DOCSLIB.ORG

Code of Practice Captive Reptile and Amphibian Husbandry

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Code of Practice Captive Reptile and Amphibian Husbandry Department of Environment and Heritage Protection Code of Practice Wildlife management Captive reptile and amphibian husbandry Captive reptile and amphibian husbandry Nature Conservation Act 1992 Page 1 of 45 • 121220 Department of Environment and Heritage Protection www.ehp.qld.gov.au ABN 46 640 294 485 Code of Pactice Captive reptile and amphibian husbandry Table of Content 1. About this code ........................................................................................................................5 2. Reptiles and amphibians of Queensland ................................................................................6 3. Definitions................................................................................................................................. 6 4. Aims of herpetology .................................................................................................................6 5. Purpose of code .......................................................................................................................7 6. Acquisition of reptiles and amphibians ..................................................................................7 7. Selling and giving away reptiles and amphibians ..................................................................8 8. Take from the wild ....................................................................................................................8 9. Repatriation of the progeny of wild-caught amphibians .......................................................9 10. Requirements for safe transport ...........................................................................................10 Containers ......................................................................................................................................10 Thermoregulation ............................................................................................................................12 Airfreight .........................................................................................................................................12 11. Records ...................................................................................................................................13 12. Collection of feed skinks .......................................................................................................13 13. Euthanasia ..............................................................................................................................14 14. Captive husbandry .................................................................................................................15 Hygiene ..........................................................................................................................................15 Thermal biology ..............................................................................................................................15 Water requirements ........................................................................................................................16 Behaviour of healthy animals ..........................................................................................................17 Management of social behaviours in captivity .................................................................................18 Photoperiod ....................................................................................................................................18 Housing requirements .....................................................................................................................19 15. Amphibians .............................................................................................................................19 Eggs and tadpoles ..........................................................................................................................19 Housing ......................................................................................................................................................... 19 Diet ................................................................................................................................................................. 20 Frogs ..............................................................................................................................................20 Behaviour of healthy frogs .......................................................................................................................... 20 Housing ......................................................................................................................................................... 21 Diet ................................................................................................................................................................. 22 Captive breeding of frogs ............................................................................................................................ 23 16. Reptiles ...................................................................................................................................23 Freshwater turtles ...........................................................................................................................23 Housing ......................................................................................................................................................... 23 Diet ................................................................................................................................................................. 24 Lizards ............................................................................................................................................25 Housing ......................................................................................................................................................... 25 Diet ................................................................................................................................................................. 26 Page 2 of 45 • 121220 Department of Environment and Heritage Protection Code of Pactice Captive reptile and amphibian husbandry Dragon lizards (Family Agamidae) ..................................................................................................27 Housing ......................................................................................................................................................... 27 Diet ................................................................................................................................................................. 28 Monitors and goannas (Family Varanidae) ....................................................................................28 Housing ......................................................................................................................................................... 29 Skinks (Family Scincidae) ...............................................................................................................29 Housing ......................................................................................................................................................... 30 Diet ................................................................................................................................................................. 30 Geckoes (Family Geckonidae) ........................................................................................................31 Housing ......................................................................................................................................................... 31 Diet ................................................................................................................................................................. 32 Legless lizards (Family Pygopodidae) .............................................................................................32 Housing ......................................................................................................................................................... 33 Diet ................................................................................................................................................................. 33 Snakes (Families Typhlopidae, Boidae, Acrochordidae, Colubridae, Elapidae, Hydrophiidae and Laticaudidae) ..................................................................................................................................33 Housing ......................................................................................................................................................... 34 Blind snakes (Family Typhlopidae) ................................................................................................. 35 Housing ......................................................................................................................................................... 35 Diet ................................................................................................................................................................. 35 Pythons (Family Boidae) .................................................................................................................36 Housing ........................................................................................................................................................
