DOCSLIB.ORG

Western Barred Bandicoot Fact Sheet Perameles Bougainville

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Western Barred Bandicoot Fact Sheet Perameles Bougainville Western barred bandicoot Fact sheet Perameles bougainville This smallest species of bandicoot is also known as the marl. It has large SHARK BAY erect pointed ears, a long tapered World Heritage snout and a short tail. Its fur is light brownish-grey with two or three dark bars across the hindquarters. The Description Description chin, underbelly and feet are pale. Females are larger than males. Its delicate appearance masks its hostile temperament—some bandicoots lose Head-body Tail Weight part of their tails during fights with 200mm 91-93mm 200-250g other bandicoots. Western barred bandicoots are nocturnal and omnivorous. At night they hunt and dig for invertebrates, other small animals, seeds, roots and herbs. By day they shelter in grassy nests hidden in hollows, or leaf litter under shrubs. Diet and habitat habitat Diet and They are quick and can jump straight into the air and change directions to snatch fast-moving prey. Breeding coincides with resources brought by rainfall—generally in winter/spring. Females begin breeding at 3 to 5 months of age and carry 1 to 3 young in backward-facing pouches, which prevent soil from entering while Breeding Breeding digging. Young bandicoots are independent after two weeks outside the pouch. Gestation No. young Weaned They can live four years or more. 12-13 days 2-3 60-75 days Once common throughout southern arid regions, marl populations became extinct on the mainland in the 1940s, leaving wild populations only on Bernier and Dorre islands in Shark Bay. They have been translocated to other feral free sites, including Faure Distribution Distribution Island, and will be reintroduced to Dirk Hartog Island as part of the Return to 1616 project. Introduced predators (cats and foxes) pose the greatest threat to the western barred bandicoot. A papilloma virus is present in the Status Bernier Island population but not the bandicoots on Dorre Island. .
Load more

Recommended publications
  • Diet of Feral Cats, Felis Catus, on Dirk Hartog Island
    Journal of the Royal Society of Western Australia, 98: 37–43, 2015 Diet of feral cats, Felis catus, on Dirk Hartog Island M DELLER 1, H R MILLS 1*, N HAMILTON 2 & D ALGAR 2 1 School of Animal Biology, University of Western Australia, Crawley, WA, 6009, Australia. 2 Department of Parks and Wildlife, Science and Conservation Division, P.O. Box 51, Wanneroo, WA, 6946, Australia. * Corresponding author [email protected] ABSTRACT Ten mammal species of conservation priority have been lost from Dirk Hartog Island, off the coast of Western Australia, most likely due to predation by the feral cat. We examined the diet of fourteen feral cats from Dirk Hartog Island to understand the potential impact of cat predation on remaining extant species. We examined the contents of the stomach and large intestine, and used stable isotope analysis of faeces, liver and muscle. The vertebrate species identified in the digestive tracts included at least six bird species, including two terrestrial birds and four shorebirds, seven reptile species, and one mammal (introduced Mus musculus). Analysis of δ13C and δ15N determined that the diet of feral cats was primarily terrestrially derived, although samples from the northern area of Dirk Hartog Island showed a skew towards marine derived food sources. The research findings showed that on this island, in the absence of rabbits, cats preyed mainly on terrestrial birds and reptiles. KEYWORDS: Feral cat, diet, Dirk Hartog Island, stomach content and faecal analysis, stable isotopes INTRODUCTION is present on Dirk Hartog Island and, depending upon abundance, could contribute significantly to the feral Feral cats (Felis catus) are found on most major island cats’ diet.
