ORCID Profile
0000-0002-3792-5723
Current Organisations
University of New England
,
New South Wales Department of Primary Industries
,
University of Adelaide
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In Research Link Australia (RLA), "Research Topics" refer to ANZSRC FOR and SEO codes. These topics are either sourced from ANZSRC FOR and SEO codes listed in researchers' related grants or generated by a large language model (LLM) based on their publications.
Population Ecology | Wildlife and Habitat Management | Environmental Science and Management | Conservation and Biodiversity |
Remnant Vegetation and Protected Conservation Areas in Forest and Woodlands Environments | Natural Hazards in Forest and Woodlands Environments | Forest and Woodlands Flora, Fauna and Biodiversity
Publisher: CSIRO Publishing
Date: 2016
DOI: 10.1071/AM15016
Abstract: Camera trapping is increasingly recognised as a survey tool akin to conventional small mammal survey methods such as Elliott trapping. While there are many cost and resource advantages of using camera traps, their adoption should not compromise scientific rigour. Rodents are a common element of most small mammal surveys. In 2010 we deployed camera traps to measure whether the endangered Hastings River mouse (Pseudomys oralis) could be detected and identified with an acceptable level of precision by camera traps when similar-looking sympatric small mammals were present. A comparison of three camera trap models revealed that camera traps can detect a wide range of small mammals, although white flash colour photography was necessary to capture characteristic features of morphology. However, the accurate identification of some small mammals, including P. oralis, was problematic we conclude therefore that camera traps alone are not appropriate for P. oralis surveys, even though they might at times successfully detect them. We discuss the need for refinement of the methodology, further testing of camera trap technology, and the development of computer-assisted techniques to overcome problems associated with accurate species identification.
Publisher: CSIRO Publishing
Date: 2012
DOI: 10.1071/AM11032
Abstract: The activity patterns and partitioning of time by four small mammal species, with a focus on the sw rat (Rattus lutreolus) in north-eastern New South Wales, was investigated using camera trap data from two studies. Analysis was carried out on 1079 camera trap events over 1530 camera trap–nights or 36 720 h of camera trap deployment in the field. The activity patterns of Rattus lutreolus were distinctly diurnal with crepuscular peaks of activity but this differed between sites and when in the presence of competitors. The Hastings River mouse (Pseudomys oralis) and the bush rat (Rattus fuscipes) displayed typical bimodal patterns of nocturnal activity. Antechinus were mostly nocturnal but were occasionally active during the day. These data indicate that where species of Muridae co-occur, diurnal time partitioning by R. lutreolus may reduce competition for food resources. It also confirms the speculation that R. lutreolus displays diurnal behaviour, albeit dependent on the presence of other murids.
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/AM13010
Abstract: Novel bait stations can be used as a targeted method of delivering bait by exploiting behavioural traits of the target species. On Muttonbird Island, New South Wales, the black rat (Rattus rattus) has been baited to aid the conservation of the island’s wedge-tailed shearwater (Ardenna pacifica) colony, which may result in poisoning of the sympatric sw rat (Rattus lutreolus). We aimed to design a bait station that R. rattus could reach, but that R. lutreolus could not. We found that 11 (92%) of 12 captive R. rattus reached the bait chambers by climbing a 50-cm vertical pipe, whereas only four (18%) of 22 R. lutreolus reached these bait stations. In a field trial on Muttonbird Island R. rattus entered the bait chamber on an average of 5.3 events per night of vertical bait station deployment, but R. lutreolus did not enter the stations. In a field trial on the mainland at a site with a high density of R. lutreolus, this species was detected in one vertical bait station five times, equating to an average of 0.017 events per night of vertical bait station deployment. We conclude that R. rattus readily climbs a 50-cm pipe to enter the bait station, whereas R. lutreolus rarely or never does on Muttonbird Island or at the mainland site.
