Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-20T07:24:08.870Z Has data issue: false hasContentIssue false

Rainfall and temperature effects on lentil (Lens culinaris) seed yield in Mediterranean environments

Published online by Cambridge University Press:  27 March 2009

W. Erskine
Affiliation:
International Center for Agricultural Research in the Dry Areas (ICARDA), PO Box 5466, Aleppo, Syria
F. El Ashkar
Affiliation:
Agriculture Research Centre, Ministry of Agriculture and Agrarian Reform, Douma, Syria

Summary

Lentil (Lens culinaris Medikus) is a rain-fed crop in North Africa and West Asia whose yields are limited by the amount and distribution of rainfall and winter cold. This study aimed to quantify the effects of climatic variables on lentil seed yields through the fitting of simple empirical models to trial data of two cultivars sown at six sites, 1983–89, representing 31 environments in Syria. The ranges over environments were 152–527 mm for total season rainfall and 1–52 for the number of frost nights. Overall, the total seasonal rainfall accounted for 40·8% of the variance in mean seed yield (1·27 t//ha, S.D. 0·82) with a response of 5·68 kg/ha/mm. A multiple regression model with monthly rainfall from November to May explained 67·6;0% of the variance in mean seed yield. From November to February the response of seed yield to rain was < 10 kg/ha/mm; rain in March, the period of late vegetative growth, made the most important contribution to seed yield. The response to April rain was negative. At Tel Hadya (the most frequently used site), the total seasonal rainfall accounted for 79·8% of the variance in mean seed yield, and the addition of the number of frost nights to the model improved the fit to 92·7%. Winter cold had a smaller effect on yield than rainfall, with no consistent overall effect, but differences over regions. The cultivars contrasted in their responses to drought (78S26002 was superior to ILL4400 at seasonal rainfall levels down to 134 mm) and the number of frost nights at Breda and Tel Hadya (78S26002 was more susceptible to cold than ILL4400). Thus, despite the predominant influence of rainfall on yield, the genetic variability in response to moisture and cold shows the scope for selection under rainfed Mediterranean environments.

Type
Crops and Soils
Copyright
Copyright © Cambridge University Press 1993

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Bisen, C. R., Tomar, S. S., Shivamurthy, R. B. & Kashyap, M. L. (1980). Response of lentil (Lens esculenta) to rhizobium inoculation and fertilization under different moisture regimes. Mysore Journal of Agricultural Science 14, 483486.Google Scholar
Hadjichristodoulou, A. (1978). Genotype, environment and rainfall effects on common vetch varieties in a semiarid region. Experimental Agriculture 14, 8187.CrossRefGoogle Scholar
International Center for Agricultural Research in the Dry Areas (1990). Food Legume Improvement Program Annual Report for 1989. Aleppo, Syria: ICARDA.Google Scholar
Matar, A. E. (1976). Yield response of cereal to phosphorus fertilization under changing rainfall conditions. Soil Science P-3. Douma, Syria: Arab Center for Studies of the Arid Zones and Dry Lands (ACSAD).Google Scholar
Mulitze, D., Malhotra, R. S. & Goldsworthy, P. (1987). Relating production and environment: the international nursery networks. In Agricultural Environments – characterization, classification and mapping (Ed. Bunting, A. H.), pp. 8596. Wallingford: CAB International.Google Scholar
Poulain, D., Le Guen, J. & Keller, S. (1990). Influence des facteurs climatiques sur le rendement de la féverole(Vicia faba L. var. ‘Ascott’) et ses composantes. Agricultural and Forest Meteorology 52, 397414.CrossRefGoogle Scholar
Rahman, S. M., Alam, M. S. & Ahmed, M. (1983). Water relations and yield of two chickpea (Cicer arielinum) cultivars as influenced by different levels of irrigation. Thai Journal of Agricultural Science 16, 253265.Google Scholar
Silim, S. N., Saxena, M. C. & Erskine, W. (1991). Effect of sowing date on the growth and yield of lentil in a rainfall Mediterranean environment. Experimental Agriculture 27, 145154.CrossRefGoogle Scholar
Silim, S. N., Saxena, M. C. & Erskine, W. (1993). Adaptation of lentil on the Mediterranean environment. II. Response to moisture supply. Experimental Agriculture 29, 2128.CrossRefGoogle Scholar