Journal articles on the topic 'Red fox – Australia'
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Carter, Andrew, Gary W. Luck, and Simon P. McDonald. "Ecology of the red fox (Vulpes vulpes) in an agricultural landscape. 2. Home range and movements." Australian Mammalogy 34, no. 2 (2012): 175. http://dx.doi.org/10.1071/am11041.
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The red fox (Vulpes vulpes) is a major predator of Australian wildlife and livestock, but relatively few data exist on fox home-range size and movements in agricultural landscapes. We used radio-telemetry to measure variability in fox home-range size and overlap, and to quantify nightly movements in farmland in south-eastern Australia. Home-range estimates were calculated using the Minimum Convex Polygon (MCP) and Kernel Contours methods. Fourteen foxes were radio-tracked, with home-range size varying from 287 to 3574 ha (mean = 1177 ha, ±920 ha (s.d.), n = 10 foxes) based on the 100% MCP and 151–3196 ha (mean = 639 ha, ± 930 ha (s.d.), n = 10 foxes) based on 95% Kernel. Home-range overlap was greater between subadults than adult foxes; especially at the core home-range level where adult home ranges were virtually exclusive. The average (minimum) area covered by adult foxes during a 12-h nightly period was 383 ha (±347 ha (s.d.), range = 136–1446 ha, n = 4 foxes). The minimum (straight-line) distance travelled by adult foxes during a night was 4.8–16 km (mean = 9.4 km, ± 3.7 km (s.d.), n = 4 foxes). Through continuous radio-tracking, we found that foxes habitually travel over the same ground when moving between foci of interest. Our results improve understanding of fox ranging behaviour in the agricultural landscapes of southern Australia.
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Watson, Kalynda M. A., Katarina M. Mikac, and Sibylle G. Schwab. "Population Genetics of the Invasive Red Fox, Vulpes vulpes, in South-Eastern Australia." Genes 12, no. 5 (May 20, 2021): 786. http://dx.doi.org/10.3390/genes12050786.
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The use of genetic information in conservation biology has become more widespread with genetic information more readily available for non-model organisms. It has also been recognized that genetic information from invasive species can inform their management and control. The red fox poses a significant threat to Australian native fauna and the agricultural industry. Despite this, there are few recently published studies investigating the population genetics of foxes in Australia. This study investigated the population genetics of 94 foxes across the Illawarra and Shoalhaven regions of New South Wales, Australia. Diversity Array sequencing technology was used to genotype a large number of single nucleotide polymorphisms (N = 33,375). Moderate genetic diversity and relatedness were observed across the foxes sampled. Low to moderate levels of inbreeding, high-levels of identity-by-state values, as well as high identity-by-descent values were also found. There was limited evidence for population genetic structure among the foxes across the landscape sampled, supporting the presence of a single population across the study area. This indicates that there may be no barriers hindering fox dispersal across the landscape.
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HELGEN, KRISTOFER M. "On the identity of flying-foxes, genus Pteropus (Mammalia: Chiroptera), from islands in the Torres Strait, Australia." Zootaxa 780, no. 1 (December 20, 2004): 1. http://dx.doi.org/10.11646/zootaxa.780.1.1.
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Five flying-fox species (Pteropus scapulatus, P. alecto, P. conspicillatus, P. macrotis, and P. banakrisi) have been reported from islands in the Torres Strait, situated between northern Australia and southern Papua New Guinea. However, vouchered specimens demonstrate that Torres Strait records of the Large-eared flying-fox (Pteropus macrotis) actually reflect misidentifications of the Little Red flying-fox (P. scapulatus), and that the type series of Pteropus banakrisi Richards & Hall, 2002 (a newly-described species supposedly endemic to Moa Island) consists only of subadult individuals of the Black flying-fox (P. alecto). Only three flying-fox species are therefore known from the strait. These re-identifications underscore the importance of voucher specimens in biological investigations and have important implications for bat conservation in Australia. Pteropus macrotis is removed from the list of mammal species known from Australia, and banakrisi is placed in the synonymy of P. alecto.
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Newsome, T. M., E. E. Spencer, and C. R. Dickman. "Short-term tracking of three red foxes in the Simpson Desert reveals large home-range sizes." Australian Mammalogy 39, no. 2 (2017): 238. http://dx.doi.org/10.1071/am16037.
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The red fox (Vulpes vulpes) is probably the most intensively studied introduced predator in Australia, but little is known about its movements in arid areas. Here, we report on the home-range sizes of one male and two female red foxes that were tracked for 2–8 months using collars fitted with ARGOS transmitters in the Simpson Desert, central Australia. Based on the 100% Minimum Convex Polygon method, home-range sizes were 5723 ha, 50 158 ha, and 12 481 ha, respectively. Based on the 95% kernel contour method, home-range sizes were 3930 ha, 26 954 ha, and 12 142 ha, respectively. These home-range sizes are much larger than any recorded previously from elsewhere in Australia, suggesting that red foxes in the Simpson Desert need to roam over extensive areas to find enough resources to meet their energetic needs. Given that predation by red foxes poses a key threat to many small and medium-sized native mammals, we suggest that red fox control operations may need to be undertaken at very large spatial scales to be effective in arid areas.
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Fairfax, Russell J. "Dispersal of the introduced red fox (Vulpes vulpes) across Australia." Biological Invasions 21, no. 4 (December 7, 2018): 1259–68. http://dx.doi.org/10.1007/s10530-018-1897-7.
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Graham, Cameron A., Martine Maron, and Clive A. McAlpine. "Influence of landscape structure on invasive predators: feral cats and red foxes in the brigalow landscapes, Queensland, Australia." Wildlife Research 39, no. 8 (2012): 661. http://dx.doi.org/10.1071/wr12008.
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Context Invasive mammalian predators are often associated with fragmented landscapes, and can compound the impacts of habitat loss and fragmentation on native fauna. Knowledge of how invasive predators are influenced by different landscape structures can assist in the mitigation of their impacts. Aims The aim of the present study was to investigate the influence of landscape structure and site-scale habitat attributes on the frequency of feral-cat and red-fox detections in fragmented agricultural landscapes. Methods Field surveys of the frequency of red-fox and feral-cat visitation at a site scale were stratified for six different habitat types in six study subregions. The habitat types were large remnant patch interior, large remnant patch edge, small remnant patch, roadside verge, regrowth patch and open agricultural land adjacent to a remnant patch. Sites were centred in a 1-km buffer area from which landscape composition and configuration were calculated. We applied a generalised linear model and an information-theoretic approach to determine the effect size and importance and rank of the explanatory variables on red-fox, feral-cat and pooled cat and fox detection rates. Key results The most important factors influencing detection rates had a positive effect and included: the dominance of cropping in the landscape (cat, fox, pooled cat and fox); and the density of vegetation at a site scale (fox, pooled cat and fox). The number of native habitat patches was also an important factor in the models of red foxes and pooled invasive predators. Conclusion Spatially heterogeneous cropping landscapes incur higher rates of invasive-predator detections than do intact native-woodland and pasture landscapes at the 1-km scale. At a site scale, elevated invasive-predator detections occurred at sites with dense vegetation, characteristic of narrow woodland and the edges of large woodland patches. Implications The research findings highlight that vertebrate pest management needs to target highly fragmented agricultural landscapes that are more likely to have elevated levels of invasive-predator activity. Landscape restoration efforts need to consider the redesign of landscapes to make them less suitable for predators and more hospitable for native wildlife.
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Towerton, Alison L., Christopher R. Dickman, Rodney P. Kavanagh, and Trent D. Penman. "Control of the red fox in remnant forest habitats." Wildlife Research 43, no. 2 (2016): 169. http://dx.doi.org/10.1071/wr15133.
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Context The European red fox (Vulpes vulpes) is subject to control by poison baiting in many parts of its range in Australia to protect both native and domestic species. Assessments of baiting programs can improve their effectiveness and help ensure that long-term control outcomes are achieved. Aims We describe spatial and temporal patterns of bait uptake by the red fox in remnant forest within an agricultural matrix, including multiple bait-takes and hotspots of activity over time, and examine the response of foxes to baiting operations. Methods We analysed bait uptake (Foxoff®) from 12 baiting operations over 5 years in the Goonoo forest, a 62 500 ha remnant surrounded by cleared land in central New South Wales, Australia. More than 8000 checks of bait-stations were analysed to provide indices of fox activity per bait-check, patterns of bait removal during bait-checks, and bait uptake at stations within and across operations. Fox activity was also assessed before and after four operations using sand plots. Key results There was no consistent decline in relative fox activity in relation to changes in bait-take; increases in the activity index occurred in successive checks within most operations. Spatial analyses of checks within control operations showed that consecutive baits were removed at more than 70% of bait stations that were visited by foxes. Temporal analyses showed further that within an operation, multiple bait-takes occurred at ~20% of stations and, across all operations, hot spots of activity could be identified. Conclusions A short (2-week) baiting window in standard baiting operations may not be effective in reducing the activity of foxes across the landscape. It is likely that many baits are being cached during each operation, and that foxes move into the baited area from unbaited surrounding areas. Implications More frequent and timely baiting operations are needed to achieve maximum disruption to the fox population in the remnant forest environment, at least as indicated by patterns of bait-take. Increasing the distance between baits, to ~1.5 km, while reducing baiting-gaps at the landscape scale, will also be important to reduce caching and still ensure that baits are encountered.
