Abstract

ABSTRACT NH4 + nutrition has emerged as an effective approach to generate salt tolerance in sorghum plants. Our hypothesis was that salt-tolerance mechanisms in NH4 +-grown sorghum are related to rapid absorption and assimilation of NH4 + as well as favorable K+ uptake. Sorghum plants were grown in nutrient solutions containing NO3 − or NH4 + and subjected to NaCl at 75 mM. Under control conditions, K+ uptake was more pronounced in NO3 − than that of NH4 +-fed plants. Under salinity, NH4 +-grown plants showed lower Na+ and higher K+ contents than NO3 –grown plants at 1 and 10 days after salt exposure, and thereby increased K+/Na+ ratio. The data indicate that NH4 + does not increase K+ uptake under salt stress conditions, but decrease the K+ efflux and maintain an elevated K+/Na+ ratio in tissues. In parallel, sorghum plants displayed elevated NH4 + uptake, evidenced by higher Vmax for NH4 +, assimilating a higher amount of NH4 + into amino acids in roots; whereas NO3 −-fed plants accumulated NH4 + in the shoot. In conclusion, NH4 +-fed salt-stressed sorghum plants maintain favorable K+/Na+ homeostasis due to greater retention of K+ in tissues together with restricting control of Na+ accumulation and transport. S. bicolor face to NH4 + toxicity by activating mechanisms for rapid inorganic N-assimilation.

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