Document Type
Article
Journal/Book Title/Conference
Animals
Volume
8
Issue
4
Publisher
MDPI AG
Publication Date
4-14-2018
First Page
1
Last Page
15
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Abstract
Unpalatable forage resources (low nutrient density, potentially toxic metabolites) are widespread and represent a challenge for ruminant nutrition, health, and welfare. Our objective was to synthesize the role of biophysical and social experience on the use of unpalatable forages by ruminants, and highlight derived behavioural solutions for the well-being of soils, plants, and animals. Environmental experiences early in life modulate gene expression and promote learning, which alters morpho-physiological and psychological mechanisms that modify behavioural responses and change food and habitat selection. In this process, ruminants can become better adapted to the habitat where they are reared. Moreover, experiential learning provides flexibility in diet selection, which is critical for changing foraging environments. Learned associations between unpalatable and palatable foods, if ingested in appropriate amounts, sequence, and close temporal association, induce the development of preference for the former type of food. In this way, a more uniform use of resources can be achieved from the landscape level down to the individual plant, with the associated benefits to ecosystem integrity and stability. Ruminants can also learn the medicinal benefits of ingesting foods with toxins (e.g., condensed tannins and saponins with antiparasitic properties). This knowledge on behavioural processes can be translated into behavioural applications that provide low-cost solutions to many challenges that producers face in managing sustainable livestock production systems.
Recommended Citation
Distel, R.A. and Villalba, JJ. 2018. Use of unpalatable forages by ruminants: the influence of experience with the biophysical and social environment. Animals 8(4):56. https://doi.org/10.3390/ani8040056