Chemical composition of lamina and sheath of Lolium perenne as affected by herbage management

Chemical composition of lamina and sheath of Lolium perenne as affected by herbage management

The quality of grass in terms of form and relative amounts of energy and protein affects both animal production per unit of intake and nitrogen (N) utilization. Quality can be manipulated by herbage management and choice of cultivar. The effects of N application rate (0, 90 or 390 kg N ha −1 year −1...

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Bibliographic Details
Published in:NJAS - Wageningen journal of life sciences Vol. 55; no. 1; pp. 55 - 73
Main Authors: Hoekstra, N.J., Struik, P.C., Lantinga, E.A., Schulte, R.P.O.
Format: Journal Article
Language:English
Published: Elsevier Ireland Ltd 2007
Taylor & Francis
Subjects:
afsnijhoogte
animal nutrition
bloeiwijzen
carbohydrates
chemical composition
chemische samenstelling
cutting height
dairy-cows
feeding value
fibre content
fodder crops
Forage Crops
grasbestand
graslandbeheer
grassland management
herbage
herbage quality
hergroei
high-sugar cultivar
inflorescences
koolhydraten
l. cultivars
lignin
lignine
lolium perenne
milk-production
neutral detergent fiber
nitrogen
nitrogen application
nitrogen application rate
nutritive value
perennial ryegrass
regrowth
regrowth period
rotaties
rotation length
rotations
rumen function
ryegrass varieties
stikstof
total solids
totale hoeveelheid droge stof
vezelgehalte
voedergewassen
voedingswaarde
water-soluble carbohydrate
high-sugar cultivar
cutting height
feeding value
nitrogen application rate
herbage quality
rotation length
regrowth period
perennial ryegrass
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Summary:The quality of grass in terms of form and relative amounts of energy and protein affects both animal production per unit of intake and nitrogen (N) utilization. Quality can be manipulated by herbage management and choice of cultivar. The effects of N application rate (0, 90 or 390 kg N ha −1 year −1), duration of regrowth period (2–3, 4–5, or 6–7 weeks), and cutting height (8 or 12 cm) on the mass fractions of nitrogen (N), water-soluble carbohydrates (WSC), neutral detergent fibre (NDF), acid detergent fibre (ADF), lignin and ash in lamina and sheath material of a high-sugar (Aberdart) and a low-sugar (Respect) perennial ryegrass ( Lolium perenne) cultivar, were studied in a factorial field experiment during four seasons in 2002 and 2003. Expressing NDF and ADF mass fractions in g per kg WSC-free dry matter (DM) increased the consistency of treatment effects. The high-sugar cultivar had generally higher WSC mass fractions than the low-sugar cultivar, especially during the late season. Moreover, the relative difference in WSC mass fraction between the two cultivars tended to be higher for the lamina material than for the sheath material, which suggests that the high-sugar trait may be more important under grazing conditions, when lamina forms the bulk of the intake, than under mowing regimes. Longer regrowth periods and lower N application rates increased WSC mass fractions and decreased N mass fractions; interactions between regrowth period and N application rate were highly significant. The mass fractions of NDF and ADF were much less influenced. The NDF mass fraction in terms of g per kg WSC-free DM tended to be higher at lower N application rates and at longer regrowth periods. The effect of cutting height on herbage chemical composition was unclear. In conclusion, high-sugar cultivars, N application rate and length of the regrowth period are important tools for manipulating herbage quality.
Bibliography:http://edepot.wur.nl/26150
F40
200757839
F08
ISSN:1573-5214
2212-1307
DOI:10.1016/S1573-5214(07)80004-2