Sameh Sassi-Aydi scite author profile

The nitrogen (N) requirement of legumes can be met by inorganic N assimilation and symbiotic N2 fixation. Both N assimilation routes have diverse influences on drought tolerance because of the differences in the use of energy and the reduction in power characteristics of those pathways. We investigated N nutrition under osmotic stress and likely criteria conferring tolerance to osmotic stress in common bean. Osmotic stress tolerance in a drought-sensitive common bean cultivar (Coco blanc) was compared with beans relying on N nutrition, N2 fixation, or fertilization with urea. Osmotic stress was applied by means of 25 (mild stress), 50 (moderate stress), or 75 (severe stress) mm mannitol for 15 days. At the end of the stress period, relative water content, total N contents, total soluble sugars, total chlorophyll, total protein, and potassium were assayed. Urea-fed plants grew better and had better tolerance to osmotic stress. This was attributed to maintaining higher N use efficiency, better leaf hydration, and adequate osmoregulation.

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Inoculation with the nativeRhizobium gallicum8a3 improves osmotic stress tolerance in common bean drought-sensitive cultivar

Sassi-Aydi¹,

Aydi²,

Abdelly³

2012

Acta Agriculturae Scandinavica, Section B - Soil & Plant Sc

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Sameh Sassi-Aydi

Effect of salt stress on photosynthesis and chlorophyll fluorescence in Medicago truncatula

Inorganic Nitrogen Nutrition Enhances Osmotic Stress Tolerance in Phaseolus vulgaris: Lessons from a Drought-sensitive Cultivar

Inoculation with the nativeRhizobium gallicum8a3 improves osmotic stress tolerance in common bean drought-sensitive cultivar

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