Abstract
Modern crop production is characterized by high nitrogen (N) application rates, which can influence the co-limitation of harvested yield by other nutrients. Using a multidimensional niche volume concept and scaling exponents frequently applied in plant ecological research, we report that increased N and phosphorus (P) uptake in a growing wheat crop along with enhanced grain biomass is associated with more than proportional increase of other nutrients. Furthermore, N conversion efficiency and grain yield are strongly affected by the magnesium (Mg) to P ratio in the growing crop. We analyzed a field trial in Central Sweden including nine wheat varieties grown during two years with contrasting weather, and found evidence for Mg co-limitation at lower grain yields and P co-limitation at higher yields. We argue that critical concentrations of single nutrients, which are often applied in agronomy, should be replaced by nutrient ratios. In addition, links between plant P and Mg contents and root traits were found; high root number enhanced the P:N ratio, whilst steep root angle, indicating deep roots, increased the Mg:N ratio. The results have significant implications on the management and breeding targets of agriculturally grown wheat, which is one of the most important food crops worldwide.
Highlights
Modern crop production is characterized by high nitrogen (N) application rates, which can influence the co-limitation of harvested yield by other nutrients
Focusing on many nutrient elements, a niche volume concept was applied to various plants including wheat to analyze the relationships between the vegetative tissue concentrations of N and P and the concentrations of other macro nutrients (VOth)[9]
It has been shown that the vertical distribution in soil varies between nutrient elements; e.g., P has often a shallower vertical distribution than Mg26, suggesting that increased Mg uptake possibly could be associated with deeper roots whilst increased topsoil rooting may enhance P a cquisition[27]
Summary
Modern crop production is characterized by high nitrogen (N) application rates, which can influence the co-limitation of harvested yield by other nutrients. Using a multidimensional niche volume concept and scaling exponents frequently applied in plant ecological research, we report that increased N and phosphorus (P) uptake in a growing wheat crop along with enhanced grain biomass is associated with more than proportional increase of other nutrients. The combined analysis of scaling exponents, root characteristics and grain yields offers a unique possibility to establish links between nutrient availability in soil, plant root characteristics, element proportions beyond N and P, plant growth and grain yield. The major aim of this study was to relate the proportional changes in the vegetative tissue concentrations of some macro (Ca, K, Mg, S) and micro nutrients (Cu, Fe, Mn, Zn) based on the concentrations of N and P (reflected by scaling exponents) to grain yields and N conversion efficiency. Published element concentration and grain yield data from additional Swedish winter wheat trials[19] were used to validate the results for a different crop type (winter wheat), soils and fertilization conditions
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