Comparison of grassland management systems for beef cattle using self-contained farmlets: effects of contrasting nitrogen inputs and management strategies on nitrogen budgets, and herbage and animal production
Ja. Laws et al., Comparison of grassland management systems for beef cattle using self-contained farmlets: effects of contrasting nitrogen inputs and management strategies on nitrogen budgets, and herbage and animal production, AGR ECO ENV, 80(3), 2000, pp. 243-254
Past research on nitrogen (N) inputs, losses and surpluses focused on separ
ate components of grassland management, i.e., grazed or cut swards and the
impact of fertiliser or slurry applications. In practice, however, grasslan
d is both grazed and cut for conservation, and N fertiliser is supplied fro
m both organic and inorganic sources. A whole systems approach was used to
evaluate the effects of combinations of management strategies designed to r
educe N losses on N budgets, and herbage and animal production in South Wes
t England. Three systems with contrasting N inputs were compared: CN, conve
ntional mineral N application and broadcast slurry; TN, tactical mineral N
application with slurry injection and the early housing of cattle; GC, a mi
xed grass/white clover sward with no mineral N addition and slurry injectio
n. Comparisons were made on two contrasting soil types: a freely-draining s
andy loam (Gleysol, Site 1), and a poorly drained clay (Luvisol, Site 2). 1
ha farmlets were grazed to a target sward height by beef cattle for a 5-ye
ar (Site 1) or a 4-year (Site 2) period. Herbage surplus to grazing require
ments was cut for silage. On average, 185 kg N ha(-1) was applied annually
to treatment TN compared with 280 kg N ha(-1) for CN. An additional 76, 102
and 67 kg N ha(-1) was applied in slurry to treatments CN, TN and GC, resp
ectively. Substantial reductions in N surpluses were achieved for both trea
tments TN and GC compared with treatment CN (N surpluses ha(-1) 254, 168 an
d 119 kg at Site 1, and 247 kg, 190 and 73 kg at Site 2, for CN, TN and GC,
respectively). The highest N input for treatment CN was associated with th
e greatest animal and herbage production. More land was required for grazin
g on treatment GC and less herbage was cut for silage so that self-sufficie
ncy was not attained for winter fodder on this treatment. The early removal
of cattle on treatment TN did not result in a significant increase in the
amount of herbage cut for silage. It was concluded that the combinations of
mitigation options used were successful in reducing N Surpluses compared w
ith the conventional N management system, but animal and herbage production
was reduced. (C) 2000 Elsevier Science B.V. All rights reserved.