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Engineering optimal livestock microbiomes

Cows eating hay © Image by skeeze from Pixabay

The human population is predicted to reach approximately 9.7 billion by 2050. Consequently, ensuring future food availability, safety, and nutritional content is crucial. Gastrointestinal tract microbiomes of livestock animals play a crucial role in processing dietary components and providing the host with the necessary nutrients for growth. Recently, the terminology of the holobiont (the host and its microbiota) has been introduced in recognition of the importance of the interactions between the host and its microbiota, their influence on host phenotype, and the need to consider them as one unit.

Whilst livestock holobionts have evolved over millennia, this often does not result in increased food availability through enhanced production, as the GI tract microbes prioritise their own nutrition before the nutrition of the host.  This means that feed conversion is often sub-optimal and therefore understanding what is the ‘best’ microbiome from a production perspective, and biotic and abiotic factors which govern microbiome composition, are key to our ability to feed the human population in the future.

We cordially invite research and review papers in this new Animal Microbiome journal series, focused on progress in the area of engineering optimal livestock microbiomes.

For more information on how to submit your work to this series, please consult the journal's Submission guidelines.

Submission deadline: December 31, 2021.

  1. Newborn ruminants possess an underdeveloped rumen which is colonized by microorganisms acquired from adult animals and the surrounding environment. This microbial transfer can be limited in dairy systems in wh...

    Authors: Juan Manuel Palma-Hidalgo, Elisabeth Jiménez, Milka Popova, Diego Pablo Morgavi, Antonio Ignacio Martín-García, David Rafael Yáñez-Ruiz and Alejandro Belanche

    Citation: Animal Microbiome 2021 3:11

    Content type: Research Article

    Published on:

  2. Dietary intake is known to be a driver of microbial community dynamics in ruminants. Beef cattle go through a finishing phase that typically includes very high concentrate ratios in their feed, with consequent...

    Authors: Timothy J. Snelling, Marc D. Auffret, Carol-Anne Duthie, Robert D. Stewart, Mick Watson, Richard J. Dewhurst, Rainer Roehe and Alan W. Walker

    Citation: Animal Microbiome 2019 1:16

    Content type: Research article

    Published on: