Optimizing nitrogen economy under drought: Increased leaf nitrogen is an acclimation to water stress in willow (Salix spp.)

Abstract

Background and Aims: The major objective was to identify plant traits functionally important for optimization of shoot growth and nitrogen (N) economy under drought. Although increased leaf N content (area basis) has been observed in dry environments and theory predicts increased leaf N to be an acclimation to drought, experimental evidence for the prediction is rare. • Methods: A pedigree of 200 full-sibling hybrid willows was pot-grown in a glasshouse in three replicate blocks and exposed to two water regimes for 3 weeks. Drought conditions were simulated as repeated periods of water shortage. The total leaf mass and area, leaf area efficiency (shoot growth per unit leaf area, E A), area-based leaf N content (N A), total leaf N pool (N L) and leaf N efficiency (shoot growth per unit leaf N, E N) were assessed. • Key Results: In the water-stress treatment, shoot biomass growth was N limited in the genotypes with low N L, but increasingly limited by other factors in the genotypes with greatest N L. The N A was increased by drought, and drought-induced shift in N A varied between genotypes (significant G × E). Judged from the E A-N A relationship, optimal N A was 16% higher in the water-stress compared with the well-watered treatment. Biomass allocation to leaves and shoots varied between treatments, but the treatment response of the leaf: shoot ratio was similar across all genotypes. • Conclusions: It is concluded that N-uptake efficiency and leaf N efficiency are important traits to improve growth under drought. Increased leaf N content (area basis) is an acclimation to optimize N economy under drought. The leaf N content is an interesting trait for breeding of willow bioenergy crops in a climate change future. In contrast, leaf biomass allocation is a less interesting breeding target to improve yield under drought. © The Author 2011.