Load more

Recommended publications
  • Scale Sensillae of the File Snake (Serpentes: Acrochordidae) and Some Other Aquatic and Burrowing Snakes
    SCALE SENSILLAE OF THE FILE SNAKE (SERPENTES: ACROCHORDIDAE) AND SOME OTHER AQUATIC AND BURROWING SNAKES by DAVID POVEL and JEROEN VAN DER KOOIJ (Section Dynamic Morphology,Institute of Evolutionaryand Ecological Sciences, Leiden University,P.O. Box 9516, 2300 RA Leiden, The Netherlands) ABSTRACT The acrochordid snakes are aquatic, living in environmentswith often a poor visibility. It therefore was investigatedhow these animals detect their prey. Two earlier studies of their scales revealed a rather complex scale organ, composedof hairlike protrusions and plate-like structures. However, no satisfactory explanation was given for the structures found, e.g., an undefined sensilla or a gland. Skin samples from various sites of the body of Acrochordus granulatus and A. javanicus were studied. Scanning electron microscopic pictures revealed that each scale of the head contains up to seven sensillae, and each of the keeled scales of the rest of the body has one. Also a modified Allochrome staining procedure on tissue samples was performed to detect glycogen, which is known to occur in discoidal nerve endings of tactile sense organs of reptiles. Light microscopicslides revealedglycogen particles in a small pillow-shaped area just below the hairlike protrusions of an organ. Moreover, small nerves were recognized near the same location. No indications were found for the scale organs to have a glandular function. Because of the reported reactions of a snake when it is touched by a fish, these scale sensilla are proposed to be very sensitivemechanoreceptors. Comparisons were made with the scale organs of snakes from various habitats, viz. the seasnake Lapemis hardwicki, and burrowing snakes such as Xenopeltis unicolor and Cylindrophisrufus.
    [Show full text]
  • Snakes of the Siwalik Group (Miocene of Pakistan): Systematics and Relationship to Environmental Change
    Palaeontologia Electronica http://palaeo-electronica.org SNAKES OF THE SIWALIK GROUP (MIOCENE OF PAKISTAN): SYSTEMATICS AND RELATIONSHIP TO ENVIRONMENTAL CHANGE Jason J. Head ABSTRACT The lower and middle Siwalik Group of the Potwar Plateau, Pakistan (Miocene, approximately 18 to 3.5 Ma) is a continuous fluvial sequence that preserves a dense fossil record of snakes. The record consists of approximately 1,500 vertebrae derived from surface-collection and screen-washing of bulk matrix. This record represents 12 identifiable taxa and morphotypes, including Python sp., Acrochordus dehmi, Ganso- phis potwarensis gen. et sp. nov., Bungarus sp., Chotaophis padhriensis, gen. et sp. nov., and Sivaophis downsi gen. et sp. nov. The record is dominated by Acrochordus dehmi, a fully-aquatic taxon, but diversity increases among terrestrial and semi-aquatic taxa beginning at approximately 10 Ma, roughly coeval with proxy data indicating the inception of the Asian monsoons and increasing seasonality on the Potwar Plateau. Taxonomic differences between the Siwalik Group and coeval European faunas indi- cate that South Asia was a distinct biogeographic theater from Europe by the middle Miocene. Differences between the Siwalik Group and extant snake faunas indicate sig- nificant environmental changes on the Plateau after the last fossil snake occurrences in the Siwalik section. Jason J. Head. Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, P.O. Box 37012, Washington, DC 20013-7012, USA. [email protected] School of Biological Sciences, Queen Mary, University of London, London, E1 4NS, United Kingdom. KEY WORDS: Snakes, faunal change, Siwalik Group, Miocene, Acrochordus. PE Article Number: 8.1.18A Copyright: Society of Vertebrate Paleontology May 2005 Submission: 3 August 2004.
    [Show full text]
  • Guidelines for Keeping Venomous Snakes in the NT
    GUIDELINES FOR KEEPING VENOMOUS SNAKES IN THE NT Venomous snakes are potentially dangerous to humans, and for this reason extreme caution must be exercised when keeping or handling them in captivity. Prospective venomous snake owners should be well informed about the needs and requirements for keeping these animals in captivity. Permits The keeping of protected wildlife in the Northern Territory is regulated by a permit system under the Territory Parks and Wildlife Conservation Act 2006 (TPWC Act). Conditions are included on permits, and the Parks and Wildlife Commission of the Northern Territory (“PWCNT”) may issue infringement notices or cancel permits if conditions are breached. A Permit to Keep Protected Wildlife enables people to legally possess native vertebrate animals in captivity in the Northern Territory. The permit system assists the PWCNT to monitor wildlife kept in captivity and to detect any illegal activities associated with the keeping of, and trade in, native wildlife. Venomous snakes are protected throughout the Northern Territory and may not be removed from the wild without the appropriate licences and permits. People are required to hold a Keep Permit (Category 1–3) to legally keep venomous snakes in the Northern Territory. Premises will be inspected by PWCNT staff to evaluate their suitability prior to any Keep Permit (Category 1– 3) being granted. Approvals may also be required from local councils, the Northern Territory Planning Authority, and the Department of Health and Community Services. Consignment of venomous snakes between the Northern Territory and other States and Territories can only be undertaken with an appropriate import / export permit. There are three categories of venomous snake permitted to be kept in captivity in the Northern Territory: Keep Permit (Category 1) – Mildly Dangerous Venomous Keep Permit (Category 2) – Dangerous Venomous Keep Permit (Category 3) – Highly Dangerous Venomous Venomous snakes must be obtained from a legal source (i.e.
