Interactions between nitrogen, phosphorus and potassium determine growth and N₂-fixation in white clover and ryegrass leys

Variations in yield, N₂ fixation and above-ground accumulation of nitrogen (N), phosphorus (P) and potassium (K) in white clover and ryegrass grown separately or in mixture were investigated under field conditions over two consecutive years at different supplies of N, P and/or K. Ryegrass-clover mix...

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Bibliographic Details
Published in:Nutrient cycling in agroecosystems 2010, Vol.87 (3), p.327-338
Main Authors: Høgh-Jensen, Henning, Schjoerring, Jan K
Format: Article
Language:English
Subjects:
Accumulation
Agriculture
biogeochemical cycles
Biomedical and Life Sciences
botanical composition
Clover
community ecology
Competition
Complementarity
crop yield
Deprivation
Dry matter
dry matter partitioning
Fixation
forage grasses
forage legumes
Grasses
Life Sciences
Lolium perenne
Nitrogen
nitrogen fertilizers
Nitrogen fixation
Nitrogenation
nutrient partitioning
nutrient uptake
nutrient-nutrient interactions
Original Article
pastures
Phosphorus
phosphorus fertilizers
plant communities
plant competition
Plant growth
Potassium
potassium fertilizers
sodium
Trifolium repens
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Summary:Variations in yield, N₂ fixation and above-ground accumulation of nitrogen (N), phosphorus (P) and potassium (K) in white clover and ryegrass grown separately or in mixture were investigated under field conditions over two consecutive years at different supplies of N, P and/or K. Ryegrass-clover mixtures consistently out-yielded the pure stand clover and pure stand ryegrass in terms of dry matter. Improved N supply favoured ryegrass, and ryegrass in mixture with clover accumulated substantially higher amounts of N, P and K than ryegrass in pure stand. Conversely, the growth of white clover in mixture with grass was significantly depressed by N application, particularly when P and K were also applied. Plots of dry matter, N, P and K in white clover versus ryegrass in mixtures followed log-normal relations demonstrating the superior responsiveness of ryegrass to improved availability of N, P and/or K. Although competition for P and/or K reduced the N₂ fixation rate in the mixture, the effect on the total above-ground N accumulation was insignificant. The proportions of P and K in the shoot dry matter of ryegrass in pure stand were only half of those of ryegrass in mixture with clover, while white clover co-cultivated with ryegrass had lower P concentration in dry matter, showing a P deprivation of clover growing in mixture with grass. Na was able to replace K under the competitive conditions in the mixture. In conclusion, the results show that growth and nutrient acquisition of clover and ryegrass interact in a complex manner involving competition, facilitation and complementarity.
ISSN:1385-1314
1573-0867
DOI:10.1007/s10705-009-9341-0