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Kinnear, J. E., N. R. Sumner, and M. L. Onus. "The red fox in Australia—an exotic predator turned biocontrol agent." Biological Conservation 108, no. 3 (December 2002): 335–59. http://dx.doi.org/10.1016/s0006-3207(02)00116-7.
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McLeod, S. R., and G. R. Saunders. "Improving management strategies for the red fox by using projection matrix analysis." Wildlife Research 28, no. 4 (2001): 333. http://dx.doi.org/10.1071/wr00104.
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The absolute and relative contribution to the finite rate of increase of specific age classes was examined using projection matrix sensitivity and elasticity analysis for a number of red fox (Vulpes vulpes) populations. The fox populations that were examined included urban foxes from England, rural foxes from North America and rural foxes from Australia. The youngest age classes made the greatest contribution to the finite rate of increase for all populations studied. A pest management strategy that reduces survivorship and fertility of juvenile and young adult foxes (Age Classes 1 and 2) will be the most effective strategy for reducing a population’s finite rate of increase. The results indicate that fertility control may be as effective as lethal methods for controlling some fox populations.
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O'Connor, Julie M., David M. Burrows, Benjamin L. Allen, and Scott E. Burnett. "Is the European red fox a vector of the invasive basket asparagus (Asparagus aethiopicus) in eastern Australia?" Australian Mammalogy 42, no. 2 (2020): 204. http://dx.doi.org/10.1071/am19001.
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Basket asparagus (Asparagus aethiopicus) has become a naturalised invasive plant in some coastal areas of Australia since its introduction in the late 19th century. Its spread through garden waste dumping and avian seed dispersal has been well documented and both are considered to be the primary means of dispersal. While a small number of avian vectors have been identified, no Australian studies have investigated the potential of mammals to disperse basket asparagus seeds. We collected basket asparagus seeds from fox (Vulpes vulpes) scats collected in the field, confirmed the viability of these seeds in germination trials, and further documented the germination of basket asparagus seeds from an undisturbed fox scat in situ. These results demonstrate that foxes consume and disperse basket asparagus seeds, and that these seeds are viable and germinate under field conditions. Foxes not only use basket asparagus stands as harbour, but can also facilitate the plant’s dispersal in coastal ecosystems.
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Kinnear, J. E., C. J. Krebs, C. Pentland, P. Orell, C. Holme, and R. Karvinen. "Predator-baiting experiments for the conservation of rock-wallabies in Western Australia: a 25-year review with recent advances." Wildlife Research 37, no. 1 (2010): 57. http://dx.doi.org/10.1071/wr09046.
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Predation is widely believed to be the main threatening process for many native vertebrates in Australia. For 25 years, predator-baiting experiments have been used in the Western Australian Central Wheatbelt to control red fox predation on rock-wallabies and other endangered marsupial prey elsewhere. We review here the history of a series of baiting experiments designed to protect rock-wallaby colonies by controlling red foxes with 1080 poison baits. We continue to support the conclusion that red foxes can reduce or exterminate rock-wallaby populations in Western Australia. Research trials from 1990 to 2008 have uniformly shown a dramatic recovery of rock-wallaby populations once red foxes are baited. Baiting experiments are often black boxes and their success should not blind us to their weaknesses. Ideally, what we would like to measure are the functional responses of predators to prey abundance directly. As a contribution towards this goal, we describe new technology that enables one to determine which predator killed which prey, at exactly what time, with improved research and management outcomes.
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Dawson, Stuart J., Heather M. Crawford, Robert M. Huston, Peter J. Adams, and Patricia A. Fleming. "How to catch red foxes red handed: identifying predation of freshwater turtles and nests." Wildlife Research 43, no. 8 (2016): 615. http://dx.doi.org/10.1071/wr16066.
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Context Predation is one of the key contributors to mortality in freshwater turtles. Confirming the identity of predators is an important step towards conservation management action. Throughout Australia, the red fox (Vulpes vulpes) is suspected to apply significant and unsustainable predation pressure to turtle populations, killing adults and depredating nests; however methods for confirming this are limited. Aims The present study used a range of methods to confirm predation of oblong turtle (Chelodina colliei) nests and adults by the introduced red fox. Methods First, depredated adult carapaces, and turtle egg-shell fragments from excavated nests were swabbed and analysed for trace DNA. Second, we used artificial turtle nests, monitored by camera traps, to analyse seasonal changes in the behaviour of foxes around sites where turtle nests are present, including over the nesting season. Last, we used scat analysis to identify the prevalence of turtle remains in fox diet. Key results Predominantly fox DNA was recovered from both adult carapaces and depredated eggs. In addition, camera traps recorded only foxes depredating artificial nests. Despite this evidence that foxes kill adults and excavated nests, we found that turtle remains were only a small part of the diet of foxes at this study site (hatchling or turtle egg shell were present in only 4% of 230 scats sampled). The diet of these foxes was largely anthropogenic-sourced foods, such as fruit (e.g. figs, grapes, melons; 81% of scats), sheep carrion (41%) and rodents (36%). Conclusions We conclude that DNA analysis, camera trapping and scat analysis are effective methods of identifying foxes as predators of adult turtle, and their nests. Furthermore, we found that anthropogenic foods (orchard crops, livestock or synanthropic species) may subsidise greater fox population size than might occur in their absence, thereby increasing potential pressure on these freshwater turtles. Implications Our findings give credence to the argument that foxes are effective predators of turtle adults and nests. In addition, the high proportion of anthropogenic food sources in the diet of foxes, and potential subsidisation, is an important consideration for land managers.
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Pech, R. P., A. R. E. Sinclair, and A. E. Newsome. "Predation models for primary and secondary prey species." Wildlife Research 22, no. 1 (1995): 55. http://dx.doi.org/10.1071/wr9950055.
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In Australia, the red fox (Vulpes vulpes) is a generalist predator of European rabbits (Oryctolagus cuniculus) and a range of small to medium-sized native species. The available evidence suggests that foxes are capable of regulating rabbits in semi-arid environments but their role in the population dynamics of other prey species is not clear. A series of models, and associated experimental tests, that compare the effects of predation on primary and secondary prey species are described. The models are appropriate to the time scale of prey dynamics and differ from recent predator–prey models that focus on predator dynamics. These ideas are discussed for the fox and several of its prey species in Australia.
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Stobo-Wilson, Alyson M., Brett P. Murphy, Sarah M. Legge, David G. Chapple, Heather M. Crawford, Stuart J. Dawson, Chris R. Dickman, et al. "Reptiles as food: predation of Australian reptiles by introduced red foxes compounds and complements predation by cats." Wildlife Research 48, no. 5 (2021): 470. http://dx.doi.org/10.1071/wr20194.
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ContextInvasive species are a major cause of biodiversity loss across much of the world, and a key threat to Australia’s diverse reptile fauna. There has been no previous comprehensive analysis of the potential impact of the introduced European red fox, Vulpes vulpes, on Australian reptiles. AimsWe seek to provide an inventory of all Australian reptile species known to be consumed by the fox, and identify characteristics of squamate species associated with such predation. We also compare these tallies and characteristics with reptile species known to be consumed by the domestic cat, Felis catus, to examine whether predation by these two introduced species is compounded (i.e. affecting much the same set of species) or complementary (affecting different groups of species). Methods We collated records of Australian reptiles consumed by foxes in Australia, with most records deriving from fox dietary studies (tallying >35000 samples). We modelled presence or absence of fox predation records against a set of biological and other traits, and population trends, for squamate species. Key resultsIn total, 108 reptile species (~11% of Australia’s terrestrial reptile fauna) have been recorded as consumed by foxes, fewer than that reported for cats (263 species). Eighty-six species have been reported to be eaten by both predators. More Australian turtle species have been reported as consumed by foxes than by cats, including many that suffer high levels of predation on egg clutches. Twenty threatened reptile species have been reported as consumed by foxes, and 15 by cats. Squamate species consumed by foxes are more likely to be undergoing population decline than those not known to be consumed by foxes. The likelihood of predation by foxes increased with squamate species’ adult body mass, in contrast to the relationship for predation by cats, which peaked at ~217g. Foxes, but not cats, were also less likely to consume venomous snakes. ConclusionsThe two introduced, and now widespread, predators have both compounding and complementary impacts on the Australian reptile fauna. ImplicationsEnhanced and integrated management of the two introduced predators is likely to provide substantial conservation benefits to much of the Australian reptile fauna.