    [Show full text]
  • Forest Stewardship Workshop
    Aquatic Invasives Workshop Presented by the: Central Florida Cooperative Invasive Species Management Area (CISMA), East Central Florida CISMA & Florida Forest Stewardship Program May 13, 2016; 8:30 am – 2:30 pm ET UF/IFAS Orange County Extension Office Many exotic plants are invasive weeds that form expanding populations on our landscape and waterways, making management a challenge. Some exotic animals have also become a problem for resource managers. The rapid and effective dispersal characteristics of these invaders make them extremely difficult to eliminate. This workshop will describe some of the more common and troublesome aquatic invasive exotic species in central Florida, current methods being used to manage them and opportunities to partner and get assistance. Tentative Agenda: 8:30 am Sign-in, meet & greet (finish refreshments before entering meeting room) 8:50 Welcome & introduction, Sherry Williams, Seminole County Natural Lands Program 9:00 Aquatic herbicides and application techniques, Dr. Stephen Enloe, UF/IFAS Center for Aquatic and Invasive Plants 9:50 Mosquito biology and disease, Ed Northey, Volusia County Mosquito Control 10:15 Algae, Michael Shaner, SePRO 10:40 Networking break 11:00 Ludwigia plant complex, Kelli Gladding, SePRO 11:25 Introduced aquatic herpetofauna in Florida, Dr. Steve Johnson, UF/IFAS Dept. of Wildlife Ecology and Conservation 11:50 Lunch 1:00 pm Hands-on plant and animal ID round-robin, all staff 2:30 Evaluation, CEUs, adjourn Funding for this workshop is provided by the USDA Forest Service through the Florida Department of Agriculture and Consumer Services Florida Forest Service, the Florida Sustainable Forestry Initiative Implementation Committee, Applied Aquatic Management, Inc., Aquatic Vegetation Control, Inc., Dow Chemical, Earth Balance, Florida’s Aquatic Preserves, Modica & Associates, Florida Aquatic Plant Management Society, and SePro.
    [Show full text]
  • Broad-Headed Snake (Hoplocephalus Bungaroides)', Proceedings of the Royal Zoological Society of New South Wales (1946-7), Pp
    Husbandry Guidelines Broad-Headed Snake Hoplocephalus bungaroides Compiler – Charles Morris Western Sydney Institute of TAFE, Richmond Captive Animals Certificate III RUV3020R Lecturers: Graeme Phipps, Jacki Salkeld & Brad Walker 2009 1 Occupational Health and Safety WARNING This Snake is DANGEROUSLY VENOMOUS CAPABLE OF INFLICTING A POTENTIALLY FATAL BITE ALWAYS HAVE A COMPRESSION BANDAGE WITHIN REACH SNAKE BITE TREATMENT: Do NOT wash the wound. Do NOT cut the wound, apply substances to the wound or use a tourniquet. Do NOT remove jeans or shirt as any movement will assist the venom to enter the blood stream. KEEP THE VICTIM STILL. 1. Apply a broad pressure bandage over the bite site as soon as possible. 2. Keep the limb still. The bandage should be as tight as you would bind a sprained ankle. 3. Extend the bandage down to the fingers or toes then up the leg as high as possible. (For a bite on the hand or forearm bind up to the elbow). 4. Apply a splint if possible, to immobilise the limb. 5. Bind it firmly to as much of the limb as possible. (Use a sling for an arm injury). Bring transport to the victim where possible or carry them to transportation. Transport the victim to the nearest hospital. Please Print this page off and put it up on the wall in your snake room. 2 There is some serious occupational health risks involved in keeping venomous snakes. All risk can be eliminated if kept clean and in the correct lockable enclosures with only the risk of handling left in play.
