2010
DOI: 10.1017/s1751731110000388
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Evolutionary adaptations of ruminants and their potential relevance for modern production systems

Abstract: Comparative physiology applies methods established in domestic animal science to a wider variety of species. This can lead to improved insight into evolutionary adaptations of domestic animals, by putting domestic species into a broader context. Examples include the variety of responses to seasonally fluctuating environments, different adaptations to heat and drought, and in particular adaptations to herbivory and various herbivore niches. Herbivores generally face the challenge that a high food intake comprom… Show more

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Cited by 186 publications
(167 citation statements)
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“…Within herbivores, ruminants have enlarged their gastrointestinal tracts and increased the retention time of forages to facilitate the fermentation of feeds by their symbiotic microbes. Ruminants have evolved the most sophisticated system to harbour and take advantage of microbes in their forestomach (Stevens and Hume, 1998;Clauss et al, 2010), making them very adaptable to a large variety of diets. This is a characteristic that was certainly an important domestication trait (Diamond, 1997 and2002) and that can be attributed directly to microbes.…”
Section: The Ruminant Superorganismmentioning
confidence: 99%
See 1 more Smart Citation
“…Within herbivores, ruminants have enlarged their gastrointestinal tracts and increased the retention time of forages to facilitate the fermentation of feeds by their symbiotic microbes. Ruminants have evolved the most sophisticated system to harbour and take advantage of microbes in their forestomach (Stevens and Hume, 1998;Clauss et al, 2010), making them very adaptable to a large variety of diets. This is a characteristic that was certainly an important domestication trait (Diamond, 1997 and2002) and that can be attributed directly to microbes.…”
Section: The Ruminant Superorganismmentioning
confidence: 99%
“…This is a characteristic that was certainly an important domestication trait (Diamond, 1997 and2002) and that can be attributed directly to microbes. The stratification of the rumen contents into gas, solid and liquid layers allows retention of particulate feeds for further processing while at the same time optimising the collection of microbial protein due to the high liquid turnover (Clauss et al, 2010). Ruminants also have a strong innate immunity in the digestive surfaces of the remainder of the gastrointestinal tract, and have recruited and duplicated enzymes such as lysozymes and ribonucleases to play a digestive role, allowing a better utilisation of the microbial biomass leaving the rumen (Benner et al, 2002;The Bovine Genome Sequencing Analysis Consortium et al, 2009).…”
Section: The Ruminant Superorganismmentioning
confidence: 99%
“…Hofmann classify ruminants in three different types (concentrate selectors, intermediate and grazers) using botanical and nutritive observations of the diet [43,44]. The terminology "concentrated selector" used for Hofmann as a description of browsing ruminants is recently avoided, since concepts that integrally describes both botanical and nutritive aspects have been developed, explaining evolutionary adaptation properly rather than the botanical approach only [19].…”
Section: The Progress Of Ruminant Classificationmentioning
confidence: 99%
“…The production capability of domestic ruminants has changed for the past decades, either by the massive genetic improvements to attend the consumption demand, or by the natural evolution throughout the centuries [19]. Taking this background together, this review aims to depict the environmental and evolutionary aspects of domestic and wild ruminants, regarding the digestive conversion capability; morphophysiological differences among species and the prospective for the future in terms of effects on productivity in future evolutionary adaptation in livestock ruminants.…”
Section: Introductionmentioning
confidence: 99%
“…Whereas for monogastric species the possibility to resign dietary concentrates is limited, the nutritional physiology of ruminants might allow for considerable reductions in this field. Due to their digestion physiology, which combines fermentation, chewing and particle sorting in a unique way, ruminants, in particular cattle, are able to degrade plant fibres very efficiently (Clauss et al, 2010) and to gain metabolizable energy from roughages which are poor in soluble carbohydrates like sugars or starch. This is the big advantage of ruminants compared to monogastric animals.…”
Section: Introductionmentioning
confidence: 99%