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Claridge, Andrew W., Douglas J. Mills, and Simon C. Barry. "Prevalence of threatened native species in canid scats from coastal and near-coastal landscapes in south-eastern Australia." Australian Mammalogy 32, no. 2 (2010): 117. http://dx.doi.org/10.1071/am09038.
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Predator scat analysis was used to infer the potential impact of wild dogs (Canis lupus dingo, C. l. familiaris and hybrids of the two) on threatened native terrestrial mammals in coastal and near-coastal southern New South Wales, Australia. Prey items recorded in wild dog scats were compared with those occurring in scats of the red fox collected at the same study sites. Six threatened mammal species were recorded in either wild dog or fox scats: eastern pygmy possum, grey-headed flying fox, long-nosed potoroo, southern brown bandicoot, white-footed dunnart and yellow-bellied glider. The prevalence of these threatened species in fox scats was significantly higher than in wild dog scats. Otherwise, wild dogs mostly consumed larger prey items such as swamp wallabies and wombats whereas foxes more heavily preyed on small mammals such as antechinus and rats. Our results suggest that foxes are the major threat to threatened mammal species in the study region. Land management agencies in south-eastern mainland Australia should therefore focus on controlling foxes for biodiversity gain.
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O'Connor, Julie M., Sanjeev K. Srivastava, Elizabeth A. Brunton, and Scott E. Burnett. "Urban fringe dweller: the European red fox (Vulpes vulpes) in an urban coastal ecosystem." Australian Journal of Zoology 68, no. 1 (2020): 9. http://dx.doi.org/10.1071/zo20069.
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The spatial ecology of the European red fox in urban environments has not been widely studied in Australia. The spatial organisation and habitat selection of red foxes in coastal south-east Queensland was investigated using the GPS data from 17 collared foxes from seven putative fox families. Home range and core activity areas were calculated using 95% (KDE95) and 50% (KDE50) kernel density estimates respectively. Mean KDE95 home range size was 198 ha, and the mean core (KDE50) use area was 34 ha. Habitat selection, based on four broad habitat classes – Beach, Dunes, Urban and Green Space – was assessed using compositional analyses. At both 2nd order (study site) and 3rd order (home range) habitat selection, urban space was overwhelmingly the least preferred habitat in the study area despite being the most extensive habitat type. The unusual findings of this study contribute to a broader understanding of the ecology of this previously unstudied fox population.
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Strive, T., C. M. Hardy, and G. H. Reubel. "Prospects for immunocontraception in the European red fox (Vulpes vulpes)." Wildlife Research 34, no. 7 (2007): 523. http://dx.doi.org/10.1071/wr07007.
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The European red fox is an introduced pest species in Australia for which improved means of control are urgently needed. Research efforts have focussed recently on the development of novel biological control methods to reduce the serious impact this species continues to have on both native fauna and the sheep industry. The ultimate goal has been to generate an antifertility vaccine for use on foxes that relies on a process termed ‘immunocontraception’. A variety of proteins derived from sperm and oocytes, together with different delivery vectors, have been experimentally assessed for their ability to induce immunocontraceptive responses in foxes. Vaccine vectors screened have included Salmonella typhimurium, vaccinia virus and canine herpesvirus but suppression of fertility has yet to be achieved with any combination of antigen and delivery vector. Downregulation of fox mucosal antibodies during oestrus, lack of vector replication and low antibody responses to the target antigens have been the main constraints in successful fertility control. The fox is not well known as an experimental animal and the logistics of dealing with this difficult-to-handle species proved to be a major challenge when compared with other species, such as rabbits and mice. Despite these difficulties, research on fox immunocontraception has generated important insights into the reproductive biology, husbandry, biology and basic immunology of viral vectors in European red foxes. This information represents a valuable knowledge base should antifertility vaccination for foxes be revisited in the future.
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Hu, Yang, Graeme Gillespie, and Tim S. Jessop. "Variable reptile responses to introduced predator control in southern Australia." Wildlife Research 46, no. 1 (2019): 64. http://dx.doi.org/10.1071/wr18047.
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Context Australia harbours an immense diversity of reptiles, which are generally expected to have frequent and diverse trophic interactions with introduced mammalian carnivores. Nevertheless, the potential for predatory or competitive interactions is likely to be contingent on multiple processes, including the importance of reptiles in the diet of introduced predators, alongside overlaps in their body sizes and ecological niches that would influence the strength of their interactions. In Australia’s temperate and relatively productive mesic environments there is little understanding of how introduced mammalian predators affect reptile assemblages. Aims The aim was to investigate the effects that a European red fox (Vulpes vulpes; 5–7kg) suppression program had on the abundance and species richness of a reptile community, with species ranging in size from the largest local ectothermic predator, the lace monitor (Varanus varius; 4–7kg), to small terrestrial reptiles (mostly 10–150g). Methods We utilised two sampling designs (baited camera monitoring stations and pitfall trapping) to evaluate the effects of fox suppression and other site-level ecological covariates (fire regime and habitat vegetation characteristics) on the lace monitor and small terrestrial reptiles. Reptile abundance and richness at site level were estimated from count-related abundance models. Key results For lace monitors, significantly higher abundances occurred in poison-baited areas relative to control areas. This suggests that fox suppression can affect the populations of the lace monitor via mesopredator release arising from reduced competition and, possibly, predation. For small terrestrial reptiles, neither abundance nor species richness were influenced by fox suppression. Individual abundances of the three most common small reptile species matched the overall pattern, as only responses to structural parameters of the habitat were detected. Conclusions Fox suppression can have different impacts for different reptile taxa, pending their ecological niche, as only the largest species was affected. Implications Increase in lace monitor abundance may change food web dynamics in fox-suppressed sites, such as by increasing predation pressure on arboreal marsupials.
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Caley, Peter, Geoffrey R. Hosack, and Simon C. Barry. "Making inference from wildlife collision data: inferring predator absence from prey strikes." PeerJ 5 (February 22, 2017): e3014. http://dx.doi.org/10.7717/peerj.3014.
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Wildlife collision data are ubiquitous, though challenging for making ecological inference due to typically irreducible uncertainty relating to the sampling process. We illustrate a new approach that is useful for generating inference from predator data arising from wildlife collisions. By simply conditioning on a second prey species sampled via the same collision process, and by using a biologically realistic numerical response functions, we can produce a coherent numerical response relationship between predator and prey. This relationship can then be used to make inference on the population size of the predator species, including the probability of extinction. The statistical conditioning enables us to account for unmeasured variation in factors influencing the runway strike incidence for individual airports and to enable valid comparisons. A practical application of the approach for testing hypotheses about the distribution and abundance of a predator species is illustrated using the hypothesized red fox incursion into Tasmania, Australia. We estimate that conditional on the numerical response between fox and lagomorph runway strikes on mainland Australia, the predictive probability of observing no runway strikes of foxes in Tasmania after observing 15 lagomorph strikes is 0.001. We conclude there is enough evidence to safely reject the null hypothesis that there is a widespread red fox population in Tasmania at a population density consistent with prey availability. The method is novel and has potential wider application.
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Stobo-Wilson, Alyson M., Robert Brandle, Christopher N. Johnson, and Menna E. Jones. "Management of invasive mesopredators in the Flinders Ranges, South Australia: effectiveness and implications." Wildlife Research 47, no. 8 (2020): 720. http://dx.doi.org/10.1071/wr19237.
