Related references
Note: Only part of the references are listed.Phytochemical characteristics of Paulownia trees wastes and its use as unconventional feedstuff in animal feed
Mahmoud Alagawany et al.
ANIMAL BIOTECHNOLOGY (2022)
A composite polyphenol-rich extract improved growth performance, ruminal fermentation and immunity, while decreasing methanogenesis and excretion of nitrogen and phosphorus in growing buffaloes
Snehdeep Singh et al.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH (2022)
Genomic Insights into the Distribution of Peptidases and Proteolytic Capacity among Prevotella and Paraprevotella Species
Amlan Kumar Patra et al.
MICROBIOLOGY SPECTRUM (2022)
The Effect of Different Concentrations of Total Polyphenols from Paulownia Hybrid Leaves on Ruminal Fermentation, Methane Production and Microorganisms
Julia Puchalska et al.
ANIMALS (2021)
Identification of Bioactive Phytochemicals from Six Plants: Mechanistic Insights into the Inhibition of Rumen Protozoa, Ammoniagenesis, and α-Glucosidase
Aurele Gnetegha Ayemele et al.
BIOLOGY-BASEL (2021)
Chemical and phytochemical composition, in vitro ruminal fermentation, methane production, and nutrient degradability of fresh and ensiled Paulownia hybrid leaves
Haihao Huang et al.
ANIMAL FEED SCIENCE AND TECHNOLOGY (2021)
Gastric colloidal behaviour of milk protein as a tool for manipulating nutrient digestion in dairy products and protein emulsions
Aiqian Ye
FOOD HYDROCOLLOIDS (2021)
Altered rumen fermentation patterns in lactating dairy cows supplemented with phytochemicals improve milk production and efficiency
R. C. B. Grazziotin et al.
JOURNAL OF DAIRY SCIENCE (2020)
Influence of proportion of wheat in a pasture-based diet on milk yield, methane emissions, methane yield, and ruminal protozoa of dairy cows
P. J. Moate et al.
JOURNAL OF DAIRY SCIENCE (2020)
Comparison of the complete plastomes and the phylogenetic analysis of Paulownia species
Pingping Li et al.
SCIENTIFIC REPORTS (2020)
Ruminal cellulolytic bacteria abundance leads to the variation in fatty acids in the rumen digesta and meat of fattening lambs
Zhian Zhang et al.
JOURNAL OF ANIMAL SCIENCE (2020)
Lupinus angustifolius seed meal supplemented to dairy cow diet improves fatty acid composition in milk and mitigates methane production
Magdalena Bryszak et al.
ANIMAL FEED SCIENCE AND TECHNOLOGY (2020)
Paulownia Leaves as A New Feed Resource: Chemical Composition and Effects on Growth, Carcasses, Digestibility, Blood Biochemistry, and Intestinal Bacterial Populations of Growing Rabbits
Adham A. Al-Sagheer et al.
ANIMALS (2019)
Nutrients digestibility, metabolic parameters and milk production in postpartum Holstein cows fed pomegranate (Punica granatum L.) by-products silage under heat stress condition
Simin Khorsandi et al.
ANIMAL FEED SCIENCE AND TECHNOLOGY (2019)
Effects of berry seed residues on ruminal fermentation, methane concentration, milk production, and fatty acid proportions in the rumen and milk of dairy cows
Magdalena Bryszak et al.
JOURNAL OF DAIRY SCIENCE (2019)
The relationships between odd- and branched-chain fatty acids to ruminal fermentation parameters and bacterial populations with different dietary ratios of forage and concentrate
Y. Zhang et al.
JOURNAL OF ANIMAL PHYSIOLOGY AND ANIMAL NUTRITION (2017)
Effect of dietary quebracho tannin extract on milk fatty acid composition in cows
Anika Henke et al.
JOURNAL OF DAIRY SCIENCE (2017)
Effects of alfalfa flavonoids on the production performance, immune system, and ruminal fermentation of dairy cows
Jinshun Zhan et al.
ASIAN-AUSTRALASIAN JOURNAL OF ANIMAL SCIENCES (2017)
Genome wide association study and genomic prediction for fatty acid composition in Chinese Simmental beef cattle using high density SNP array
Bo Zhu et al.
BMC GENOMICS (2017)
Rumen fermentation, methane concentration and fatty acid proportion in the rumen and milk of dairy cows fed condensed tannin and/or fish-soybean oils blend
J. Szczechowiak et al.
ANIMAL FEED SCIENCE AND TECHNOLOGY (2016)
The effects of linseed or chia seed dietary supplementation on adipose tissue development, fatty acid composition, and lipogenic gene expression in lambs
O. Urrutia et al.
SMALL RUMINANT RESEARCH (2015)
The Role of Ciliate Protozoa in the Rumen
Charles J. Newbold et al.
