Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword
- Introduction
- Chapter 1 A separate creation: diversity, distinctiveness and conservation of Australian wildlife
- Chapter 2 New Zealand – a land apart
- Chapter 3 The ecological consequences of habitat loss and fragmentation in New Zealand and Australia
- Chapter 4 The impacts of climate change on Australian and New Zealand flora and fauna
- Chapter 5 Unwelcome and unpredictable: the sorry saga of cane toads in Australia
- Chapter 6 Invasive plants and invaded ecosystems in Australia: implications for biodiversity
- Chapter 7 Environmental weeds in New Zealand: impacts and management
- Chapter 8 The insidious threat of invasive invertebrates
- Chapter 9 Pollution by antibiotics and resistance genes: dissemination into Australian wildlife
- Chapter 10 Invasive vertebrates in Australia and New Zealand
- Chapter 11 Freshwaters in New Zealand
- Chapter 12 A garden at the edge of the world; the diversity and conservation status of the New Zealand flora
- Chapter 13 The evolutionary history of the Australian flora and its relevance to biodiversity conservation
- Chapter 14 Protecting the small majority: insect conservation in Australia and New Zealand
- Chapter 15 Terrestrial mammal diversity, conservation and management in Australia
- Chapter 16 Marine mammals, back from the brink? Contemporary conservation issues
- Chapter 17 Australian reptiles and their conservation
- Chapter 18 New Zealand reptiles and their conservation
- Chapter 19 Isolation, invasion and innovation: forces of change in the conservation of New Zealand birds
- Chapter 20 Australian birds: current status and future prospects
- Chapter 21 Austral amphibians – Gondwanan relicts in peril
- Chapter 22 Predators in danger: shark conservation and management in Australia, New Zealand and their neighbours
- Chapter 23 ‘Ragged mountain ranges, droughts and flooding rains’: the evolutionary history and conservation of Australian freshwater fishes
- Chapter 24 Down under Down Under: Austral groundwater life
- Chapter 25 Fire and biodiversity in Australia
- Chapter 26 Terrestrial protected areas of Australia
- Chapter 27 Australian marine protected areas
- Chapter 28 Marine reserves in New Zealand: ecological responses to protection and network design
- Chapter 29 Conclusion: conservation onboard Austral Ark needs all hands on deck
- Index
- Plate section
- References
Chapter 5 - Unwelcome and unpredictable: the sorry saga of cane toads in Australia
Published online by Cambridge University Press: 05 November 2014
Book contents
- Frontmatter
- Contents
- List of contributors
- Foreword
- Introduction
- Chapter 1 A separate creation: diversity, distinctiveness and conservation of Australian wildlife
- Chapter 2 New Zealand – a land apart
- Chapter 3 The ecological consequences of habitat loss and fragmentation in New Zealand and Australia
- Chapter 4 The impacts of climate change on Australian and New Zealand flora and fauna
- Chapter 5 Unwelcome and unpredictable: the sorry saga of cane toads in Australia
- Chapter 6 Invasive plants and invaded ecosystems in Australia: implications for biodiversity
- Chapter 7 Environmental weeds in New Zealand: impacts and management
- Chapter 8 The insidious threat of invasive invertebrates
- Chapter 9 Pollution by antibiotics and resistance genes: dissemination into Australian wildlife
- Chapter 10 Invasive vertebrates in Australia and New Zealand
- Chapter 11 Freshwaters in New Zealand
- Chapter 12 A garden at the edge of the world; the diversity and conservation status of the New Zealand flora
- Chapter 13 The evolutionary history of the Australian flora and its relevance to biodiversity conservation
- Chapter 14 Protecting the small majority: insect conservation in Australia and New Zealand
- Chapter 15 Terrestrial mammal diversity, conservation and management in Australia
- Chapter 16 Marine mammals, back from the brink? Contemporary conservation issues
- Chapter 17 Australian reptiles and their conservation
- Chapter 18 New Zealand reptiles and their conservation
- Chapter 19 Isolation, invasion and innovation: forces of change in the conservation of New Zealand birds
- Chapter 20 Australian birds: current status and future prospects
- Chapter 21 Austral amphibians – Gondwanan relicts in peril
- Chapter 22 Predators in danger: shark conservation and management in Australia, New Zealand and their neighbours
- Chapter 23 ‘Ragged mountain ranges, droughts and flooding rains’: the evolutionary history and conservation of Australian freshwater fishes
- Chapter 24 Down under Down Under: Austral groundwater life
- Chapter 25 Fire and biodiversity in Australia
- Chapter 26 Terrestrial protected areas of Australia
- Chapter 27 Australian marine protected areas
- Chapter 28 Marine reserves in New Zealand: ecological responses to protection and network design
- Chapter 29 Conclusion: conservation onboard Austral Ark needs all hands on deck
- Index
- Plate section
- References
Summary
Summary
The history of biological invasions, and of attempts to combat them, is dominated by stories of futility. Especially in the case of invasive species that have a high public profile, like the cane toad (Rhinella marina) in Australia, the voices of scientists often have been drowned out in the roar of populist political debate. There have been many failures by science as well, beginning with the initial importation of toads for biocontrol, and extending through failed attempts to predict future patterns of toad colonisation and impact, or to devise practical means to ameliorate that impact. In our (highly biased) opinion, progress in understanding such issues and in developing effective means of toad control emerged only from detailed ecological research on toad biology, rather than enthusiastic but poorly informed attempts to find better ways to slaughter toads. The story of cane toad science in Australia is a cautionary tale for our ability to predict the future, because, to date, we have done an abysmal job of doing so.
