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The Storage of Tropical Root and Tuber Cropscassava, Yam and Edible Aroids

Published online by Cambridge University Press:  03 April 2017

R. D. Cooke ,
J. E. Rickard  and
A. K. Thompson
R. D. Cooke
Affiliation:
Overseas Development Natural Resources Institute, 56/62 Gray's Inn Road, LondonWC1X 8LU
J. E. Rickard
Affiliation:
Overseas Development Natural Resources Institute, 56/62 Gray's Inn Road, LondonWC1X 8LU
A. K. Thompson
Affiliation:
Silsoe College, Cranfield Institute of Technology, Silsoe, Bedford MK45 4DT, England
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Summary

Root and tuber crops make a major contribution to the food supply in many developing countries. Most of the relatively limited research effort on tropical root crops has focussed on improved production technologies, especially with regard to genetic improvement. Interest in post-harvest technologies and crop use has increased recently with the growing recognition of their importance in the marketing of these perishable crops. This paper reviews recent advances in storage research for three of the principal root crops: cassava (Manihot esculenta C), yam (Dioscorea spp.) and the edible aroids (Colocasia spp.).

R. D. Cooke, J. E. Rickard y A. K. Thompson: El almacenamiento de tubérculos tropicales - mandioca, ôame y aráceas comestibles.

Resumen

Resumen

Los tubérculos constituyen una importante fuente de alimentación en muchos pafses en vi'as de desarrollo. La mayoria de los esfuerzos relativamente limitados de investigación sobre Ios tubérculos tropicales se han centrado en tecnologias mejoradas de producción, especialmente en cuanto al mejoramiento genético. El interés por las tecnologias post-cosecha y de aprovechamiento del cultivo ha aumentado ultimamente con el creciente reconocimiento de su importancia en la comercialización de estos cultivos perecederos. Este trabajo repasa los avarices recientes en la investigación de almacenamiento para tres de los principales tubérculos: la mandioca (Manihot esculenta C), el ñame (Dioscorea spp.) y las aráceas comestibles (Colocasia spp.).

Type
Research Article
Information
Experimental Agriculture , Volume 24 , Issue 4 , October 1988 , pp. 457 - 470
Copyright
Copyright © Cambridge University Press 1988

