Some lowland farmers of eastern Harerghe survive with some grain support from government and different NGOs due to shortage of rainfall and prevalence of drought. In Harerghe, intercropping is well practiced and most of farmers intercrop Khat with sorghum and groundnut, but single production per year. To these gaps the experiment was proposed and conducted under rainfed conditions at Fedis Agricultural Research Center of Oromia Agricultural Research Institute (OARI) at Boko sub-site, eastern Ethiopia to determine the compatibility of crops in double cropping system and efficient land use for the component crops. Experimental was conducted in two phases: cassava (Variety Kello) with legumes (soybean, haricot bean and cowpea) and cassava based sorghum varieties (Hormat, Gedo and Birhan) in one cropping season. The treatments were arranged as intercropping and sole cropping. A total of 7 treatments for preceding and 7 treatments for cassava-based succeeding treatments were arranged in completely randomized block design with three replications. Variety Kello was used for the experiment. The results revealed that there were significant (P<0.05) differences for cassava average root weight, number of roots per plant, root diameter and root yield due to cassava-legumes intercropping. Soybean-cassava intercropping increased average root weight, root numbers and root enlargement of cassava by 39, 33.6 and 27.7% as compared to cassava- cowpea intercropping. Cowpea intercropping in cassava was significantly affected cassava root yield as compared to other legumes intercrop. Cassava-soybean intercropping was increased root yield by 41.7 and 21.3% as compared to cassava-cowpea and cassava-haricot bean, respectively. Cassava-soybean intercropping improved land use efficiency by 16.4 and 19.3% as compared to cassava-cowpea and cassava-haricot bean intercropping, respectively. Accordingly, pure stands could required 74, 40 and 46% more land i.e. the mixture cropping gives 74, 40 and 46% yield advantage, for soybean, haricot bean and cowpea, respectively, as intercropped in cassava than the pure stand. Following the harvest of legumes, sorghum was sown as double crop for additional yield advantage. The highest organic matter and total nitrogen was recorded for the pure stand plot of cassava followed by cassava-soybean intercropping. Therefore, from this result view, cassava-soybean intercropping following cassava-based early maturing sorghum was recommended for the study area and similar agro ecologies.
| Published in | Plant (Volume 8, Issue 2) |
| DOI | 10.11648/j.plant.20200802.13 |
| Page(s) | 37-42 |
| 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 |
Cassava, Cowpea, Haricot Bean, Intercropping, Sorghum, Soybean
| [1] | Abbott, T. S. (Ed.) (1989). BCRI soil testing methods and interpretation. NSW Agriculture and Fisheries, Rydalmere, NSW. |
| [2] | Allem, A. C. 2002. The origin and taxonomy of cassava. In: R. J. Hillocks, M. J. Boulder (Eds.). CO, USA, p. 191. |
| [3] | Alves, A. A. A. 2002. Cassava botany and physiology. In: R. J. Hillock, J. M. Thresh, A. C. Bellotti (Eds). Cassava: Biology, Production and Utilization, CABI International Oxford, pp. 67-89. |
| [4] | Balasubramanian, V. and Sekayange, L. 1990. Area harvest equivalency ratio for measuring efficiency in multi-season intercropping. Journal of Agronomy, 82: 519-522. |
| [5] | Cock, J. H. 1985. Cassava: New potential for a neglected crop. West view Press, R. J. Hillock, J. M. Thresh, A. C. Bellotti (Eds). Cassava: Biology, Production and Utilization, CABI International, Oxford, pp. 1-16. |
| [6] | Dapaah, H. K., Asafu-Agyei, J. N., Ennin, S. A., Yamoah, C., 2003. Yield stability of cassava, maize, soya bean and cowpea intercrops. J. Agric. Sci. 140, 73–82. |
| [7] | Edje, O. T. 1982. Comparative development and yield and other agronomic characteristics of maize and groundnut in monoculture and association. In: Proceedings of the 2nd symposium on intercropping in semi-arid areas. Keswani, C. I. and Ndurguru, B. J. (eds), PP. 401. Morongoro, Tanzania. |
| [8] | Emerson, W. W. (1991). Structural decline of soil, assessment and prevention. Australian Journal of Soil Research 29, 905–922. |
| [9] | Ennin, S. A., Dapaah, H. K., 2008. Legumes in sustainable maize and cassava cropping systems in Ghana. Agric. Food Sci. J. Ghana 7, 519–540. |
| [10] | Food and Agricultural Organization (FAO). 1999. Crops and products and domain. Available online at: www.apps.fao.org/lim500/nph-wrap.pl FS. |
| [11] | Gebisa Benti and Gezu Degefa, 2017. "Performance Evaluation and palatability taste of cassava varieties in Fedis and Babile districts, Eastern, Ethiopia”, International Journal of Current Research, 9, (04), 48570-48575. |
| [12] | Holford, I. C. R., and Cullis, B. R. 1985. Effects of phosphate buffer capacity on yield response curvature and fertiliser requirements of wheat in relation to soil phosphate tests. Australian Journal of Soil Research 23, 417–427. |
