Herbage Mass, Nutritive Value, and Ergovaline Concentration of Stockpiled Tall Fescue

Kallenbach, Robert L.; Bishop-Hurley, Greg; Massie, Matt D.; Rottinghaus, George E.; West, Charles P.

doi:10.2135/cropsci2003.1001

Cited by 71 publications

(85 citation statements)

References 17 publications

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“…However, late effects do not seem to be a rule as the significant reduction in litter decay rate in Omacini et al (2004) was found in an 83-d study with a mean mass loss of~23 %. Another explanation for the discrepancy between ours and earlier results might be the fact that we used overwintered litter and the alkaloids had partly degraded during the winter (see Kallenbach et al 2003). Using overwintered litter to examine litter effects on N cycling is, however, justified as most of the litter enters the soil at this stage.…”

Section: Discussioncontrasting

confidence: 64%

No effects of Epichloë endophyte infection on nitrogen cycling in meadow fescue (Schedonorus pratensis) grassland

2015

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Background and aims Systemic Epichloë endophytes produce alkaloids that protect their grass hosts against pathogens and herbivores. These alkaloids, together with other endophyte induced changes in litter quality, may decelerate the decomposition of infected grass litter, but so far no study has tested whether the effects on decomposition rate translate into changes in N cycling in infected grasslands. Here we test if the Epichloë uncinata infection of meadow fescue, Schedonorus pratensis decelerates litter decomposition and N release, increases soil C and N accumulation and lowers the availability of mineral N in the soil under infected grass. Methods To analyze grass litter and soil attributes, samples were collected from endophyte infected (E+) and non-infected (E-) field plots, established seven years earlier. At the time of the study, the frequency of E+ plants was 80-90 % and 0-3 % in the E+ and E-plots, respectively. Litter decomposition rate and litter N release were examined using litter mesh bags, placed on field ground. Soil mineral N availability was estimated using ion exchange resin bags that were buried in the soil.Results Epichloë uncinata infection did not affect meadow fescue litter N%, litter mass loss or litter N release. Neither did soil C and N content and resin NH 4 and NO 3 contents differ between the E+ and E-grass plots. E+ litter did not decompose faster in E+ than Eplots, i.e. no home-field advantage was observed. Conclusions We did not find evidence that Epichloë uncinata infection would decelerate N cycling and reduce N mineralization in meadow fescue grasslands. This suggests that the infection may not decrease the benefit of the endophyte-grass symbiosis by reducing soil fertility.

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Section: Discussioncontrasting

confidence: 64%

No effects of Epichloë endophyte infection on nitrogen cycling in meadow fescue (Schedonorus pratensis) grassland

2015

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“…Composition chimique des écotypes de F. arundinacea : A l'exeption de la teneur en MAT, la compositon chimique des écotypes de F. arundinacea étudiés est comparable à celles obtenues antérieurement par certains auteurs Wilman et Moghaddam, 1998 ;Kallenbach et al, 2003 ;Flores et al, 2007). En ce qui concerne les teneurs en MAT, les valeurs obtenues dans cette étude sont nettement inférieures à celles rapportées par ces auteurs (8,0% vs 15,3 -22,1%).…”

Section: Discussionunclassified

“…Elle s'adapte aussi bien aux régions chaudes, froides, humides que sèches (Horst et Nelson, 1979 ;King et Bush, 1985 ;Carrow et Duncan, 2003 ;Hoveland, 2009). Malgré ces mutiples qualités, les défauts majeurs de la fétuque élevée sont sa médiocre appétibilité et sa faible digestibilité (Emile et al, 1992 ;Kallenbach et al, 2003 ;Flores et al, 2008 Afin de caractériser le milieu ruminal du mouton d'expérimentation au cours de l'évaluation de la dégradabilité in sacco, le pH et la concentration en azote ammoniacal (N-NH3) dans le jus du rumen ont été mésurés comme suit : Juste avant le repas du matin (0 h), 1, 3 et 7 h après. L'azote ammoniacal a été dosé par la méthode de microdiffusion de Conway (Conway, 1957).…”

Section: Introductionunclassified

Composition chimique, dégradabilité in sacco et produits de fermentation in vitro de la fétuque élevée (<i>Festuca arundinacea</i.)

