Hoekstra, N.J.; Struik, P.C.; Lantinga, E.A.; Amburgh, M.E. Van and Schulte, R.P.O. (2008) Can herbage nitrogen fractionation in Lolium perenne be improved by herbage management? NJAS : Wageningen journal of life sciences / Royal Society for Agricultural Sciences, 2008, 55 (2), 167 - 180.
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Document available online at: https://library.wur.nl/WebQuery/groenekennis/1878639
Summary in the original language of the document
The high degradability of grass protein is an important factor in the low nitrogen (N) utilization of grazing bovines in intensive European grassland systems. We tested the hypothesis that protein degradability as measured by the Cornell Net Carbohydrate and Protein System (CNCPS) protein fractionation scheme, can be manipulated by herbage management tools, with the aim to reduce N loss to the environment. A field experiment comprising the factorial combinations of three fertilizer N application rates, three regrowth periods, two perennial ryegrass, Lolium perenne, cultivars and two cutting heights was conducted. The plots were sampled during four seasons and protein fractions were determined in both sheath and lamina material. The protein was highly soluble and on average 19% and 28% of total N was in the form of non-protein N, 16% and 19% in the form of buffer-soluble protein, 52% and 40% in the form of buffer-insoluble protein, and 12% and 13% in the form of potentially available cell wall N for lamina and sheath material, respectively. In both materials only 0.9% of total N was present as unavailable cell wall N. In general the herbage management tools investigated did not have much effect on protein fractionation. The effects of regrowth period, cultivar and cutting height were small and inconsistent. High N application rates significantly increased protein degradability, especially during late season. This is relevant, as it has been shown that enhanced protein degradation increases the potential N loss through urine excretion at a time when urine-N excreted onto pasture is prone to leaching. However, the effect was most evident for sheath material, which forms only a small proportion of the animals’ intake. It was concluded that there appears to be little scope for manipulating the herbage-N fractionation through herbage management. The consequences for modelling herbage quality could be positive as there does not seem to be a need to model the individual N fractions; in most cases the N fractions can be expressed as a fixed proportion of total N instead
EPrint Type: | Newspaper or magazine article |
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Keywords: | lolium perenne (nl), lolium perenne (en), stikstofgehalte (nl), nitrogen content (en), stikstof (nl), nitrogen (en), eiwitanalyse (nl), protein analysis (en), eiwitopname (nl), protein uptake (en), graskuilvoer (nl), grass silage (en), grasmaaisel (nl), grass clippings (en), afsnijhoogte (nl), cutting height (en), oogsttijdstip (nl), harvesting date (en), 502-E-2 Graslandverbetering (nl), 502-E-2 Grassland Improvement (en), 605-C Samenstelling en kwaliteit van diervoeders (nl), 605-C Feed Composition and Quality (en) |
Subjects: | "Organics" in general |
Research affiliation: | Netherlands > BioKennisBank |
Related Links: | https://edepot.wur.nl/17902 |
Project ID: | BKB |
Deposited By: | Blom, M |
ID Code: | 48474 |
Deposited On: | 12 Jun 2023 06:43 |
Last Modified: | 12 Jun 2023 06:43 |
Document Language: | English |
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