| [13] | IITA. 1990. Cassava in Tropical Africa. A References Manual International Institute of Tropical Agriculture. Ibadan, Nigeria, 176 PP. |
| [14] | Isola. O. T. 1998. Effects of cassava planting patterns, pruning regimes and fertilizers on growth and yield of cassava/maize/melon and relayed cowpea. A PhD Thesis. Department of Agronomy, University of Ibadan, Nigeria: 189 pp. |
| [15] | Keating, B. A., Evenson, J. P., and Fukai, S. 1982. Environmental effects on growth and development of cassava (Manihotesculenta Crantz). III. Assimilated distribution and storage organ yield. Field Crops Res. 5: 293-303. |
| [16] | Mead, R. and Willey, R. W. 1980. The concept of a ‘land equivalent ratio’ and advantages in yield from intercropping. Experimental Agriculture, 16, 217-218. |
| [17] | Mason, S. C., Leihner, D. E., and Vorst, J. J. 1986. Cassava with cowpea; and cassava with peanut intercropping. I. Yield and land use efficiency. Journal of Agronomy. 78: 43-46. |
| [18] | Neumann, I. F. 1984. La promotion des cultures associees au projet. Etudes et Experiences, No. 4: 80 pp. |
| [19] | Nyabyenda, P. 1983. Association de patatedouce et du manioc avec d'autrea cultures. In Culture et Selection du Manioc et de Patate Douce au Rwanda, 1983, Ndamage, G. et al., eds. Compterendu, Rwanda, Institut des Sciences Agronomiques du Rwanda, pp. 66-67. |
| [20] | Ogola, B. O., Mathews, C. and Magongwa, S. M. 2013. The productivity of cassava-legume intercropping system in a dry environment in Nelspruit, South Africa. African Crop Science Conference Proceedings, Vol. 11. pp. 61-65. |
| [21] | Oguzor, N. S. 2007. Effect of planting methods on growth of cassava. Research Journals of Biological Sciences 2: 590-592. |
| [22] | Okigbo, B.N. 1982. Shifting cultivation in tropical Africa: Definition and Description. In: Proceeding of International Workshop on shifting cultivation. Bunting, A. H. and Bunting. E. (eds). PP: 18-36. FAO, Rome. |
| [23] | Okonji, C. J., Okeleye, K. A., Olowe, V. I. O. & Ajayi, E. O. 2007. Potentials of intercropping rice (Orysa sativa L.) and cassava (Manihotesculenta Crantz.) of different morphotypes inthe transition zone of South West Nigeria. International Journal of Agricultural Research 2 (5), 476-482. |
| [24] | Papendick, R. I, Sanchez, P. A., Triplett, G. B. and Stelly, M. 1976. Multiple cropping. ASA, Special publication Madison, Wisconsin, USA, 376 PP. |
| [25] | Polthanee, A., Wanapat, S., Wanapat, M. and Wachirapokorn, C. 2007. Cassava-Legumes inter-cropping: A potential food-feed system for dairy farmers. Use of Cassava as Animal Feed, Khon Kaen University, Thailand. http://www.mekarn.org/procKK/polt.htm |
| [26] | Prabhakar, M. and Pillai, N. G. 1984. Multiple cropping systems with tuber crops. Indian Farming, 33: 25-28. |
| [27] | Sinclair, T. R. and Gardner, F. P. 1998. Principles of ecology in plant production. CAB ternational, Wallingford, UK. |
APA Style
Gebisa Benti, Gezu Degafa, Mohammed Jafar, Habte Birhanu. (2020). Effect of Cassava Intercropping with Legume Crops Followed by Sorghum on Growth, Yield and Yield Parameters of Cassava-Based Double Cropping System. Plant, 8(2), 37-42. https://doi.org/10.11648/j.plant.20200802.13
ACS Style
Gebisa Benti; Gezu Degafa; Mohammed Jafar; Habte Birhanu. Effect of Cassava Intercropping with Legume Crops Followed by Sorghum on Growth, Yield and Yield Parameters of Cassava-Based Double Cropping System. Plant. 2020, 8(2), 37-42. doi: 10.11648/j.plant.20200802.13
AMA Style
Gebisa Benti, Gezu Degafa, Mohammed Jafar, Habte Birhanu. Effect of Cassava Intercropping with Legume Crops Followed by Sorghum on Growth, Yield and Yield Parameters of Cassava-Based Double Cropping System. Plant. 2020;8(2):37-42. doi: 10.11648/j.plant.20200802.13
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Download@article{10.11648/j.plant.20200802.13,
author = {Gebisa Benti and Gezu Degafa and Mohammed Jafar and Habte Birhanu},
title = {Effect of Cassava Intercropping with Legume Crops Followed by Sorghum on Growth, Yield and Yield Parameters of Cassava-Based Double Cropping System},
journal = {Plant},
volume = {8},
number = {2},
pages = {37-42},
doi = {10.11648/j.plant.20200802.13},
url = {https://doi.org/10.11648/j.plant.20200802.13},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.plant.20200802.13},