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Abstract ContextSignificant resources have been devoted to the control of introduced mesopredators in Australia. However, the control or removal of one pest species, such as, for example, the red fox (Vulpes vulpes), may inadvertently benefit other invasive species, namely feral cats (Felis catus) and rabbits (Oryctolagus cuniculus), potentially jeopardising native-species recovery. AimsTo (1) investigate the impact of a large-scale, long-term fox-baiting program on the abundance of foxes, feral cats and introduced and native prey species in the Flinders Ranges, South Australia, and (2) determine the effectiveness of a short time period of cat removal in immediately reducing feral cat abundance where foxes are absent. MethodsWe conducted an initial camera-trap survey in fox-baited and unbaited sites in the Flinders Ranges, to quantify the impact of fox baiting on the relative abundance of foxes, feral cats and their prey. We then conducted a secondary survey in sites where foxes were absent, following an intensive, but short, time period of cat removal, in which 40 cats were shot and killed. Key resultsNo foxes were detected within baited sites, but were frequently detected in unbaited sites. We found a corresponding and significant increase in several native prey species in fox-baited sites where foxes were absent. Feral cats and rabbits were also more frequently detected within baited sites, but fox baiting did not singularly predict the abundance of either species. Rather, feral cats were less abundant in open habitat where foxes were present (unbaited), and rabbits were more abundant within one predominantly open-habitat site, where foxes were absent (fox-baited). We found no effect of short-term cat removal in reducing the local abundance of feral cats. In both camera-trap surveys, feral cat detections were positively associated with rabbits. ConclusionsLong-term fox baiting was effective in fox removal and was associated with a greater abundance of native and introduced prey species in the Flinders Ranges. To continue to recover and conserve regional biodiversity, effective cat control is required. ImplicationsOur study showed fox removal has likely resulted in the local release of rabbits and an associated increase in cats. Because feral cat abundance seemingly fluctuated with rabbits, we suggest rabbit control may provide an alternative and more effective means to reduce local feral cat populations than short-term removal programs.
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Coates, T. D. "The effect of fox control on mammal populations in an outer urban conservation reserve." Australian Mammalogy 30, no. 2 (2008): 51. http://dx.doi.org/10.1071/am08007.
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European red foxes were systematically removed from a 370 ha conservation reserve on Melbourne?s urban fringe between December 2003 and September 2005. Activity indexes monitored throughout the removal phase indicated that the fox population declined dramatically when poison baits were available and then increased again predictably during winter and summer each subsequent year. Three alternate indices of fox activity were highly synchronous throughout the study suggesting that the bait-removal index used widely in Australia may provide a reliable measure of overall fox activity in small urban reserves. With monitoring and strategic baiting, fox activity was maintained at a fraction of its pre-control level. Activity indices for several other species of mammal also appeared to respond to the reduced density of foxes at the site after 2003. Southern brown bandicoots (Isoodon obesulus) and swamp wallabies (Wallabia bicolor) increased in both activity and range after the reduction in the fox population indicating that fox predation may act to limit both the total size of populations and types of vegetation occupied by indigenous mammals in small patches of remnant vegetation.
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Palmer, RA. "Diet of the red fox (Vulpes vulpes) in south-western Queensland." Rangeland Journal 17, no. 1 (1995): 99. http://dx.doi.org/10.1071/rj9950099.
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Examination of the stomach contents of 74 foxes from a south-western Queensland sheep grazing property revealed a diverse range of prey. Mammals formed the bulk of the diet representing 64% of the total weight of food items and occurred in 80% of stomachs. Sheep and kangaroo carrion were the main mammalian prey. Insects and other invertebrates were an important but lesser component of the diet. Dietary trends were heavily influenced by human activity, rainfall, and season. These results differ from those of other studies conducted in southern parts of Australia due to the large proportions of scavenged food items in the diet (63% by weight) and relatively high consumption levels of non-mammalian prey. The lack of a small to medium sized staple prey source in the study area, which were available in southern areas appears to be the reason for the foxes reliance on such a varied prey base.
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Bubela, T. M., C. R. Dickman, and A. E. Newsome. "Diet and Winter Foraging Behaviour of The Red Fox (Vulpes vulpes) In Alpine and Subalpine New South Wales." Australian Mammalogy 20, no. 3 (1998): 321. http://dx.doi.org/10.1071/am98321.
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Foxes were studied from January 1991 to January 1993 in 167 square kilometres of the alpine and subalpine areas of Kosciusko National Park, New South Wales, Australia (36 24' S, 148 26' E, 1260-2238 m altitude). The study area encompassed two ski resorts. This study confirmed the varied nature of the diet of the red fox. Foxes are mainly insectivorous during snow-free months, but also prey upon three small mammal species, Antechinus swainsonii, Mastacomys fuscus and Rattus fuscipes. Direct observations indicate that human refuse from ski resorts is food for foxes in winter. It is probable that this supplementary food source sup- ports a higher density fox population than would occur in its absence. The management implications for populations of native small mammals of predation and supplementary food for foxes are discussed. We recommend that the impact of red fox predation on small mammals, particularly M. fuscus be assessed and that action be taken to limit the availability of human refuse to foxes in winter.
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Fleming, Peter J. S. "Uptake of Baits by Red Foxes (Vulpes vulpes): Implications for Rabies Contingency Planning in Australia." Wildlife Research 24, no. 3 (1997): 335. http://dx.doi.org/10.1071/wr95016.
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Baits containing the bait marker iophenoxic acid were used to quantify bait uptake by red foxes in a rural environment in north-eastern New South Wales. Baits were distributed at a mean density of 4·4 baits km-2. Serum iodine levels were analysed from a sample of 29 foxes shot on two baited sites and a nil-treatment site. The mean percentage of foxes with elevated seral iodine, indicating the consumption of at least one bait, was 58·3%. This rate of bait uptake would not consistently deliver reductions in fox densities or immunisation levels considered necessary for the control of rabies enzootics in Europe and North America. The minimum number known to be alive (MNA) method overestimated population reduction and underestimated abundance. Indirect estimators of population abundance, such as bait-station indices, are of more use in rabies contingency planning and modelling. This is because they are more reliable, are likely to overestimate abundance, and are more precautionary. Shooting of foxes at night was an inefficient method of reducing fox populations.
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O'Connor, Julie M., Sanjeev K. Srivastava, Neil W. Tindale, and Scott E. Burnett. "From carrion to Christmas beetles: the broad dietary niche of the red fox in a hybrid coastal ecosystem in south-eastern Queensland." Australian Journal of Zoology 67, no. 2 (2019): 82. http://dx.doi.org/10.1071/zo19059.
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The diet of the European red fox (Vulpes vulpes) was investigated through analysis of 1185 scats collected between 2010 and 2014 from coastal south-east Queensland, Australia. By both frequency of occurrence and volume, its diet was dominated by terrestrial arthropods, marine arthropods, vegetation and birds, although the remains of the short-tailed shearwater (Ardenna tenuirostris) consumed as carrion dominated the latter. Terrestrial arthropods, primarily insects of the order Coleoptera, were eaten all year (61% frequency of occurrence, FO) but varied seasonally (35–67%FO), mostly due to the consumption of large numbers of Christmas beetles (Anoplognathus spp.) in the summer months. Marine arthropods consisted almost entirely of ghost crabs (Ocypode spp.) and seasonal variation in consumption was evident (33–72%FO) and likely correlated with ghost crab abundance. Fruit and berries were an important food item for foxes all year but also varied seasonally (30–65%FO). The opportunistic diet of this fox population is discussed in the context of dietary differences, but common opportunism, reported in other Australian and overseas studies.
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Carter, Andrew, Gary W. Luck, and Ben P. Wilson. "Ecology of the red fox (Vulpes vulpes) in an agricultural landscape. 1. Den-site selection." Australian Mammalogy 34, no. 2 (2012): 145. http://dx.doi.org/10.1071/am11038.
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Foxes concentrate their activities around den sites during the breeding period and regularly visit dens at other times of the year, meaning den location is an important consideration in efforts to control foxes and protect native prey species. We investigated factors that influence den-site selection by foxes to improve information on potential interactions with prey species, and assess the usefulness of targeting den sites for fox control. We measured 76 earthen and non-earthen fox dens on farmland in south-eastern Australia and compared these with paired random sites in relation to vegetation/land-use type, soil clay content, and proximity to landscape features (tree, water, fence and road). Most dens were earthen and primarily located in open farmland, whereas non-earthen dens were mostly found in roadsides. The proportion of non-earthen dens located by landholders (7.8% of 51 dens) was substantially lower than the proportion of non-earthen dens identified with radio-tracking (77.8% of 18 dens). The average clay content at earthen dens was significantly lower than that at non-earthen dens (t′ = –5.192, P < 0.001) and random sites (t′ = –5.196, P < 0.001). Soil texture was a key factor influencing fox den location, and this information should greatly improve fox control in agricultural landscapes for the benefit of native and non-native prey.
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Meek, Paul D., and Jason Wishart. "Camera trap evidence of red fox (Vulpes vulpes) predation attempts on adult macropods." Pacific Conservation Biology 23, no. 3 (2017): 302. http://dx.doi.org/10.1071/pc17007.