    [Show full text]
  • The Role of the Reintroduction of Greater Bilbies (Macrotis Lagotis)
    The Role of the Reintroduction of Greater Bilbies (Macrotis lagotis) and Burrowing Bettongs (Bettongia lesueur) in the Ecological Restoration of an Arid Ecosystem: Foraging Diggings, Diet, and Soil Seed Banks Janet Newell School of Earth and Environmental Sciences University of Adelaide May 2008 A thesis submitted for the degree of Doctor of Philosophy Table of Contents ABSTRACT...............................................................................................................................................I DECLARATION.......................................................................................................................................III ACKNOWLEDGEMENTS ....................................................................................................................... V CHAPTER 1 INTRODUCTION ............................................................................................................1 1.1 MAMMALIAN EXTINCTIONS IN ARID AUSTRALIA ...............................................................................1 1.2 ROLE OF REINTRODUCTIONS .......................................................................................................2 1.3 ECOSYSTEM FUNCTIONS.............................................................................................................3 1.4 ECOSYSTEM FUNCTIONS OF BILBIES AND BETTONGS .....................................................................4 1.4.1 Consumers..........................................................................................................................4
    [Show full text]
  • I. G E O G RAP H IC PA T T E RNS in DIV E RS IT Y a . D Iversity And
    I. GEOGRAPHIC PATTERNS IN DIVERSITY A. Diversity and Endemicty B. Patterns in Mammalian Richness 1 – latitude 2 – area 3 – isolation 4 – elevation C. Hotspots of Mammalian Biodiversity 1 – relevance 2 – optimal characteristics of hotspots 3 – empirical patterns for mammals II. CONSERVATION STATUS OF MAMMALS A. Prehistoric Extinctions B. Historic Extinctions 1 – summary (totals) 2 – taxonomic, morphologic bias 3 – Geographic bias C. Geography of Extinctions 1 – prehistory and human colonization 2 – geographic questions 3 – range collapse in mammals Hotspots of Mammalian Endemicity Endemic Mammals Species Richness (fig. 1) Schipper et al 2009 – Science 322:226. (color pdf distributed to lab sections) Fig. 2. Global patterns of threat, for land (brown) and marine (blue) mammals. (A) Number of globally threatened species (Vulnerable, Endangered or Critically Fig. 4. Global patterns of knowledge, for land Endangered). Number of species affected by: (B) habitat loss; (C) harvesting; (D) (terrestrial and freshwater, brown) and marine (blue) accidental mortality; and (E) pollution. Same color scale employed in (B), (C), (D) species. (A) Number of species newly described since and (E) (hence, directly comparable). 1992. (B) Data-Deficient species. Mammal Extinctions 1500 to 2000 (151 species or subspecies; ~ 83 species) COMMON NAME LATIN NAME DATE RANGE PRIMARY CAUSE Lesser Hispanolan Ground Sloth Acratocnus comes 1550 Hispanola introduction of rats and pigs Greater Puerto Rican Ground Sloth Acratocnus major 1500 Puerto Rico introduction of rats
    [Show full text]
  • Wildlife Matters
    AWC-newsletter/v10 23/5/02 12:11 PM Page 1 Newsletter of Australian Wildlife Conservancy Wildlife Matters AWC TO SAVE THREATENED AWC: Protecting WILDERNESS AND ITS WILDLIFE Australian Wildlife Welcome to the first MT ZERO, NORTH QUEENSLAND newsletter from Australian Wildlife Conservancy (AWC). We trust you will enjoy reading Wildlife Matters, which we hope to fill with good news about the wildlife in AWC’s sanctuaries. Unfortunately, for most of the last 200 years the news regarding Australia’s wildlife has not been good. The Toolache Wallaby, widely regarded as the most beautiful and graceful member of the kangaroo family, is gone forever. The Thylacine, the Paradise Parrot and the enigmatic Lesser Bilby are just some of the other animals that Australia has lost. continued on page 2 CONTENTS Is Mt Zero the Last Chance for the Northern Bettong? 3 Northern Bettong Photo: QPWS Eastern Pebble-mound Mouse Wet Sclerophyll Forest Sanctuary News 4 ustralian Wildlife Conservancy is proposing to acquire a The Evolution of AWC 6 remarkable wilderness area in north Queensland that is AWC Provides New Hope Ahome to more than 35 native mammal species. Located for Five Threatened Species 7 approximately 65 kilometres north-west of Townsville, Mt Zero is a biodiversity-rich property covering nearly 40,000 hectares adjacent to the Wet Tropics World Heritage Area. Sadly, Mt Zero and its wildlife are threatened by logging and grazing. AWC discovered Mt Zero, deep in the Coane Mountain Range, when our scientists visited north Queensland last year. They were delighted to find a property rich in native mammals - a real ‘hotspot’ for Australia’s threatened mammal fauna.