Publisher: CSIRO Publishing
Date: 2015
DOI: 10.1071/AM14023
Abstract: Camera trapping is a relatively new addition to the wildlife survey repertoire in Australia. Its rapid adoption has been unparalleled in ecological science, but objective evaluation of camera traps and their application has not kept pace. With the aim of motivating practitioners to think more about selection and deployment of camera trap models in relation to research goals, we reviewed Australian camera trapping studies to determine how camera traps have been used and how their technological constraints may have affected reported results and conclusions. In the 54 camera trapping articles published between 1991 and 2013, mammals (86%) were studied more than birds (10%) and reptiles (3%), with small to medium-sized mammals being most studied. Australian camera trapping studies, like those elsewhere, have changed from more qualitative to more complex quantitative investigations. However, we found that camera trap constraints and limitations were rarely acknowledged, and we identified eight key issues requiring consideration and further research. These are: camera model, camera detection system, camera placement and orientation, triggering and recovery, camera trap settings, temperature differentials, species identification and behavioural responses of the animals to the cameras. In particular, alterations to animal behaviour by camera traps potentially have enormous influence on data quality, reliability and interpretation. The key issues were not considered in most Australian camera trap papers and require further study to better understand the factors that influence the analysis and interpretation of camera trap data and improve experimental design.
Publisher: CSIRO Publishing
Date: 2015
DOI: 10.1071/AM14021
Abstract: This paper provides an historical review of the technological evolution of camera trapping as a zoological survey tool in Australia. Camera trapping in Australia began in the 1950s when purpose-built remotely placed cameras were used in attempts to rediscover the thylacine (Thylacinus cynocephalus). However, camera traps did not appear in Australian research papers and Australasian conference proceedings until 1989–91, and usage became common only after 2008, with an exponential increase in usage since 2010. Initially, Australian publications under-reported camera trapping methods, often failing to provide fundamental details about deployment and use. However, rigour in reporting of key methods has increased during the recent widespread adoption of camera trapping. Our analysis also reveals a change in camera trap use in Australia, from simple presence–absence studies, to more theoretical and experimental approaches related to population ecology, behavioural ecology, conservation biology and wildlife management. Practitioners require further research to refine and standardise camera trap methods to ensure that unbiased and scientifically rigorous data are obtained from quantitative research. The recent change in emphasis of camera trapping research use is reflected in the decreasing range of camera trap models being used in Australian research. Practitioners are moving away from less effective models that have slow reaction times between detection and image capture, and inherent bias in detectability of fauna, to more expensive brands that offer faster speeds, greater functionality and more reliability.
Publisher: Elsevier BV
Date: 05-2020
Publisher: Elsevier BV
Date: 04-2019
Publisher: CSIRO Publishing
Date: 2007
DOI: 10.1071/PC070283
Abstract: 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.
Publisher: CSIRO Publishing
Date: 1998
DOI: 10.1071/WR97020
Abstract: The effectiveness of a fox-control exercise at the Beecroft Peninsula, New South Wales, was evaluated by examining the change in proportion of baits taken during free-feeding and after lethal baiting in four different habitats (heath, forest, coastal scrub, beach), and the change in number of radio-collared foxes alive during the course of the baiting exercise. The change in proportion of baits taken by non-target species was also examined over the course of the study. Bait take declined by 97% from the initiation of poison baiting to the final day of poison baiting eight days later with significantly more baits being taken in heath than in any other habitat. Four out of six radio-collared foxes died on the first day of poison baiting while the other two foxes died within ten days of the start of the poison-baiting session. Black rats, currawongs and ravens took a small number of baits throughout the baiting exercise.
Publisher: Public Library of Science (PLoS)
Date: 29-10-2014
Publisher: CSIRO Publishing
Date: 2023
DOI: 10.1071/WR22057
Publisher: CSIRO Publishing
Date: 2006
DOI: 10.1071/AM06005
Abstract: In iduals from a population of Hastings River mouse (Pseudomys oralis) were radio tracked in a short-term investigation of home range, habitat use and movement patterns in Marengo State Forest on the northern tablelands of New South Wales. Results were assessed in the context of conservation and management of this threatened species and compared to research in other parts of the species? distribution. The mean summer-autumn home range (Minimum Convex Polygon) of five animals that met the home range asymptote was 0.78�ha, the minimum home range for fourteen mice was 0.72�ha, while median home range for males was 0.8�ha and females 0.53�ha. There was no significant difference in home range size between sexes. Habitat data indicated that fallen logs, including tree head and butt residue following logging, are important refuge and nest sites, even when rocks and hollows are available. A ersity of fern and other ground plant species (including grasses) was important habitat for the species, microhabitat consisting predominantly of sedge and rush was not favoured.
