Hindgut fermentation in the wombats: two marsupial grazers |
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Authors: | P. S. Barboza I. D. Hume |
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Affiliation: | (1) Department of Biochemistry, Microbiology and Nutrition, University of New England, 2351 Armidale, NSW, Australia;(2) Present address: Department of Zoological Research, National Zoological Park, Smithsonian Institution, 20008-2598 Washington DC, USA;(3) Present address: School of Biological Sciences A08, University of Sydney, 2006, NSW, Australia |
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Abstract: | Summary The wombats Vombatus ursinus and Lasiorhinus latifrons have a capacious proximal colon with only a vestigial caecum. The pattern of microbial fermentation in the hindgut of both species was studied in captive animals fed a pelleted straw diet and in wild wombats feeding on their natural winter diets. Digesta pH was low in the stomach but near neutrality along the hindgut, indicating effective absorption and/or buffering of the colonic contents. Initial proportions and production rates of short chain fatty acids in vitro reflected the fermentation of plant cell walls. Proportions of isobutyrate, isovalerate and n-valerate increased towards the distal colon indicating proteolysis and subsequent fermentation of amino acids. The low ammonia content of digesta fluid suggested that ammonia released from these amino acids was absorbed and utilized by the wombats and their gut microbes. Wild wombats had higher concentrations and production rates of short chain fatty acids than captive animals, which was consistent with the higher apparent digestibility of their natural diet. The energy from short chain fatty acids in captive animals was 30–33% of digestible intake. Energy intakes were low and similar to resting metabolic rates estimated for marsupials. Actual resting metabolic rates of the wombats are probably lower than these estimates, and the proportion of energy derived from fermentation substantially higher than the 53–61% estimated in wild wombats. The energy from fermentation clearly enables wombats to utilize diets high in fibre.Abbreviations DEI digestible energy intake - DM dry matter - NDF neutral detergent fibre - SCFA short chain fatty acids - SD standard deviation - SMR standard metabolic rate |
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Keywords: | Herbivore Hindgut Fermentation Marsupial Wombat |
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