International Journal of Applied Agricultural Sciences

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Postharvest Storage Techniques for Cassava Roots in Ghana- A Review

Received: 20 July 2020    Accepted: 30 July 2020    Published: 10 August 2020
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Abstract

Cassava (Manihot esculenta Crantz.) a staple food assumes a significant role in solving food security issues in Africa. The various uses of the root include the production of starch, cassava chips, gari, flour, and ethanol. A few days after harvest, the roots begin to decay as a result of wounds or microbial contaminations. Because of the high perishability nature of the crop, a few techniques have been employed over the ages to prolong the crop shelf life. This paper surveys the postharvest storage of fresh cassava roots by delving into techniques such as In–field storage, Heap storage, Clamp storage, and Box storage. In present-day time peeled cassava can likewise be cold stored in a deep freezer. The in-field storage technique stores the root for an extra one year yet anyway diminishes the profitability of the land as it cannot be utilized for new harvests. Heap storage under shade trees normally balances the temperature happening during the day and along these lines shielding the tubers from overheating. Notwithstanding, stacking of the produce brings about poor ventilation thereby resulting in a fast spread of decays among the roots. For effective clamp storage, thicker soil cover might be utilized to decrease the temperature in the clamp during hot - dry conditions while care ought to be taken from keeping the roots from getting wet inside the clamp during the wet seasons. For successful box storage, the packing material ought to be moist to maintain high humidity yet not wet as this could produce microbial and mold development.

DOI 10.11648/j.ijaas.20200604.15
Published in International Journal of Applied Agricultural Sciences (Volume 6, Issue 4, July 2020)
Page(s) 80-83
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Postharvest Storage Techniques for Cassava Roots in Ghana- A Review

