GUT MORPHOLOGY AND MORPHOMETRY IN THE EPAULETTED WAHLBERG™S FRUIT BAT (EPOMOPHORUS WAHLBERGI, SUNDEVALL, 1846)

Makanya, A. N. and Self, T. J. and Warui, C. N. and Mwangi, D. K. (2001) GUT MORPHOLOGY AND MORPHOMETRY IN THE EPAULETTED WAHLBERG™S FRUIT BAT (EPOMOPHORUS WAHLBERGI, SUNDEVALL, 1846). Acta Biologica Hungarica, 52 (1). pp. 75-89. ISSN 0236-5383

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Abstract

The morphological adaptations of the fruit bat small intestine to which the high functional efficiency could be related and the possible landmarks delineating the various parts of the gut were examined. The stomach was the carnivorous type with large rugae spanning the entire luminal aspect down to the pyloric sphincter, which was reflected internally as a prominent fold. Externally, the intestine was a continuous tube uninterrupted by any structures. The cranial fifth of the small gut had long, branching and anasto- mosing villi, which caudally turned to finger-like discrete structures that became rather short and stumpy and diminished at the beginning of the colon. The colon had longitudinal folds that were macroscopical- ly discernible from the mucosal aspect of the opened intestine and that continued into the rectum. The small gut formed 94% of the whole intestinal length, the colon and the rectum taking 4 and 2%, respec- tively. Ultrastructurally, the enterocyte showed a prominent brush border and the lateral membranes were modified into numerous tortuous interdigitating processes. Adjacent enterocytes were joined by these processes through desmosomes. The processes also participated in pinocytotic fluid uptake from the intercellular spaces with resultant numerous intracellular vacuoles of varied sizes. Solutes absorbed into the cells were probably first passed into the intercellular compartment to create a concentration gradient thus enhancing further absorption into the cell. We conclude that the uniquely elaborate ultrastructure of the enteric epithelium coupled with the vast microvillous surface areas reported elsewhere are partly responsible for the very high absorption rates reported in the fruit bat small intestine. Keywords: Fruit bat Ś gut Ś landmarks Ś epithelium Ś ultrastructure

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