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.
Many present-day Australians see the dingo as a threat and a pest to human production systems. An alternative viewpoint, which is more in tune with Indigenous culture, allows others to see the dingo as a means to improve human civilisation. The dingo has thus become trapped between the status of pest animal and totemic creature. This book helps readers to recognise this dichotomy, as a deeper understanding of dingo behaviour is now possible through new technologies which have made it easier to monitor their daily lives. Recent research on genetic structure has indicated that dingo ‘purity’ may be a human construct and the genetic relatedness of wild dingo packs has been analysed for the first time. GPS telemetry and passive camera traps are new technologies that provide unique ways to monitor movements of dingoes, and analyses of their diet indicate that dietary shifts occur during the different biological seasons of dingoes, showing that they have a functional role in Australian landscapes. Dingo brings together more than 50 years of observations to provide a comprehensive portrayal of the life of a dingo. Throughout this book dingoes are compared with other hypercarnivores, such as wolves and African wild dogs, highlighting the similarities between dingoes and other large canid species around the world.
The aim of this paper is to highlight long-term (four decades) research and monitoring the populations of the four species of large kangaroos in New South Wales (NSW). Kangaroos are counted by aerial surveys using two types of aircraft: fixed-wing and helicopters. The NSW Commercial Kangaroo Harvest Management Plan 2017-21 states that harvest quotas are set at between 15 and 17% of the estimated kangaroo populations. As an example of the scale and intensity of kangaroo distribution and harvesting in NSW, the total number of kangaroos estimated to be present in the 14 commercial zones in 2017 was 17,457,257. The number present in each commercial zone varies widely across the state, with the Narrabri zone leading the list with an estimated 2,215,589 kangaroos in 2017. More than half of the kangaroos in NSW were eastern grey kangaroos (9,298,261 in 2017). The zone with the highest number of red kangaroos (1,567,598 in 2017) was in the far west of the State, in the Tibooburra commercial zone. The total number in the commercial take in 2017 was 454,626, representing 16% of the quota allowed to be taken, and 2.6% of the total number of kangaroos in the commercial zone. The four decades of records of the population sizes show that the numbers vary between about 5 million and 18 million for the western plains, where the counting has been consistent over the same area since the beginning of the surveys in 1975. The periods of decline correspond with periods of drought, with the Millennium drought showing a considerable dip to a low point in kangaroo numbers in 2005. Initial assessments from data dominated by drought found recent rainfall was the best predictor of rate of increase in kangaroo numbers, but analyses of a longer time series found rainfall with a longer time-lag was most influential. In the Tibooburra commercial zone, there has been a 4-fold change, with the highest number (1,567,598) recorded in 1998, the lowest number in 2006 (361,506), and equally high numbers (1,567,589) again in 2016. The short answers to regular questions of kangaroo resilience in relation to commercial harvesting, or about allowing culling where rural landholders are adversely affected by kangaroo numbers, are that the data show the kangaroo populations of NSW to be large and widespread and not declining because of either the commercial harvest or culling. While harvesting and culling remain as political matters, our view is that the debate needs to be based on long-term datasets that are readily accessible and reliable. In our view, these datasets not only fulfil that requirement, but are textbook material; they can be summarised into one graph that covers decades, or expanded to show the fluctuations in the numbers of each species in each zone for each year.
The dingo (Canis lupus dingo) is a keystone species in Australian ecosystems. The current study reports four dingoes observed attacking a swimming eastern grey kangaroo (Macropus giganteus) in the Wollondilly River, New South Wales. It is proposed that kangaroos need to stand at a certain depth of water to escape an attack by dingoes. If dingoes can continue attacking from opposing directions without threat of injury from the kangaroo, such as in shallow water where dingoes can stand or deep water where kangaroos cannot stand, then the attack may continue until the predator(s) kill the prey or the prey escapes. Further research on such behaviours is needed to understand the functional role of dingoes and the importance of pack structure in development of hunting strategies.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.