References
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[2] Averre, C. W. (1967). Vascular streaking of cassava roots. In International Symposium on Tropical Root and Tuber Crops, Trinidad. Proceedings. 2 (4): 31•35.
[3] Bennett B. (2015). Guest editorial: Smallholder cassava production and the cassava processing sector in Africa. Food Chain 5, 1-3.
[4] Booth, R. H. (1973). Control of deterioration of tropical root crops. Proc. 2nd Int. Congr. PIt Path. In press).
[5] Booth, R. H. (1976). Storage of fresh cassava (Manihot esculenta). 1. Postharvest deterioration and its control. Experimental Agriculture 12, 103-111. Cited by Ravi et al., 1996.
[6] Cantwell, M. (2002). Appendix: Summary table of optimal handling conditions for fresh produce. In: Kader (Ed). Postharvest technology of horticultural crops. University of California, ANR. Publication 3311.
[7] CIAT. (1972). Cassava production systems: fresh root storage. Centro Internacional de Agricultura Tropical Annu. Rep. 1972. p. 74-78.
[8] Food and Agriculture Organization (FAO) (1990). Prograrnme d'action pour la prntion des pertes de produits alimentaires, rapport d'activitsur l'amoration du stockage des ignames en milieu paysan, Lom.
[9] Gizachew K. B., Eyasu E., Pheneas N., Gudeta W. S. (2018). Cassava response to the integrated use of manure and NPK fertilizer in Zambia. Heliyon 4 (2018) e00759.
[10] MoFA (2009). Facts and Figure, Agriculture in Ghana, Ministry of Food and Agriculture, Accra, Ghana.
[11] Morante, N., Sanchez, T., Ceballos, H., Calle, F., Perez, J. C., Egesi, C., Cuambe, C. E., Escobar, A. F., Ortiz, D., Chavez, A. L., & Fregene, M. (2010). Tolerance to postharvest physiological deterioration in cassava roots. Crop Science 50, 1333–1338.
[12] Nahdy, S. M. and Odong, M., (1995). Storage of fresh cassava tuber in plant based storage media. In: Proceeding of the Workshop on "Postharvest Technology Experience in Africa", Accra, 4-8 July 1994. Edited by FAO, Rome.
[13] Nduwumuremyi, A., Melis, R., Shanahan, P., & Asiimwe, T. (2016). Participatory appraisal of preferred traits, production constraints and postharvest challenges for cassava farmers in Rwanda. Food Security 8, 375–388.
[14] Nwankiti, A. D. O. et al. (1989). Traditional and Some Improved Storage Methods for Root and Tuber Crops in Nigeria in: DEUTSCHE STIFTUNG F INTERNATIONALE ENTWICKLUNG (DSE) (edi.): Roots, Tubers and Legumes, Bonn, pp 51-67.
[15] Osunde Z. D., & Fadeyibi A. (2011). Storage methods and some uses of cassava in Nigeria. Continental J. Agric. Sci. 5 (2): 12-18.
[16] Prempeh R., Manu Aduening, J. A., Asante, B. O., Asante, I. K., Offei, S. K. & Danquah, E. Y. (2017). Farmers' knowledge and perception of postharvest physiological deterioration in cassava storage roots in Ghana. Agriculture & Food Security 6, 27. https://agricultureandfoodsecurity.biomedcentral.com/articles/10.1186/s40066-017-0103-y.
[17] Ravi V, Aked J., & Balagopalan C. (1996). Review on tropical root and tuber crops I. Storage methods and quality changes. Critical Rev. Food Sci. Nutr. 36: 661-709.
[18] Stathers, T., Bechoff, A., Sindi, K., Low, J., Ndyetabula, D. (2013). Everything You Ever Wanted to Know about Sweetpotato: Reaching Agents of Change ToT Manual. 5: Harvesting and postharvest management, Processing and utilisation, Marketing and entrepreneurship. International Potato Center, Nairobi, Kenya. vol. 5.
[19] Osunde Z. D and Fadeyibi A. (2011). Storage method and some uses of cassava in Nigeria [online]. Available from: https://www.researchgate.net/publication/261378860_STORAGE_METHODS_AND_SOME_USES_OF_CASSAVA_IN_NIGERIA (15-01-2020) [Accessed 22 January, 2020].
[20] Sasu G. M, Kwateng E. N, Baffou-Antwi A. K (2013). General Agriculture for Senior High Schools. Adwinsa Publicaions (GH) Ltd. Legon –Accra.
[21] Wenham J. E. (1995). Post-harvest deterioration of cassava. A biotechnology perspective. FAO Plant Production and Protection Paper 130. NRI/FAO. Rome. P. 90.
Author Information
  • Department of Science, Bia Lamplighter College of Education, Sefwi Debiso, Ghana

  • Department of Science, St. Teresa’s College of Education, Hohoe, Ghana

  • Department of Science, Gambaga College of Education, Gambaga, Ghana

  • Department of Science, Berekum College of Education, Berekum, Ghana

  • Department of Agriculture for Social Change Regentropfen College of Applied Sciences, PMB Bongo, Ghana

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  • APA Style

    Evans Ntim Amedor, John Yao Afetsu, Robert Akayim Awasina, Wisdom Korang Obeng, Maurice Tibiru Apaliya. (2020). Postharvest Storage Techniques for Cassava Roots in Ghana- A Review. International Journal of Applied Agricultural Sciences, 6(4), 80-83. https://doi.org/10.11648/j.ijaas.20200604.15

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    Evans Ntim Amedor; John Yao Afetsu; Robert Akayim Awasina; Wisdom Korang Obeng; Maurice Tibiru Apaliya. Postharvest Storage Techniques for Cassava Roots in Ghana- A Review. Int. J. Appl. Agric. Sci. 2020, 6(4), 80-83. doi: 10.11648/j.ijaas.20200604.15

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    AMA Style

    Evans Ntim Amedor, John Yao Afetsu, Robert Akayim Awasina, Wisdom Korang Obeng, Maurice Tibiru Apaliya. Postharvest Storage Techniques for Cassava Roots in Ghana- A Review. Int J Appl Agric Sci. 2020;6(4):80-83. doi: 10.11648/j.ijaas.20200604.15