Publisher: CSIRO Publishing
Date: 2016
DOI: 10.1071/ZO15082
Abstract: The northern hopping-mouse (Notomys aquilo) is a cryptic and enigmatic rodent endemic to Australia’s monsoonal tropics. Focusing on the insular population on Groote Eylandt, Northern Territory, we present the first study to successfully use live traps, camera traps and radio-tracking to document the ecology of N. aquilo. Searches for signs of the species, camera trapping, pitfall trapping and spotlighting were conducted across the island during 2012–15. These methods detected the species in three of the 32 locations surveyed. Pitfall traps captured 39 in iduals over 7917 trap-nights. Females were significantly longer and heavier, and had better body condition, than males. Breeding occurred throughout the year however, the greatest influx of juveniles into the population occurred early in the dry season in June and July. Nine in iduals radio-tracked in woodland habitat utilised discrete home ranges of 0.39–23.95 ha. All in iduals used open microhabitat proportionally more than was available, and there was a strong preference for eucalypt woodland on sandy substrate rather than for adjacent sandstone woodland or acacia shrubland. Camera trapping was more effective than live trapping at estimating abundance and, with the lower effort required to employ this technique, it is recommended for future s ling of the species. Groote Eylandt possibly contains the last populations of N. aquilo, but even there its abundance and distribution have decreased dramatically in surveys over the last several decades. Therefore, we recommend that the species’ conservation status under the Environment Protection and Bio ersity Conservation Act 1999 be changed from ‘vulnerable’ to ‘endangered’.
Publisher: CSIRO Publishing
Date: 2000
DOI: 10.1071/WR98030
Abstract: Data on the home range and activity of 14 foxes was collected from coastal habitat in Jervis Bay, New South Wales during 1993–95. Radio-collared foxes had a mean home range of 135 ha and core activity areas of 23 ha (determined by the Minimum Convex Polygon method). There were no significant differences in the home ranges of male and female foxes. The home ranges of some foxes shifted throughout the study. Some animals went on long forays beyond their normal range. All animals displayed nocturnal activity patterns except during the breeding season or after long spells of wet weather when some foraging occurred during daylight hours. The information collected in this study is discussed in the context of fox control.
Publisher: CSIRO Publishing
Date: 1999
DOI: 10.1071/WR97101
Abstract: In this study 10 free-roaming domestic dogs from an Aboriginal community were radio-collared to determine the sizes of their home ranges and to observe their wandering behaviour. Half of the radio-tagged dogs went on wandering forays, while the other five roamed only within the vicinity of the community. Home-range size was highly variable within the study group: the mean for the wandering dogs was 927 ha whereas that of the sedentary dogs was 2.6 ha. Dogs travelled 8–30 km on forays. All forays were initiated at night and those that were recorded had an average duration of 26 h. Foray destinations were usually riparian habitats where macropod quarry were abundant.
Publisher: CSIRO Publishing
Date: 2006
DOI: 10.1071/WR05009
Abstract: The changes in the diet of foxes (Vulpes vulpes) in the Jervis Bay Region was assessed following a long-term baiting program by analysing the composition of fox faecal excreta (scats). In all, 470 fox scats were collected between April and August 2003 from two baited sites, Booderee National Park (BNP) and Beecroft Peninsula, and from two unbaited sites in the southern and northern parts of Jervis Bay National Park (SJBNP and NJBNP respectively). Diet was compared between these sites and mammalian diet was also compared from scats collected before baiting in 1996 and after baiting in 2000 at Beecroft Peninsula and in 2001 at Booderee National Park. In 2003, the most common species consumed by foxes was the common ringtail possum (Pseudocheirus peregrinus), except at unbaited NJBNP, where the sw wallaby (Wallabia bicolor) was the most frequent dietary item. Significant dietary differences were found between unbaited and baited sites, with the long-nosed bandicoot (Perameles nasuta) and P. peregrinus featuring more in the diet of foxes from the baited sites. Marked increases in the frequency of occurrence of P. peregrinus and P. nasuta in fox scats occurred from before baiting through to after baiting. Relative fox abundance, as indexed by the number of scats collected per kilometre, was lowest in Booderee, followed by Beecroft, then SJBNP, with NJBNP having the highest relative abundance of foxes. We suggest that baiting did affect the diet of foxes on both peninsulas and that the dietary changes across baiting histories were intrinsically related to an increase in abundance in some taxa as a result of relaxed predator pressure following sustained fox control. However, the lack of unbaited control sites over the whole study precludes a definitive conclusion.