    [Show full text]
  • Mammals of the Avon Region
    Mammals of the Avon Region By Mandy Bamford, Rowan Inglis and Katie Watson Foreword by Dr. Tony Friend R N V E M E O N G T E O H F T W A E I S L T A E R R N A U S T 1 2 Contents Foreword 6 Introduction 8 Fauna conservation rankings 25 Species name Common name Family Status Page Tachyglossus aculeatus Short-beaked echidna Tachyglossidae not listed 28 Dasyurus geoffroii Chuditch Dasyuridae vulnerable 30 Phascogale calura Red-tailed phascogale Dasyuridae endangered 32 phascogale tapoatafa Brush-tailed phascogale Dasyuridae vulnerable 34 Ningaui yvonnae Southern ningaui Dasyuridae not listed 36 Antechinomys laniger Kultarr Dasyuridae not listed 38 Sminthopsis crassicaudata Fat-tailed dunnart Dasyuridae not listed 40 Sminthopsis dolichura Little long-tailed dunnart Dasyuridae not listed 42 Sminthopsis gilberti Gilbert’s dunnart Dasyuridae not listed 44 Sminthopsis granulipes White-tailed dunnart Dasyuridae not listed 46 Myrmecobius fasciatus Numbat Myrmecobiidae vulnerable 48 Chaeropus ecaudatus Pig-footed bandicoot Peramelinae presumed extinct 50 Isoodon obesulus Quenda Peramelinae priority 5 52 Species name Common name Family Status Page Perameles bougainville Western-barred bandicoot Peramelinae endangered 54 Macrotis lagotis Bilby Peramelinae vulnerable 56 Cercartetus concinnus Western pygmy possum Burramyidae not listed 58 Tarsipes rostratus Honey possum Tarsipedoidea not listed 60 Trichosurus vulpecula Common brushtail possum Phalangeridae not listed 62 Bettongia lesueur Burrowing bettong Potoroidae vulnerable 64 Potorous platyops Broad-faced
    [Show full text]
  • Discovering Marsupials Snout, and Enlarged Front Legs
    Discovered by Mark Harvey, Western Australian Museum ustralia, New Guinea and some They delved deeper into nearby islands are home to the the status of the quenda, which Avast majority of living marsupials, is endemic to south-western a group of mammals that separated from Australia. It has usually been other mammals in the Mesozoic, about considered as a subspecies 160 million years ago. Elsewhere, marsupials known as Isoodon obesulus are only known from the Americas, although fusciventer, with the other fossils have been found in Asia and Europe. subspecies found in south- Many Australian marsupials have become eastern Australia. However, iconic and are much-loved symbols of Kenny and Matthew raised our nation. Sadly, many are imperilled by it to a full species, finding land clearing and threats from introduced consistent differences in predators. the shape of some of the One of the most distinctive (and teeth and some previously perhaps cute) marsupial groups comprises published molecular data. the bandicoots and bilbies which This species is now known as are classified in their own order, the Isoodon fusciventer. Peramelemorphia. They have long ears and They then turned their Discovering marsupials snout, and enlarged front legs. There are attention to the other only about 22 living species of bandicoots genus, Perameles. Previous and they are only found in the Australo- classifications recognised only Papuan region. Their size and relatively a few modern species, including the long- Above A western barred bandicoot. placid nature has made them vulnerable nosed bandicoot (P. nasuta) from eastern Photo – Jiri Lochman to land-clearing and introduced predators Australia, the eastern barred bandicoot such as feral cats and foxes, and many (P.
    [Show full text]
  • Marsupialia, Peramelemorphia) Skeleton from the Riversleigh World Heritage Area, Australia
    Functional and morphometric analysis of a middle Miocene bandicoot (Marsupialia, Peramelemorphia) skeleton from the Riversleigh World Heritage Area, Australia Karen H. Black1, Kenny J. Travouillon2, Troy J. Myers1, Michael Archer1, Suzanne J. Hand1, Laura A. B. Wilson1, Joseph Bevitt3 1 Palaeontology, Geobiology and Earth Archives (PANGEA) Research Centre, School of Biological, Earth and Environmental Sciences, University of New South Wales, Sydney, NSW, Australia 2 Terrestrial Zoology, Western Australian Museum, Welshpool, Western Australia, Australia 3 Bragg Institute, Australian Nuclear Science and Technology Organisation (ANSTO) Lucas Heights, NSW, Australia Corresponding Author: Karen Black1 PANGEA Research Centre, School of Biological, Earth and Environmental Sciences, UNSW, Sydney, NSW, 2052, Australia Email address: [email protected] PeerJ Preprints | https://doi.org/10.7287/peerj.preprints.3393v1 | CC BY 4.0 Open Access | rec: 6 Nov 2017, publ: 6 Nov 2017 Functional and morphometric analysis of a middle Miocene bandicoot (Marsupialia, Peramelemorphia) skeleton from the Riversleigh World Heritage Area, Australia Peramelemorphia comprises four families: the extant Peramelidae (bandicoots), and Thylacomyidae (bilbies); the recently extinct Chaeropodidae (pig-footed bandicoot); and the extinct Yaralidae; with at least ten fossil species of uncertain familial affinity designated as Perameloidea incertae sedis. Extant taxa (18 species) are characteristically omnivorous, small to medium sized (0.1-4.9 kg) semi-fossorial/fossorial marsupials with a quadrupedal bounding gait. They occupy varied habitats from desert to rainforest in Australia and New Guinea. Fourteen pre-Pliocene taxa are currently described on the basis of cranial and/or dental material, yet none is known from its postcranial skeleton. Here we use qualitative morphological and morphometric data to analyse a partial skeleton of a new species of bandicoot from a middle Miocene cave deposit, AL90 Site, in the Riversleigh World Heritage Area.
