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Seed-size effects on lentil (Lens culinaris) yield potential and adaptation to temperature and rainfall in West Asia

Published online by Cambridge University Press:  27 March 2009

W. Erskine
W. Erskine
Affiliation:
International Center for Agricultural Research in the Dry Areas (ICARDA), PO Box 5466, Aleppo, Syria
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Summary

Among lentil-growing regions, it is only in West Asia that both large-seeded, yellow cotyledon and small-seeded, red cotyledon lentil (Lens culinaris Medikus) are grown by farmers. This study examined the adaptation to temperature and rainfall of the two seed-size groups in West Asia; first in germplasm evaluated in Syria in the 1978/79 and 1979/80 seasons and assessed for cold susceptibility in Turkey in the 1979/80 season, and second in breeding lines over the decade 1984–93 at three sites in West Asia.

Large-seeded material consistently had a longer reproductive growth period than the small-seeded group by 2·8 days, an extended period being required to fill its greater seed mass per pod. In the breeding material, the large-seeded group consistently produced taller plants and more straw than the smaller seeded-group. Germplasm with large seeds was less susceptible to winter cold than that with small seeds. Additionally, in the breeding material there was an advantage in seed yield of the largeseeded group over the small seeds in average temperatures < 10 °C from January to April, with the converse true at higher temperatures. In the breeding material, the large-seeded group showed an advantage in seed yield over their small-seeded counterparts at the two wetter sites, whereas the smallseeded group was better adapted to dry environments. Based on this adaptation, the potential of some regions currently growing exclusively large-seeded lentil for producing the other seed type is emphasised.

Type
Crops and Soils
Information
The Journal of Agricultural Science , Volume 126 , Issue 3 , May 1996 , pp. 335 - 341
Copyright
Copyright © Cambridge University Press 1996

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References

REFERENCES

Abbo, S., Ladizinsky, G. & Weeden, N. F. (1992). Genetic analysis and linkage study of seed weight in lentil. Euphytica 58, 259266.CrossRefGoogle Scholar
Bakhsh, A. (1992). Genetic analysis of seed characters in lentil (Lens culinaris). PhD thesis, University of East Anglia, Norwich.Google Scholar
Barulina, H. (1930). Lentil of the USSR and other countries. Trudy po Prikladnoi Botaniki, Genetiki i Selektsii, Prilozjenie 40, 1319 (English summary).Google Scholar
Erskine, W. & Witcombe, J. R. (1984). Lentil Germplasm Catalog. Aleppo, Syria: International Center for Agricultural Research in the Dry Areas (ICARDA).Google Scholar
Erskine, W., Myveci, K. & Izgin, N. (1981). Screening a world lentil collection for cold tolerance. LENS Newsletter 8, 58.Google Scholar
Erskine, W., Adham, Y. & Holly, L. (1989). Geographic distribution of variation in quantitative traits in a world lentil collection. Euphytica 43, 97103.CrossRefGoogle Scholar
Federer, W. T. (1956). Augmented (or hoonuiku) designs. Hawaii Planters Records 55, 191208.Google Scholar
Haddad, N., Bogyo, T. P. & Muehlbauer, F. J. (1982). Genetic variance of six agronomic characters in three lentil (Lens culinaris Medic.) crosses. Euphytica 31, 113120.CrossRefGoogle Scholar
Silim, S. N., Saxena, M. C. & Erskine, W. (1993). Adaptation of lentil to the Mediterranean environment. I. Factors affecting yield under drought conditions. Expertmental Agriculture 29, 919.Google Scholar
Solh, M. (1980). Classification of large and small-seeded lentils by seed weight. LENS Newsletter 7, 23.Google Scholar
Williams, P. C., El Haramein, F. J., Nakkoul, H. & Rihawi, S. (1986). Crop Quality Evaluation Methods and Guidelines. Technical Manual No. 14. Aleppo, Syria: International Center for Agricultural Research in the Dry Areas (ICARDA).Google Scholar
Williams, P. C., & Erskine, W. & Singh, U. (1993). Lentil processing. LENS Newsletter 20, 313.Google Scholar
Wilson, V. E., Law, A. G. & Warner, R. L. (1970). Inheritance of cotyledon color in Lens culinaris (Medic). Crop Science 10, 205207.CrossRefGoogle Scholar