    [Show full text]
  • The Herpetofauna of Timor-Leste: a First Report 19 Doi: 10.3897/Zookeys.109.1439 Research Article Launched to Accelerate Biodiversity Research
    A peer-reviewed open-access journal ZooKeys 109: 19–86 (2011) The herpetofauna of Timor-Leste: a first report 19 doi: 10.3897/zookeys.109.1439 RESEARCH ARTICLE www.zookeys.org Launched to accelerate biodiversity research The herpetofauna of Timor-Leste: a first report Hinrich Kaiser1, Venancio Lopes Carvalho2, Jester Ceballos1, Paul Freed3, Scott Heacox1, Barbara Lester3, Stephen J. Richards4, Colin R. Trainor5, Caitlin Sanchez1, Mark O’Shea6 1 Department of Biology, Victor Valley College, 18422 Bear Valley Road, Victorville, California 92395, USA; and The Foundation for Post-Conflict Development, 245 Park Avenue, 24th Floor, New York, New York 10167, USA 2 Universidade National Timor-Lorosa’e, Faculdade de Ciencias da Educaçao, Departamentu da Biologia, Avenida Cidade de Lisboa, Liceu Dr. Francisco Machado, Dili, Timor-Leste 3 14149 S. Butte Creek Road, Scotts Mills, Oregon 97375, USA 4 Conservation International, PO Box 1024, Atherton, Queensland 4883, Australia; and Herpetology Department, South Australian Museum, North Terrace, Adelaide, South Australia 5000, Australia 5 School of Environmental and Life Sciences, Charles Darwin University, Darwin, Northern Territory 0909, Australia 6 West Midland Safari Park, Bewdley, Worcestershire DY12 1LF, United Kingdom; and Australian Venom Research Unit, Department of Pharmacology, University of Melbourne, Vic- toria 3010, Australia Corresponding author: Hinrich Kaiser ([email protected]) Academic editor: Franco Andreone | Received 4 November 2010 | Accepted 8 April 2011 | Published 20 June 2011 Citation: Kaiser H, Carvalho VL, Ceballos J, Freed P, Heacox S, Lester B, Richards SJ, Trainor CR, Sanchez C, O’Shea M (2011) The herpetofauna of Timor-Leste: a first report. ZooKeys 109: 19–86.
    [Show full text]
  • Demansia Papuensis)
    Clinical and Experimental Pharmacology and Physiology (2006) 33, 364–368 Blackwell Publishing Ltd NeuromuscularSOriginal Kuruppu ArticleIN et al. effects of D. papuensisVITRO venom NEUROTOXIC AND MYOTOXIC EFFECTS OF THE VENOM FROM THE BLACK WHIP SNAKE (DEMANSIA PAPUENSIS) S Kuruppu,* Bryan G Fry† and Wayne C Hodgson* *Monash Venom Group, Department of Pharmacology, Monash University and †Australian Venom Research Unit, Department of Pharmacology, University of Melbourne, Melbourne, Victoria, Australia SUMMARY of Australian snakes whose venoms have not been pharmacologically characterized. Whip snakes (D. papuensis and D. atra, also called 1. Black whip snakes belong to the family elapidae and are D. vestigata) belong to the family elapidae and are found throughout found throughout the northern coastal region of Australia. The the northern coastal region of Australia.3 The black whip snake black whip snake (Demansia papuensis) is considered to be poten- (D. papuensis) is considered to be potentially dangerous due to its tially dangerous due to its size and phylogenetic distinctiveness. size (up to 2 m) and phylogenetic distinctiveness which may suggest Previous liquid chromatography–mass spectrometry analysis of the presence of unique venom components.2 LC-MS analysis of D. papuensis venom indicated a number of components within D. papuensis venom indicated a number of components within the the molecular mass ranges compatible with neurotoxins. For the molecular mass ranges of 6–7 and 13–14 kDa.4 This may indicate the first time, this study examines the in vitro neurotoxic and myotoxic presence of short and long chain a-neurotoxins or PLA2 components, effects of the venom from D.
