Please use this identifier to cite or link to this item: http://www.alice.cnptia.embrapa.br/alice/handle/doc/1106183
Title: Methanogens and rumen protozoa in cattle during transition to high grain diets.
Authors: LIMA, L. R.
MOMBACH, M. A.
PEDREIRA, B. C. e
FERREIRA, D. C.
CARVALHO, P. de
AMORIM, K. R. R. de
WEIMER, P. J.
CABRAL, L. da S.
Affiliation: LENI RODRIGUES LIMA, UFMT, CUIABA, MT; MIRCÉIA ANGELE MOMBACH, UFMT, CUIABA, MT; BRUNO CARNEIRO E PEDREIRA, CPAMT; DANIELA CRISTINA FERREIRA, UFMT, CUIABA, MT; PERIVALDO DE CARVALHO, UFMT, CUIABA, MT; KARITHA REGIANE RIBEIRO DE AMORIM, UFMT, CUIABA, MT; PAUL JAMES WEIMER, UNIVERSITY OF WISCONSIN, MADISON, US; LUCIANO DA SILVA CABRAL, UFMT, CUIABA, MT.
Date Issued: 2018
Citation: In: REUNIÃO ANUAL DA SOCIEDADE BRASILEIRA DE ZOOTECNIA, 55.; CONGRESSO BRASILEIRO DE ZOOTECNIA, 28., 2018, Goiânia. Construindo saberes, formando pessoas e transformando a produção animal: anais. Viçosa: Sociedade Brasileira de Zootecnia; Brasília, DF: Associação Brasileira de Zootecnistas.
Pages: não paginado.
Description: The rumen is a very complex ecosystem in which there is a high diversity and concentration of rumen microbes. Animals, microbial and diets effects shape the rumen microbial population what make the rumen microbial manipulation a hard task to be done. There are many aspects about rumen microbial what the scientists and nutritionists would like to change, but the reduction in rumen methanogens and its activities is probably the first one. Considering the probable association between protozoa and rumen methanogens, this study aimed to evaluate their populations in the rumen of beef cattle during transition from a forage to high grains diets by qPCR. Four rumen fitted male Nellore Cattle were used, which were submit to diets from Brachiaria brizantha grass to high grains, from which rumen samples (solid and fluid) were collected when the diets were composed by zero (grazing animals), 50, 60, 70, 80 and 90% of concentrate on dry matter basis, as well as to get pH measurements. The DNA of rumen microbial population was isolated by using beads, phenol and chloroform, which makes possible to get high quantity and quality of DNA isolated. The DNA of rumen microbial population was amplified using groups primers (protozoa and methanogens) by qPCR method, which permits to calculate the genes copies numbers for every group. The rumen pH ranged from 6.51 to 5.73 for forage fed animals and for 90% concentrate fed animals, respectively. We found that protozoa numbers (log10 genes copies) were only reduced for animals fed with 90% concentrate diet (4.00) compared to other diets (forage, 50, 60, 70 and 80%, 5.07 log10 genes copies). The decrease on protozoa numbers may be related to rumen pH, in which protozoa numbers drop 21% only when rumen pH was lower that 5.8 (80% concentrate in the diets). However, the methanogens numbers were higher in forage fed animals (4.40 log10 genes copies) that all grains diets (3.71 log10 genes copies). Thus, there was not a clear association between protozoa and methanogens numbers in the rumen, what has also been observed in other studies done recently using molecular tools. Although we did not have any data about methane emissions in this study, we could speculate the higher concentrate diets (more than 50% concentrate), there would be a lower methane emission, considering the low methanogens numbers in the rumen.
NAL Thesaurus: Archaea
Methanogens
Rumen microorganisms
Type of Material: Resumo em anais e proceedings
Access: openAccess
Appears in Collections:Resumo em anais de congresso (CPAMT)

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