An essential approach to reduce drought in plants is to maximize the use of most limited available resources. The increase in water-use efficiency (WUE) is important to maximally utilize the available water to increase photosynthesis and growth of plants under water-deficit stress. Both WUE and photosynthetic nitrogen-use efficiency (PNUE), as the indices of resource-use efficiency were studied in mustard (Brassica juncea L.) plants grown under limited water conditions with low-N (100mgNkg−1 soil) and sufficient-N (200mgNkg−1 soil) and sprayed with 0 or 0.5mM salicylic acid (SA). Application of SA increased water potential, osmotic potential, WUE, and the incorporation of soil N into photosynthetic machinery by enhancing PNUE. It also increased photosynthesis of plants maximally by increasing stomatal conductance and intercellular CO2 concentration under water-deficit stress. This increase was greater in the presence of sufficient-N where 0.5mM SA maximally enhanced the N metabolism, redox ratio that mitigated the oxidative stress. The application of SA on plants supplemented with N reduced ethylene and abscisic acid (ABA) synthesis. It could be inferred that SA enhanced N utilization through increase in NUE when it is sufficiently available, increasing the GSH content to maintain redox ratio and inhibit ABA-mediated stomatal closure to enhance the resource utilization and photosynthesis. SA also enhanced glucose utilization which prevented glucose-mediated photosynthetic repression under stress. Thus, SA application may impart a potential management tool for increasing photosynthetic NUE, WUE, and photosynthesis under drought.

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