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Camera traps provide a novel and quasicovert method of gathering information on animal behaviour that may otherwise remain undetected without sophisticated and expensive filming equipment. In a rangelands pest management project at Mt Hope in the central west of New South Wales, Australia, we recorded foxes seemingly hunting kangaroos on three occasions. While we did not record direct instances of predation, our observations provide camera trap photographic evidence suggesting that foxes will attempt to tackle mammals above the critical weight range, including large macropod species such as western grey kangaroos.
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Körtner, Gerhard, Shaan Gresser, and Bob Harden. "Does fox baiting threaten the spotted-tailed quoll, Dasyurus maculatus?" Wildlife Research 30, no. 2 (2003): 111. http://dx.doi.org/10.1071/wr02107.
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In Australia, baiting with 1080 (sodium fluoroacetate) is widely used to reduce predation of native wildlife by the red fox. However, such control programs may place some native carnivores at risk, particularly the spotted-tailed quoll in eastern Australia. We measured the mortality in a total of 57 quolls fitted with mortality radio-transmitters during four experimental fox baitings with Foxoff® 1080 baits containing Rhodamine B in north-east New South Wales. In all experiments quolls visited bait stations regularly and removed a total of 20 baits. All but one of these baits was found in the vicinity of the bait station, indicating that quolls did not ingest baits. This was confirmed by the absence of Rhodamine B in the vibrissae of all quolls retrapped after baiting. The only quoll that may have died from a bait had eaten a cached bait some six weeks after baiting concluded. Thus, baiting did not threaten any of the quoll populations sampled. Therefore it appears that most restrictions imposed to protect spotted-tailed quolls during fox baiting are unnecessary as long as this bait type is used.
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Roshier, David A., Johannes Signer, and Andrew Carter. "Visitation of artificial watering points by the red fox ( Vulpes vulpes ) in semiarid Australia." Ecology and Evolution 11, no. 14 (June 27, 2021): 9815–26. http://dx.doi.org/10.1002/ece3.7810.
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Twigg, Laurie E. "1080-baits for fox control: Is everything all that it seems?" Pacific Conservation Biology 20, no. 3 (2014): 230. http://dx.doi.org/10.1071/pc140230.
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The Red Fox (Vulpes vulpes), wild Dog (Canis lupus familiaris), Rabbit (Oryctolagus cuniculus), and feral Pig (Sus scrofa) can have a significant and profound impact on biodiversity and/ or agricultural production in Australia (Saunders et al. 1995; Williams et al. 1995; Choquenot et al. 1996; Fleming et al. 2001). Baiting programmes with 1080 (sodium fluoroacetate) form an integral and, in some cases, the only means by which the impacts of these invasive species can be managed over a large-scale (Saunders et al. 1995; Williams et al. 1995; Choquenot et al. 1996; Fleming et al. 2001). However, in recent times, there has been growing concern among some Australian rural communities that some 1080 products are not as effective as they once were, particularly those used for baiting foxes. Although such reports are often anecdotal, their increasing frequency is of concern. Recently, the Malleefowl Preservation Group in Western Australia conducted a semi-formal survey of their Newsletter readers regarding the effectiveness of 1080 products against Foxes, wild Dogs, and Rabbits. Over 40 responses were received from 15 different postcode regions with up to 50% of these respondents believing some 1080 products were no longer effective (Malleefowl Preservation Group unpublished data). Similarly, participants in coordinated community 1080-baiting programmes in Victoria surveyed during 2004/05 suggested that poor bait take, loss of efficacy, risk to farm dogs, and the high associated costs were the main reasons for less than ideal control programmes (McPhee 2005). This suggests that questions regarding the effectiveness of 1080 products are not unique to Western Australia. More recently, in NSW, the effectiveness of some 1080-baiting programmes was shown to be less than ideal, even when a coordinated approach was used (Gentle 2007a; Bengsen In Press). In one instance, such a programme with 3 mg 1080 baits reduced fox abundance by only 30% (Bengsen In Press). There are a number of reasons why baiting programmes may have, or are perceived to have failed (see below), including the loss of effectiveness of the active ingredient against the target species. With respect to foxes, the only assessment of their sensitivity to 1080 was a provisional study undertaken in the late 1980s when the sensitivity to 1080 of 11 foxes was determined: 3 from the Australian Capital Territory (ACT) and 8 from Western Australia (WA) (McIlroy and King 1990). The provisional nature of this study precluded a detailed estimate of the sensitivity of these foxes to 1080. Moreover, it is also possible, and probably highly likely, that the sensitivity of Australian foxes to 1080 has changed since the assessment undertaken in the 1980s. This Forum Essay raises some of the possible reasons for any decreased baiting effectiveness, particularly the impact of any decrease in the sensitivity of foxes to 1080. The original data of McIlroy and King (1990) are reworked so as to gain estimates of the Lethal Dose 50 and Lethal Dose 99 values and their associated 95% Confidence Limits. The implications of these findings for pest management and conservation programmes, and some suggestions for future research, are also discussed.
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Marks, Clive A., and Rebecca Wilson. "Predicting mammalian target-specificity of the M-44 ejector in south-eastern Australia." Wildlife Research 32, no. 2 (2005): 151. http://dx.doi.org/10.1071/wr03102.
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Meat-based baits are currently used for the control of the exotic red fox (Vulpes vulpes) in south-eastern Australia. Thirty-one quadrupedal endemic mammals are considered to be potentially bait consuming (PBC) and may be exposed to bait toxicants. Mechanical toxicant ejectors may be more selective if some PBC species cannot apply enough upward force to trigger them. A simple relationship between body mass and pulling force was sought to enable estimates of ejector specificity to be made. The pulling force applied to ejector baits was measured for the red fox and six endemic mammals. The relationship between body mass and pulling force was highly significant (P < 0.001) and the resulting regression equation was used to estimate the highest pulling forces for 31 quadrupedal mammals based upon the largest body mass recorded for each species. In a sample of 640 foxes, taken by a range of methods in south-eastern Australia, the lowest adult body mass detected from January to September was 3 kg and declined only when cubs were present in the population from October to December. An ejector trigger force of 26.46 N was estimated to allow foxes weighing >3 kg to trigger the device, while eliminating exposure of 26 of the 31 PBC mammals. Appropriate toxicant selection and dose rates may ensure that four out of five susceptible mammals are less likely to be affected by unwanted exposure.
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Towerton, Alison L., Rodney P. Kavanagh, Trent D. Penman, and Christopher R. Dickman. "Ranging behaviour and movements of the red fox in remnant forest habitats." Wildlife Research 43, no. 6 (2016): 492. http://dx.doi.org/10.1071/wr15203.
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Context The Eurasian red fox (Vulpes vulpes) is a widespread pest in mixed agricultural and remnant forest habitats in southern Australia, and is controlled most commonly with baits containing poison (1080) to protect both agricultural and ecological assets. An understanding of fox movements in such habitats should assist in the strategic placement of baits and increase bait encounters by foxes across the landscape, thus improving the success of control efforts. Aims We seek to understand the ranges, movements and habitat use of foxes to aid the development of effective management plans. The fate of tracked animals was examined during a control program. Methods We radio-tracked 10 foxes using VHF transmitters and three foxes using GPS receivers during control operations in a remnant forest area near Dubbo, New South Wales. We used VHF location fixes to estimate fox range areas and GPS fixes to describe temporal and spatial aspects of fox movements and range use, focal points of activity and potential bait encounters. Selection of forest versus cleared areas was assessed, as was the impact of control operations on collared foxes. Key results Range areas (mean ± s.e.; 95% minimum convex polygon) for VHF- and GPS-tracked foxes were 420 ha ± 74 and 4462 ha ± 1799 respectively. Only small parts of range areas were visited on a daily basis, with little overlap. Animals were often within 200 m of roads and crossed or travelled on roads more than expected. At least 75% of collared foxes were probably poisoned in the control program. Conclusions Foxes occupy large ranges and move long distances in the study region, with little daily overlap, so successful defence of range areas is unlikely. Control efforts successfully poisoned foxes but also limited data collection because of reduced tracking periods. Implications The large and variable areas occupied by foxes suggested that control efforts need to be on-going, coordinated across the landscape, and use a minimum bait density of 0.5 baits per 100 ha in remnant forest habitat to ensure that gaps are minimised. Control operations should target roads and forest edges for bait placement, and increase the time that baits are available, to increase fox encounters and maximise the success of control efforts.
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WINSTANLEY, ROY K., WILLIAM A. BUTTEMER, and GLEN SAUNDERS. "Field metabolic rate and body water turnover of the red fox Vulpes vulpes in Australia." Mammal Review 33, no. 3-4 (September 2003): 295–301. http://dx.doi.org/10.1046/j.1365-2907.2003.00015.x.