Publisher: CSIRO Publishing
Date: 2023
DOI: 10.1071/WR23024
Publisher: CSIRO Publishing
Date: 1998
DOI: 10.1071/WR95066
Abstract: Wild dogs and European red foxes are considered pest animals in Australia. Restraining devices to capture these wild canids are sometimes required by wildlife managers. However, the use of traps is controversial. This paper discusses the efficiency, selectivity and injuries inflicted by some leg-hold traps that are available in Australia for capturing wild canids. The trapping of feral cats with wild-canid traps is also briefly discussed. The most commonly used leg-hold trap in Australia is the toothed, steel-jawed, leg-hold trap. Alternative traps, including offset- and padded-jawed traps (similar to the Victor Soft Catch®), and steel-jawed traps that have been modified to incorporate padding and off-setting of jaws, were shown to be preferable. The alternative traps were as efficient and selective as toothed, steel-jawed traps, but were less injurious. The Treadle snare, although more likely to miss target animals, was also shown to be less injurious than unmodified, steel-jawed leg-hold traps. It is difficult to justify the continued use of unmodified, steel-jawed leg-hold traps for the capture of wild canids in Australia.
Publisher: CSIRO Publishing
Date: 31-08-2022
DOI: 10.1071/WR22055
Abstract: Context Camera traps are available with infrared or white flash, with the former being more commonly used. However, white flash produces colour night-time photographs that can be critically useful for both species and in idual identification. White flash was thought to cause more disturbance to wildlife than was infrared and this may lead to camera avoidance. Evaluating the extent of this response, and differences between the flash types, is useful to develop improved survey designs. Aims This research aimed to quantify the behavioural responses of Eld’s deer to white and infrared flash, to determine whether white-flash cameras were suitable for use in population surveys of this species. Methods A behavioural ethogram was used to quantify the responses of the deer to the two flash types, as well as the responses of different sex-age classes and group sizes when encountering a camera trap. Additionally, the detection rate for white flash and infrared flash cameras was compared through time, to determine any pattern of avoidance. Key results While deer were more likely to observe and be startled by white flash than infrared, this did not adversely affect the detection of the deer, with no significant change in the detection rate between the two different flash types over time. Group size was found not to influence behavioural response when encountering camera traps, whereas different age–sex classes of deer showed very few differences in response to camera traps. Conclusions White flash cameras were found to be suitable for Eld’s deer population surveys and were beneficial in providing colour night-time photos that allow for spotted female deer to be in idually identified. Implications Practitioners should not be concerned about the influence of white flash when using camera traps to monitor populations of Eld’s deer, and using white flash is recommended when in idual identification is required.
Publisher: Springer Science and Business Media LLC
Date: 06-05-2014
Publisher: CSIRO Publishing
Date: 2015
DOI: 10.1071/WR14193
Abstract: Context Automatically activated cameras (camera traps) and automated poison-delivery devices are increasingly being used to monitor and manage predators such as felids and canids. Maximising visitation rates to sentry positions enhances the efficacy of feral-predator management, especially for feral cats, which are typically less attracted to food-based lures than canids. Aims The influence of camera-trap placement and lures were investigated to determine optimal monitoring and control strategies for feral cats and other predators in two regions of semi-arid South Australia. Methods We compared autumn and winter capture rates, activity patterns and behaviours of cats, foxes and dingoes at different landscape elements and with different lures in three independent 6 km × 3 km grids of 18 camera-trap sites. Key results Neither visual, olfactory or audio lures increased recorded visitation rates by any predators, although an audio and a scent-based lure both elicited behavioural responses in predators. Cameras set on roads yielded an eight times greater capture rate for dingoes than did off-road cameras. Roads and resource points also yielded highest captures of cats and foxes. All predators were less nocturnal in winter than in autumn and fox detections at the Immarna site peaked in months when dingo and cat activity were lowest. Conclusions Monitoring and management programs for cats and other predators in arid Australia should focus on roads and resource points where predator activity is highest. Olfactory and auditory lures can elicit behavioural responses that render cats more susceptible to passive monitoring and control techniques. Dingo activity appeared to be inversely related to fox but not cat activity during our monitoring period. Implications Optimised management of feral cats in the Australian arid zone would benefit from site- and season-specific lure trials.
