Global Positioning System (GPS) wildlife telemetry collars are being used increasingly to understand the movement patterns of wild mammals. However, there are few published studies on which to gauge their general utility and success. This paper highlights issues faced by some of the first researchers to use GPS technology for terrestrial mammal tracking in Australia. Our collated data cover 24 studies where GPS collars were used in 280 deployments on 13 species, including dingoes or other wild dogs (Canis lupus dingo and hybrids), cats (Felis catus), foxes (Vulpes vulpes), kangaroos (Macropus giganteus), koalas (Phascolarctos cinereus), livestock guardian dogs (C. l. familiaris), pademelons (Thylogale billardierii), possums (Trichosurus cunninghami), quolls (Dasyurus geoffroii and D. maculatus), wallabies (Macropus rufogriseus and Petrogale lateralis), and wombats (Vombatus ursinus). Common problems encountered were associated with collar design, the GPS, VHF and timed-release components, and unforseen costs in retrieving and refurbishing collars. We discuss the implications of collar failures for research programs and animal welfare, and suggest how these could be avoided or improved. Our intention is to provide constructive advice so that researchers and manufacturers can make informed decisions about using this technology, and maximise the many benefits of GPS while reducing the risks.
Greater stick-nest rats were widely distributed across southern Australia in pre-European times, but only survived as a single population on the Franklin Islands in South Australia. Conservation efforts since 1983 have included survey of the remaining population, establishment of a captive colony and subsequent translocations to both island and mainland sites. Translocations have met with mixed success, with four of 10 (three islands and one mainland site) successful and extant for 19–28 years, five unsuccessful (one island and four mainland sites) and one as yet indeterminate. Overall, the increase in number of populations, area of occupancy and extent of occurrence has been positive, and has resulted in a down-listing of conservation status. There are numerous plausible explanations for the lack of success at some sites, but few data to differentiate among them. These plausible explanations include: the release of stick-nest rats to habitats of poor quality; high levels of predation (perhaps hyperpredation) by native predators (chiefly monitors and predatory birds) in combination, at some sites, with predation by feral cats or foxes; and ineffective release protocols. Most extant populations have undergone substantial fluctuations over time, and some show apparent long-term declines in abundance, likely increasing their probability of local extinction over time. There is a need for regular ongoing monitoring – of stick-nest rats themselves, their habitat and their suite of potential predators – to aid interpretation of outcomes. A more experimental approach to future releases is required to adjudicate among competing explanations for such declines.
This study examined the history, prevalence and distribution of sarcoptic mange in southern hairy-nosed wombats (Lasiorhinus latifrons) in the Murraylands, South Australia. Results from a survey suggested that there had been a long history of sporadic mange outbreaks, with 43% of 85 respondents indicating that they had seen diseased animals. There was a concentration of positive sightings (59%) in the vicinity of one town, Swan Reach. A total of 67 wombats was also caught on three pastoral properties; 0% (n = 21), 4% (n = 21) and 76% (n = 23) were found to have mange at each respective site. Diseased wombats presented with erythema, parakeratosis and alopecia and had lower median condition, subcutaneous fat and higher bone prominence scores than healthy animals. Severely diseased adult wombats had an average bodyweight that was 9.86 kg lower than those without mange. Infected animals suffered higher mortality, with a rate of ~37% in eight months on one property. It is suggested that mange may have a significant effect on southern hairy-nosed wombats and outbreaks could result in the decline and/or possible extinction of small, isolated populations. Population management initiatives, including suspending culling quotas in infected populations, should thus be considered.
Objective Use haematology, biochemistry and protein electrophoresis analyses to establish reference values for, and describe the health status of, wild and captive colonies of critically endangered warru (black‐footed rock‐wallaby: Petrogale lateralis MacDonnell Ranges race). Methods Blood samples were taken from warru in three wild colonies (Alalka, Kalka, New Well) in the A nangu Pitjantjatjara Yankunytjatjara Lands in north‐west South Australia (SA) and from captive animals at Monarto Zoo, SA. General haematology, serum biochemistry and protein electrophoresis analyses were conducted and results used to establish reference ranges. For the parameters that are indicative of a population's health, comparisons among the study sites were completed using analysis of variance. Results General haematology results suggested that warru were not experiencing chronic anaemia and the protein electrophoresis values indicated that colonies were not suffering from population‐wide disease. However, the lower superoxide dismutase, retinol, total carotenoids and ascorbic acid values for New Well warru suggested those animals had a lower plane of nutrition than those at Kalka and Alalka. Higher urea concentrations in New Well and Alalka warru could be a reflection of the absence of reliable free water at these sites. Conclusion The results have implications for the management of in situ colonies, including potentially using supplementary feeding to improve nutrition, and suggested that these animals were not suffering from disease. The study presents the first blood reference values for P. lateralis and, potentially, a methodology for other threatened species recovery programs to follow to establish the health of their populations.
ABSTRACT:We examined the clinical and cellular effects of sarcoptic mange on southern hairynosed wombats (SHNW, Lasiorhinus latifrons) and the effectiveness of a single dose of ivermectin as a treatment for captive and wild animals. Wambats were caught at three sites in South Australia between April and August 2005 and blood and skin samples were collected. Hematology, biochemistry, and protein electrophoresis reference intervals were determined for healthy and diseased SHNW. Diseased SHNW had significantly higher white blood cell counts, neutrophils, lymphocytes, and total protein but lower red blood cell counts, hemoglobin, hematocrit, and creatinine. Microscopic investigation indicated substantial hyperplasia, hyperkeratosis, and fluid infiltration into the dermis and epidermis of diseased animals. Conclusions on the efficacy of a single dose of ivermectin were limited by low sample size (n55, two captive and three wild SHNW) and are preliminary. However, ivermectin effectively treated mild, but not severe, mange in wild SHNW and severe mange in captive animals. This study has implications for the conservation and management of SHNW and the broader Vombatidae family.
Translocation is an increasingly common component of species conservation efforts. However, translocated populations often suffer from loss of genetic diversity and increased inbreeding, and thus may require active management to establish gene flow across isolated populations. Assisted gene flow can be laborious and costly, so recipient and source populations should be carefully chosen to maximise genetic diversity outcomes. The greater stick-nest rat (GSNR, Leporillus conditor), a threatened Australian rodent, has been the focus of a translocation program since 1985, resulting in five extant translocated populations (St Peter Island, Reevesby Island, Arid Recovery, Salutation Island and Mt Gibson), all derived from a remnant wild population on the East and West Franklin Islands. We evaluated the genetic diversity in all extant GSNR populations using a large single nucleotide polymorphism dataset with the explicit purpose of informing future translocation planning. Our results show varying levels of genetic divergence, inbreeding and loss of genetic diversity in all translocated populations relative to the remnant source on the Franklin Islands. All translocated populations would benefit from supplementation to increase genetic diversity, but two—Salutation Island and Mt Gibson—are of highest priority. We recommend a targeted admixture approach, in which animals for supplementation are sourced from populations that have low relatedness to the recipient population. Subject to assessment of contemporary genetic diversity, St Peter Island and Arid Recovery are the most appropriate source populations for genetic supplementation. Our study demonstrates an effective use of genetic surveys for data-driven management of threatened species.
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