Rico-Garcia, E., Toldeno-Ayala, M., & Soto-Zarazua, G. M. (2011). Tomato quality evaluation with image processing: a review. African Journal of Agricultural Research, 6(14), 3333–3339.
Gemmell, M. E. & Schmidt, S. (2012). Microbiological assessment of river water used for the irrigation of fresh produce in a sub-urban community in Sobantu, South Africa. Food Research International, 47, 300–305.
Gil, M.I., Gomez-Lopez, V.M., Hung, Y-C. & Allende, A. (2015). Potential of electrolyzed water as an alternative disinfectant in the fresh-cut industry. Food and Bioprocess Technology, 8, 1336–1348.
GIZ – Deutche Gesellschaft für Internationale Zusammenbareit (GIZ) GmbH (2013). Reducing postharvest losses conserves natural resources and saves money. Report of GFFA Expert panel discussion held on 18 January 2013 in Berlin, Pp. 30.
Gonzalez-Aguilar, G. A., Valenzuela-Soto, E., Lizardi-Mendoza, J., Goycoolea, F., Martinez-Tellez, M. A., Villegas-Ochoa, M. A., et al. (2009). Effect of chitosan coating in preventing deterioration and preserving the quality of fresh-cut papaya ‘Maradol’. Journal of the Science of Food and Agriculture, 89, 15–23.
Goodburn, C. & Wallace, C. A. (2013). The microbiological efficacy of decontamination methodologies for fresh produce: a review. Food Control, 32, 418–427.
Gunders, D. (2012). Wasted: How America is Losing Up to 40 percent of its food from farm to fork to landfill. NRDC Issue Paper IP 12-06-B. New York City: Natural Resources Defense Council.
Gustavsson, J., Cederberg, C., Sonesson, U., van Otterdijk, R. and Meybeck, A. (2011). Global food losses and food waste: extent, causes and prevention. Study conducted for the International Congress SAVE FOOD! at Interpack 2011, Dusseldorf, Germany. Food and Agricultural Organisation of the United Nations, Rome.
Hertog, M. L. A. T. M., Uysal, I., McCarthy, U., Verlinden, B. M., & Nicolai, B. M. (2014). Shelf life modelling for first-expired-first-out warehouse management. Philosophical Transactions of the Royal Society A, 372. doi:10.1098/rsta.2013.0306.
Hewett, E.W. (2004). Postharvest challenges for crops grown under protected cultivation. Proceedings of ISHS International Symposium on Greenhouse Environmental Controls and In-house Mechanization for Crop Production in the Tropics and Sub-Tropics¸ Malaysia, 15–17 June.
Hewett, E. W. (2006). An overview of preharvest factors influencing postharvest quality of horticultural products. International Journal of Postharvest Technology and Innovation, 1, 4–15.
Hodges, R. J., Buzby, J. C., & Bennett, B. (2011). Postharvest losses and waste in developed and less developed countries: opportunities to improve resource use. Journal of Agricultural Science, 149, 37–45.
Idah, P. A., Ajisegiri, E. S. A., & Yisa, M. G. (2007). Fruits and vegetables handling and transportation in Nigeria. AU Journal of Technology, 10(3), 175–183.
Islam, P. M. & Morimoto, T. (2014). A new zero energy cool chamber with a solar-driven adsorption refrigerator. Renewable Energy, 72, 367–376.
Islam, P. M., Morimoto, T., & Hatou, K. (2012). Storage behavior of tomato inside a zero energy cool chamber. Agricultural Engineering International CIGR Journal, 14(4), 209–217.
Jaiyeoba, K. F. & Raji, A. O. (2012). Influence of varietal difference on qualities of osmosized tomato in the South Western Nigeria. Food Science and Quality Management, 4, 1–9.
Jedermann, R., Nicometo, M., Uysal, I., & Lang, W. (2014). Reducing food losses by intelligent food logistics. Philosophical Transactions of the Royal Society A, 372. doi:10.1098/rtsa.2013.0302.
Kaminski, J. and Christiansen, L. (2014). Postharvest Losses in Sub-Saharan Africa: What do farmers say? Policy Research Working Paper 6907. World Bank, Washington DC, USA.
Kereth, G. A., Lyimo, M., Mbwana, H. A., Mongi, R. J., & Ruhembe, C. C. (2013). Assessment of post-harvest handling practices: knowledge and losses of fruits in Bagamoyo district of Tanzania. Food Science and Quality Management, 11, 8–15.
