Ciliate protozoa of the forestomach of llamas (Lama glama) and alpacas (Vicugna pacos) from the Bolivian Altiplano

Abstract

Protozoal diversity in the forestomach of South American camelids (SAC) was studied in eight llamas and six alpacas from the Parque Natural Condoriri (3900 to 4100 m altitude, Departamento La Paz, Bolivia). Total protozoal concentrations were 3.6 times higher (P < 0.001) in the stomach contents of alpacas (39.6 x 10 4 ml -1 and 143.8 x 10 4 ml -1 in llamas and alpacas, respectively). Four to 11 species, all from the genus Entodinium, were observed in llamas, whereas from eight to nine species of Entodinium and minor proportions of Diplodinium (D. anisacanthum, D. dogieli, D. rangiferi), Eudiplodinium (E. bovis, E. maggii, E. neglectum) and Epidinium (E. ecaudatum) were observed in alpacas. The presence of Epidinium species in the alpaca is a new host record. The vestibuliferids, Dasytricha and Isotricha were absent from the forestomach of SAC, as well as other species such as Caloscolex genus, Diplodinium cameli and Entodinium ovumrajae, commonly found in Old World camelids.

References

1. Analytical Software, (2003) STATISTIX 8 for Windows. Tallahasee, FL, USA.

   Baker, S.K. & Day, T.J. (1993) The population of ciliate protozoa in the rumens of alpacas and sheep. VII World Conference on Animal Production, Edmonton (Alberta, Canada), 2, 126–127.

   Castellaro, G., Ullrich, T., Wackwitz, B. & Raggi A. (2004) Composición botánica de la dieta de alpacas (Lama pacos L.) y llamas (Lama glama L.) en dos estaciones del año, en praderas altiplánicas de un sector de la Provincia de Parinacota, Chile. Agricultura Técnica, 64, 353–363.

   Davies, H.L., Robinson, T.F., Roedor, B.L., Sharp, M.E., Johnston, N.P., Christensen, A.C. & Schaalje, G.B. (2007) Digestibility, nitrogen balance and blood metabolites in llama (Lama glama) and alpaca (Lama pacos) fed barley or barley alfalfa diets. Small Ruminant Research, 73. 1–7.

   Dehority, B.A. (1974) Rumen ciliate fauna of Alaskan moose (Alces americana), musk-ox (Ovibos mochatus) and Dall mountain sheep (Ovis dalli). Journal of Protozoology, 21, 26–32.

   Dehority, B.A. (1984) Evaluation of subsampling and fixation rumen procedures used for counting rumen protozoa. Applied Environmental Microbiology, 48, 182–185.

   Dehority, B.A. (1986) Protozoa of the digestive tract of herbivorous mammals. Insect Science and its Application, 7, 279–296.

   Dehority, B.A. (1993) Laboratory manual for classification and morphology of rumen ciliate protozoa, CRC Press, Boca Raton, FL.

   Dogiel, V.A. (1927) Monographie der Familie Ophryoscolecidae. Archiv für Protistenkunde, 59, 1–288.

   Eadie, J.M. (1962) Interrelationships between certain rumen ciliate protozoa. Journal of General Microbiology, 29, 579–588.

   Engelhardt, W., Lechner-Doll, M., Heller, R. & Rutagwenda, T. (1988) Physiology of the forestomach in the camelids with particular reference to adaptation to extreme dietary conditions—a comparative approach. Animal Research and Development, 28, 56–70.

   Ghosal, A.K., Tanwar, R.K. & Dwaraknath, P.K. (1981) Note on rumen microorganisms and fermentation pattern in camel. Indian Journal of Animal Science, 51, 1011–1012.

   Göçmen, B. (1999). Morphological and taxonomical investigations on the genus Epidinium Crawley, 1923 (Protozoa: Ciliophora: Entodiniomorphida). Turkish Journal of Zoology, 23, 429–463.

   Jouany, J.-P. (2000) La digestion chez les camélidés; comparaison avec les ruminants. INRA Productiones Animales, 13, 165–176.

   Kadwell, M., Fernandez, M., Stanley, H.F., Baldi, R., Wheeler, J.C., Rosadio, R. & Bruford, M.W. (2001) Genetic analysis reveals the wild ancestors of the llama and the alpaca. Proceedings of Biological Sciences, 268, 2575–2584.