    [Show full text]
  • Threatened Species Investments and Future Opportunities
    c THREATENED SPECIES INVESTMENTS AND FUTURE OPPORTUNITIES THREATENED SPECIES INVESTMENTS AND FUTURE OPPORTUNITIES The projects identified in the following pages are like a prospectus. They will start important conversations and have potential to forge long lasting partnerships for action. And of course, new project opportunities will emerge going forward. We all have a role to play in recovering Australia’s threatened species. It’s a task that relies on multiple partners, including federal, state and territory governments, NGO’s, the private sector and communities. The project proposals have come to the attention of the Threatened Species Commissioner through his consultation with the community and states and territories on development and implementation of the Threatened Species Strategy. They provide opportunities for co investment and collaboration. By working together and pooling our efforts, we can be more effective and achieve long lasting outcomes in protecting and recovering Australia’s unique and diverse species. Image: Norfolk Island green parrot, Parks Australia Front cover: Numbat, courtesy of Australian Wildlife Conservancy, W. Lawler TARGETS 20 birds by 2020 20 mammals by 2020 Tackling feral cats and their impacts Protecting Australia’s plants Improving recovery practices TACKLING FERAL CATS AND THEIR IMPACTS Proposal title Key species Summary State Partners Threatened animal recovery Numbat This project will enable feral cat control to be integrated with WA Western Australian $1,700,000 through feral cat control existing broadscale fox control in Western Australia. It aims to Government Woylie recover threatened animals through refining the use of the Eradicat® feral cat bait together with the Probait® fox bait in four different Project Numbat Black-flanked landscapes in Western Australia.
    [Show full text]
  • Chapter 1: Introduction 1
    Chapter 1: Introduction 1 Chapter 1 Introduction 1.1 General introduction Forty-two species of mammals worldwide have suffered extinction since 1600 (IUCN 2003). Almost half of the world’s mammal extinctions in the last two hundred years have occurred in Australia, coinciding with European settlement of the continent (Short and Smith 1994). Seventeen species are extinct, 10 survive only as island populations, and a further 17 have been reduced to remnant populations of less than 10% of their range prior to European settlement. The decline and extinction of these species has been documented by a number of early authors (e.g. Finlayson 1935, 1961; Jones 1923-25; Krefft 1866; Shortridge 1909), and has typically been associated with the impact of European settlement of Australia. Soulé (1983, p. 112) noted: "As far as I know, no biologist has documented the extinction of a continental species of plant or animal caused solely by non- human agencies such as competition, disease or environmental perturbation in situations unaffected by man". Possible causes for the losses in our native mammal fauna have been widely debated over the last century, yet the causal factors for the decline and extinction of individual species are rarely known (Caughley and Gunn 1996). In many cases, the biology of a species has been so poorly known, that any threatening processes identified have been rarely more than a guess. Predation by introduced feral cats Felis catus and the European fox Vulpes vulpes, habitat modification and fragmentation (destruction by clearing for agriculture, the impacts of introduced livestock and European rabbits Oryctolagus cuniculus, changes in fire regimes), competition from introduced species, hunting pressure, pest control, pollution, and disease, or a combination of any of these factors, have commonly been implicated in the loss of mammal species in Australia (e.g.