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Dexter, Nick, Paul Meek, Steve Moore, Matt Hudson, and Holly Richardson. "Population responses of small and medium sized mammals to fox control at Jervis Bay, southeastern Australia." Pacific Conservation Biology 13, no. 4 (2007): 283. http://dx.doi.org/10.1071/pc070283.
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At Jervis Bay, strategic pest programmes to control the Red Fox Vulpes vulpes have been in place on the Beecroft Weapons Range (BWR) Beecroft Peninsula, New South Wales since 1995 and Booderee National Park (BNP) Bherwerre Peninsula, Jervis Bay Territory since 1999. As an integral component of the BWR plan, monitoring terrestrial and arboreal mammals has been carried out and demonstrated a significant increase in the abundance of Common Ringtail Possum Pseudochelrus peregrinus, Long-nosed Bandicoot Perameles nasuta, and Bush Rat Rattus fuscipes. There was no significant change in the abundance of Brown Antechinus Antechinus stuartii, Sugar Glider Petaurus breviceps or Black Rat (R. raltus). At BNP changes in population abundance of mammals were not monitored, but a comparison of the abundance of terrestrial mammals between the fox baited BNP and the adjacent un-baited Jervis Bay National Park (JBNP) showed Long-nosed Bandicoots, Bush Rat and Brown Antechinus to be in higher abundance in BNP than JBNP. Scat analysis further supported this finding (Roberts et aI, 2006), We assert that these combined findings are evidence that terrestrial native fauna have responded positively to continued fox control on both peninsulas, thus proving that measuring prey responses are a positive measure of success for strategic pest control programmes.
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Long, K., AJ Robley, and K. Lovett. "Immediate post-release survival of eastern barred bandicoots Perameles gunnii at Woodlands Historic Park, Victoria, with reference to fox activity." Australian Mammalogy 27, no. 1 (2005): 17. http://dx.doi.org/10.1071/am05017.
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On mainland Australia, eastern barred bandicoots (Perameles gunnii) are now restricted to a single wild population at Hamilton in western Victoria, and recovery efforts are focussed on establishing new populations at reintroduction sites. The success in founding these populations has been variable, and post-release survival has not been accurately quantified. It is believed that predation by the red fox (Vulpes vulpes) is largely responsible for post-release loss of P. gunnii, despite the implementation of predator control programs at release sites. An intensive fox control program was established to protect 10 released P. gunnii at Woodlands Historic Park, near Melbourne. Monitoring of fox activity was undertaken prior to and after the release in an attempt to better understand the effectiveness of control operations. Seven bandicoots were known to be alive at the conclusion of the study five weeks after their release (and an additional animal was trapped four months later), with weight loss appearing to be an important factor in determining post-release survival. Despite constant levels of bait-take by V. vulpes, fox activity measured from sand-pads remained high. We hypothesise that the presence of suitable refugia is allowing the persistence of a low-density bandicoot population at Woodlands despite constant, high levels of fox activity.
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Fulton, Graham R. "Owl survey of the Peel–Harvey Estuary in south-western Australia." Australian Journal of Zoology 65, no. 2 (2017): 71. http://dx.doi.org/10.1071/zo17027.
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Little is known of owls in south-western Australia compared with the owls of southern and eastern Australia. Surveys of forest owls in the south-west are almost completely lacking. This study sought to determine the abundance and detectability of owls immediately around the Peel–Harvey Estuary in south-western Australia. The southern boobook (Ninox boobook) and the masked owl (Tyto novaehollandiae) were the only owls detected (n = 23 and n = 1 respectively), although the nocturnal tawny frogmouth (Podargus strigoides) was detected from unelicited calls on three occasions. Southern boobooks were found to be common in this area though they are reported to be in decline in south-eastern and inland Australia. Their detectability was significantly greater in August (late winter) than at other times through unelicited calls; otherwise, there were no detections in winter. A variety of small mammals were detected during the surveys, including: a little red flying-fox (Pteropus scapulatus), a western ringtail possum (Pseudocheirus occidentalis), 19 southern brown bandicoots (Isoodon obesulus), 4 common brushtail possums (Trichosurus vulpecula), 21 rabbits (Oryctolagus cuniculus), a black rat (Rattus rattus), 2 red foxes (Vulpes vulpes) and 22 microbats.
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Johnson, Christopher N., Joanne L. Isaac, and Diana O. Fisher. "Rarity of a top predator triggers continent-wide collapse of mammal prey: dingoes and marsupials in Australia." Proceedings of the Royal Society B: Biological Sciences 274, no. 1608 (October 31, 2006): 341–46. http://dx.doi.org/10.1098/rspb.2006.3711.
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Top predators in terrestrial ecosystems may limit populations of smaller predators that could otherwise become over abundant and cause declines and extinctions of some prey. It is therefore possible that top predators indirectly protect many species of prey from excessive predation. This effect has been demonstrated in some small-scale studies, but it is not known how general or important it is in maintaining prey biodiversity. During the last 150 years, Australia has suffered the world's highest rate of mammal decline and extinction, and most evidence points to introduced mid-sized predators (the red fox and the feral cat) as the cause. Here, we test the idea that the decline of Australia's largest native predator, the dingo, played a role in these extinctions. Dingoes were persecuted from the beginning of European settlement in Australia and have been eliminated or made rare over large parts of the continent. We show a strong positive relationship between the survival of marsupials and the geographical overlap with high-density dingo populations. Our results suggest that the rarity of dingoes was a critical factor which allowed smaller predators to overwhelm marsupial prey, triggering extinction over much of the continent. This is evidence of a crucial role of top predators in maintaining prey biodiversity at large scales in terrestrial ecosystems and suggests that many remaining Australian mammals would benefit from the positive management of dingoes.
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Carter, Andrew, and Gary W. Luck. "Fox baiting in agricultural landscapes: preliminary findings on the importance of bait-site selection." Wildlife Research 40, no. 3 (2013): 184. http://dx.doi.org/10.1071/wr12169.
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Context Little is known about the importance of bait-site selection during lethal fox-baiting programmes. Improved bait placement may increase the efficacy of baiting and help reduce fox impacts on wildlife and livestock. Aims To determine whether bait uptake by the red fox (Vulpes vulpes) differed among five landscape elements (roadsides, fence lines, open paddocks, creek lines and remnant vegetation) and at sites with high or low habitat (ground cover) complexity. Methods We measured bait uptake at 300 bait stations distributed evenly among the landscape elements in agricultural landscapes in northern Victoria, Australia. Bait uptake was also compared between sites with low and high habitat complexity in districts subject to no fox control and annual fox control. Key results Among landscape elements, bait uptake was significantly higher in roadside vegetation and along vegetated creek lines than it was along fence lines and in open paddocks (P < 0.05 in each case). Within roadside vegetation, bait uptake was significantly (P = 0.001) lower at sites with a high habitat complexity than at sites with low complexity, particularly in areas subject to annual fox control. Conclusions Bait placement influences bait-uptake rates considerably and greater consideration should be placed on bait-site selection during fox-baiting programmes. Habitat complexity limited bait uptake, which may indicate a reduced capacity of foxes to find baits in complex habitats. Implications Our results should help improve bait-site selection in agricultural landscapes and may increase the efficacy of fox baiting to the benefit of native fauna and livestock.
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Woinarski, John C. Z., Sally L. South, Paul Drummond, Gregory R. Johnston, and Alex Nankivell. "The diet of the feral cat (Felis catus), red fox (Vulpes vulpes) and dog (Canis familiaris) over a three-year period at Witchelina Reserve, in arid South Australia." Australian Mammalogy 40, no. 2 (2018): 204. http://dx.doi.org/10.1071/am17033.
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Introduced predators have had, and continue to have, severe impacts on Australian biodiversity. At a recently established conservation reserve, Witchelina, in arid South Australia, we assessed the diet of feral cats (Felis catus) (404 samples), red fox (Vulpes vulpes) (51 samples) and dog (Canis familiaris) (11 samples) over a 3-year period. There was marked overlap (98.5%) in dietary composition between cats and foxes. Rabbits (Oryctolagus cuniculus) comprised a major dietary item for all three predators. Invertebrates contributed the largest number of prey items for foxes and cats, but mammals comprised the bulk, by weight, for all three predators. Birds and reptiles had a higher frequency of occurrence in the diet of cats than of foxes or dogs. The size of mammal prey taken was least for cats and greatest for dogs. The diets of cats and foxes showed significant seasonal variation, with reptiles and invertebrates being least common in the diet in winter. The threatened thick-billed grasswren (Amytornis modestus) was found for the first time in the diet of feral cats. Bearded dragons (Pogona vitticeps) occurred in about one-third of cat and fox samples. This study contributes further to the evidence of biodiversity impacts of introduced predators, and the need for their strategic management.