abstract = {Some lowland farmers of eastern Harerghe survive with some grain support from government and different NGOs due to shortage of rainfall and prevalence of drought. In Harerghe, intercropping is well practiced and most of farmers intercrop Khat with sorghum and groundnut, but single production per year. To these gaps the experiment was proposed and conducted under rainfed conditions at Fedis Agricultural Research Center of Oromia Agricultural Research Institute (OARI) at Boko sub-site, eastern Ethiopia to determine the compatibility of crops in double cropping system and efficient land use for the component crops. Experimental was conducted in two phases: cassava (Variety Kello) with legumes (soybean, haricot bean and cowpea) and cassava based sorghum varieties (Hormat, Gedo and Birhan) in one cropping season. The treatments were arranged as intercropping and sole cropping. A total of 7 treatments for preceding and 7 treatments for cassava-based succeeding treatments were arranged in completely randomized block design with three replications. Variety Kello was used for the experiment. The results revealed that there were significant (P<0.05) differences for cassava average root weight, number of roots per plant, root diameter and root yield due to cassava-legumes intercropping. Soybean-cassava intercropping increased average root weight, root numbers and root enlargement of cassava by 39, 33.6 and 27.7% as compared to cassava- cowpea intercropping. Cowpea intercropping in cassava was significantly affected cassava root yield as compared to other legumes intercrop. Cassava-soybean intercropping was increased root yield by 41.7 and 21.3% as compared to cassava-cowpea and cassava-haricot bean, respectively. Cassava-soybean intercropping improved land use efficiency by 16.4 and 19.3% as compared to cassava-cowpea and cassava-haricot bean intercropping, respectively. Accordingly, pure stands could required 74, 40 and 46% more land i.e. the mixture cropping gives 74, 40 and 46% yield advantage, for soybean, haricot bean and cowpea, respectively, as intercropped in cassava than the pure stand. Following the harvest of legumes, sorghum was sown as double crop for additional yield advantage. The highest organic matter and total nitrogen was recorded for the pure stand plot of cassava followed by cassava-soybean intercropping. Therefore, from this result view, cassava-soybean intercropping following cassava-based early maturing sorghum was recommended for the study area and similar agro ecologies.},
year = {2020}
}
TY - JOUR T1 - Effect of Cassava Intercropping with Legume Crops Followed by Sorghum on Growth, Yield and Yield Parameters of Cassava-Based Double Cropping System AU - Gebisa Benti AU - Gezu Degafa AU - Mohammed Jafar AU - Habte Birhanu Y1 - 2020/07/30 PY - 2020 N1 - https://doi.org/10.11648/j.plant.20200802.13 DO - 10.11648/j.plant.20200802.13 T2 - Plant JF - Plant JO - Plant SP - 37 EP - 42 PB - Science Publishing Group SN - 2331-0677 UR - https://doi.org/10.11648/j.plant.20200802.13 AB - Some lowland farmers of eastern Harerghe survive with some grain support from government and different NGOs due to shortage of rainfall and prevalence of drought. In Harerghe, intercropping is well practiced and most of farmers intercrop Khat with sorghum and groundnut, but single production per year. To these gaps the experiment was proposed and conducted under rainfed conditions at Fedis Agricultural Research Center of Oromia Agricultural Research Institute (OARI) at Boko sub-site, eastern Ethiopia to determine the compatibility of crops in double cropping system and efficient land use for the component crops. Experimental was conducted in two phases: cassava (Variety Kello) with legumes (soybean, haricot bean and cowpea) and cassava based sorghum varieties (Hormat, Gedo and Birhan) in one cropping season. The treatments were arranged as intercropping and sole cropping. A total of 7 treatments for preceding and 7 treatments for cassava-based succeeding treatments were arranged in completely randomized block design with three replications. Variety Kello was used for the experiment. The results revealed that there were significant (P<0.05) differences for cassava average root weight, number of roots per plant, root diameter and root yield due to cassava-legumes intercropping. Soybean-cassava intercropping increased average root weight, root numbers and root enlargement of cassava by 39, 33.6 and 27.7% as compared to cassava- cowpea intercropping. Cowpea intercropping in cassava was significantly affected cassava root yield as compared to other legumes intercrop. Cassava-soybean intercropping was increased root yield by 41.7 and 21.3% as compared to cassava-cowpea and cassava-haricot bean, respectively. Cassava-soybean intercropping improved land use efficiency by 16.4 and 19.3% as compared to cassava-cowpea and cassava-haricot bean intercropping, respectively. Accordingly, pure stands could required 74, 40 and 46% more land i.e. the mixture cropping gives 74, 40 and 46% yield advantage, for soybean, haricot bean and cowpea, respectively, as intercropped in cassava than the pure stand. Following the harvest of legumes, sorghum was sown as double crop for additional yield advantage. The highest organic matter and total nitrogen was recorded for the pure stand plot of cassava followed by cassava-soybean intercropping. Therefore, from this result view, cassava-soybean intercropping following cassava-based early maturing sorghum was recommended for the study area and similar agro ecologies. VL - 8 IS - 2 ER -
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