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References

Adams, H., Pattanjalidial, & Clarke, A. (1985). Effects of metalaxyl and benomyl on post-harvest decay of corms of dasheen Colocasia esculenta (L.) Schotl. In Proceedings of the 7th Symposium of the International Society for Tropical Root Crops, Guadeloupe Google Scholar
Adeniji, N. O. (1970). Fungi associated with the storage decay of yams in Nigeria. Phytopathology 60:590592.CrossRefGoogle Scholar
Adesuyi, S. A. (1973). Advances in yam storage research in Nigeria. In Proceedings 3rd International Symposium on Tropical Root Crops. Ibadan: IITA.Google Scholar
Averre, C W. (1967). Vascular streaking of stored cassava roots. In Proceedings 1st International Symposium on Tropical Root Crops Trinidad 2(4):3135.Google Scholar
Balagopalan, C & Padmaja, G. (1984). Storage of tuber crops. Indian Farming 33:5153.Google Scholar
Baudin, P. (1956). Maladies parasitaires des ignames en Cote d'lvoire. Revue de Mycologie 21:87111.Google Scholar
Been, B. O., Marriott, J. & Perkins, C. (1975). Wound periderm formation in dasheen and its affects on storage. Proceedings of a Meeting of the Caribbean Food Crop Society held in Trinidad, 1975.Google Scholar
Booth, R. H. (1976). Storage of fresh cassava (Manihot esculenta). L Post-harvest deterioration and its control Experimental Agiculture 12:103111.CrossRefGoogle Scholar
Booth, R. H. (1977). Storage of fresh cassava (Manihot esculenta). II. Simple storage techniques. Experimental Agriculture 13:119128.Google Scholar
Burton, C. L. (1970). Diseases of tropical vegetables in the Chicago market. Tropical Agriculture, Trinidad 47:303313.Google Scholar
Campbell, J.S., Chukwueke, V. O., Teriba, F. A. & Ho-a-shu, , H. U. S., (1962). Some physiological experiments with the White Lisbon yam (Dioscorea alata L.) in Trinidad. III. The effect of chemicals on storage. Empire Journal of Experimental Agriculture 30( 120): 335344.Google Scholar
CIAT (1984). Annual Reports. Cali, Colombia: Centro Internacional de Agricultura Tropical.Google Scholar
Cock, J. H. (1985). Cassava: New Potential for a Neglected Crop. Boulder and London: Westview Press.Google Scholar
Cooke, R. D. (1978). An enzymatic assay for the cyanide content in cassava Manihot esculenta Crantz. Journal of the Science of Food and Agriculture 29:345352.Google ScholarPubMed
Cooke, R. D. & Coursey, D. G. (1981). Cassava: a major cyanide-containing food crop. In Cyanide in Biology, 93114 (Eds Vennesland, B., Conn, E. E., Knowles, C. J., West, J. and Wissing, F.). London: Academic Press.Google Scholar
Coursey, D. G. (1961). The magnitude and origins of storage losses in Nigerian yams. Journal of the Science of Food and Agriculture 12:574580.Google Scholar
Coursey, D. G. (1967). Yams. London: Longmans.Google Scholar
Coursey, D. G. (1968). Low temperature injury in yams. Journal of Food Technology 3:143150.Google Scholar
Coursey, D. G. & Booth, R. H. (1977). Post harvest problems of non-grain staples. Acta Horticulturae 53:2333.Google Scholar
Coursey, D. G. Fellows, L. E. & Coulson, C. B. (1966). Respiration of yam tuber tissue. Nature 210: 12921293.CrossRefGoogle Scholar
Coursey, D. G. & Russell, J. D. (1969). A note on the endogenous and biodeteriorative factors in the respiration of yam tubers. International Biodeterioration Bulletin 5:2730.Google Scholar
Delange, F. & Ahluwalia, R. (1983). Cassava Toxicity and Thyroid: Research and Public Health Issues. Ottawa, Canada: International Development and Research Centre.Google Scholar
Demeaux, M. & Vivier, P. (1984). Methodes modernes de conservation des ignames. Agronomic Tropicale 39:186191.Google Scholar
Ezeike, G. O. L (1985). Experimental analysis of yam (Dioscorea spp.) tuber stability in tropical storage. Transactions of the American Society of Agricultural Engineers 28:16411645.Google Scholar
FAO (1985). Report of the Workshop on Production and Marketing Constraints on Roots, Tubers and Plantains in Africa (Zaire October 1985), 29. Rome: FAO.Google Scholar
FAO (1986). Production Yearbook. Rome: FAO.Google Scholar
Gollifer, D. E. & Booth, R. H. (1973). Storage losses of taro corms in the British Solomon Islands Protectorate. Annals of Applied Biology 73:349356.Google Scholar
Gonzalez, M. A. & de Rivera, A. C. (1972). Storage of fresh yams under controlled conditions. Journal of Agriculture, University of Puerto Rica 56:4656.Google Scholar
Hirose, S. (1986). Physiological studies on post-harvest deterioration of cassava roots. Japan Agricultural Research Quarterly 19:241252.Google Scholar
Ireland, C. R. & Passam, H. C. (1985). Effect of exogenous batatasin, batatasin analogues and gibberellins on the dormancy of stored yam tubers. Tropical Agriculture, Trinidad 62:4146.Google Scholar
Jackson, G. V. R & Gerlach, W. W. P. (1985). Pythium Rots of Taro. South Pacific Commission Advisory Leaflet 20. Google Scholar
