Spread of Chytridiomycosis Has Caused the Rapid Global Decline and Extinction of Frogs

EcoHealth - 2007
Lee F. Skerratt1, Lee Berger2, Rick Speare2, Scott D. Cashins3, Keith McDonald4, Andrea D. Phillott1, Harry B. Hines5, Nicole Kenyon3
1Amphibian Disease Ecology Group, School of Veterinary and Biomedical Sciences, James Cook University, Townsville, Queensland, 4811, Australia
2Amphibian Disease Ecology Group, School of Public Health, Tropical Medicine and Rehabilitation Sciences, James Cook University, Townsville, Queensland 4811, Australia
3Amphibian Disease Ecology Group, School of Tropical Biology, James Cook University, Townsville, Queensland, 4811, Australia
4Amphibian Disease Ecology Group, Queensland Parks and Wildlife Service, P.O. Box 975, Atherton, Queensland, 4883, Australia
5Queensland Parks and Wildlife Service, P.O. Box 64, Bellbowrie, Queensland, 4070, Australia

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Alexander MA, Eischeid JK (2001) Climate variability in regions of amphibian declines. Conservation Biology 15:930–942

Anderson RM, May RM (1979) Population biology of infectious diseases: part 1. Nature 280:361–367

Ardipradja K (2001) A Study of Resistance towards the Emerging Pathogen Batrachochytrium dendrobatidis in Four Species of Australian Frogs. Honours thesis, Melbourne, Victoria, Australia: University of Melbourne

Australian Government Department of the Environment and Heritage (2004) Draft Threat Abatement Plan for Infection of Amphibians with Chytrid Fungus Resulting in Chytridiomycosis, Canberra, Australia: Department of the Environment and Heritage, Commonwealth of Australia. Available: http://www.jcu.edu.au/school/phtm/PHTM/frogs/chart.htm [accessed October 29, 2006]

Australian Government Department of the Environment and Heritage (2006a) Threat Abatement Plan: Infection of Amphibians with Chytrid Fungus Resulting in Chytridiomycosis, Canberra, Australia: Department of the Environment and Heritage, Commonwealth of Australia. Available: http://www.deh.gov.au/biodiversity/threatened/publications/tap/chytrid/pubs/chytrid-report.pdf [accessed September 19, 2006]

Australian Government Department of the Environment and Heritage (2006b) Background Document for the Threat Abatement Plan: Infection of Amphibians with Chytrid Fungus Resulting in Chytridiomycosis, Canberra, Australia: Department of the Environment and Heritage, Commonwealth of Australia. Available: http://www.deh.gov.au/biodiversity/threatened/publications/tap/chytrid/pubs/chytrid-background.pdf [accessed September 19, 2006]

Bell BD, Carver S, Mitchell NJ, Pledger S (2004) The recent decline of a New Zealand endemic: how and why did populations of Archey’s frog Leiopelma archeyi crash over 1996–2001? Biological Conservation 120:189–199

Berger L, Speare R, Daszak P, Green DE, Cunningham AA, Goggin CL, et al. (1998) Chytridiomycosis causes amphibian mortality associated with population declines in the rain forests of Australia and Central America. Proceedings of the National Academy of Sciences of the United States of America 95:9031–9036

Berger L, Speare R, Hyatt AD (1999) Chytrid fungi and amphibian declines: overview, implications and future directions. In: Campbell A (editor), Declines and Disappearances of Australian Frogs Canberra, Australia: Environment Australia, Australian Government Department of the Environment and Heritage, pp 23–33

Berger L, et al. (2004) Effect of season and temperature on mortality in amphibians due to chytridiomycosis. Australian Veterinary Journal 82:31–36

Berger L, Longcore JE, Speare R, Hyatt AD, Skerratt LF (in press) Fungal diseases in amphibians. In: Amphibian Biology Series, Vol. 8, Decline and Conservation of Amphibians, Heatwole H (editor), Chipping Norton, Australia: Surrey Beatty & Sons

Bonaccorso E, Guayasamin JM, Méndez D, Speare R (2003) Chytridiomycosis in a Venezuelan amphibian (Bufonidae: Atelopus cruciger). Herpetological Review 34:331

Bosch J, Martínez-Solano I, García-París M (2001) Evidence of a chytrid fungus infection involved in the decline of the common midwife toad (Alytes obstetricans) in protected areas of central Spain. Biological Conservation 97:331–337

Broad Institute of Harvard and MIT (2006) Batrachochytrium dendrobatidis Sequencing Project. Available: http://www.broad.mit.edu/annotation/genome/batrachochytrium_dendrobatidis [accessed October 29, 2006]

Carey C, Bruzgul JE, Livo LJ, Walling MI, Kuehl KA, Dixon BF, et al. (2006) Experimental exposures of boreal toads (Bufo boreas) to a pathogenic chytrid fungus (Batrachochytrium dendrobatidis). EcoHealth 3:5–21

Cunningham AA, Daszak P, Hyatt A (2001) Amphibia. In: Woodford MH (editor) Quarantine and Health Screening Protocols for Wildlife Prior to Translocation and Release into the Wild, Paris: Office International des Epizooties (OIE), Care for the Wild International, IUCN—World Conservation Union and the European Association of Zoo and Wildlife Veterinarians, pp 74–79