Khaleghi, S. S., Ansari, N. A., Rahemi, M., & Peidayesh, M. (2014). Effect of hot water treatment and surface disinfection with NaCl on storage life and reducing decay of tomato fruit. International Journal of Farming and Allied Sciences, 3(2), 155–160.
Kitinoja, L. (2013). Innovative small-scale postharvest technologies for reducing losses in horticultural crops. Ethiopian Journal of Applied Science and Technology, (Special issue No. 1), 9–15.
Kitinoja, L. & AlHassan, H.Y. (2012). Identification of appropriate postharvest technologies for small scale horticultural farmers and marketers in Sub-Saharan Africa and South Asia – Part 1. Postharvest losses and quality assessments. Acta Horticulturae. P. 31–40.
Kitinoja, L. & Thompson, J. F. (2010). Pre-cooling systems for small-scale producers. Stewart Postharvest Review, 2, 1–14.
Kitinoja, L., Saran, S., Roy, S. K., & Kader, A. A. (2011). Postharvest technology for develo** countries: challenges and opportunities in research, outreach and advocacy. Journal of the Science of Food and Agriculture, 91, 597–603.
Korsten, L. (2006). Advances in control of postharvest diseases in tropical fresh produce. International Journal of Postharvest Technology and Innovation, 1, 48–61.
Kugblenu, Y. O., Danso, E. O., Ofori, K., Andersen, M. N., Abenney-Mickson, S., Sabi, E. B., et al. (2013). Screening tomato genotypes for adaptation to high temperature in West Africa. Acta Agriculturae Scandinavica Section B Soil and Plant Science, 63(6), 516–522.
Lipinski, B, Hanson, C, Lomax, J, Kitinoja, L, Waite, R and Searchinger, T. (2013). Reducing food loss and waste. Working paper. Installment 2 of Creating a Sustainable Food Future. Washington, DC: World Resources Institute. (Accessed: 6th July 2015) (Available online at: http://www.worldresourcesreport.org).
Louw, A., Vermeulen, H., Kirsten, J., & Madevu, H. (2007). Securing small farmer participation in the supermarket supply chains in South Africa. Development Southern Africa, 24(4), 539–551.
Malherbe, S and Marais, D. (2015). Economics, yield, and ecology: A case study from the South African tomato industry. [Internet]. Available at: http://repository.up.ac.za/xmlui/bitstream/handle/2263/45493/Malherbe_Economics_2015.pdf?sequence=1&isAllowed=y (Accessed: 17th Oct 2015)
Maliwichi, L. L., Pfumayaramba, T. K., & Katlego, T. (2014). An analysis of constraints that affect smallholder farmers in the production of tomatoes in Ga-Mphahlele, LepelleNkumbi municipality, Limpopo Province, South Africa. Journal of Human Ecology, 47(3), 269–274.
Mashau, M. E., Moyane, J. N., & Jideani, I. A. (2012). Assessment of post harvest losses of fruits at Tshakhuma fruit market in Limpopo, South Africa. African Journal of Agricultural Research, 7(29), 4145–4150.
Maul, F., Sargent, S. A., Sims, C. A., Baldwin, E. A., Balaban, M. O., & Huber, D. J. (2000). Tomato flavor and aroma quality as affected by storage temperature. Journal of Food Science, 65(7), 1228–1237.
Mdluli, F., Thamaga-Chitja, J., & Schmidt, S. (2013). Appraisal of hygiene indicators and farming practices in the production of leafy vegetables by organic small-scale farmers in uMbumbulu (rural KwaZulu-Natal, South Africa). International Journal of Environmental Research and Public Health, 10(9), 4323–4338.
Mebratie, M. A., Haji, J., Woldetsadik, K., & Ayalew, A. (2014). Determinants of postharvest banana loss in the marketing chain of Central Ethiopia. Food Science and Quality Management, 37, 52–63.
Messina, V., Dominguez, P. G., Sancho, A. M., de Reca, N. W., Carrari, F., & Grigioni, G. (2014). Tomato quality during short-term storage assessed by colour and electronic nose. International Journal of Electrochemistry, 687429, 1–7. doi:10.1155/2012/687429.
Mohammadi-Aylar, S., Jamaati-e-Somarin, S., & Azimi, J. (2010). Effect of stage of ripening on mechanical damage in tomato fruits. American-Eurasian Journal of Agriculture and Environmental Science, 9(3), 297–302.
Munhuweyi, K. (2012). Postharvest losses and changes in quality of vegetables from retail to consumer: a case study of tomato, cabbage and carrot. Unpublished MSc Dissertation. Department of Food Science, Faculty of AgriSciences, Stellenbosch University, Stellenbosch, RSA.
