%0 Journal Article
%T Effects of a Change from an Indoor-Based Total Mixed Ration to a Rotational Pasture System Combined With a Moderate Concentrate Feed Supply on Rumen Fermentation of Dairy Cows
%A Andreas Beineke
%A Dirk von Soosten
%A Gerhard Breves
%A Julia Hartwiger
%A Liane H¨¹ther
%A Melanie Sch£¿ren
%A Sarah Potthoff
%A Susanne Kersten
%A Sven D£¿nicke
%J Archive of "Animals : an Open Access Journal from MDPI".
%D 2018
%R 10.3390/ani8110205
%X In temperate climate zones, cows are in spring traditionally transitioned from a silage and concentrate- ration to a pasture-based ration. This transition requires complex nutritional and metabolic adaptions for the cow, resulting in a lower feed intake with consequences on energy metabolism. Normally concentrate feed is supplied to support the cows after transition to pasture. Depending on weather influences and growing stage, grass contains high amounts of fast fermentable carbohydrates and low amounts of physical effective fiber. In a previous trial, pasture feeding combined with low amounts of concentrate supply did not prevent an energy shortage after transition to pasture but led to changes in ruminal fermentation patterns indicating a possible risk for rumen health. However, the impact of ration change has not been extensively researched so far when moderate concentrate feed was supplied moderately in order to prevent an energy deficiency. To investigate the influences different rumen variables were documented, using continuous pH measuring devices and weekly diurnal fermentation assessments in rumen fistulated animals. Influence on rumen epithelial morphology was measured by the collection of rumen papillae biopsies and subsequent surface area, as well as histopathological analyses. With the help of this data, a greater understanding of the adaption period of the animals during transition from confinement to pasture is made possible
%K dairy cows
%K ration change
%K pasture
%K confinement
%K VFA
%K pH logger
%K rumen papillae morphology
%K non-glucogenic to glucogenic VFA ratio
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6262550/