Daszak P, Cunningham AA, Hyatt AD (2000) Emerging infectious diseases of wildlife threats to biodiversity and human health. Science 287:443–449

Daszak P, Cunningham AA, Hyatt AD (2003) Infectious disease and amphibian population declines. Diversity and Distributions 9:141–150

Daszak P, Strieby A, Cunningham AA, Longcore JE, Brown CC, Porter D (2004) Experimental evidence that the bullfrog (Rana catesbeiana) is a potential carrier of chytridiomycosis, an emerging fungal disease of amphibians. Herpetological Journal 14:201–207

Department of Environment and Conservation NSW (2005) Green and Golden Bell Frog Litoria aurea (Lesson 1829). Draft Recovery Plan. Unpublished report. Available: http://www.nationalparks.nsw.gov.au/PDFs/recoveryplan_green_gold_bell_frog_draft.pdf [accessed January 13, 2007]

Dohoo I, Martin W, Stryhn H (2003) Veterinary Epidemiological Research, Prince Edward Island, Canada: AVC

Evans AS (1976) Causation and disease. The Henle-Koch postulates revisited. Yale Journal of Biological Medicine 49:175–195

Eyler JM (2001) The changing assessments of John Snow’s and William Farr’s cholera studies. Sozial- und Präventivmedizin 46:225–232

Fenner F, Ratcliffe FN (1965) Myxomatosis, New York: Cambridge University Press

Garner TWJ, Walker S, Bosch J, Hyatt AD, Cunningham AA, Fisher MC (2005) Chytrid fungus in Europe. Emerging Infectious Diseases 11:1639–1641

Hanselmann R, Rodríguez A, Lampo M, Fajardo-Ramos L, Aguirre AA, Kilpatrick AM, et al. (2004) Presence of an emerging pathogen of amphibians in introduced bullfrogs Rana catesbeiana in Venezuela. Biological Conservation 120:115–119

Hudson PJ, Rizzoli A, Grenfell BT, Heesterbeck H, Dobson AP (2002) The Ecology of Wildlife Diseases, Oxford, UK: Oxford University Press

Johnson M, Speare R (2003) Survival of Batrachochytrium in water: quarantine and disease control implications. Emerging Infectious Diseases 9:922

La Marca E, Lips KR, Lotters S, Puschendorf R, Ibanez R, Rueda-Almonacid JV, et al. (2005) Catastrophic population declines and extinctions in neotropical harlequin frogs (Bufonidae: Atelopus). Biotropica 37:190–201

Lamirande EW, Nichols DK (2002) Effects of host age on susceptibility to cutaneous chytridiomycosis in blue-and-yellow poison dart frogs (Dendrobates tinctorius). In: St. Paul MN, McKinnel RG, Carlson DL (editors) Proceedings of the Sixth International Symposium on the Pathology of Reptiles and Amphibians, pp 3–13

Laurance WF, McDonald KR, Speare R (1996) Epidemic disease and the catastrophic decline of Australian rain forest frogs. Conservation Biology 10:406–413

Lips KR (1998) Decline of a tropical montane fauna. Conservation Biology 12:106–117

Lips KR (1999) Mass mortality and population declines of anurans at an upland site in western Panama. Conservation Biology 13:117

Lips KR, Brem F, Brenes R, Reeve JD, Alford RA, Voyles J, et al. (2006) Emerging infectious disease and the loss of biodiversity in a neotropical amphibian community. Proceedings of the National Academy of Sciences of the United States of America 103:3165–3170

Longcore JE, Pessier AP, Nichols DK (1999) Batrachochytrium dendrobatidis gen. et sp. nov. a chytrid pathogenic to amphibians. Mycologia 91:219–227

McCallum H (2005) Inconclusiveness of chytridiomycosis as the agent in widespread frog declines. Conservation Biology 19:1421–1430

McCallum H, Dobson A (1995) Detecting diseases and parasite threats to endangered species and ecosystems. Trends in Ecology and Evolution 10:190–194

McDonald KR, Alford RA (1999) A review of declining frogs in northern Queensland. In: Declines and Disappearances of Australian Frogs, Canberra, Campbell A (editor), Australia: Environment Australia, Australian Government Department of the Environment and Heritage, pp 14–22

McDonald KR, Méndez D, Müller R, Freeman AB, Speare R (2005) Decline in the prevalence of chytridiomycosis in frog populations in North Queensland, Australia. Pacific Conservation Biology 11:114–120

Mendelson JR, Lips KR, Gagliardo RW, Rabb GB, Collins JP, Diffendorfer JE, et al. (2006) Confronting amphibian declines and extinctions. Science 313:48

Morehouse EA, James TY, Ganley ARD, Vilgaly R, Berger L, Murphy PJ, et al. (2003) Multilocus sequence typing suggests the chytrid pathogen of amphibians is a recently emerged clone. Molecular Ecology 12:395–403

Morse SS (1995) Factors in the emergence of infectious diseases. Emerging Infectious Diseases 1:7–15