   Kofoid, C.A. & MacLennan, R.F. (1930) Ciliates from Bos indicus Linn., I. The genus Entodinium Stein. University of California (Berkeley) Publications of Zoology, 33, 471–544.

   Kofoid, C.A. & MacLennan, R.F. (1932) Ciliates from Bos indicus Linn., II. A revision of Diplodinium Schuberg. University of California (Berkeley) Publications of Zoology, 37, 53–152.

   Kubesi, A.A. & Dehority, B.A. (2002) Forestomach ciliate protozoa in Egyptian dromedary camels (Camelus dromedarius). Zootaxa, 51, 1–12.

   Kubikova, M. (1935) Infusorien aus dem pansen von Cervus elaphus. Zoologister Anzeiger, Leipzig, 111, 175–177.

   Lemosquet, S., Dardillat, C., Jailler, M. & Dulphy, J.P. (1996) Voluntary intake and gastric digestion of two hays by llamas and sheep: influence of concentrate supplementation. Journal of Agricultural Science, 127, 539–548.

   Lubinsky, G. (1957). Studies on the evolution of the Ophryoscolecidae (Ciliata: Oligoisotricha). I. A new species of Entodinium with “caudatum”, “loboso-spiniosum” and “dubardi” forms, and some evolutionary trends in the genus Entodinium. Canadian Journal of Zoology, 35, 111–133.

   Lubinsky, G. (1964) Ophryoscolecidae of a guanaco from the Winipeg zoo. Canadian Journal of Zoology, 42, 159.

   Morvan, B., Bonnemoy, F., Fonty, G. & Gouet, P. (1996) Quantitative determination of H2-utilizing acetogenic and sulfate-reducing bacteria and methanogenic archaea from digestive tract of different mammals. Current Microbiology, 32, 129–133.

   Navarrre, C.B., Pugh, D.G., Heath, A.M. & Simpkins, S.A. (1999) Analysis of first gastric compartment fluid collected via percutaneous paracentesis from healthy llamas. Journal of the American Veterinary Medical Association, 214, 812–815.

   Ogimoto, K. & Imai, S. (1981) Atlas of rumen microbiology. Japan Scientific Societies Press, Tokyo.

   Pinares-Patiño, C.S., Ulyatt, M.J., Waghorn, G.C., Lassey, K.R., Barry, T.N., Holmes, C.W. & Johnson, D.E. (2003) Methane emission by alpaca and sheep fed on lucerne hay or grazed on pastures of perennial ryegrass/white clover or birdsfoot trefoil. Journal of Agricultural Science, 140, 215–226.

   San Martin, F. & Bryant, F.C. (1989) Nutrition of domesticated South American llamas and alpacas. Small Ruminant Research, 2, 191–216.

   Sládeček, F. (1946). Ophryoscoledcidae z bachoru jelena (Cervus elaphus L.), daňka (Dama dama L.) a srnce (Capreolus capreolus L.). Věstnik Čsl. Zoologicke Společnosti, 10, 201–231.

   Sponheimer, M., Robinson, T., Roeder, B., Hammer, J., Ayliffe, L., Passey, B., Cerling, T., Dearing, D. & Ehleringer, J. (2003). Digestion and passage rates of grass hays by llamas, alpacas, goats, rabbits and horses. Small Ruminant Research, 48, 149–154.

   Tichit, M. & Genin, D. (1997) Factors affecting herd structure in a mixed camelid-sheep pastoral system in the arid Puna of Bolivia. Journal of Arid Environments, 36, 167–180.

   Vallenas, A., Cummings, J.F. & Munnell J.F. (1991) A gross study of the compartmentalized stomach of two new-world camelids, the llama and guanaco. Journal of Morphology, 134, 399–423.

   Wertheim, P. (1935). A new ciliate, Entodinium bovis sp. n. from the stomach of Bos taurus L., with the revision of Entodinium exiguum, E. nanellum, E. simplex, E. dubardi and E. parvum. Parasitology, 27, 226–230.

   Williams, A.G. & Coleman, G.S. (1992) The rumen protozoa. Brock-Springer Series in Contemporary Bioscience, Springer-Verlag, New York.