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Evaluation of six cultivars of white yam (Dioscorea rotundata) across three yam-growing areas in southeastern Nigeria

Published online by Cambridge University Press:  27 March 2009

C. L. A. Asadu ,
F. O. R. Akamigbo ,
F. I. Nweke  and
H. C. Ezumah
C. L. A. Asadu
Affiliation:
Department of Soil Science, University of Nigeria, Nsukka, Nigeria
F. O. R. Akamigbo
Affiliation:
Department of Soil Science, University of Nigeria, Nsukka, Nigeria
F. I. Nweke
Affiliation:
International Institute of Tropical Agriculture (IITA), Ibadan, Nigeria
H. C. Ezumah
Affiliation:
International Institute of Tropical Agriculture (IITA), Ibadan, Nigeria
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Summary

A split split-plot experiment was conducted in the 1986 and 1987 cropping seasons in three major yam-growing areas in southeastern Nigeria to assess the performance and yield stability of six cultivars of white yam (Dioscorea rotundata Poir). Location, fertilizer and cultivar, as well as some of their interaction effects, significantly affected tuber yields.

The best location for yam production, based on the overall performance of the cultivars, was the sub-humid Guinea savanna, followed by the humid forest-regrowth and then the transitional forestsavanna zone. Except for two cultivars, which performed best in their source locations, all other cultivars yielded best at a different location. Thus, at present, these cultivars are not grown in those areas to which they are best suited. This makes it desirable to test exogenous cultivars in new areas. In terms of yield stability, however, the two cultivars originating from the humid forest-regrowth area gave the most stable yields across the three diverse environments considered. Although they did not give the highest tuber yields at all the locations, their overall yields were above the mean yields forall the cultivars. The most suitable cultivars were recommended for each ecological zone, on the basis of the observed interaction effects.

Type
Crops and Soils
Information
The Journal of Agricultural Science , Volume 127 , Issue 4 , December 1996 , pp. 463 - 468
Copyright
Copyright © Cambridge University Press 1996

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References

REFERENCES

Asadu, C. L. A. (1989). A comparative study and evaluation of yam-zone soils and the performance of six cultivars of white yam (D. rotundata) in southeastern Nigeria. PhD thesis. University of Nigeria, Nsukka.Google Scholar
Asadu, C. L. A., Akamigbo, F. O. R., Ezumah, H. C. & Nweke, F. I. (1990 a). The characterization of selected yam-growing soils in southeastern Nigeria. I: Physical and morphological properties. Nigerian Agricultural Journal 24, 5569.Google Scholar
Asadu, C. L. A., Akamigbo, F. O. R., Ezumah, H. C. & Nweke, F. I. (1990 a). The characterization of selected yam-growing soils in southeastern Nigeria. II: Chemical and mineralogical properties. Nigerian Agricultural Journal 24, 6986.Google Scholar
Bacusmo, J. A., Collins, W. W. & Jones, U. (1988). Comparison of methods of determining stability and adaptation of sweet potato. Theoretical and Applied Genetics 75, 492497.CrossRefGoogle Scholar
Coursey, D. G. (1967). Yams. London: Longman Green Co.Google Scholar
Finlay, K. W. & Wilkinson, G. N. (1963). The analysis of adaptation in a plant-breeding programme. Australian Journal of Agricultural Research 14, 742754.CrossRefGoogle Scholar
Hildebrand, P. E. (1984). Modified stability analysis of farmer managed, on-farm trials. Agronomy Journal 76, 271274.CrossRefGoogle Scholar
Kamprath, E. J. (1973). Phosphorus. A review of soils research in tropical Latin America (Ed.) Sanchez, P. A., North Carolina Agricultural Experimental Station Technical Bulletin 219, 138161.Google Scholar
Koli, S. E. (1973). The response of yam (Dioscorea rotundata) to fertilizer application in Northern Ghana. Journal of Agricultural Science, Cambridge 80, 245249.CrossRefGoogle Scholar
Nweke, F. I., Ugwu, B. O., Asadu, C. L. A. & Ay, P. (1991). Production costs in the yam-based cropping systems of southeastern Nigeria. Resource and Crop Management Programme Research Monograph No. 6. Ibadan, Nigeria: International Institute of Tropical Agriculture.Google Scholar
Obigbesan, G. O. & Agboola, A. A. (1978). Uptake and distribution of nutrients by yams (Dioscorea spp.) in western Nigeria. Experimental Agriculture 14, 349355.CrossRefGoogle Scholar
Sanchez, P. A. (1976). Properties and Management of Soils in the Tropics. New York: John Wiley and Sons.Google Scholar