Muths E, Corn PS, Pessier AP, Green DE (2003) Evidence for disease related amphibian decline in Colorado. Biological Conservation 110:357–365

OIE Aquatic Animal Health Standards Commission (2003) June Report of the Meeting of the OIE Aquatic Animal Health Standards Commission, Paris: Office International des Epizooties

OIE Aquatic Animal Health Standards Commission (2006) March Report of the Meeting of the OIE Aquatic Animal Health Standards Commission, Paris: Office International des Epizooties

OIE Fish Diseases Commission (2002) June Report of the Meeting of the OIE Fish Diseases Commission, Paris: Office International des Epizooties

OIE Working Group on Wildlife Diseases (2001–2005) Report of the Meeting of the OIE Working Group on Wildlife Diseases, Paris: Office International des Epizooties

Ouellet M, Mikaelian I, Pauli BD, Rodrigues J, Green DM (2005) Historical evidence of widespread chytrid infection in North American amphibian populations. Conservation Biology 19:1431–1440

Pounds AJ, Bustamante MR, Coloma LA, Consuegra JA, Fogden MPL, Foster PN, et al. (2006) Widespread amphibian extinctions from epidemic disease driven by global warming. Nature 439:161–167

Puschendorf R (2003) Atelopus varius (harlequin frog) fungal infection. Herpetological Review 34:20

Rachowicz LJ, Hero JM, Alford RA, Taylor JW, Morgan JAT, Vredenburg VT, et al. (2005) The novel and endemic pathogen hypotheses: competing explanations for the origin of emerging infectious diseases of wildlife. Conservation Biology 19:1441–1448

Retallick RWR, McCallum H, Speare R (2004) Endemic infection of the amphibian chytrid fungus in a frog community post-decline. Public Library of Science Biology 2:e351

Scherer RD, Muths E, Noon BR, Corn PS (2005) An evaluation of weather and disease as causes of decline in two populations of boreal toads. Ecological Applications 15:2150–2160

Schloegel LM, Hero JM, Berger L, Speare R, McDonald K, Daszak P (2006) The decline of the sharp-snouted day frog (Taudactylus acutirostris): the first documented case of extinction by infection in a free-ranging wildlife species. EcoHealth 3:35–40

Skerratt LF, Speare R, McDonald K, Berger L, Alford RA, Mendez D, et al. (2006) Chytridiomycosis requires a global response. In: Proceedings of the 11th International Symposium of Veterinary Epidemiology and Economics, Cairns, Australia: ISVEE 11, 536. Available: http://www.sciquest.org.nz/default.asp?pageid=69&pub=10&vol=1 [accessed September 19, 2006]

Snow J (1890) On the Mode of Communication of Cholera, 2nd ed., London: John Churchill

Speare R (2006) Amphibian Diseases Home Page. Available: http://www.jcu.edu.au/school/phtm/PHTM/frogs/ampdis.htm [accessed October 29, 2006]

Speare R, Steering Committee of Getting the Jump on Amphibian Disease (2001) Developing Management Strategies to Control Amphibian Diseases: Decreasing the Risks Due to Communicable Diseases, Townsville, Australia: School of Public Health and Tropical Medicine, James Cook University. Available: http://www.jcu.edu.au/school/phtm/PHTM/frogs/chart.htm [accessed October 29, 2006]

Speare R, Skerratt LF, Berger L, Hines H, Hyatt AD, Mendez D, et al. (2005) A Project that Designs and Trials a Pilot Survey to Map the Distribution of Chytridiomycosis (Caused by the Amphibian Chytrid Fungus) in Australian Frogs. Final Report for Project ID 44381 (tender 63/2003) to the Australian Government Department of the Environment and Heritage, Canberra, Australia: Department of the Environment and Heritage, Commonwealth of Australia. Available: http://www.deh.gov.au/biodiversity/invasive/publications/c-disease/distribution-survey.html [accessed October 29, 2006]

Stuart SN, Chanson JS, Cox NA, Young BE, Rodrigues ASL, Fischman DL, et al. (2004) Status and trends of amphibian declines and extinctions worldwide. Science 306:1783–1786

Thrushfield M (2005) Veterinary Epidemiology, 3rd ed., Oxford, UK: Blackwell Science

Weldon C, du Preez LH, Muller R, Hyatt AD, Speare R (2004) Origin of the amphibian chytrid fungus. Emerging Infectious Diseases 10:2100–2105

Wobeser GA (1994) Investigation and Management of Disease in Wild Animals, New York: Plenum Press

Woodhams DC, Alford RA (2005) Ecology of chytridiomycosis in rainforest stream frog assemblages of tropical Queensland. Conservation Biology 19:1449–1459

Woodhams DC, Alford RA, Marantelli G (2003) Emerging disease cured by elevated body temperature. Diseases of Aquatic Organisms 55:65–66

Wilcox BA (2006) Amphibian decline: more support for biocomplexity as a research paradigm. EcoHealth 3:1–2

Williams ES, Yuill T, Artois M, Fischer J, Haigh SA (2002) Emerging infectious diseases in wildlife. Scientific and Technical Review Office International des Epizooties 21:139–157