Publisher: CSIRO Publishing
Date: 2017
DOI: 10.1071/PC17007
Abstract: 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.
Publisher: Informa UK Limited
Date: 02-01-2018
Publisher: CSIRO Publishing
Date: 2012
DOI: 10.1071/WR12138
Abstract: Context The adoption of camera trapping in place of traditional wildlife survey methods has become common despite inherent flaws in equipment and a dearth of research to test their fit for purpose. Overwhelmingly, the development of commercial camera traps has been driven by the needs of North American hunters. Camera-trap models and features are influenced by these market forces that drive the changes in designs as new technologies develop. This focus on recreation, rather than research has often frustrated wildlife professionals as the equipment has rarely met minimum standards for scientific application. Aims We investigated the demand for white-flash camera traps around the world to highlight the demand for such camera traps in wildlife research to the manufacturing industry. We also compiled the camera-trap specifications required by scientists through the world in an effort to influence and improve the quality of camera traps for research. Methods We carried out an internet-based survey of biologists, zoologists, conservationists and other wildlife researchers by using a questionnaire to gather baseline market data on camera-trap use and demand. We also conducted an informal survey of scientists via email and in person, asking for their preferences and features of an ultimate camera-trap design. Key result Infrared camera traps are widely used and more so than white-flash camera traps, although the demand for white flash remains significant. Cost, speed, size, ease of use, versatility and the range of settings were the key features identified in a good camera trap. Conclusions The present paper describes and discusses the desired features and specifications as defined by over 150 scientists using camera traps around the world. Data gathered also provide some insight into the market demand for camera traps by biologists, zoologists, conservationists and other wildlife researchers around the world. These design features are discussed under the guise of the ultimate camera trap for wildlife research, with the disclaimer that no such camera trap currently exists. Implications The information provided in the paper has and will be a useful guide to future camera-trap designs, although it is unlikely that all of the features required will ever be produced in a cheap camera trap.
Publisher: Elsevier BV
Date: 09-2017
Publisher: CSIRO Publishing
Date: 2017
DOI: 10.1071/AM16018
Abstract: Cannibalism in predators has been reported for a range of species throughout the world, including observations of dingoes (Canis familiaris) eating dingoes in Australia. Here, we report on camera trap observations of dingoes feeding on the carcasses of dingoes and showing aggressive behaviours towards live-trapped conspecifics. At this site, cannibalism and conspecific aggression by dingoes was not caused by food shortages, but was more likely a result of high dingo density in a focal area. We present the first camera trap image observations of dingoes eating dingoes and describe aggressive encounters between live animals.
Publisher: CSIRO Publishing
Date: 2019
DOI: 10.1071/PC18044
Abstract: We conducted a survey of trappers to gather baseline information on the trapping methods and humane practices used in Australia, the types of traps being used, and the attitudes of trappers. Respondents indicated that they mostly trapped wild dogs and foxes with feral cats as by-catch rabbits were trapped to a lesser degree. Respondents favoured Jake and Victor #3 traps for the capture of wild dogs. Victor #1.5, #3 and Jake traps were also favoured for capturing foxes and feral cats. Although some trappers placed up to four traps together in a set, a single trap per set was the most commonly reported approach. Trap maintenance varied between in iduals but most said they checked traps for problems during deployment. Respondents preferred the term ‘rubber jawed traps’ over the plethora of other synonyms in current use. All respondents were cognisant of animal welfare requirements but their acceptance and adoption of related trapping methods varied. Most did not believe that licensing was required to govern trapping practices in Australia. Euthanasia was most commonly undertaken by shooting the captured animal in the head, although rabbits and some non-target animals were reportedly dispatched by a blow to the head. This is the first survey of Australian trappers and provides a benchmark for understanding trapping culture, practices and practitioner expectations so these can be considered in policy development and implementation.
