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Hindgut fermentation

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Title: Hindgut fermentation  
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Hindgut fermentation

Hindgut fermentation is a digestive process seen in small intestine: the large intestine and cecum. Examples of hindgut fermenters include proboscideans and large odd-toed ungulates such as horses and rhinos, as well as small animals such as rodents and rabbits.[2] In contrast, foregut fermentation is the form of cellulose digestion seen in ruminants such as cattle which have a four-chambered stomach which digests cellulose.[3]

Hindgut fermenters generally have a cecum and large intestine that are much larger and more complex than those of a foregut or midgut fermenter.[1] Research on small cecum fermenters such as flying squirrels, rabbits and lemurs has revealed these mammals to have a GI tract about 10-13 times the length of their body.[4] This is due to the high intake of fiber and other hard to digest compounds that are characteristic to the diet of monogastric herbivores. Unlike foregut fermenters, the cecum is located after the stomach and small intestine in monogastric animals, so most food reaches this area undigested.[5]

Smaller hindgut fermenters of the immune system. Hindgut fermenters do have the ability to expel their microflora, which is useful during the acts of hibernation, estivation and torpor.

While foregut fermentation is generally considered more efficient, and monogastric animals cannot digest cellulose as efficiently as ruminants,[1] hindgut fermentation allows animals to consume small amounts of low-quality forage all day long and thus survive in conditions where ruminants might not be able to obtain nutrition adequate for their needs. Hindgut fermenters are able to extract more nutrition out of small quantities of feed.[7] The large hind-gut fermenters are bulk feeders: they ingest large quantities of low-nutrient food, which they process more rapidly than would be possible for a similarly sized foregut fermenter. The main food in that category is grass, and grassland grazers move over long distances to take advantage of the growth phases of grass in different regions.[8]

The ability to process food more rapidly than foregut fermenters gives hindgut fermenters an advantage at very large body size, as they are able to accommodate significantly larger food intakes. The largest extant and prehistoric megaherbivores, elephants and indricotheres (a type of rhino), respectively, have been hindgut fermenters.[9] Study of the rates of evolution of larger maximum body mass in different terrestrial mammalian groups has shown that the fastest growth in body mass over time occurred in hindgut fermenters (perissodactyls, rodents and proboscids).[10]

Hindgut fermenters are subdivided into two groups based on the relative size of various digestive organs in relationship to the rest of the system: colonic fermenters tend to be larger species such as horses, and cecal fermenters are smaller animals such as rabbits and rodents.[2] However, in spite of the terminology, colonic fermenters such as horses make extensive use of the cecum to break down cellulose.[11] Also, colonic fermenters typically have a proportionally longer large intestine than small intestine, whereas cecal fermenters have a considerably enlarged cecum compared to the rest of the digestive tract.

See also

References

  1. ^ a b c Animal Structure & Function. Sci.waikato.ac.nz. Retrieved on 2011-11-27.
  2. ^ a b Grant, Kerrin Adaptations in Herbivore Nutrition, July 30, 2010. Lafebervet.com. Retrieved on 2011-11-27.
  3. ^ Hindgut versus Foregut Fermenters. Vcebiology.edublogs.org (2011-04-30). Retrieved on 2011-11-27.
  4. ^ Lu, Hsiao-Pei; Yu-bin Wang, Shiao-Wei Huang, Chung-Yen Lin, Martin Wu, Chih-hao Hsieh, and Hon-Tsen Yu (10 September 2012). "Metagenomic analysis reveals a functional signature for biomass degradation by cecal microbiota in the leaf-eating flying squirrel (Petaurista alborufus lena)". BMC Genomics. 1 13 (1).  
  5. ^ James. "Comparative Digestion". VetSci. Retrieved 3 May 2013. 
  6. ^ Hirakawa, Hirofumi (2001). "Coprophagy in Leporids and Other Mammalian Herbivores". Mammal Review 31 (1): 61–80.  
  7. ^ Budiansky, Stephen (1997). The Nature of Horses. Free Press.  
  8. ^ van der Made, Jan; Grube, René (2010). "The rhinoceroses from Neumark-Nord and their nutrition". In Meller, Harald. Elefantenreich – Eine Fossilwelt in Europa (in German with English translations). Halle/Saale. pp. 382–394; see p. 387. 
  9. ^ Clauss, M.; Frey, R.; Kiefer, B.; Lechner-Doll, M.; Loehlein, W.; Polster, C.; Roessner, G. E.; Streich, W. J. (2003-04-24). "The maximum attainable body size of herbivorous mammals: morphophysiological constraints on foregut, and adaptations of hindgut fermenters".  
  10. ^ Evans, A. R.; et al. (2012-01-30). "The maximum rate of mammal evolution".  
  11. ^ Williams, Carey A. The Basics of Equine Nutrition from FS #038, Equine Science Center, Rutgers University, Revised: April 2004. Accessed February 9, 2007
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