Broschüre 2004 zum Download (pdf | 1994,28 KB) - H. Wilhelm ...
Broschüre 2004 zum Download (pdf | 1994,28 KB) - H. Wilhelm ...
Broschüre 2004 zum Download (pdf | 1994,28 KB) - H. Wilhelm ...
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KÖHLER, R., JEROCH, H., FLACHOWSKY, G. GEBHARDT, G., HIL-<br />
SCHER, H., KAPPEL, W. (1990): Futtermittelkundliche Bewertung verschiedener<br />
Maisgenotypen. Arch. Anim. Nutr. 40, 267–274<br />
KRAUSE, D.O., RUSSELL, J.B. (1996): Symposium: Ruminal microbiology.<br />
How many ruminal bacteria are there? J Dairy Sci 79, 1467–1475<br />
KRAUSE, D.O., BUNCH, R.J., DALRYMPLE, B.A., GOBINS, K.S.,<br />
SMITH, W.J., XNE, G.P., McSWEENEY, C.S. (2001): Expression of a modified<br />
Neocallimastix patriciarum xylonase in Butyrivibrio fibrisolvens digents<br />
more fibre but can of effectively compete with high fibrolytic bacteria in the<br />
rumen. J. Appl. Microbiol.90, 388–396<br />
KRIETE, V., MEYER, U., LEBZIEN, P., LIEBERT, F. (<strong>2004</strong>): Effect of<br />
varying ruminal Nbalance on feed intake and milk yield of dairy cows. Proc.<br />
Soc. Nutr. Physiol. 13, 46 (Abstr.)<br />
KRAFT, J., LEBZIEN, P., FLACHOWSKY, G., MÖCKEL, P., JAHREIS, G.<br />
(2000): Duodenal infusion of conjugated linoleic acid mixture influences milk<br />
fat synthesis and milk CLA content in dairy cows. Occ. Publ. of British Soc.<br />
Anim. Sci. 25, 143–147<br />
KUNG, L.J.; HESSION, A.O. (1995): Preventing in vitro lactate accumulation<br />
in ruminal fermentations by inoculation with Megasphaera elsdenii. J Anim Sci<br />
73, 250–256<br />
KUNG, L., TREACHER, R.J., NAUMAN, G.A., SMAGALA, A.M.,<br />
ENDRES, K.M., COHEN, M.A. (2000): The effect of treating forages with<br />
fibrolytic enzymes on its nutritive value and lactating performance of dairy cows.<br />
J. Dairy Sci. 83, 115–122<br />
LEBZIEN, P. (1998): Bedeutung der Protein- und Stärkeumsetzungen im<br />
Pansen für die Versorgung der Hochleistungskuh. Lohmann Informationen<br />
2/98, 7–15<br />
LEBZIEN, P. (1997): Zum Einfluss des Futterproteins auf das Aminosäurenmuster<br />
des Proteins am Duodenum von Wiederkäuern. Übers. Tierernährung<br />
25, 137–153<br />
LEBZIEN, P., FLACHOWSKY, G., SZAKACZ, J., KELLER, T. (2001):<br />
Einfluss hoher Vitamin A- und E-Gaben in den Pansen von Kühen auf die<br />
Anflutung der beiden Vitamine am Duodenum. Proc. 8. Symp. »Vitamine und<br />
Zusatzstoffe in der Ernährung von Mensch und Tier«, 26./27.09.2001, Jena,<br />
295–300<br />
LEBZIEN, P.; VOIGT, J.; GABEL, M.; GÄDEKEN, D. (1996): Zur Schätzung<br />
der Menge an nutzbarem Rohprotein am Duodenum von Milchkühen, J. Anim.<br />
Phys. a. Anim. Nutr. 76, 218–233<br />
LEWIS, G.E., SANCHEZ, W.K., HUNT, C.W., GUY, M.A., PRITCHARD,<br />
G.T., SWANSON, B.I., TREACHERT, M.A. (1999): Effect of direct-fed fibrolic<br />
enzymes on the lactational performance of dairy cows. J. Dairy Sci. 82,<br />
611– 617<br />
LOOR, J.J., SORIANO, F.D., LIN, X., HERBIN, J.H., POLAN, C.E. (2003):<br />
Grazing allowance after the morning of afternoon milking for lactating cows<br />
fed a total mixed ration (TMR) enhances trans 11-18:1 and cis 9, trans 11-18:<br />
2 (rumenic acid) in milk fat to different extents. Anim. Feed Sci. Technol. 109,<br />
105 –119<br />
LOOSE, K. (1999). Untersuchungen <strong>zum</strong> Einfluss verschiedener Körnermaishybriden<br />
auf die Stärke- und Proteinumsetzungen im Verdauungstrakt von<br />
