Master projects

We have multiple project investigating sustainable production of animals by optimizing the feed-microbiome-host-axis

Background: Human population growth is driving a rise in animal production for food, which necessitates more efficient and sustainable practices. One promising route to achieve this, is to unravel the connection between the feed animals eat, their bodily function and the microbes in their gut, not only to optimize nutrition but also to reduce negative impacts such as the emission of greenhouse gases (methane). Our new strategy to collectively study the animal, its diet and all its microbes as one unit (the holobiont), is known as holo-omics. This strategy, enabled by recent biotechnological developments, can improve our understanding of how animals digest their feed and sustain their growth. These projects combines novel methane-inhibiting feed ingredients, animal experiments and holo-omics to jointly analyze animals, their feed and their microbes. The outcome will be optimization of feeding strategies tailored to specific types of animals, to ultimately improve their growth and production whilst reducing their carbon footprint.

Methods: You will learn how to study complex microbiomes, handle next-generation sequecing data and operate state of the art analytical equipment. 

Some key biological and societal questions your MEMO Msc project can answer:

• How do microbes assist nutrition and control methane emissions in cows?
• How do microbiomes control natural cycles that effect our climate?
• How do gut microbes enable us to digest food and maintain our health?
• How do gut microbes support their host animal/fish?
• How can we use microbiomes to recycle waste and create green energy?
Published 4. March 2020 - 10:36 - Updated 4. April 2022 - 20:17