| Literature DB >> 28315137 |
Cláudio Eduardo Silva Freitas1, Eduardo Robson Duarte2,3, Dorismar David Alves1, Isabel Martinele4, Marta D'Agosto4, Franciane Cedrola4, Angélica Alves de Moura Freitas5, Franklin Delano Dos Santos Soares1, Makenzi Beltran6.
Abstract
A ciliate protozoa suppression can reduce methane production increasing the energy efficiency utilization by ruminants. The physicochemical characteristics of rumen fluid and the profile of the rumen protozoa populations were evaluated for sheep fed banana leaf hay in replacement of the Cynodon dactylon cv. vaqueiro hay. A total of 30 male sheep were raised in intensive system during 15 days of adaptation and 63 days of experimental period. The animals were distributed in a completely randomized design that included six replicates of five treatments with replacement levels (0, 25, 50, 75, and 100%) of the grass vaquero for the banana leaf hay. Samples of fluid were collected directly from the rumen with sterile catheters. Color, odor, viscosity, and the methylene blue reduction potential (MBRP) were evaluated and pH estimated using a digital potentiometer. After decimal dilutions, counts of genus protozoa were performed in Sedgewick Rafter chambers. The averages of pH, MBRP, color, odor, and viscosity were not influenced by the inclusion of the banana leaf hay. However, the total number of protozoa and Entodinium spp. population significantly decreased at 75 and 100% inclusions of banana leaf hay as roughage.Entities:
Keywords: Ciliates; Confinement; Musa sp.; Ruminal microbiota; Sheep breeding
Mesh:
Year: 2017 PMID: 28315137 DOI: 10.1007/s11250-017-1265-0
Source DB: PubMed Journal: Trop Anim Health Prod ISSN: 0049-4747 Impact factor: 1.559