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Vine, S. J., M. S. Crowther, S. J. Lapidge, C. R. Dickman, N. Mooney, M. P. Piggott, and A. W. English. "Comparison of methods to detect rare and cryptic species: a case study using the red fox (Vulpes vulpes)." Wildlife Research 36, no. 5 (2009): 436. http://dx.doi.org/10.1071/wr08069.
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Choosing the appropriate method to detect and monitor wildlife species is difficult if the species is rare or cryptic in appearance or behaviour. We evaluated the effectiveness of the following four methods for detecting red foxes (Vulpes vulpes) on the basis of equivalent person hours in a rural landscape in temperate Australia: camera traps, hair traps (using morphology and DNA from hair follicles), scats from bait stations (using DNA derived from the scats) and spotlighting. We also evaluated whether individual foxes could be identified using remote collection of their tissues. Genetic analysis of hair samples was the least efficient method of detection among the methods employed because of the paucity of samples obtained and the lack of follicles on sampled hairs. Scat detection was somewhat more efficient. Scats were deposited at 17% of bait stations and 80% of scats were amplified with a fox-specific marker, although only 31% of confirmed fox scats could be fully genotyped at all six microsatellite loci. Camera trapping and spotlighting were the most efficient methods of detecting fox presence in the landscape. Spotlighting success varied seasonally, with fox detections peaking in autumn (80% of spotlighting transects) and being lowest in winter (29% of transects). Cameras detected foxes at 51% of stations; however, there was limited seasonality in detection, and success rates varied with camera design. Log-linear models confirmed these trends. Our results showed that the appropriate technique for detecting foxes varies depending on the time of the year. It is suggested that wildlife managers should consider both seasonal effects and species biology when attempting to detect rare or elusive species.
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Fleming, Patricia A., Heather M. Crawford, Alyson M. Stobo‐Wilson, Stuart J. Dawson, Christopher R. Dickman, Shannon J. Dundas, Matthew N. Gentle, et al. "Diet of the introduced red fox Vulpes vulpes in Australia: analysis of temporal and spatial patterns." Mammal Review 51, no. 4 (May 27, 2021): 508–27. http://dx.doi.org/10.1111/mam.12251.
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McLean, Stuart, David S. Nichols, and Noel W. Davies. "Volatile scent chemicals in the urine of the red fox, Vulpes vulpes." PLOS ONE 16, no. 3 (March 30, 2021): e0248961. http://dx.doi.org/10.1371/journal.pone.0248961.
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The red fox is a highly adaptable mammal that has established itself world-wide in many different environments. Contributing to its success is a social structure based on chemical signalling between individuals. Urine scent marking behaviour has long been known in foxes, but there has not been a recent study of the chemical composition of fox urine. We have used solid-phase microextraction and gas chromatography-mass spectrometry to analyze the urinary volatiles in 15 free-ranging wild foxes (2 female) living in farmlands and bush in Victoria, Australia. Foxes here are routinely culled as feral pests, and the urine was collected by bladder puncture soon after death. Compounds were identified from their mass spectra and Kovats retention indices. There were 53 possible endogenous scent compounds, 10 plant-derived compounds and 5 anthropogenic xenobiotics. Among the plant chemicals were several aromatic apocarotenoids previously found in greater abundance in the fox tail gland. They reflect the dietary consumption of carotenoids, essential for optimal health. One third of all the endogenous volatiles were sulfur compounds, a highly odiferous group which included thiols, methylsulfides and polysulfides. Five of the sulfur compounds (3-isopentenyl thiol, 1- and 2-phenylethyl methyl sulfide, octanethiol and benzyl methyl sulfide) have only been found in foxes, and four others (isopentyl methyl sulfide, 3-isopentenyl methyl sulfide, and 1- and 2-phenylethane thiol) only in some canid, mink and skunk species. This indicates that they are not normal mammalian metabolites and have evolved to serve a specific role. This role is for defence in musteloids and most likely for chemical communication in canids. The total production of sulfur compounds varied greatly between foxes (median 1.2, range 0.4–32.3 μg ‘acetophenone equivalents’/mg creatinine) as did the relative abundance of different chemical types. The urinary scent chemistry may represent a highly evolved system of semiochemicals for communication between foxes.
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Banks, Peter B., Alexandra J. R. Carthey, and Jenna P. Bytheway. "Australian native mammals recognize and respond to alien predators: a meta-analysis." Proceedings of the Royal Society B: Biological Sciences 285, no. 1885 (August 22, 2018): 20180857. http://dx.doi.org/10.1098/rspb.2018.0857.
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Prey naiveté is a failure to recognize novel predators and thought to cause exaggerated impacts of alien predators on native wildlife. Yet there is equivocal evidence in the literature for native prey naiveté towards aliens. To address this, we conducted a meta-analysis of Australian mammal responses to native and alien predators. Australia has the world's worst record of extinction and declines of native mammals, largely owing to two alien predators introduced more than 150 years ago: the feral cat, Felis catus , and European red fox, Vulpes vulpes . Analysis of 94 responses to predator cues shows that Australian mammals consistently recognize alien foxes as a predation threat, possibly because of thousands of years of experience with another canid predator, the dingo, Canis lupus dingo . We also found recognition responses towards cats; however, in four of the seven studies available, these responses were of risk-taking behaviour rather than antipredator behaviour. Our results suggest that a simple failure to recognize alien predators is not behind the ongoing exaggerated impacts of alien predators in Australia. Instead, our results highlight an urgent need to better understand the appropriateness of antipredator responses in prey towards alien predators in order to understand native prey vulnerability.
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Berry, Oliver, Jack Tatler, Neil Hamilton, Steffi Hilmer, Yvette Hitchen, and Dave Algar. "Slow recruitment in a red-fox population following poison baiting: a non-invasive mark–recapture analysis." Wildlife Research 40, no. 7 (2013): 615. http://dx.doi.org/10.1071/wr13073.
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Context Optimal management of invasive species should determine the interval between lethal-control operations that will sustain a desired population suppression at minimum cost. This requires an understanding of the species’ rate of recruitment following control. These data are difficult to acquire for vertebrate carnivores such as the red fox (Vulpes vulpes), which are not readily trapped or observed. Aims To provide a long-term evaluation of the effects of 1080 poison baiting on the abundance and extent of movement of red foxes in a semiarid environment. Methods We used non‐invasive DNA sampling of fox hairs in semi-arid Western Australia where the population was subject to two episodes of aerially delivered sodium fluoroacetate (1080) poison baits within 12 months. Sampling took place at ~45-day intervals and individual foxes were identified by genotyping eight microsatellite DNA markers and a gender-specific marker. Open-population and spatially explicit mark–recapture models were used to estimate the density, apparent survival and movements of foxes before and following baiting. Key results Following a severe reduction in density after baiting, fox density during the ensuing 12 months increased slowly (0.01 foxes km–2 month–1), such that density had only reached 22% of pre-baiting levels ~10 months after the initial baiting. Moreover, recovery was non‐linear as population growth was negligible for 6 months, then exhibited a nine-fold increase 7–9 months after control, coincident with the dispersal of juveniles in autumn. Fox movements between recaptures were on average 470% greater after baiting than before, in line with expectations for low-density populations, suggesting that the probability of encountering baits during this period would be higher than before baiting. Conclusions Baiting with 1080 poison significantly reduced the density of foxes, and the low density was sustained for more than 6 months. Foxes moved significantly further between recaptures after baiting when at low densities. Implications Control programs in this region may be carried out at low frequency to suppress fox density to a fraction of unbaited levels. The intensity of follow-up baiting may also be adjusted downwards, to take account of an increased probability of bait encounter in more mobile foxes.
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Wooster, Eamonn, Arian D. Wallach, and Daniel Ramp. "The Wily and Courageous Red Fox: Behavioural Analysis of a Mesopredator at Resource Points Shared by an Apex Predator." Animals 9, no. 11 (November 1, 2019): 907. http://dx.doi.org/10.3390/ani9110907.