    [Show full text]
  • Eastern Barred Bandicoot Newsletter
    Spring 2005 Warron Eastern Barred Bandicoot Newsletter New Eastern Barred Bandicoot identify any new reintroduction areas which we Recovery Plan think are required to meet that objective of a self- sustaining reintroduced population. Richard Hill Recovery Team Convenor We have also recognised that there are still lots A new recovery plan has been written for the of aspects of Eastern Barred Bandicoot ecology Eastern Barred Bandicoot. Recovery plans are that we don’t understand fully. We don’t know the detailed documents that all threatened fundamental things such as why bandicoots species recovery teams funded by the have persisted at some reintroduction sites Commonwealth are required to produce. They without supplementation (eg Mooramong/ are revised 5 yearly to provide an opportunity to Woodlands) and not at others. The wild review the main approaches being taken and the population at Grange Burn still persists, in the success of actions undertaken to date. Although presence of high numbers of feral cats and yet to be approved by the Commonwealth, we foxes, and without any predator control, yet at have commenced year one of the new five year Hamilton Community Parklands, Lanark and plan. Lake Goldsmith, bandicoots have gone to extinction or virtual extinction in the presence of Some of the main changes of direction proposed a substantial predator control effort. Clearly we in the new plan are a new overall conservation need to know more about bandicoot ecology so objective for the Eastern Barred Bandicoot. This that we can concentrate our efforts on managing is to establish a ‘self-sustaining reintroduced those sites which suit bandicoots best, and if population’.
    [Show full text]
  • Dirk Hartog Island Return to 1616
    Dirk Hartog Island Return to 1616 In October 2016, the Dirk Hartog Island National Park Sheep were declared eradicated in June 2016 and no Ecological Restoration Project, Return to 1616, is on goats, other than collared Judas goats, were found track to achieve its aim of eradicating feral animals during aerial goat monitoring programs in February and begin returning native animals after mid-2018. and June 2016. Nor have any un-collared goats been caught on automated cameras at water points this Ten species of small mammals and a bird species year. that once occurred on the island will be reintroduced over 12 years, beginning in 2018: the western barred It is likely that the 14 remaining Judas goats are the bandicoot, boodie, Shark Bay mouse, greater stick- only goats left on the island. They will be removed nest rat, western thick-billed grasswren, woylie, if no further goats are found during the next two heath mouse, desert mouse, mulgara, dibbler and aerial monitoring operations in November 2016 and chuditch. Two additional mammal species that may February 2017. There will be several follow up aerial have previously inhabited Dirk Hartog Island will also monitoring programs after removal of the Judas be brought there to help their species survive - the goats, and automated cameras will continue to be rufous hare-wallaby and banded hare-wallaby. monitored until eradication is declared. Restoration of Dirk Hartog Island’s ecology was There now appear to be no cats south of the cat- underway before the Return to 1616 project officially proof fence, and little cat sign north of the fence since began in 2012.
    [Show full text]
  • Shark Bay Bandicoot Management (Preliminary Report Subject to Further Sensitivity Testing)
    Shark Bay Bandicoot Management (Preliminary report subject to further sensitivity testing) Population modelling for optimising strategies for the Shark Bay bandicoot translocation program phase 1 – Dirk Hartog Island and Mt. Gibson July 2019 Biodiversity and Conservation Science Recommendations Based on our Population Viability Analysis (PVA) models it appears that Shark Bay bandicoots (SBB, formerly western barred bandicoots) are well suited for a translocation program. Our modelling predicts that survival probabilities are relatively high for all source populations unless survival and reproduction is reduced by, for example, an environmental stochastic event on average once every 5 years. In the absence of any further supplementation, long-term (50 years) predicted survival probabilities of both Dirk Hartog Island and Mt. Gibson populations fall below that of their source populations. This is likely driven by smaller populations in our models not surviving environmental stochasticity. Although SBBs are well adapted to surviving harsh environmental conditions, we recommend ongoing monitoring of translocated populations. Reinforcement from source populations, along with other mitigation measures, may improve survival probabilities. The final report will provide recommendations regarding optimal supplementation strategies given realistic logistical constraints. The final report will also recommend the smallest translocated population size required to maximise the probability of long-term survival of all translocated populations. In the models, population growth is restricted by a stochastic environmental event that reduces survival to 35% and reproduction by 80% occurring at a frequency of 1 in 5 years compared to a frequency of 1 in 10 years. Of the source populations, Faure Island shows greatest sensitivity to the greater frequency, which is likely driven by the bottleneck through Heirisson Prong and compounded by its smaller population size.
    [Show full text]