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Effet du stress salin sur la croissance des légumineusesAgronomie RESUMELes effets de la salinité sur la croissance des organes de cinq espèces légumineuses ont été évalués afin d'identifier celles susceptibles d'être cultivées sur des terres plus ou moins salées. 4 niveaux de salinité (0, 50, 100 et 200 mM de NaCl) ont été testés. Ainsi, l'augmentation de la salinité entraîne chez Glycine max et Phaseolus vulgaris (glycophytes sensibles) la baisse de la biomasse sèche dès 50 mM de NaCl. Chez Mucuna poggei (halophyte facultative) et Vigna unguiculata (glycophyte moyennement tolérante) cette baisse s'observe dès 100 mM de NaCl. L'inhibition de la croissance des glycophytes sensibles est liée à une diminution de la consommation d'eau en milieu salé. Le blocage de Na + dans les racines représente le principal facteur responsable du déficit hydrique des feuilles. Chez Phaseolus adenanthus (halophyte), la production de matière sèche foliaire est peu affectée par la salinité. La résistance de cette espèce à NaCl s'explique par un bon cheminement du flux hydrique vers les feuilles, facilité par une augmentation des teneurs en Na + et K + dans le sens racines, tiges et feuilles. Par ailleurs, au niveau des feuilles la déficience en K + est liée à la salinité du milieu, qui limite la croissance chez les espèces étudiées. La tolérance de V. unguiculata, M. poggei, et P. adenanthus vis-à-vis du sel permet d'envisager leur utilisation sur des terres marginales plus ou moins salées.Mots clés : stress salin, légumineuses, croissance, distribution ionique, Cameroun. ABSTRACT SALT STRESS RESPONSE VARIATION IN FIVE LEGUMINOUS PLANTS In order to determine leguminous plants able to be used as pioneer plant species on more or less saline areas, effects of NaCl concentrations on the growth of organs of five leguminous wild or cultivated plants were evaluated. Plants were submitted to 4 levels of salt stress at the roots (0, 50, 100 and 200 mM of NaCl). The increase in salt concentration greatly reduces the production of dry mater at 50 mM of NaCl in Glycine max and Phaseolus vulgaris (sensitive glycophytes). In Mucuna poggei (facultative halophyte) and

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Changes in growth and nutrient uptake in response to foliar application of sodium and calcium chloride in cowpea cultivars (Vigna unguiculata L. Walp)

Taffouo¹,

Sondi²,

Meguekam³

et al. 2014

Afr. J. Biotechnol.

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Salinity effect on seedling growth, water, sodium and potassium distributions in the mangrove species (<i>Avicennia germinans</i> L. (Avicenniaceae)) in semi controlled conditions.

Taffouo¹,

Fonkou²,

Kenné³

et al. 2009

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The effect on plant growth of NaCl concentrations in soil, under semi-controlled conditions, water content and monovalent cations (Na + and K +) distributions in seedlings of Avicennia germinans were studied. After 4 weeks of growth, results show that NaCl affected leaf growth more than roots and stems. For the two lower vegetal organs, 100 mmoles of NaCl brought about a significant increase in plant growth. A high retention rate of Na was noted in seedling epicotyl axes, contributing in delaying young leaves proliferation and thereby, preventing the toxic effects of this ion. Mature leaves exhibited good adaptative behavior toward salinity stress by increasing succulence due to absorption of large quantities of water and K + in leaves. Potassium uptake in leaves was not found to be affected by NaCl concentration. As a consequence, monovalent cations adsorption resulted in an increase in the water contents of the plant organs. The high accumulation of K + in leaves of A. germinans show that this ion was the major element responsible for osmotic adjustment in leaf cells.

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OF Wamba

Growth, Yield, Water Status and Ionic Distribution Response of three Bambara Groundnut (Vigna subterranea (L.) Verdc.) Landraces Grown under Saline Conditions

Effects of Organic and Inorganic Nutrient Sources on the Growth, Total Chlorophyll and Yield of Three Bambara Groundnut Landraces in the Coastal Region of Cameroon

Variation De La Reponse Au Stress Salin Chez Cinq Especes De Legumineuses

Changes in growth and nutrient uptake in response to foliar application of sodium and calcium chloride in cowpea cultivars (Vigna unguiculata L. Walp)

Salinity effect on seedling growth, water, sodium and potassium distributions in the mangrove species (<i>Avicennia germinans</i> L. (Avicenniaceae)) in semi controlled conditions.

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