Full textAbstract:
The red fox (Vulpes vulpes) is a widespread and ecologically significant terrestrial mesopredator, that has expanded its range with human globalisation. Despite this, we know relatively little about their behaviour under the wide range of ecological conditions they experience, particularly how they navigate the risk of encounters with apex predators. We conducted the first ethological study of foxes outside their historic native range, in Australia, where both the foxes and their main predator were protected from human hunting. Using remote camera traps, we recorded foxes visiting key resource points regularly utilised by territorial dingoes (Canis dingo), their local apex predator, in the Painted Desert, South Australia. We constructed an ethogram sensitive to a range of behaviours and attitudes. Since foxes are suppressed by dingoes, we expected that the foxes would primarily be in a cautious state. In contrast, we found that foxes were in a confident state most of the time. Where human hunting is absent, social stability of predators may increase predictability and therefore decrease fear.
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Bradley, MP. "Experimental strategies for the development of an immunocontraceptive vaccine for the European red fox, Vulpes vulpes." Reproduction, Fertility and Development 6, no. 3 (1994): 307. http://dx.doi.org/10.1071/rd9940307.
Full textAbstract:
The development of an immunocontraceptive vaccine to control fox populations in Australia would confer considerable advantages in controlling the long-term impact of this predator on native and endangered species. Studies are currently under way to identify sperm antigens that might be used in such a vaccine, and some of these studies are described. It is proposed that such a vaccine would be delivered orally in a bait, thereby stimulating a mucosal immune response to the foreign antigen(s). Such a vaccine requires a detailed understanding of reproductive-tract mucosal immunity in foxes, and selection of the most effective form of antigen delivery. Those under consideration include viral or bacterial vectors and microencapsulated antigens.
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Dexter, Nick, and Andy Murray. "The impact of fox control on the relative abundance of forest mammals in East Gippsland, Victoria." Wildlife Research 36, no. 3 (2009): 252. http://dx.doi.org/10.1071/wr08135.
Full textAbstract:
Predation by European red foxes is believed to be the major cause of the extinction and decline of a large number of native medium-sized terrestrial mammals in Australia. We examined the impact of poisoning of foxes on the relative abundance of a group of medium-sized mammals in an experiment conducted in three large forest blocks in south-eastern Australia. The blocks consisted of paired sites, as follows: one site where poison baiting was used to control foxes (treatment site) and one where foxes were not controlled (non-treatment site). At all six sites, the population responses of a range of mammals were measured, and compared between treatment and non-treatment sites. The relative fox abundance, as indexed by bait-take, declined during the course of the study at treatment sites and to a lesser extent at non-treatment sites. The decline in bait-take at non-treatment sites was most likely due to treatment sites acting as ecological traps, so that reduced intra-specific competition attracted foxes from non-treatment to treatment sites, where they were subsequently poisoned. There was a significant treatment effect for the abundances of total mammals, long-nosed potoroos, southern brown bandicoots and common brushtail possums, with higher abundances at treatment sites than at non-treatment sites. Common ringtail possums increased in abundance during the course of the study, with no significant difference between treatment and non-treatment sites. There was no significant effect of time or treatment on the abundance of long-nosed bandicoots. The increase in the abundance of native mammals at treatment sites was most likely due to a lower predation pressure by foxes brought about by fox control, and the smaller increase in abundance in non-treatment blocks was likely due to the ecological-trap effect because of fox baiting at treatment sites. The present study demonstrated that broad-scale fox control can lead to increases in the abundance of native mammals in forested habitats, without recourse to aerial baiting or fences. The study also demonstrated that the influence of fox control on the fox abundance can extend well beyond the perimeter of the area baited.
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Melville, D. F., E. G. Crichton, G. M. O'Brien, and S. D. Johnston. "12 PHARMACOLOGICAL STIMULATION OF OVULATION IN THE BLACK FLYING-FOX (PTEROPUS ALECTO)." Reproduction, Fertility and Development 21, no. 1 (2009): 106. http://dx.doi.org/10.1071/rdv21n1ab12.
Full textAbstract:
Artificial insemination (AI) involves the accurate detection of oestrus, the ability to pharmacologically induce ovulation, or both. This is particularly important in flying-foxes (Pteropus spp.) that do not have an overt behavioural oestrus. Pregnant mare serum gonadotropin (PMSG) stimulates folliculogenesis and ovulation in the Little Red Flying-fox (P. scapulatus; Towers PA and Martin L 1985 Proc. Aust. Soc. Reprod. Biol. 17, 115). In this study, a dose rate of 15 IU PMSG was used. Our study investigated if 15 IU PMSG would sufficiently induce ovulation in the larger, Black Flying-fox (P. alecto) or if a higher dose (30 IU) would be necessary. Before the mating season, a single injection of PMSG (Folligon®, Intervet Australia Pty Ltd, Bendigo East, Australia) was administered i.m. to eight adult females at 15 IU (n = 4) or 30 IU (n = 4) on Day 0. On Day 4, semen was collected by electro-ejaculation from adult males and inseminated intravaginally into females under isoflurane (Forthane®, Abbott Australasia Pty Ltd, Sydney, Australia) anaesthesia. Ovaries and reproductive tracts were surgically removed on Day 6, fixed, serially sectioned and stained using Gomori’s Stain. Histological sections were examined for evidence of ovarian activity and the presence of ova and spermatozoa in the reproductive tracts. Preliminary observations showed evidence of ovulation in both groups in the form of at least one CL in either ovary and an ovum in the ipsilateral oviduct or uterine horn. Ovaries of females stimulated with 30 IU PMSG differed noticeably from those treated with 15 IU in containing multiple, large, collapsed luteinized follicles with retained oocytes. Vascularization and glandular hypertrophy of the endometrium was also more evident in the higher dose group. No spermatozoa were observed in any of the excised tracts. These results suggest that whereas both doses of PMSG induce ovulation, the administration of 30 IU PMSG may over-stimulate the ovaries. This, in turn, could lead to an unphysiological environment for successful fertilization and embryonic development. A dose level of 15 IU or slightly above may be sufficient for subsequent attempts to stimulate folliculogenesis and ovulation in P. alecto. The absence of spermatozoa suggests that the site of insemination, the number of spermatozoa inseminated, or both requires further investigation if AI is to be successfully implemented in these species. We conclude that the ovarian responses to PMSG indicate that pharmacological induction of ovulation can be successfully achieved and thereby utilized in AI programs of endangered Pteropus species.
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Marks, CA, M. Nijk, F. Gigliotti, F. Busana, and RV Short. "Preliminary Field Assessment of a Cabergoline Baiting Campaign for Reproductive Control of the Red Fox (Vulpes Vulpes)." Wildlife Research 23, no. 2 (1996): 161. http://dx.doi.org/10.1071/wr9960161.
Full textAbstract:
The use of poison baiting in Australia to control foxes is impractical in urban areas and some wildlife reserves because of hazards to non-target animals. More acceptable methods of fox control in such environments are needed. Cabergoline is a dopamine agonist that has previously been demonstrated to have an abortifacient effect in cats (Felis catus) and dogs (Canis familiaris). The prolactin-inhibiting action of cabergoline may also result in cessation of lactation. Cabergoline has been shown to be completely palatable to foxes and is easily incorporated into a non-poisonous bait. The ability of bait-delivered cabergoline to effect the birth of viable fox cubs was tested in urban Melbourne and rural Bendigo, Victoria. A sample of 51 natal dens were chosen for this study on the basis that they had been active for 3 consecutive years (1991-93). 30 treatment dens were randomly selected and each treated once during August and again during September 1994 with 8 non-poisonous Foxoff baits containing 170 micro g of cabergoline and 200 mg of tetracycline to act as a biomarker. The remaining 21 dens were used as controls. Baits were randomly placed by burial within a 50-m radius of the den. Activity of all dens was assessed until December 1994 for direct/indirect signs of fox cubs. Bait uptake was >88% overall for the treatment dens. The resulting incidence of cubs was significantly lower in the treatment dens than in the controls. The potential for cabergoline to be used in urban areas and island populations as an adjunct to conventional control methods is discussed.
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Hornsby, P. "Possible Causes of Mortality in The Yellow-Footed Rock-wallaby, Petrogale xanthopus Gray (Marsupialia: Macropodidae)." Australian Mammalogy 19, no. 2 (1996): 245. http://dx.doi.org/10.1071/am97245.
Full textAbstract:
The causes of mortality were analysed for 23 Yellow-footed Rock-wallabies, Petrogale xanthopus found on or near the dry bed of the Hamilton Creek in the North Flinders Ranges of South Australia. The results showed the Red Fox, Vulpes vulpes to be the more frequently identified predator. On the basis of size, 13 of the wallabies were classed as adult and seven were immature, while the remaining three were unknown. Three were male; seven were female, and 13 were of unknown sex. 15 of the 23 were found during the period April - July; the time of year when there is a peak of young leaving the pouch.