Karima Samir scite author profile

One of the common features of the Mediterranean climate in North Africa is the uncertainty of rainfall immediately after wheat (Triticum durum Desf) emerges. Relatively little work has been done to compare the drought resistance of spring durum wheat cultivars under early-season drought stress. There is a limited insight into the physiological basis of spring durum wheat drought resistance in rainfed Mediterranean regions. Field experiments were conducted in 1995 and 1996 growing seasons, and a greenhouse experiment was conducted in 1996 to examine differences in some physiological characters among six spring durum wheat cultivars in response to different durations of early-season drought, and rewatering; and to determine the relationships of these characters to drought resistance. Six spring durum wheat cultivars were evaluated under four water regimes. Water regime treatments were: a well-irrigated treatment; and three water deficit treatments imposed during the period from emergence through either the onset of tillering, mid-tillering or the end of tillering. Cultivars differed widely in their response to early season water stress. Under drought stress conditions, grain yield, aboveground dry matter yield, water use efficiency for the grain (WUEg) and for the total dry matter (WUEdm) were strongly positively associated with net CO2 uptake:transpiration ratio (A/E), and osmoregulation capacity. It is concluded that drought-induced changes in A, A/E, stomatal resistance, and osmotic adjustment are possible key control points in determining the drought-resistance of a cultivar. Furthermore, there is a substantial degree of intraspecific variation for the above mentioned physiological attributes to explore as a selection tool. Selection for high osmoregulation capacity and high A/E ratio would seem to be a justifiable means of improving total dry matter and grain yield under conditions of early-season water stress. Key words: Wheat, Triticum durum Desf., physiological attributes, early-season drought

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Root and shoot growth, water use and water use efficiency of spring durum wheat under early-season drought

Hafid

Smith

Karrou

et al. 1998

Agronomie

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-One of the common features of the Mediterranean climate of North Africa is the uncertainty of rainfall immediately after durum wheat (Triticum durum Desf.) emergence, leading to early-season drought. Impacts of drought during wheat reproductive development have been thoroughly investigated, while studies of early-season drought are lacking. The objectives of the research reported here were to examine genotypic differences for some morphological traits in response to early-season drought, and to determine the association of these traits with water use, water use efficiency in producing grain (WUE ) and dry matter (WUE dm

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Genome wide association study of grain yield and yield related traits in spring bread wheat (Triticum aestivum L.) under drought and heat conditions in three different locations

Gataa

Hanafi²,

Basheer³

et al. 2021

J. Crop Sci. Biotechnol.

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Genome wide association and prediction studies of agronomic and quality traits in spring beard wheat (Triticum aestivum L.) under rain-fed environment with terminal moisture stress

Gataa¹,

Hanafi²,

Messoadi³

et al. 2021

Journal of Cereal Science

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Karima Samir

Physiological Responses of Spring Durum Wheat Cultivars to Early-season Drought in a Mediterranean Environment

Physiological attributes associated with early-season drought resistance in spring durum wheat cultivars

Root and shoot growth, water use and water use efficiency of spring durum wheat under early-season drought

Genome wide association study of grain yield and yield related traits in spring bread wheat (Triticum aestivum L.) under drought and heat conditions in three different locations

Genome wide association and prediction studies of agronomic and quality traits in spring beard wheat (Triticum aestivum L.) under rain-fed environment with terminal moisture stress

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