Amylase expression was increased in hamadryas baboons (P = 0.0376) compared to humans and might indicate dietary starch use in Cercopithecines.
Gelada baboons are the sole survivors of the genus Theropithecus and the only known graminivorous primates. They developed special adaptations to their diet such as high-crowned teeth for processing hard and abrasive feed. The fine-tuning of salivary protein composition might be another key mechanism that is used by species for adapting to the environment and competing with rivals for exploiting new ecological niches. In order to test whether gelada (graminivorous) and hamadryas baboons (omnivorous) differ in their salivary protein composition, we compared whole saliva samples of captive Theropithecus gelada and Papio hamadryas using gel electrophoresis and tannin-binding assay. We hypothesized that the amount of proline-rich salivary proteins with tannin-binding capacity is higher in baboons consuming a feed with high dicot/monocot rations. Dicots produce tannins as a chemical defense system, discouraging animals from eating them. In contrast to dicots, monocots do not synthesize tannins. The presence of tannin-binding proteins in saliva should effectively inactivate the dicot tannin-based defense mechanism and increase the dietary breadth and/or the capability to switch between monocots and dicot leaves. The lack of such tannin-binding proteins in saliva would indicate a narrow dietary spectrum more restricted to monocots. We found T. gelada to completely lack proline-rich proteins (PRPs) and tannin-binding capacity similar to a great variety of other grazing mammals. In contrast, P. hamadryas does possess PRPs with tannin-binding activity. The findings support a growing body of evidence suggesting a high-level specialization of T. gelada to grass diets. However, it remains unclear, whether loss of salivary tannin-binding capacity drove the gelada into its narrow feeding niche, or whether this loss is the result of a long process of increased specialization. Thus, from an ecological point of view, T. gelada appears to be more vulnerable to environmental changes than other baboon species owing to its narrow dietary traits.
Hindgut fermentation has been suggested to contribute significantly to the digestive process in the gelada (Theropithecus gelada). We therefore hypothesized that in an in vitro fermentation test (Hohenheim gas test, using gas production as measure of microbial digestion) inoculum based on fresh gelada feces would degrade grass to a similar degree as zebra (Equus burchelli chapmani) feces and to a higher degree than that of hamadryas baboons (Papio hamadryas). Additionally, morphology of gelada tongue, salivary glands, stomach, and intestine were examined in this study. Gas production was measured between 4 and 96 hr using animal feces incubated with 200 mg of air-dry hay or mixed concentrate sample. For grass hay, 12-hr gas production was as follows: T. gelada (19.9 ml)>Papio (18.4 ml)>Equus (15.7 ml). After 24 hr, gas production changed: Papio (35.1 ml)>T. gelada (31.9 ml)>Equus (27.9 ml). At 96 hr, Papio was unexpectedly the most effective species with the highest gas production (53.1 ml)>zebra (51.2 ml)>gelada (49.4 ml). With a concentrate standard, 12-hr gas production was as follows: T. gelada (38.5 ml)>Equus (36.8 ml) = Papio (36.4 ml). At 24 hr, gas production differed: Papio (51.7 ml)>Equus (47.0 ml) = T. gelada (46.8 ml). At 96 hr, zebra was the most effective species with the highest gas production (63.9 ml)>Papio (60 ml) = T. gelada (59.9 ml). In conclusion, the results show that the microbial population present in gelada feces is able to ferment forage and concentrate substrates in vitro, although this fermentation did not occur with the expected effectiveness. Future studies should therefore focus also on the bacteria species involved.
Zoo populations of prosimians are usually so small that death or reproductive failure of a few individuals may lead to a considerable loss of genetic diversity. Losses due to inadequate captive conditions must be minimized. This paper provides ideas and literature references for practical improvements of captive conditions and could serve as a checklist for writers of husbandry manuals. Items for inclusion in husbandry manuals containing detailed information about prosimians are provided. The preservation of genetic diversity in captive populations and adaptations of wild populations to their habitats are discussed. A list of items proposed for husbandry research includes an identification key for subpopulations and subspecies, field data and a variety of other factors such as housing, climatic needs, behaviour, relation between animals and keepers, reproduction, health, animal welfare and stress. Care for individuals as well as the metapopulation is recommended. The list includes some items which are not generally regarded as husbandry matters, but which ought to be considered, especially when a species is held for conservation purposes within managed programmes which include both in situ and ex situ components. The paper was based on experience with Loris tardigradus, so the needs of some other species may be less well covered.
A walk-through aviary opened at Rheine Zoo in 1984 was designed to simulate a wetland habitat housing egrets, ibises and spoonbills. The paper details the construction and management of the exhibit which, in addition to breeding colonies of birds, sustains appropriate flora, invertebrate and fish populations. Winter quarters and management are also described.
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