Milchkühen. Diss. Tierärztliche Hochschule Hannover<br />
LOOSE, K., LEBZIEN, P., FLACHOWSKY, G. (1998): Einfluss von Maissorten<br />
mit unterschiedlichen Stärke- und Proteingehalt auf den in sacco-Abbau im<br />
Pansen bei nicht laktierenden Milchkühen. Proc.Soc.Nutr.Physiol. 7, 23<br />
MARTIN, S.A., NISBET, D.J. (1991): Symposium: Direct-fed microbials and<br />
rumen fermentation: Effect of direct-fed microbials on rumen microbial fermentation.<br />
J Dairy Sci 75, 6, 1736–1744<br />
MATTHÉ, A., LEBZIEN, P., FLACHOWSKY, G. (2000): Zur Bedeutung von<br />
Bypass-Stärke für die Glucoseversorgung von hochleistenden Kühen. Übers.<br />
Tierernährung <strong>28</strong>, 1–64<br />
MATTHÉ, A., LEBZIEN, P., HRIC, I., FLACHOWSKY, G., SOMMER, A.<br />
(2001): Effect of starch application into the proximal duodenum of ruminants<br />
on starch digestibility in the small and total intestine. Arch. Anim. Nutr. 55,<br />
351–369<br />
McALLISTER, T.A., HRISTOV, A.N., BEAUCHEMIN, K.A., RODE, L.M.,<br />
CHENG, K.-J. (2001): Enzymes in ruminant Diets. In: Enzymes in farm animal<br />
nutrition, M.R. Bedford, G.G. Partridge (eds.), CAB International, Wallingford,<br />
UK, 273–298<br />
McNAMARA, J.P. (<strong>2004</strong>): Research improvement and application of mechanistic,<br />
biochemical, dynamic models of metabolism in lactating dairy cattle. Anim.<br />
Feed Sci. Technol. 112, 155–176<br />
McSWEENEY, C.S., DALRYMPLE, B.P., GABINS, K.S., KENNEDY, P.M.,<br />
KRAUSE, D.O., MACKIE, R.I., XUE, G.P. (1999): The application of rumen<br />
biotechnology to improve the nutritive value of fibrous feedstuffs: pro- and postingestion.<br />
Livestock. Prod. Sci. 59, 265–<strong>28</strong>3<br />
MOATE, P.J., CHALUPA, W., JANKINS, T.J., BOSTON, R.C. (<strong>2004</strong>): A<br />
model to describe ruminal metabolism and instestinal absorption of long chain<br />
fatty acids. Anim. Feed Sci. Technol. 112, 79–105<br />
MUYZER, G., DE WAAL, E.C., UITTERLINDEN, A.G. (1993): Profiling<br />
of complex microbial populations by denaturing gradient gel electrophoresis<br />
analysis of polymerase chain reaction-amplified genes coding for 16S rRNA.<br />
Appl Environ Microbiol 59, 695–700<br />
NISBET, D.J., MARTIN, S.A. (1991): Effect of a Saccharomyces cerevisiae<br />
culture on lactate utilization by the ruminal bacterium Selenomonas ruminantium.<br />
J Anim Sci 69, 46<strong>28</strong>–4633<br />
OBA, M., ALLEN, M.S. (2003): Effect of diet fermentability on efficiency of microbial<br />
nitrogen production in lactating dairy cows. J. Dairy Sci. 86, 195–207<br />
OFFNER, A., SAUVANT, D. (<strong>2004</strong>a): Prediction of in vivo starch digestion in<br />
cattle from in situ data. Anim. Feed Sci. Technol. 11, 41–56<br />
OFFNER, A., SAUFANT, D. (<strong>2004</strong>b): Comparative evaluation of the Molly,<br />
CNCPS, and LES rumen models. Anim. Feed Sci. Technol. 112, 107–130<br />
OUWERKERK, D.; KLIEVE, A.V. FORSTER, R.J. (2002): Enumeration of<br />
Megasphaera elsdenii in rumen contents by real-time Taq nuclease assay. J Appl<br />
Microbiol 92, 753–758<br />
ORPIN, C.G., JOBLIN, K.N. (1988): The rumen anaerobic fungi. In: The<br />
rumen microbial eco system. P.N. Hobson, ed. Elsevier Applied Science Publ.<br />
New York, p. 21–76<br />
OWENS, F.N., ECRIST, D.S. HILL, W.J., GILL, D.R. (1998): Acidosis in<br />
cattle: a review. J Anim Sci 76, 275–<strong>28</strong>6<br />
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