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Grazing and ensiling of energy-rich grasses with elevated sugar contents for the sustainable production of ruminant livestock (Acronym: SweetGrass)
O'Kiely, Padraig Conaghan, Patrick Howard, H. Moloney, Aidan P Black, Alistair D
O'Kiely, Padraig
Conaghan, Patrick
Howard, H.
Moloney, Aidan P
Black, Alistair D
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2005-09-01
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O Kiely, P., Conaghan, P., Howard, H., Moloney, A., Black, A. Grazing and ensiling of energy-rich grasses with elevated sugar contents for the sustainable production of ruminant livestock (Acronym: SweetGrass), End of Project Reports, Teagasc, 2005.
Abstract
Permanent grassland dominates the Irish landscape and for many decades perennial ryegrasses have been the
main constituent in seed mixtures for grassland. The main attractions in favour of perennial ryegrass swards are
that they:
x produce high yields in response to fertiliser nitrogen
x have a high digestibility when harvested at the appropriate growth stage
x are relatively easy to preserve as silage due to their superior content of sugar
x persist as permanent swards where favourable management practices prevail
If the phenotype of perennial ryegrass were to be improved, one potentially desirable trait would be an elevated
concentration of water-soluble carbohydrates (WSC). This could confer benefits in terms of:
x further increase the probability of achieving a lactic acid dominant fermentation during ensilage. This could
reduce the requirement for traditional acid- or sugar-based additives, improve the likelihood of a positive
response from additives based on homofermentative lactic acid bacteria or alternatively eliminate the need
for any or the currently available conventional additive. If its effect was to improve silage preservation this
should positively impact on dry matter (DM) recovery, improve animal productivity and potential product
quality, and reduce N loss to the environment.
x improve the opportunity to produce silage with an elevated concentration of WSC. In circumstances where
little or no supplementary concentrate feedstuffs were offered with silage, higher residual WSC could
enhance silage intake and digestion, thereby improving animal productivity and reducing urinary loss of N.
x produce a grass with higher intake characteristics during grazing, resulting in improved or more efficient
animal production.
x better synchronise or balance the supply of a rapidly fermentable carbon source (e.g. WSC) with soluble N
compounds in the rumen of cattle or sheep. This could be important with grazing animals in spring and
particularly in autumn when grass N content can be relatively high. Improved synchronisation or balance
could potentially improve animal productivity and reduce urinary loss of N.