Publisher: Wiley
Date: 27-11-2014
DOI: 10.1111/COBI.12177
Abstract: The taxonomic uniqueness of island populations is often uncertain which hinders effective prioritization for conservation. The Christmas Island shrew (Crocidura attenuata trichura) is the only member of the highly speciose eutherian family Soricidae recorded from Australia. It is currently classified as a subspecies of the Asian gray or long-tailed shrew (C. attenuata), although it was originally described as a subspecies of the southeast Asian white-toothed shrew (C. fuliginosa). The Christmas Island shrew is currently listed as endangered and has not been recorded in the wild since 1984-1985, when 2 specimens were collected after an 80-year absence. We aimed to obtain DNA sequence data for cytochrome b (cytb) from Christmas Island shrew museum specimens to determine their taxonomic affinities and to confirm the identity of the 1980s specimens. The Cytb sequences from 5, 1898 specimens and a 1985 specimen were identical. In addition, the Christmas Island shrew cytb sequence was ergent at the species level from all available Crocidura cytb sequences. Rather than a population of a widespread species, current evidence suggests the Christmas Island shrew is a critically endangered endemic species, C. trichura, and a high priority for conservation. As the decisions typically required to save declining species can be delayed or deferred if the taxonomic status of the population in question is uncertain, it is hoped that the history of the Christmas Island shrew will encourage the clarification of taxonomy to be seen as an important first step in initiating informed and effective conservation action.
Publisher: CSIRO Publishing
Date: 2013
DOI: 10.1071/AM12014
Abstract: As the use of camera traps in wildlife management in Australia rapidly increases, government agencies, private enterprises, universities and in iduals are investing considerable amounts of money in camera trap technology for research, monitoring and recreation. Often camera traps need to be placed along vehicle tracks or in obvious locations to detect animal activity. Consequently, units are frequently highly visible and therefore easily located by would-be thieves. We describe a field-tested security post design that increases security for both camera traps and data, whilst also offering a means of standardising placement.
Publisher: Wiley
Date: 26-09-2016
DOI: 10.1002/RSE2.28
Publisher: MDPI AG
Date: 27-12-2019
DOI: 10.3390/ANI10010058
Abstract: We present ClassifyMe a software tool for the automated identification of animal species from camera trap images. ClassifyMe is intended to be used by ecologists both in the field and in the office. Users can download a pre-trained model specific to their location of interest and then upload the images from a camera trap to a laptop or workstation. ClassifyMe will identify animals and other objects (e.g., vehicles) in images, provide a report file with the most likely species detections, and automatically sort the images into sub-folders corresponding to these species categories. False Triggers (no visible object present) will also be filtered and sorted. Importantly, the ClassifyMe software operates on the user’s local machine (own laptop or workstation)—not via internet connection. This allows users access to state-of-the-art camera trap computer vision software in situ, rather than only in the office. The software also incurs minimal cost on the end-user as there is no need for expensive data uploads to cloud services. Furthermore, processing the images locally on the users’ end-device allows them data control and resolves privacy issues surrounding transfer and third-party access to users’ datasets.
Publisher: Sociedade Portuguesa de Vida Selvagem (SPVS)
Date: 21-08-2013
DOI: 10.2461/WBP.2013.9.4
Publisher: CSIRO Publishing
Date: 2015
DOI: 10.1071/ZO15050
Abstract: Critical evaluations of bait attractiveness for camera trapping wildlife are scant even though use of the most attractive bait should improve detection of cryptic, threatened species. We aimed to determine the most attractive bait for camera trapping the northern hopping-mouse (Notomys aquilo) and sympatric mammals. We also tested the effectiveness of overhead camera trap orientation in identifying in idual northern quolls (Dasyurus hallucatus) as this could be used to define a camera trap event for analysis purposes. Using white-flash camera traps, the attractiveness of four baits (peanut butter with oats, corn, sesame oil and sunflower kernels) and a control were compared for N. aquilo, D. hallucatus, the northern brown bandicoot (Isoodon macrourus) and the agile wallaby (Notamacropus agilis). Spot patterns of D. hallucatus were compared to determine the visitation rate of in iduals. Peanut butter– and sesame oil–based baits were significantly more attractive to D. hallucatus, while I. macrourus strongly preferred the peanut butter bait. Bait type did not affect the mean number of events for N. aquilo or N. agilis. The consistently identifiable images of in idual D. hallucatus were used to determine the optimal event delineator of 15 min. The improved techniques for camera trapping D. hallucatus should be valuable for future capture–recapture studies of this species. Camera trapping is a viable replacement for the ineffective method of indexing the abundance of N. aquilo using indirect signs.