Jackson, G. V. H. & Gollifer, D. E. (1975). Storage rot of taro C esculenta in the British Solomon Islands. Annals of Applied Biology 80:217230.Google Scholar
Jackson, G. V. H., Gollifer, D. E., Pinegar, J. A. & Newhook, F. J. (1979). The use of fungicides against post-harvest decay of stored taro in the Solomon Islands. In Small-scale Processing and Storage of Tropical Root Crops, 130150 (Ed. Pucknett, D. L.). Boulder, Colorado: Westview Press.Google Scholar
Janssen, W. & Wheatley, C. (1985). Urban cassava markets: impact of fresh root storage. Food Policy 10:265277.Google Scholar
Kay, D. E. (revised by Gooding, E. G. B.) (1987). Crop and Product Digest No 2 - Root Crops. Second Edition. London: Tropical Development and Research Institute.Google Scholar
Kojima, M., Iwatsuki, N., Data, E. S., Dolores, , C, Villegas, R. V., & Uritani, I. (1983). Changes of cyanide content and linamarase activity in wounded cassava roots. Plant Physiology 72:186189.Google Scholar
Lancaster, P. A.-, Ingram, J. S., Lim, M. Y. & Coursey, D. G. (1982). Traditional cassava-based foods: survey of processing techniques. Economic Botany 36:1245.Google Scholar
Lozano, J. C, Cock, J. M. & Castano, J. (1978). New developments in cassava storage. In Proceedings Cassava Protection Workshop, CIAT, Cali, Colombia, 7-12 November 1977, Series CE-14 May 1978. Google Scholar
Lyonga, S. N. (1985). Studies on fertilization of yams and on yam tuber storage in Cameroon. In Proceedings of the 6th International Symposium on Tropical Root Crops, Lima, Peru.Google Scholar
Marriott, J., Been, B. O. & Perkins, , Cynthia, (1978). The aetiology of vascular discolouration in cassava roots after harvesting: association with water loss from wounds. Physiologia Plantarum 44:3842.Google Scholar
Marriott, J., Been, B. O. & Perkins, , Cynthia, (1979). The aetiology of vascular discolouration in cassava roots after harvesting: development of endogenous resistance in stored roots. Physiologia Plantarum 45:5156.Google Scholar
Miege, J. (1957). Influence de quelques caracteres des tubercules semences sur la levee et le rendement des ignames cultivees. Journal d'Agriculture Tropicales et de Botanique Appliquie 4:315342.CrossRefGoogle Scholar
Montaldo, A. (1973). Vascular streaking of cassava root tubers. Tropical Science 15:3946.Google Scholar
Mosie, O. (1984). Influence of ventilation and humidity during storage on weight and quality changes of white yam tubers (Dioscorea rotundata Poir). Journal of Agriculture, University of Puerto Rica 68:341348.Google Scholar
Moura, R. M. (1980). Efeito de benomyl no controle da ‘podridao verde’ to inhame (Dioscorea cayenensis Lam.) em condicoes de armazenamento. Fitopatologia Brasileira 5:299304.Google Scholar
Noon, R. A. (1978). Storage and market diseases of yam. Tropical Science 20:177188.Google Scholar
Noon, R. A. & Booth, R. H. (1977). Nature of post-harvest deterioration of cassava roots. Transactions of the British Mycological Society 69:287290.Google Scholar
Noon, R. A. & Colhoun, J. (1981). Observations on the nature of chilling injury in yams. Phytopathologische Zeitschrift 100:1018.Google Scholar
Nwufo, M. L & Fajola, A. O. (1981). Storage rot diseases of cocyam (Colocasia esculenta) in South Eastern Nigeria. Journal of Root Crops 7(62):5359.Google Scholar
Ogundana, S. K. (1971). The post harvest decay of yam tubers and its preliminary control in Nigeria. In Biodeterioration of Materials. VoL 2. Proceedings 2nd International Biodeterioration Symposium, Lunteren, The Netherlands, 1971. London: Applied Science.Google Scholar
Ogundana, S. K. Naqvi, S. H. & Ekunday, J. O. (1970). Fungi associated with the soft rot of yams in storage in Nigeria. Transactions of the British Mycological Society 54:445451.CrossRefGoogle Scholar
Okafor, N. (1966). Microbial rotting of stored yams. Experimental Agriculture 2:179182.Google Scholar
Okeke, G. C. (1982). Studies on the etiology and symptomatology of root and storage rot disease of cocayam in Nigeria. Beitrage tropical Landwirtschaft Veterindrmedizin 20:287293.Google Scholar
Olorunda, A. O. (1979). Storage and processing of some Nigerian root crops. In Smalt-scale Processing and Storage of Tropical Root Crops, 9099 (Ed. Plucknett, D. L.). Boulder, Colorado: Westview Press.Google Scholar
Oudit, D. D. (1976). Polythene bags keep cassava fresh for several weeks at ambient temperature. Journal of Agriculture Society, Trinidad, Tobago 76:6366.Google Scholar
Passam, H. C. (1977). Sprouting and apical dominance of yam tubers. Tropical Science 19:2939.Google Scholar
Passam, H. C (1982a). Giberellin dip slows yam decay. International Agricultural Development October 1982,10-11.Google Scholar
Passam, H. C. (1982b). Experiments on the storage of eddoes and tannias (Colocasia and Zanthosoma spp.) under tropical ambient conditions. Tropical Science 24:3946.Google Scholar
Passam, H. C. & Noon, R. A. (1977). Deterioration of yams and cassava during storage. Annals of Applied Biology 85:436440.Google Scholar
