This chapter introduces the mechanisms through which microorganisms can influence animal welfare and how this knowledge can be used to keep animals physically and psychologically healthy. Genetics and genomics are well-established concepts in animal welfare sciences. Given the importance of genetics to animal behaviour and health, and the rapid advances in technologies
Good management and improved standards of animal welfare are discussed as important ways of reducing...
The role of microbes as a part of animal systems has historically been an under-appreciated aspect o...
The aim of this study is to summarize the current knowledge on the influence of gut microbiota compo...
This chapter introduces the mechanisms through which microorganisms can influence animal welfare and...
This chapter introduces the mechanisms through which microorganisms can influence animal welfare and...
International audienceThere is increasing evidence of a pivotal role of the gut microbiota (GUT-M) i...
There is increasing evidence of a pivotal role of the gut microbiota (GUT-M) in key physiological fu...
Animals harbor an extensive, dynamic microbial ecosystem in their gut. Gut microbiota (GM) supposedl...
Eukaryotes have evolved in the presence of microbial life and so it is unsurprising that microorgani...
In a striking display of trans-kingdom symbiosis, gut bacteria cooperate with their animal hosts to ...
International audienceThe role of microbes as a part of animal systems has historically been an unde...
Understanding the foundations of the neurobiology of behavior and well-being can help us better achi...
The role of microbes as a part of animal systems has historically been an under-appreciated aspect o...
The human gastrointestinal tract harbors an extremely complex and dynamic microbial community, inclu...
Animals are home to diverse bacterial communities that can affect their hosts’ physiology, metabolis...
Good management and improved standards of animal welfare are discussed as important ways of reducing...
The role of microbes as a part of animal systems has historically been an under-appreciated aspect o...
The aim of this study is to summarize the current knowledge on the influence of gut microbiota compo...
This chapter introduces the mechanisms through which microorganisms can influence animal welfare and...
This chapter introduces the mechanisms through which microorganisms can influence animal welfare and...
International audienceThere is increasing evidence of a pivotal role of the gut microbiota (GUT-M) i...
There is increasing evidence of a pivotal role of the gut microbiota (GUT-M) in key physiological fu...
Animals harbor an extensive, dynamic microbial ecosystem in their gut. Gut microbiota (GM) supposedl...
Eukaryotes have evolved in the presence of microbial life and so it is unsurprising that microorgani...
In a striking display of trans-kingdom symbiosis, gut bacteria cooperate with their animal hosts to ...
International audienceThe role of microbes as a part of animal systems has historically been an unde...
Understanding the foundations of the neurobiology of behavior and well-being can help us better achi...
The role of microbes as a part of animal systems has historically been an under-appreciated aspect o...
The human gastrointestinal tract harbors an extremely complex and dynamic microbial community, inclu...
Animals are home to diverse bacterial communities that can affect their hosts’ physiology, metabolis...
Good management and improved standards of animal welfare are discussed as important ways of reducing...
The role of microbes as a part of animal systems has historically been an under-appreciated aspect o...
The aim of this study is to summarize the current knowledge on the influence of gut microbiota compo...