Intraspecific macroscopic digestive anatomy of ring-tailed lemurs (Lemur catta), including a comparison of frozen and formalin-stored specimens

Autor:	Tomo Takano, Marcus Clauss, Ikki Matsuda, Andrew C. Kitchener, Julia Stagegaard, Georg Hantke, Nicole L. Ackermans, Yuta Shintaku, Jelscha Trümpler
Přispěvatelé:	University of Zurich, Clauss, Marcus
Rok vydání:	2020
Předmět:	Primates 0106 biological sciences 10253 Department of Small Animals Ontogeny Appendix Lemur catta 010603 evolutionary biology 01 natural sciences Intraspecific competition Specimen Handling Caecum 03 medical and health sciences Formaldehyde Freezing medicine Animals Digestive tract Cecum 030304 developmental biology Allometry 0303 health sciences 630 Agriculture biology Lemur Body Weight Strepsirrhini Interspecific competition Anatomy biology.organism_classification Small intestine Gastrointestinal Tract medicine.anatomical_structure Animal ecology 570 Life sciences Original Article Animal Science and Zoology 1103 Animal Science and Zoology
Zdroj:	Primates; Journal of Primatology
ISSN:	1610-7365 0032-8332
DOI:	10.1007/s10329-020-00873-8
Popis:	Digestive tract measurements are often considered species specific, but little information exists on the degree to which they change during ontogeny within a species. Additionally, access to anatomical material from nondomestic species is often limited, with fixed tissues possibly representing the only available source, though the degree to which this material is representative in terms of dimensions and weight is debatable. In the present study, the macroscopic anatomy of the digestive tract (length of intestinal sections, and tissue weights of stomach and intestines) of 58Lemur catta[ranging in age from 1 month (neonates) to 25 years], which had been stored frozen (n = 27) or fixed in formalin (n = 31), was quantified. Particular attention was paid to the caecum and the possible presence of an appendix. The intraspecific allometric scaling of body mass (BM)0.46[0.40;0.51]for total intestine length and BM0.48[0.41;0.54]for small intestine length was higher than the expected geometric scaling of BM0.33, and similar to that reported in the literature for interspecific scaling. This difference in scaling is usually explained by the hypothesis that, to maintain optimal absorption, the diameter of the intestinal tube cannot increase geometrically. Therefore, geometric volume gain of increasing body mass is accommodated for by more-than-geometric length scaling. According to the literature, not allL. cattahave an appendix. No appendix was found in the specimens in the present study. The proportions of length measurements did not change markedly during ontogeny, indicating that the proportions of the foetus are representative of those of the adult animal. By contrast, width and tissue-mass scaling of the caecum indicated disproportionate growth of this organ during ontogeny that was not reflected in its length. Compared to overall intraspecific variation, the method of storage (frozen vs. formalin) had no relevant impact on length or weight measurements.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::5c679d59f328410fa770eea75cd0cded https://doi.org/10.1007/s10329-020-00873-8 Zobrazit plný text záznamu Full text from SpringerLink