Ruminal Fermentation Pattern, Bacterial Community Composition, and Nutrient Digestibility of Nellore Cattle Submitted to Either Nutritional Restriction or Intake of Concentrate Feedstuffs Prior to Adaptation Period.

Ana C J Pinto,Breno L Demartini,Paulo H M Rodrigues,Lucas F R Oliveira,Antonio M Silvestre,Luana D Felizari,Evandro F F Dias,Mariana M Squizatti,Ana B C P Nunes,Joseph H Skarlupka,Garret Suen,Gustavo P Bertoldi,Danilo D Millen,Gustavo D Cruz

doi:10.3389/fmicb.2020.01865

Abstract

Beef cattle are key contributors to meat production and represent critical drivers of the global agricultural economy. In Brazil, beef cattle are reared in tropical pastures and finished in feedlot systems. The introduction of cattle into a feedlot includes a period where they adapt to high-concentrate diets. This adaptation period is critical to the success of incoming cattle, as they must adjust to both a new diet and environment. Incoming animals are typically reared on a variety of diets, ranging from poor quality grasses to grazing systems supplemented with concentrate feedstuffs. These disparate pre-adaptation diets present a challenge, and here, we sought to understand this process by evaluating the adaptation of Nellore calves raised on either grazing on poor quality grasses (restriction diet) or grazing systems supplemented with concentrate (concentrate diet). Given that nutrient provisioning from the diet is the sole responsibility of the ruminal microbial community, we measured the impact of this dietary shift on feeding behavior, ruminal fermentation pattern, ruminal bacterial community composition (BCC), and total tract digestibility. Six cannulated Nellore bulls were randomly assigned to two 3 × 3 Latin squares, and received a control, restriction, or concentrate diet. All cohorts were then fed the same adaptation diet to mimic a standard feedlot. Ruminal BCC was determined using Illumina-based 16S rRNA amplicon community sequencing. We found that concentrate-fed cattle had greater dry matter intake (P < 0.01) than restricted animals. Likewise, cattle fed concentrate had greater (P = 0.02) propionate concentration during the adaptation phase than control animals and a lower Shannon’s diversity (P = 0.02), relative to the restricted animals. We also found that these animals had lower (P = 0.04) relative abundances of Fibrobacter succinogenes when compared to control animals during the pre-adaptation phase and lower abundances of bacteria within the Succinivibrio during the finishing phase, when compared to the control animals (P = 0.05). Finally, we found that animals previously exposed to concentrate were able to better adapt to high-concentrate diets when compared to restricted animals. Our study presents the first investigation of the impact of pre-adaptation diet on ruminal BCC and metabolism of bulls during the adaptation period. We suggest that these results may be useful for planning adaptation protocols of bulls entering the feedlot system and thereby improve animal production.

Highlights

Meat and its derivative products are essential components of the human diet as a source of energy and protein
Six 20-month-old yearling Nellore bulls (236 ± 20 kg) fitted with ruminal cannulas were randomly assigned to a replicated 3 × 3 Latin square design
The effects of period, square, period × square, square × treatments, animal nested within square, and period × animal nested within square were considered random factors

Summary

INTRODUCTION

Meat and its derivative products are essential components of the human diet as a source of energy and protein. As the human population continues to expand, it is predicted that the demand for beef as a protein source will increase (Smith et al, 2018), and efforts are needed to improve the efficiency of beef cattle production Beef production systems, such as those in Brazil, utilize feedlots, which source beef calves from smaller farms and maintain these cattle on a high concentrate finishing diet. The application of these guidelines is confounded by the dietary history of the incoming calves, which can differ significantly by sourcing location This includes farms that maintain their calves on a pre-adaptation diet ranging from grazing on poor quality tropical grasses to grazing systems supplemented with varying amounts of concentrate. Regardless of nutritional background, all cattle arriving at Brazilian feedlots are adapted in the same way to a highconcentrate diet during the adaptation period This can present problems, such as the aforementioned ruminal acidosis, during the finishing period and negatively impact animal health and productivity. The results from this work will be useful to producers by providing insights into the appropriate adaptation diet that should be provided to newly received cattle based on their previous diet history in order to minimize downstream adverse health effects and increase productivity

MATERIALS AND METHODS

RESULTS AND DISCUSSION

ETHICS STATEMENT