FRONTIERS IN MICROBIOLOGY (2015)
The effect of Bioflavex® and its pure flavonoid components on in vitro fermentation parameters and methane production in rumen fluid from steers given high concentrate diets
A. R. Seradj et al.
ANIMAL FEED SCIENCE AND TECHNOLOGY (2014)
Associations between variants of FADS genes and omega-3 and omega-6 milk fatty acids of Canadian Holstein cows
Eveline M. Ibeagha-Awemu et al.
BMC GENETICS (2014)
Effects of pasture versus confinement and marine oil supplementation on the expression of genes involved in lipid metabolism in mammary, liver, and adipose tissues of lactating dairy cows
R. Vahmani et al.
JOURNAL OF DAIRY SCIENCE (2014)
Effect of varying dietary starch and fiber levels and inoculum source (mule deer vs. dairy cow) on simulated rumen fermentation characteristics
Matthew A. Brooks et al.
ZOO BIOLOGY (2014)
Effect of the inclusion of quebracho tannins in a diet rich in linoleic acid on milk fatty acid composition in dairy ewes
P. G. Toral et al.
JOURNAL OF DAIRY SCIENCE (2013)
Dietary Nisin Modulates the Gastrointestinal Microbial Ecology and Enhances Growth Performance of the Broiler Chickens
Damian Jozefiak et al.
PLOS ONE (2013)
Effects of Essential Oils on Methane Production and Fermentation by, and Abundance and Diversity of, Rumen Microbial Populations
Amlan K. Patra et al.
APPLIED AND ENVIRONMENTAL MICROBIOLOGY (2012)
Responses in digestion, rumen fermentation and microbial populations to inhibition of methane formation by a halogenated methane analogue
Makoto Mitsumori et al.
BRITISH JOURNAL OF NUTRITION (2012)
Effects of an extract of plant flavonoids (Bioflavex) on rumen fermentation and performance in heifers fed high-concentrate diets
J. Balcells et al.
JOURNAL OF ANIMAL SCIENCE (2012)
As yet uncultured bacteria phylogenetically classified as Prevotella, Lachnospiraceae incertae sedis and unclassified Bacteroidales, Clostridiales and Ruminococcaceae may play a predominant role in ruminal biohydrogenation
Sharon A. Huws et al.
ENVIRONMENTAL MICROBIOLOGY (2011)
The potential of the wild dog rose (Rosa canina) to mitigate in vitro rumen methane production
M. Szumacher-Strabel et al.
JOURNAL OF ANIMAL AND FEED SCIENCES (2011)
Short communication: Heritability of milk fatty acid composition and stearoyl-CoA desaturase indices in dairy cows
P. C. Garnsworthy et al.
JOURNAL OF DAIRY SCIENCE (2010)
A new perspective on the use of plant secondary metabolites to inhibit methanogenesis in the rumen
Amlan K. Patra et al.
PHYTOCHEMISTRY (2010)
Metabolism of polyunsaturated fatty acids and their toxicity to the microflora of the rumen
Margarida R. G. Maia et al.
ANTONIE VAN LEEUWENHOEK INTERNATIONAL JOURNAL OF GENERAL AND MOLECULAR MICROBIOLOGY (2007)
Clostridium proteoclasticum:: a ruminal bacterium that forms stearic acid from linoleic acid
R. John Wallace et al.
FEMS MICROBIOLOGY LETTERS (2006)
Evaluation of milk urea nitrogen as a diagnostic of protein feeding
J Nousiainen et al.
JOURNAL OF DAIRY SCIENCE (2004)
Rumen simulation technique study on the interactions of dietary lauric and myristic acid supplementation in suppressing ruminal methanogenesis
CR Soliva et al.
BRITISH JOURNAL OF NUTRITION (2004)
Biohydrogenation of C18 unsaturated fatty acids to stearic acid by a strain of Butyrivibrio hungatei from the bovine rumen
JLCM van de Vossenberg et al.
LETTERS IN APPLIED MICROBIOLOGY (2003)
The enrichment of a ruminal bacterium (Megasphaera elsdenii YJ-4) that produces the trans-10, cis-12 isomer of conjugated linoleic acid
YJ Kim et al.
JOURNAL OF APPLIED MICROBIOLOGY (2002)
Share Paper
