The bare-tailed woolly opossum, Caluromys philander, and the kinkajou, Potos¯avus, are two syntopic neotropical nocturnal, arboreal and frugivorous mammals. Because of close ecology but great difference in size (weight 300 vs 3000 g), they represent pertinent models to examine the in¯uence of size on foraging strategy. These species were studied by radio-tracking and direct observation during 22 months in a tropical forest in French Guiana. Both mammals' foraging strategies with regard to¯owers and fruits are characterized as follows: (1) numerous plant families and species are exploited; (2) most plant species are selected according to their abundance; (3) diet selectivity and diversity are similar in both mammals; (4) relative parts of¯owers and fruits in the diet vary according to their year-long availability; (5) the choice of fruiting species is not related to the morphological type, size, or nutritious quality of fruits but instead depends on easy access to the edible part; (6) the length of foraging bouts is correlated with production for the most frequently exploited tree species; (7) feeding bouts are shorter in P.¯avus than in C. philander; (8) P.¯avus exploits large, highly productive canopy trees, while C. philander also visits canopy trees with low production and understorey trees. In conclusion, both mammals are opportunistic ower-and fruit-eaters, but the larger species (P.¯avus) exploits larger, more scattered food patches, while the smaller one (C. philander) also exploits smaller, more numerous and more evenly distributed food patches.
Two kinkajous (Potos flavus) were equipped with radio-transmitters and tracked during a 14- and a 7-day period in a primary forest of French Guiana. Both individuals were strictly nocturnal. They moved between food patches (flowering or fruiting trees) duringc.65% of the night, visited food trees duringc.20%, while the remaining time was devoted to rest. Rest time tended to peak in the middle of the night, whereas distances travelled peaked at the beginning and the end of the night. Minimum and maximum home range areas, estimated from minimum area and minimum convex polygon methods respectively, reached 15.7 and 17.6 ha in the female, 26.6 and 39.5 ha in the male. Mean daily activity area amounted to 5.5 ha in the female, 11.3 ha in the male. Distances travelled in a night averaged 1495 m for the female, 2540 m for the male. In contrast to the female, the male used the periphery more intensively than the centre of its home range. Both individuals occupied several roosts located in the canopy, but one far more frequently than the others. The male's roosts were all situated in the periphery of the home range.Kinkajous were observed feeding on flowers or fruits of 15 plant species. Among the 10 species exploited for fruits, at least seven were dispersed. Dispersal distances averaged 200 ± 75 m (13 seed dispersal occurrences for 16 defecations), while seed transit time varied from 45 min to 3 h 35 min.P. flavusappears to be nocturnal, solitary, a generalist fruit and flower-eater and an important seed dispersal agent.
The use of fruit-based diets by a small arboreal marsupial, the woolly opossum (Caluromys philander) was studied to elucidate the mechanisms used to compensate for a low dietary protein concentration. The passage of a liquid phase digesta marker (Cr-EDTA) through the gut was significantly faster when animals were fed a diet containing 0.45% N compared to that measured on a diet containing 0.90% N. The size of the gut of the two groups was similar except that the caecum of animals fed 0.45% N was significantly larger than in those animals fed 0.90% N. Animals fed a diet of 0.45% N ate significantly more food than those fed higher levels of nitrogen but there was no significant difference in the dry matter digestibility of the diet. The maintenance nitrogen requirement of the animals was 176 mg dietary N or 146 mg truly digestible nitrogen per kg metabolic body mass, with low losses of non-dietary faecal nitrogen being notable. There was no significant difference between diets in any measured parameter of urea metabolism and all animals recycled between 60% and 80% of the endogenously synthesised urea.
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