Digestive physiology of wild capybara |
| |
Authors: | P A Borges M G Dominguez-Bello E A Herrera |
| |
Institution: | (1) Departemento de Estudios, Universidad Simón Bolivar, Ambientales, Verezuela;(2) Instituto Venezolano de Investigaciones Cientificas (IVIC), CBB, Venezuela;(3) School of Biological Sciences, A08, The University of Sydney, 2006 Sydney, NSW, Australia |
| |
Abstract: | The capybara (Hydrochaeris hydrochaeris) is a hindgut fermenter whose digestive efficiency is comparable to that of ruminants on similar diets. It is an interesting case for study because it is the largest caecum fermenter and uses coprophagy as part of its digestive strategy. It practices coprophagy in the early morning and forages and defaecates in the evening. Its anatomy is well known but the limited information available about its digestive physiology has been obtained from captive animals. In this work we studied the capybara's digestive physiology, using microbial and chemical information from samples taken from wild capybaras in the early wet season in the morning (0600–0700 hours), noon (1200–1300 hours) and evening (1800–1900 hours), key points in the digestive cycle. Bacteria (cellulolytic and non-cellulolytic) and protozoa were present in high concentrations in the caecum and colon. There were no significant differences in nitrogen concentrations between digestive tract compartments in the coprophagy period (0600 hours), but in the other two periods nitrogen concentrations were significantly higher in the caecum than in the stomach and colon. This is suggestive of selective retention of microbial cells with fluid digesta in the caecum and of cecotrophy (the production of two distinctly different kinds of faeces — one kind called cecotrophes formed from caecal contents and ingested). The capybara hindgut (caecum and colon) with its content, was heavier during the dry season (period of poor diet quality) than in the wet season, but there were no significant seasonal differences between the stomach or small intestine and their contents. This suggests changes in the capacity of the hindgut, the site of microbial fermentation, related to seasonal variation in resource quality.Abbreviations
NDF
neutral-detergent fibre
-
SCFA
Short-chain fatty acid(s) |
| |
Keywords: | Caecotrophy Digestion Herbivory Nitrogen utilization Capybara Hydrochaeris |
本文献已被 SpringerLink 等数据库收录! |
|