Abstract
The relationship between dry matter (DM) herbage yield and the level of superphosphate applied to the soil (soil P) was measured for swards of annual pasture legumes in four glasshouse and two field experiments. A single cultivar of one species was used in each experiment. The swards were either uncut, or cut at weekly intervals to a height of 1.5 to 3 cm from the soil surface from about one month after sowing. The sown seeds of each species were of the same size but contained different P concentrations (seed P).
For the glasshouse experiments, defoliation reduced DM herbage yields of the species (Trifolium subterraneum, T. balansae, Medicago polymorpha andOrnithopus compressus) by between 20 to 50% two months after sowing, and by 50 to 75% three months after sowing. Higher seed P increased DM herbage yields two months after sowing by about 25% for the lowest soil P level and by 15% for the highest soil P level. Three months after sowing the values were 12 and 8%.
In one field experiment, compared with uncut swards, the DM herbage yields for the weekly cut swards ofT. subterraneum were reduced by up to about 5% for the lowest soil P, compared with up to 25% for the highest soil P. Corresponding reductions forM. polymorpha swards in the other field experiment were about 15 and 20%. For the weekly cut swards, high seed P produced large increases in the cumulative DM yields of the weekly cut herbage. Increases for low soil P were about 300% at 2.5 months after sowing and 30% at 4.5 months after sowing. Corresponding values for high soil P were 100 and 20%. However, higher seed P produced only small (zero to 15%) increases in total DM yield of uncut and weekly cut swards (for the weekly cut swards, total DM yield was the cumulative yields of the weekly cut herbage plus the DM yield of the plant residues that were below the cutting height of the mower). Compared with uncut swards, seed production, measured forM. polymorpha only, was reduced by 40% when the swards were regularly cut. Higher seed P increased seed production of uncut swards by 40% for the lowest soil P level and by 25% for the highest soil P level. Corresponding values for the weekly cut swards were 30 and 20%.
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Bolland, M.D.A. Effect of defoliation and phosphorus concentration in the sown seed on the response of swards of annual pasture legumes to superphosphate applications. Fertilizer Research 29, 317–328 (1991). https://doi.org/10.1007/BF01052401
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DOI: https://doi.org/10.1007/BF01052401