Abstract
A cross sectional, coprological survey on gastrointestinal (GI) parasites of captive mammals in the Dehiwala National Zoological Gardens was carried out in 2014. Fresh faecal samples from all the mammal species belonging to nine orders: Primates, Carnivora, Perissodactyla, Artiodactyla, Proboscidea, Erinaceomorpha, Lagomorpha, Rodentia and Diprotodontia were analyzed. Intensity of parasite infections was determined using the McMaster technique. Of the 70 samples, 44 (62.9%) were positive for one or more GI parasites. A total of 13 types of GI parasite eggs, cysts and/or oocysts of Trichuris sp., Strongyloides sp., Toxocara sp., Spirometra sp., Moniezia sp., Nematodirus sp., Giardia sp., Blastocystis sp., Balantidium sp., Entamoeba spp., strongyle type eggs, hookworm, and coccidian oocyts were observed. The most common stage was strongyle type egg (17.1%) followed by cysts of Entamoeba spp. (14.3%). Of the infected individuals, 25% had mixed infections. A higher prevalence of helminths (81.8%) compared to protozoans (47.7%) was observed but this difference was not statistically significant (Chi square test; p>0.05). There was no significant difference in the prevalence of infection among the captive bred, imported or wild caught individuals (Chi square test; p>0.05). Mammals of seven orders were infected with GI parasites but lagomorphs and diprotodonts did not have any parasites. Among the herbivores, strongyle type, Moneizia, Entamoeba and coccidian infections were common while Nematodirus sp. in a porcupine and Spirometra sp. in a flying squirrel were rare. Common parasites of carnivores were, Toxocara and Entamoeba but Blastocystis sp. in coati was a rare infection. Trichuris and Giardia infections were common in Primates. High worm burden was evidenced in silver leaf monkey, Hamadryas baboon, African lion, black rhino, pony, porcupine and flying squirrel. Although regular deworming is carried out, results of this survey highlight the importance of faecal analysis before administering deworming and applying a more targeted approach to manage the pathogenic species. This study provides baseline data on the GI parasites of all the mammal orders at Dehiwala Zoological Gardens.
Highlights
Zoological gardens play an important role in the promotion of animal biodiversity by protecting endangered species (Kelly and English, 1997)
Similar prevalence levels of GI parasites have been reported from captive mammals in other zoos in Rangpur Recreational Garden in Bangladesh (Khatun et al, 2014) and Zoo Safari of Fasano in Italy (Fagiolini et al, 2010)
A higher percentage of mammals at the Dehiwala Zoo were infected with helminths (81.8%) than protozoans (47.7%) irrespective of administration of regular deworming
Summary
Zoological gardens play an important role in the promotion of animal biodiversity by protecting endangered species (Kelly and English, 1997). Since animals are kept in confined areas, parasitic diseases constitute one of the major problems in zoological gardens around the world due to high environmental contamination (Rao and Acharjyo, 1984). Occurrence of parasites in captive animals in zoological gardens might vary according to husbandry practices, disease prophylactic measures, parasite-host interactions and treatment administrated (Lim et al, 2008). Captive animals do not show alarming signs of parasitism, if regular de-worming practices are carried out in zoological gardens (Parsani et al, 2001). Parsani et al, 2001 further argue that some captive animals do show clinical signs due to parasites even if they are regularly dewormed and some will have no clinical signs even if they are never dewormed and this depends more on the parasite host interactions than deworming practices. Parasites can be brought into a zoological garden by many ways: Ceylon Journal of Science 45(1) 2016: 83-96 through animal food, (contaminated fruits and vegetables, infected meat or fish, etc), intermediate and paratenic hosts (snails, ants, cockroaches and other insects, rodents, etc.), newly acquired parasitized animals and through infected zoo staff and visitors (Pencheva, 2013)
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