Passam, H. C, Read, S. J. & Rickard, J. E. (1976). Wound repair in yam tubers: the dependence of storage procedures on the nature of the wound and its repair. Tropical Science 18:111.Google Scholar
Passam, H. C, Read, S. J., & Rickard, J. E. (1978). The respiration of yam tubers and its contribution to storage losses. Tropical Agriculture, Trinidad 55:207214.Google Scholar
Plucknett, D. L. (1983). Taxonomy of the genus Colocasia. In Taro: A Review of Colocasia esculenta and its Potentials. (Ed. Wang, J. K.). Hawaii: University of Hawaii Press.Google Scholar
Plucknett, D. L. & White, M. S. (1979). Storage and processing of taro in the Peoples Republic of China. In Small-scale Processing and Storage of Tropical Root Crops, 119123 (Ed. Plucknett, D. L.). Boulder, Colorado: Westview Press.Google Scholar
Plumbley, R. A., Cox, J., Kilminster, K., Thompson, A. K. & Donegan, L. (1985). The effect of imazalil in the control of decay in yellow yam caused by Penicillium sclerotigenum. Annals of Applied Biology 106:277284.Google Scholar
Plumbley, R. A., Hernandez Montes, A. & Thompson, A. K. (1984). Benomyl tolerance in a strain of Penicillium sclerotigenum infecting yams and the use of imazalil as a means of control. Tropical Agriculture, Trinidad 61:182185.Google Scholar
Plumbley, R. A., Hughes, P. A. & Marriott, J. (1981). Studies on peroxidases and vascular discolouration in cassava root tissue. Journal of the Science of Food and Agriculture 2:723731.CrossRefGoogle Scholar
Plumbley, R. A. & Rees, D. P. (1983). An infestation by Araecerus fasciculatus (Degeer) (Coleoptera: Anthribidae) and Decadarchis mmuscula (Walsingham) (Lepidoptera: Tineidae) on stored fresh yam tubers in South-East Nigeria. Journal of Stored Products Research 19:9395.Google Scholar
Quevado, M. A. & Datta, E. S. (1985). Pre-harvest pruning of cassava in relation to root deterioration. Radix 7:1314.Google Scholar
Quevado, M. A., Datta, E. S. & Dizon, R. V. (1985). Appropriate packaging medium for cassava storage. Radix 7:67.Google Scholar
Raja, K, C. M., Abraham, E. & Sreemulanathan, (1978). Post harvest storage of cassava tubers under modified environmental conditions. Journal of Root Crops 4:16.Google Scholar
Rickard, J. E. (1981). Biochemical changes involved in the post-harvest deterioration of cassava roots. Tropical Science 23:235237.Google Scholar
Rickard, J. E. (1985). Physiological deterioration of cassava roots. Journal of the Science of Food and Agriculture 36:167176.Google Scholar
Rickard, J. E. & Coursey, D. G. (1981). Cassava storage. Part 1: Storage of fresh cassava roots. Tropical Science 23:132.Google Scholar
Rosling, H. (1986). Cassava, cyanide and epidemic spastic paraparesis. PhD thesis, Uppsala University, Sweden.Google Scholar
Thompson, A. K. (1972). Storage and transport of fruits and vegetables in the West Indies. In Proceedings Seminar/Workshop on Horticultural Development in the Caribbean, Maturin, Venezuela, 170176.Google Scholar
Thompson, A. K. & Arango, L. M. (1977). Storage and marketing cassava in plastic films. Proceedings of the Tropical Region of American Society for Horticultural Science 21:3033.Google Scholar
Thompson, A. K., Been, B. O. & Perkins, C. (1973). Nematodes in stored yams. Experimental Agriculture 9:281286.Google Scholar
Thompson, A. K., Been, B. O. & Perkins, C (1977). Fungicidal treatment of stored yams. Tropical Agriculture, Trinidad 54:179183.Google Scholar
Uritani, L, Datta, E. S., Villegas, R. J. & Flores, P. (1984). Changes in secondary metabolism in cassava roots in relation to physiological deterioration. In Tropical Root Crops: Post-harvest Physiology and Processing, 109118 (Eds Uritani, I. and Reyes, E. D.). Japan Scientific Societies Press. Wheatley, C. (1982). Studies on cassava root post-harvest physiological deterioration. PhD thesis, London University.Google Scholar
Wheatley, C. & Gomez, C. (1985). Evaluation of some quality characteristics in cassava storage roots. Qualitas Plantarum, Plant Foods for Human Nutrition 35:121129.Google Scholar
Wheatley, C. & Janssen, W. G. (1985). Effects of the introduction of storage technology on the urban fresh cassava market of Colombia. Proceedings of the Vllth Symposium of the International Society for Tropical Root Crops. (In press.)Google Scholar
Wickham, L. D., Passam, H. C & Wilson, L. A. (1984). Dormancy responses to post-harvest application of growth regulators in Dioscorea species. Journal of Agricultural Science, Cambridge 102:483–436.Google Scholar
Wickham, L. D., Wilson, L. A. & Passam, H. C (1981). Tuber germination and early growth in four edible Dioscorea species. Annals of Botany 47:8795.Google Scholar
Wilson, J. E. (1983). Storage of taro corms and leaves. Alafua Agricultural Bulletin 8(2):3537.Google Scholar
Yamamoto, K., Yoshhani, I. & Maeda, M. (1955). Studies on the Penicillium and Fusarium rots of Chinese yam and their control. Science Report, Hyago University of Agriculture 2:69.Google Scholar