    [Show full text]
  • Species Management Program for LNG Facility Construction Phase
    Species Management Program for LNG Facility Construction Phase September 2010 Uncontrolled when printed QUEENSLAND CURTIS LNG PROJECT Species Management Program for LNG Facility Construction Activities September 2010 Table of Contents 1.0 INTRODUCTION 4 2.0 TERMS 4 2.1 Term of Approval 4 2.2 Approved Parties 4 3.0 SCOPE 5 3.1 Applicant 5 3.2 Organisational Summary 5 3.2.1 QCLNG Project 5 3.2.2 Environmental Impact Statement 6 3.3 Activity 7 3.3.1 Site Description 7 3.3.2 Clearing Activity 7 3.4 Legislative Framework 8 3.4.1 Vegetation Clearing 8 3.4.2 Fauna Handling and Removal of or Tampering With Animal Breeding Places 9 3.5 Relevant Conditions 10 3.5.1 Coordinator General Condition 9 – Nature Conservation Act 10 3.5.2 Environmental Authority Conditions 11 3.6 Applicable Species 11 4.0 IMPACTS 12 4.1 Impacts on Wildlife and Habitat 12 4.2 Impacts on Animal Breeding Places 12 4.2.1 Reptile and Amphibian Species 12 4.2.2 Mammal Species 13 4.2.3 Bird Species 14 4.3 Assessment and Research 22 4.3.1 Desktop Studies 22 4.3.2 Field Surveys – Draft EIS 23 4.3.3 Field Surveys – Supplementary EIS 23 5.0 MANAGEMENT OF IMPACTS 24 5.1 Environmental Management Plan 24 5.2 Environmental Control Measures 24 5.2.1 Handling of a Protected Species under the Nature Conservation Act 1992 25 5.2.2 Tampering with the Breeding Place of a Protected Animal Species 25 5.3 Management of Unavoidable Impacts 27 5.3.1 Offset Strategy 28 5.4 Summary of Compliance with Relevant Coordinator General and Environmental Authority Conditions 30 5.5 Responsibilities 32 5.6
    [Show full text]
  • Iguanid and Varanid CAMP 1992.Pdf
    CONSERVATION ASSESSMENT AND MANAGEMENT PLAN FOR IGUANIDAE AND VARANIDAE WORKING DOCUMENT December 1994 Report from the workshop held 1-3 September 1992 Edited by Rick Hudson, Allison Alberts, Susie Ellis, Onnie Byers Compiled by the Workshop Participants A Collaborative Workshop AZA Lizard Taxon Advisory Group IUCN/SSC Conservation Breeding Specialist Group SPECIES SURVIVAL COMMISSION A Publication of the IUCN/SSC Conservation Breeding Specialist Group 12101 Johnny Cake Ridge Road, Apple Valley, MN 55124 USA A contribution of the IUCN/SSC Conservation Breeding Specialist Group, and the AZA Lizard Taxon Advisory Group. Cover Photo: Provided by Steve Reichling Hudson, R. A. Alberts, S. Ellis, 0. Byers. 1994. Conservation Assessment and Management Plan for lguanidae and Varanidae. IUCN/SSC Conservation Breeding Specialist Group: Apple Valley, MN. Additional copies of this publication can be ordered through the IUCN/SSC Conservation Breeding Specialist Group, 12101 Johnny Cake Ridge Road, Apple Valley, MN 55124. Send checks for US $35.00 (for printing and shipping costs) payable to CBSG; checks must be drawn on a US Banlc Funds may be wired to First Bank NA ABA No. 091000022, for credit to CBSG Account No. 1100 1210 1736. The work of the Conservation Breeding Specialist Group is made possible by generous contributions from the following members of the CBSG Institutional Conservation Council Conservators ($10,000 and above) Australasian Species Management Program Gladys Porter Zoo Arizona-Sonora Desert Museum Sponsors ($50-$249) Chicago Zoological
    [Show full text]
  • Fowlers Gap Biodiversity Checklist Reptiles
    Fowlers Gap Biodiversity Checklist ow if there are so many lizards then they should make tasty N meals for someone. Many of the lizard-eaters come from their Reptiles own kind, especially the snake-like legless lizards and the snakes themselves. The former are completely harmless to people but the latter should be left alone and assumed to be venomous. Even so it odern reptiles are at the most diverse in the tropics and the is quite safe to watch a snake from a distance but some like the Md rylands of the world. The Australian arid zone has some of the Mulga Snake can be curious and this could get a little most diverse reptile communities found anywhere. In and around a disconcerting! single tussock of spinifex in the western deserts you could find 18 species of lizards. Fowlers Gap does not have any spinifex but even he most common lizards that you will encounter are the large so you do not have to go far to see reptiles in the warmer weather. Tand ubiquitous Shingleback and Central Bearded Dragon. The diversity here is as astonishing as anywhere. Imagine finding six They both have a tendency to use roads for passage, warming up or species of geckos ranging from 50-85 mm long, all within the same for display. So please slow your vehicle down and then take evasive genus. Or think about a similar diversity of striped skinks from 45-75 action to spare them from becoming a road casualty. The mm long! How do all these lizards make a living in such a dry and Shingleback is often seen alone but actually is monogamous and seemingly unproductive landscape? pairs for life.