Zoffoun¹,

Aboh²,

Mbanzamihigo³

et al. 2013

J. App. Bioscience.

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5174Chemical composition, in sacco degradability and in vitro fermentation patterns of tall fescue (Festuca arundinacea) Abstract Objectives: In order to select for use as livestock feed, twenty four ecotypes of tall fescue (Festuca arundinacea) obtained from the natural environment in northern Belgium were studied to determine the nutritional value. Methodology and Results: Chemical composition, in sacco degradability and in vitro incubations were performed. One rumen fistulated adult sheep was used for the determination of in sacco degradability and in vitro incubations study. The mean CP content (8.0% of DM) of all the 24 ecotypes was lower. F. arundinacea ecotypes have on average a better potential degradability (a + b) (82.7%) than that of tropical grasses Pennisetum purpureum (64.9%) and Tripsacum laxum (66.8%), but less than that of temperate grasses (Lolium perenne: 90.5%). F. arundinacea showed a high propionate production (234.7 µmol/mmol total VFA). Conclusion: The best of the collection from 24 ecotypes F. arundinacea have been identified for use as cattle feed. The CP contents found for tall fescue are comparable to tropical forages which are generally lower in protein than temperate forage, representing a handicap for their voluntary ingestion. These results imply firstly the need for supplemental nitrogen to F. arundinacea pastures and secondly the use of tall fescue pastures before frutification. Moreover, the association pasture of tall fescue and legumes is also an option. Some variability was observed between ecotypes of F. arundinacea that show on average better degradability than tropical forages, but less than the temperate forage. This advantage of tall fescue on tropical forages is consolidated by an high production of propionic acid and low acetic acid comparable to temperate forage, this is very interesting since propionate can generate glucose, one of the limiting factors for dairy production.

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“…Bagley et al, (1983) found that CP, NSC, and digestibility of the forages decreased over winter grazing from 10.6 to 9.5%, 15.9 to 5.5%, and 63.3 to 42.7%, respectively. Forage nutritive value is typically highest in the fall and deteriorates over winter (Singer et al, 2003;Kallenbach et al, 2003) as indicated by increasing ADF concentrations. Kallenbach et al (2003) found that with the mild winter conditions in Missouri, forage quality did not deteriorate quickly after mid-December.…”

Section: Stockpiled Foragementioning

confidence: 99%

“…Forage nutritive value is typically highest in the fall and deteriorates over winter (Singer et al, 2003;Kallenbach et al, 2003) as indicated by increasing ADF concentrations. Kallenbach et al (2003) found that with the mild winter conditions in Missouri, forage quality did not deteriorate quickly after mid-December. Average CP, ADF, and NDF concentrations at that time were 13, 30, and 58% in stockpiled tall fescue respectively, which should be sufficient to meet the needs of lactating and non-lactating cows.…”

Section: Stockpiled Foragementioning

confidence: 99%

Corn distillers dried grains with solubles supplementation in a pasture-based beef production system

Lasley

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Herbage Mass, Nutritive Value, and Ergovaline Concentration of Stockpiled Tall Fescue

Cited by 71 publications

References 17 publications

No effects of Epichloë endophyte infection on nitrogen cycling in meadow fescue (Schedonorus pratensis) grassland

No effects of Epichloë endophyte infection on nitrogen cycling in meadow fescue (Schedonorus pratensis) grassland

Composition chimique, dégradabilité in sacco et produits de fermentation in vitro de la fétuque élevée (<i>Festuca arundinacea</i.)

Corn distillers dried grains with solubles supplementation in a pasture-based beef production system

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