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  • @article{10.11648/j.ijaas.20200604.15,
      author = {Evans Ntim Amedor and John Yao Afetsu and Robert Akayim Awasina and Wisdom Korang Obeng and Maurice Tibiru Apaliya},
      title = {Postharvest Storage Techniques for Cassava Roots in Ghana- A Review},
      journal = {International Journal of Applied Agricultural Sciences},
      volume = {6},
      number = {4},
      pages = {80-83},
      doi = {10.11648/j.ijaas.20200604.15},
      url = {https://doi.org/10.11648/j.ijaas.20200604.15},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijaas.20200604.15},
      abstract = {Cassava (Manihot esculenta Crantz.) a staple food assumes a significant role in solving food security issues in Africa. The various uses of the root include the production of starch, cassava chips, gari, flour, and ethanol. A few days after harvest, the roots begin to decay as a result of wounds or microbial contaminations. Because of the high perishability nature of the crop, a few techniques have been employed over the ages to prolong the crop shelf life. This paper surveys the postharvest storage of fresh cassava roots by delving into techniques such as In–field storage, Heap storage, Clamp storage, and Box storage. In present-day time peeled cassava can likewise be cold stored in a deep freezer. The in-field storage technique stores the root for an extra one year yet anyway diminishes the profitability of the land as it cannot be utilized for new harvests. Heap storage under shade trees normally balances the temperature happening during the day and along these lines shielding the tubers from overheating. Notwithstanding, stacking of the produce brings about poor ventilation thereby resulting in a fast spread of decays among the roots. For effective clamp storage, thicker soil cover might be utilized to decrease the temperature in the clamp during hot - dry conditions while care ought to be taken from keeping the roots from getting wet inside the clamp during the wet seasons. For successful box storage, the packing material ought to be moist to maintain high humidity yet not wet as this could produce microbial and mold development.},
     year = {2020}
    }
    

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  • TY  - JOUR
    T1  - Postharvest Storage Techniques for Cassava Roots in Ghana- A Review
    AU  - Evans Ntim Amedor
    AU  - John Yao Afetsu
    AU  - Robert Akayim Awasina
    AU  - Wisdom Korang Obeng
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    JF  - International Journal of Applied Agricultural Sciences
    JO  - International Journal of Applied Agricultural Sciences
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    EP  - 83
    PB  - Science Publishing Group
    SN  - 2469-7885
    UR  - https://doi.org/10.11648/j.ijaas.20200604.15
    AB  - Cassava (Manihot esculenta Crantz.) a staple food assumes a significant role in solving food security issues in Africa. The various uses of the root include the production of starch, cassava chips, gari, flour, and ethanol. A few days after harvest, the roots begin to decay as a result of wounds or microbial contaminations. Because of the high perishability nature of the crop, a few techniques have been employed over the ages to prolong the crop shelf life. This paper surveys the postharvest storage of fresh cassava roots by delving into techniques such as In–field storage, Heap storage, Clamp storage, and Box storage. In present-day time peeled cassava can likewise be cold stored in a deep freezer. The in-field storage technique stores the root for an extra one year yet anyway diminishes the profitability of the land as it cannot be utilized for new harvests. Heap storage under shade trees normally balances the temperature happening during the day and along these lines shielding the tubers from overheating. Notwithstanding, stacking of the produce brings about poor ventilation thereby resulting in a fast spread of decays among the roots. For effective clamp storage, thicker soil cover might be utilized to decrease the temperature in the clamp during hot - dry conditions while care ought to be taken from keeping the roots from getting wet inside the clamp during the wet seasons. For successful box storage, the packing material ought to be moist to maintain high humidity yet not wet as this could produce microbial and mold development.
    VL  - 6
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