Publisher: Elsevier BV
Date: 07-2019
Publisher: Wiley
Date: 02-2003
Publisher: Royal Zoological Society of New South Wales
Date: 12-2018
DOI: 10.7882/AZ.2018.034
Publisher: CSIRO Publishing
Date: 2021
DOI: 10.1071/WR20043
Abstract: Abstract ContextImproving the welfare outcomes for captured animals is critically important and should underpin ‘best-practice’ trapping. Most Australian States and Territories have regulations and guidelines that form a legal framework for the maximum number of hours an animal can be restrained in a trap. Because servicing all traps within preferred time frames (less than 24h) can be logistically difficult or is considered undesirable for efficacy reasons, some jurisdictions have adopted relatively long trap-checking intervals (up to 72 h). AimsWe developed and tested the signal transmission and alert efficacy of a foot hold-trap alert system, based on Celium technology, so as to advise trappers of the activation of in idual foot-hold traps, even in remote locations. MethodsWe refined the Celium trap-alert system and designed a below-ground wireless node that transmits a message via satellite or by using the cellular system when a foot-hold trap is sprung. We tested signal transmission and alert efficacy in three locations, with a focus in Australia. Key resultsTransmission of signals from nodes to hubs and to a smart-phone application were used to resolve interference problems and to identify signal limitations and strengths. During the capture of 34 dingoes, 91% of captures resulted in an alert being received. False negatives were attributed to technical issues with nearby transmitters sw ing signals, and software problems that have since been resolved. In 40 captures of dogs and foxes, only one trap-alert transmitter (mole) was uncovered by a target animal and no devices were damaged by animals post-capture. ConclusionsThis cable-less trap-alert system successfully uses both cellular and satellite networks to transmit messages from desert and coastal locations to trappers, in Australia. We confirmed that this trap-alert system is not detected by target predators in the areas tested and can be effectively used to alert trappers when traps have been sprung. ImplicationsThis trap-alert system provides a tool to improve welfare outcomes for trapped target and non-target animals through Australia and New Zealand and wherever trapping occurs. It, furthermore, provides a solution to checking traps daily when the distance to and between traps cannot be covered within an appropriate time frame. Although trap alerts can never replace the value of daily trap checking by the trapper, they provide a solution to a management problem, namely, one of accessibility to sites.
Publisher: CSIRO Publishing
Date: 2023
DOI: 10.1071/WR22183
Publisher: Wiley
Date: 06-04-2016
DOI: 10.1002/ECE3.2111
Publisher: Informa UK Limited
Date: 25-04-2019
Publisher: CSIRO Publishing
Date: 2020
DOI: 10.1071/WR18188
Abstract: Abstract ContextWild dogs, including dingoes and dingo cross-breeds, are vertebrate pests when they cause financial losses and emotional costs by harming livestock or pets, threaten human safety or endanger native fauna. Tools for lethal management of these animals currently include aerial baiting with poisoned baits. In New South Wales (NSW), Australia, aerial baiting was previously permitted at a rate of 40 baits km−1 but a maximum rate of 10 baits km−1 was subsequently prescribed by the Australian Pesticides and Veterinary Medicines Authority. The efficacy of these baiting rates has not been quantified in eastern Australia, undermining the value of the policy and rendering adaptive management efforts difficult, at best. AimTo quantify the mortality rate of wild dogs exposed to aerial baiting at historic and currently approved rates, i.e. 40 baits per kilometre and 10 baits per kilometre, respectively. MethodsWild dog mortality rates were measured at sites in mesic north-eastern NSW, where aerial baiting was applied to control wild dogs and contrasted with sites and in iduals where no baiting was undertaken. In total, 132 wild dogs were trapped and fitted with GPS-VHF telemetry collars before annual aerial baiting programs. Collars were used to locate animals after aerial baiting and to determine the fates of in iduals. Key results90.6% of collared wild dogs exposed to aerial baiting at 40 baits km−1 died, whereas only 55.3% of those exposed to 10 baits km−1 died (Welsh’s t=4.478, P=0.004, v=6.95). All wild dogs that were not exposed to toxic baits survived during the same periods. ConclusionManagers using aerial baiting to maximise wild dog mortality in mesic south-eastern Australia should use 40 baits km−1 rather than 10 baits km−1. ImplicationsWild dog population reduction for mitigation of livestock and faunal predation requires the application of efficacious control. The currently prescribed maximum aerial baiting rate of 10 baits km−1 is inadequate for controlling wild dog populations in mesic forest environments in NSW.