    [Show full text]
  • Literature Cited in Lizards Natural History Database
    Literature Cited in Lizards Natural History database Abdala, C. S., A. S. Quinteros, and R. E. Espinoza. 2008. Two new species of Liolaemus (Iguania: Liolaemidae) from the puna of northwestern Argentina. Herpetologica 64:458-471. Abdala, C. S., D. Baldo, R. A. Juárez, and R. E. Espinoza. 2016. The first parthenogenetic pleurodont Iguanian: a new all-female Liolaemus (Squamata: Liolaemidae) from western Argentina. Copeia 104:487-497. Abdala, C. S., J. C. Acosta, M. R. Cabrera, H. J. Villaviciencio, and J. Marinero. 2009. A new Andean Liolaemus of the L. montanus series (Squamata: Iguania: Liolaemidae) from western Argentina. South American Journal of Herpetology 4:91-102. Abdala, C. S., J. L. Acosta, J. C. Acosta, B. B. Alvarez, F. Arias, L. J. Avila, . S. M. Zalba. 2012. Categorización del estado de conservación de las lagartijas y anfisbenas de la República Argentina. Cuadernos de Herpetologia 26 (Suppl. 1):215-248. Abell, A. J. 1999. Male-female spacing patterns in the lizard, Sceloporus virgatus. Amphibia-Reptilia 20:185-194. Abts, M. L. 1987. Environment and variation in life history traits of the Chuckwalla, Sauromalus obesus. Ecological Monographs 57:215-232. Achaval, F., and A. Olmos. 2003. Anfibios y reptiles del Uruguay. Montevideo, Uruguay: Facultad de Ciencias. Achaval, F., and A. Olmos. 2007. Anfibio y reptiles del Uruguay, 3rd edn. Montevideo, Uruguay: Serie Fauna 1. Ackermann, T. 2006. Schreibers Glatkopfleguan Leiocephalus schreibersii. Munich, Germany: Natur und Tier. Ackley, J. W., P. J. Muelleman, R. E. Carter, R. W. Henderson, and R. Powell. 2009. A rapid assessment of herpetofaunal diversity in variously altered habitats on Dominica.
    [Show full text]
  • IMPACTS of the UNPRECEDENTED 2019-20 BUSHFIRES on AUSTRALIAN ANIMALS NOVEMBER 2020 Acknowledgements
    AUSTRALIA IMPACTS OF THE UNPRECEDENTED 2019-20 BUSHFIRES ON AUSTRALIAN ANIMALS NOVEMBER 2020 Acknowledgements WWF-Australia acknowledges the Traditional Owners of the land on which we work and their continuing connection to their lands, waters, and culture. We pay our respects to Elders – past and present, and their emerging leaders. WWF-Australia is part of the world’s largest conservation network. WWF-Australia has been working to create a world where people live in harmony with nature since 1978. WWF’s mission is to stop the degradation of the Earth’s CONTENTS natural environment and to build a future in which humans live in harmony with nature, by conserving the world’s biological diversity, ensuring that the use of renewable natural resources is sustainable, and promoting the EXECUTIVE SUMMARY 6 reduction of pollution and wasteful consumption. Prepared by Lily M van Eeden, Dale Nimmo, Michael BACKGROUND 10 Mahony, Kerryn Herman, Glenn Ehmke, Joris Driessen, James O’Connor, Gilad Bino, Martin Taylor and Chris 1.1 Fire in Australia 10 Dickman for WWF-Australia 1.2 The 2019-20 bushfire season 10 We are grateful to the researchers who provided data or feedback on the report. These include: 1.3 Scope of this study 12 • Eddy Cannella 1.3.1 Taxa included 14 • David Chapple 1.3.2 Study area 14 • Hugh Davies • Deanna Duffy 1.4 Limitations 17 • Hugh Ford • Chris Johnson 1. MAMMALS 18 • Brad Law 2.1 Methods 18 • Sarah Legge • David Lindenmayer 2.1.1 Most mammals 18 • Simon McDonald 2.1.2 Koalas 19 • Damian Michael 2.2 Results 22 • Harry Moore • Stewart Nichol 2.3 Caveats 22 • Alyson Stobo-Wilson • Reid Tingley 2.
    [Show full text]