Potoroo

Abstract: The diet of the long-nosed potoroo, Potorous tridactylus, in south-western Victoria, was investigated by the microscopical identification of faecal remains. P. tridactylus is omnivorous: the main component of the diet was fungi, and other important items included hard-bodied arthropods, vascular plant tissues, seeds and fleshy fruits. There was a seasonal switch in the relative proportions of the main dietary components between the autumn-winter and spring-summer periods of the year. During autumn and winter, the main components were fungi and seeds. In spring and summer, fewer fungi were eaten and the proportions of arthropods, plant tissues, fleshy fruit and flowers in the diet increased. Identification of fungal spores revealed the presence of at least 50 species in the diet, most of which have a hypogeal fruiting habit. Hypogeal fungi form ectotrophic mycorrhizal associations with forest trees and are important in the health and productivity of forests. They lack active mechanisms for spore dispersal and are dependent upon mycophagous animals. The role of mycophagous small mammals, such as P. tridactylus, in the health of forest ecosystems may be more important than previously recognised.

Abstract: Little is known of the prevalence and life-cycle of trypanosomes in mammals native to Australia. Native Australian trypanosomes have previously been identified in marsupials in the eastern states of Australia, with one recent report in brush-tailed bettongs (Bettongia penicillata), or woylie in Western Australia in 2008. This study reports a novel Trypanosoma sp. identified in blood smears, from 7 critically endangered Gilbert's potoroos (Potorous gilbertii) and 3 quokkas (Setonix brachyurus) in Western Australia. Trypanosomes were successfully cultured in vitro and showed morphological characteristics similar to members of the subgenus Herpetosoma. Phylogenetic analysis of 18S rRNA gene sequences identified 2 different novel genotypes A and B that are closely related to trypanosomes previously isolated from a common wombat (Vombatus ursinus) in Victoria, Australia. The new species is proposed to be named Trypanosoma copemani n. sp.

Abstract: Rat-kangaroos have not coped well with the impact of European settlement in Australia. Of the 11 species present in 1788, two are extinct, two are either mostly or totally restricted to offshore islands and the range of all other species has been much reduced. Habitat alienation, altered fire regimes, grazing, predation by introduced carnivores, competition from rabbits and timber harvesting have variously taken their toll on these little-seen animals. The rat-kangaroo was one of the first Australian marsupials to be seen alive in Europe. Collected close to the settlement at Sydney Cove, a pair of them were exhibited in London in 1789. These animals were called by the local Aboriginal people 'Pot-o-roo', and by the European settlers, 'Kangooroo rat'. They were the Long-nosed Potoroo, Potorous tridactylus, the first of what we now call 'Rat-kangaroos' to be discovered. Bettongs, Potoroos and the Musky Rat-kangaroo provides an extraordinary glimpse into the secretive lives of these unusual marsupials. It also reveals little-known facts about the critical functional role these creatures play in maintaining the forest and woodland habitats in which they live.

Abstract: Camera traps can detect rare and cryptic species, and may enable description of the stability of populations of threatened species. We investigated the relative performance of cameras oriented horizontally or vertically, and recording mode (still and video) to detect the vulnerable long-nosed potoroo (Potorous tridactylus) as a precursor to population monitoring. We established camera traps for periods of 13–21 days across 21 sites in Richmond Range National Park in north-east New South Wales. Each camera trap set consisted of three KeepGuard KG680V cameras directed at a bait container – one horizontal and one vertical camera in still mode and one horizontal camera in video mode. Potoroos and bandicoots (Perameles nasuta and Isoodon macrourus) were detected at 14 sites and pademelons (Thylogale stigmatica and T. thetis) were detected at 19 sites. We used program Presence to compare detection probabilities for each camera category. The detection probability for all three taxa groups was lowest for the vertical still and similar for the horizontal cameras. The detection probability (horizontal still) was highest for the potoroos (0.43) compared with the bandicoots (0.16) and pademelons (0.25). We estimate that the horizontal stills camera could achieve a 95% probability of detection of a potoroo within 6 days compared with 8 days using a vertical stills camera. This suggests that horizontal cameras in still mode have great potential for monitoring the dynamics of this potoroo population.