Mutari, A. & Debbie, R. (2011). The effects of postharvest handling and storage temperature on the quality and shelf of tomato. African Journal of Food Science, 5(7), 446–452.
Nahman, A. & de Lange, W. (2013). Costs of food waste along the value chain: evidence from South Africa. Waste Management, 33(11), 2493–2500.
Nikbakht, A. M., Hash**, T. T., Malekfar, R., & Gobadian, B. (2011). Nondestructive determination of tomato fruit quality parameters using Raman spectroscopy. Journal of Agricultural Science and Technology, 13, 517–526.
Obopile, M., Munthali, D. C., & Matilo, B. (2008). Farmers’ knowledge, perceptions and management of vegetable pests and diseases in Botswana. Crop Protection, 27(8), 1220–1224.
Odemero, A. F. & Ngozi, O. R. (2014). Post-harvest properties of tomato and effect on its marketing efficiency. Turkish Journal of Agricultural and Natural Sciences, 1(1), 52–58.
Olakojo, S. A. & Adetula, O. A. (2014). Comparison of qualitative and quantitative traits of some advance breeding lines of tomato (Lycopersicon esculentum L.). African Journal of Plant Science, 8(10), 457–461.
Olayemi, F. F., Adegbola, J. A., Bamishaiye, E. I., & Daura, A. M. (2010). Assessment of post-harvest challenges of small scale farm holders of tomatoes, bell and hot pepper in some local government areas of Kano State, Nigeria. Bayero Journal of Pure and Applied Sciences, 3(2), 39–42.
Opara, U. L., Al-Ani, R., & Al-Rahbi, N. M. (2011). Effect of fruit ripening stage on physico-chemical properties, nutritional composition and antioxidant components of tomato (Lycopersicum esculentum) cultivars. Food and Bioprocess Technology, 5, 3236–3243.
Parfitt, J., Barthel, M., & MacNaughton, S. (2010). Food waste within food supply chains: quantification and potential for change to 2050. Philosophical Transactions of the Royal Society, 365, 3065–3081.
Pinheiro, J., Alegria, C., Abreu, M., Goncalves, E. M., & Silva, C. L. M. (2013). Kinetics of changes in the physical quality parameters of fresh tomato fruits (Solanum lycopersicum, cv. ‘Zinac’) during storage. Journal of Food Engineering, 114, 338–345.
Pinheiro, J., Alegria, C., Abreu, M., Sol, M., Goncalves, E. M., & Silva, C. L. M. (2014). Postharvest quality of refrigerated tomato fruit (Solanum lycopersicum, cv. Zinac) at two maturity stages following heat treatment. Journal of Food Processing and Preservation. doi:10.1111/jfpp.12279.
Prusky, D. (2011). Reduction of the incidence of postharvest quality losses and future prospects. Food Security, 3, 463–474.
Qi, L., Xu, M., Fu, Z., Mira, T., & Zhang, X. (2014). C2SLDS: a WSN-based perishable food shelf-life prediction and LSFO strategy decision support system in cold chain logistics. Food Control, 38, 19–29.
Qin, J., Chao, K., & Kim, M. S. (2012). Nondestructive evaluation of internal maturity of tomatoes using spatially offset Raman spectroscopy. Postharvest Biology and Technology, 71, 21–31.
Rembold, F., Hodges, R., Bernard, M., Knipschild, H., & Leo, O. (2011). The African Postharvest Losses Information System (APHLIS). An innovative framework to analyze and compute postharvest losses for cereals under different farming and environmental conditions in East and Southern Africa. Luxembourg: Publication Office of the European Union.
Roy, S.K. and Pal, R.K. (1993). A low-cost cool chamber: An innovative technology for develo** countries. In: Champ BR, Highley E, Johnson, GI (eds), AICAR Proceedings on Postharvest Handling of Tropical Fruits, Australia, no. 50, pp 393–395.
Ruiz, D., Audergon, J., Bureau, S., Grotte, M., Renard, C., Gouble, B., et al. (2009). Rapid and non-destructive determination of soluble solids content and titratable acidity in apricot using near-infrared spectroscopy (NIR). Acta Horticulturae, 814, 501–505.
Samira, A., Woldetsadik, K., & Workneh, T. S. (2013). Postharvest quality and shelf life of some hot pepper varieties. Journal of Food Science and Technology, 50(5), 842–855.
Saran, S., Dubey, N., Mishra, V., Dwivedi, S. K., & Raman, N. L. M. (2013). Evaluation of coolbot™ cool room as a low cost storage system for marginal farmers. Progressive Horticulture, 45(1), 115–121.