Publisher: Elsevier BV
Date: 08-2019
Publisher: CSIRO Publishing
Date: 1995
DOI: 10.1071/WR9950733
Abstract: This technical note comments on the use of Victor 'Soft Catch' No. 3 traps and Treadle snare throwers, two leg-hold devices that have been developed to minimise injuries to captured animals. Both types of traps were evaluated during more than 1000 nights of use. The numbers of animals caught in each trap type, and the degree of injury sustained by the trapped animals were recorded. Both these traps were found to be humane alternatives to the steel-jawed trap currently in common use in Australia. However, the 'Victor' traps were the more convenient to use. They gave fewer technical problems, minimised injuries, caught more animals and allowed fewer escapes.
Publisher: CSIRO Publishing
Date: 2019
DOI: 10.1071/WR18129
Abstract: Context Wildlife and pest managers and stakeholders should constantly aim to improve animal-welfare outcomes when foot-hold trapping pest animals. To minimise stress and trauma to trapped animals, traps should be checked at least once every 24h, normally as soon after sunrise as possible. If distance, time, environmental or geographical constraints prevent this, toxins such as strychnine can be fitted to trap jaws to induce euthanasia. However, strychnine is considered to have undesirable animal-welfare outcomes because animals are conscious while clinical signs of intoxication are present. A toxin considered more humane, para-aminopropiophenone (PAPP), is available to induce euthanasia in trapped animals but is untested for presentation and efficacy. Aim We tested the efficacy of two types of lethal trap device (LTD’s), each using a paste formulation of PAPP as the active toxin to replace the use of strychnine on foot-hold jaw traps. Methods Elastomer LTDs and PAPP-cloths were fitted to jaw traps set to capture wild dogs (Canis familiaris). Camera-trap data was used to record animal behaviours after capture and to determine the efficacy of both modalities. Key results Every trapped wild dog (n=117) gnawed at the elastomer LTD’s or PAPP-cloth attached to the trap jaws that restrained them one dog failed to liberate the toxin. From the dogs caught in the main trial (n=56), a mortality rate of 84% and 87% was reported respectively. The mean time from trap-to-death for elastomer LTDs was 64min and 68min for PAPP-cloths. Conclusions Elastomer LTDs and PAPP cloths combined caused the mortality of 85% of captured dogs. This efficacy could be improved by adopting the recommendations discussed in the present study for deploying PAPP-based LTDs during trap deployment. Implications PAPP-based LTDs offer an alternative option to the use of strychnine and improve the welfare outcomes for trapped predators, especially where traps are not checked within the recommended 24-h period.
Publisher: Royal Zoological Society of New South Wales
Date: 2011
DOI: 10.7882/AZ.2011.008
Publisher: CSIRO Publishing
Date: 2015
DOI: 10.1071/AM14028
Abstract: The correct identification of animal signs is imperative when signs are used as evidence of a species’ abundance or distribution. On Groote Eylandt, burrow spoil heaps have been used in surveys for the threatened northern hopping-mouse (Notomys aquilo) as this indicator of presence was assumed to be unique to this species in this area. Using camera traps, positive identification from footage, and burrow excavation and mapping, we determined that spoil heaps made by the common delicate mouse (Pseudomys delicatulus) could not be differentiated from those of N. aquilo. The results demonstrate that more-reliable survey techniques for N. aquilo are required to aid management decisions for this species.
Publisher: Wiley
Date: 17-10-2019
DOI: 10.1002/RSE2.96
Publisher: CSIRO Publishing
Date: 2014
DOI: 10.1071/AM13039
Abstract: We describe burrowing behaviour of the elusive northern hopping-mouse (Notomys aquilo) recorded by camera traps. New burrows were observed at the beginning and end of the wet season on Groote Eylandt, Northern Territory. Initial burrow entrances were open for approximately five days before being back-filled, leaving only a spoil heap with pop holes (burrow entrances) up to 5.3 m away. These results will improve survey techniques for this cryptic, threatened species.
Location: Australia
Start Date: 06-2021
End Date: 06-2024
Amount: $234,427.00
Funder: Australian Research Council
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