Selahle, M. K., Sivakumar, D., & Soundy, P. (2013). Effect of photo-selective nettings on post-harvest quality and bioactive compounds in selected tomato cultivars. Journal of the Science of Food and Agriculture. doi:10.1002/jsfa.6536.
Sigei, G. K., Ngeno, H. K., Kibe, M. A., Mwangi, M., & Mutai, C. M. (2014). Challenges and strategies to improve tomato competitiveness along the tomato value chain in Kenya. International Journal of Business and Management, 9(9), 205–212.
Sirisomboon, P., Tanaka, M., & Kojima, T. (2011). Evaluation of tomato textural mechanical properties. Journal of Food Engineering, 111(4), 618–624.
Srinivasa, P. C., Prashanth, K. V. H., Susheelamma, N. S., Ravi, R., & Tharanathan, R. N. (2006). Storage studies of tomato and bell pepper using eco-friendly films. Journal of the Science of Food and Agriculture, 86, 1216–1224.
Suslow, T. V. (2000). Chlorination in the production and postharvest handling of fresh fruits and vegetables: Chapter G. Fruit and vegetable processing. In D. McLaren (Ed.), Use of chlorine-based sanitizers and disinfectants in the food manufacturing industry. Food processing center (pp. 2–15). Nebraska: University of Nebraska.
Szuvandzsiev, P., Helyes, L., Lugasi, A., Szanto, C., Baranowski, P., & Pel, Z. (2014). Estimation of antioxidant components of tomato using VIS-NIR reflectance data by handheld spectrometer. International Agrophysics, 28, 521–527.
Thipe, E. L., Workneh, T., Odindo, A., & Laing, M. (2014). Effects of cultivars, growing and storage environments on quality of tomato. International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering, 8(12), 1269–1278.
Tinyane, P. P., Sivakumar, D., & Soundy, P. (2013). Influence of photo-selective netting on fruit quality parameters and bioactive compounds in selected tomato cultivars. Scientia Horticulturae, 161, 340–349.
Tiwari, G., Slaughter, D. C., & Cantwell, M. (2013). Nondestructive maturity determination in green tomatoes using a handheld visible and near infrared instrument. Postharvest Biology and Technology, 86, 221–229.
Toivonen, P. M. A. (2007). Fruit maturation and ripening and their relationship to quality. Stewart Postharvest Review, 3, 1–5.
Tomato Producer Organisation (2014). Tomato Producers’ Organisation. [Internet]. Available at: http://www.tomatoessa.org/index.htm (Accessed: 17th Oct 2015)
Tusiime, S.M. (2014). Evaluating horticultural practices for sustainable tomato production in Kamuli, Uganda. Unpublished MSc Dissertation. Iowa State University, Ames, Iowa, USA.
Ugonna, C. U., Jolaoso, M. A., & Onwualu, A. P. (2015). Tomato value chain in Nigeria: issues, challenges and strategies. Journal of Scientific Research and Reports, 7(7), 501–515.
UNCTAD (2014). AAACP Products: Tomato. [Internet] Available at: http://www.unctad.info/en/Infocomm/AACP-Products/COMMODITY-PROFILE—Tomato/ (Accessed: 31st July 2014)
Weinberger, K., Genova, C., & Acedo, A. (2008). Quantifying postharvest loss in vegetables along the supply chain in Vietnam, Cambodia and Laos. International Journal of Postharvest Technology and Innovation, 1, 288–297.
Workneh, T. S., Osthoff, G., & Steyn, M. S. (2009). Integrated agrotechnology with preharvest ComCat® treatment, modified atmosphere packaging and forced ventilation evaporative cooling of tomatoes. African Journal of Biotechnology, 8(5), 860–872.
Workneh, T. S., Osthoff, G., & Steyn, M. S. (2011). Influence of preharvest and postharvest treatments on stored tomato quality. African Journal of Agricultural Research, 6(12), 2725–2736.
Workneh, T. S., Osthoff, G., & Steyn, M. (2012). Effects of preharvest treatment, disinfections, packaging and storage environment on quality of tomato. Journal of Food Science and Technology, 49(6), 685–694.
ZZ2 (2015). Welcome to ZZ2. [Internet]. Available at: http://www.zz2.biz/ (Acessed: 17th Oct 2015).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Sibomana, M.S., Workneh, T.S. & Audain, K. A review of postharvest handling and losses in the fresh tomato supply chain: a focus on Sub-Saharan Africa. Food Sec. 8, 389–404 (2016). https://doi.org/10.1007/s12571-016-0562-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12571-016-0562-1