‘In the biological control of insect pests, … perhaps more than in any other [field], the path to successful achievement is strewn with the remains of optimistic attempts which have ended in abject failure. … Such a project is not to be embarked upon lightheartedly, but only after the most mature consideration, since a false step may have most disastrous … consequences through the upsetting of the whole biological balance.’ R. W. Mungomery (1934, p. 5), written the year before he brought cane toads to Australia.
- Type
- Chapter
- Information
- Austral ArkThe State of Wildlife in Australia and New Zealand, pp. 83 - 104Publisher: Cambridge University PressPrint publication year: 2014
References
, (2009). Are Australia’s birds at risk due to the invasive cane toad?Conservation Biology, 23, 1544–1549.CrossRefGoogle Scholar
, (2010). The power of myth: the (non) impact of invasive cane toads (Bufo marinus) on domestic chickens (Gallus gallus). Animal Production Science, 50, 847–851.CrossRefGoogle Scholar
, (2012). How many of Australia’s ground-nesting birds are likely to be at risk from the invasive cane toad (Rhinella marina)?Emu, 112, 83–89.CrossRefGoogle Scholar
(2004). Introduced cane toads are active nest predators and competitors of rainbow bee-eaters: observational and experimental evidence. Biological Conservation, 120, 53–62.CrossRefGoogle Scholar
, , (2011). The ecological impact of invasive cane toads on tropical snakes: field data do not support predictions from laboratory studies. Ecology, 92, 422–431.CrossRefGoogle ScholarPubMed
, , , (2013). Invader impact clarifies the roles of top-down and bottom-up effects on tropical snake populations. Functional Ecology, 27, 351–361.CrossRefGoogle Scholar
(1997). Colonising cane toads cause population declines in native predators: reliable anecdotal information and management implications. Pacific Conservation Biology, 3, 65–72.CrossRefGoogle Scholar
(1938). Giant toads will not poison fowls. Cane Growers’ Quarterly Bulletin, July 1939, 101.Google Scholar
, , (2011). Can we use the tadpoles of Australian frogs to reduce recruitment of invasive cane toads?Journal of Applied Ecology, 48, 462–470.CrossRefGoogle Scholar
, , (2012). Predation on the eggs and larvae of invasive cane toads (Rhinella marina) by native aquatic invertebrates in tropical Australia. Biological Conservation, 153, 1–9.CrossRefGoogle Scholar
, , , , (1999). The short-term effect of cane toads (Bufo marinus) on native fauna in the Gulf Country of the Northern Territory. Wildlife Research, 26, 161–185.CrossRefGoogle Scholar
, (1975). The distribution of the cane toad, Bufo marinus, in Australia and its effects on indigenous vertebrates. Memoirs of the Queensland Museum, 17, 305–310.Google Scholar
, (2012). Embryonic exposure to conspecific chemicals suppresses cane toad growth and survival. Biology Letters, 8, 226–229.CrossRefGoogle ScholarPubMed
, , , , (2012). Exploiting intraspecific competitive mechanisms to control invasive cane toads (Rhinella marina). Proceedings of the Royal Society B, 279, 3436–3442.CrossRefGoogle Scholar
(1932). The food habits of the imported toad Bufo marinus in the sugar cane sections of Puerto Rico. Proceedings of the Fourth Congress of International Sugar Cane Technologists, San Juan, 74, 1–6.Google Scholar
, , , et al. (2006). Indirect impacts of invasive cane toads (Bufo marinus) on nest predation in pignosed turtles (Carettochelys insculpta). Wildlife Research, 33, 49–54.CrossRefGoogle Scholar
, , , et al. (2009). Population-level declines in Australian predators caused by an invasive species. Animal Conservation, 12, 46–53.CrossRefGoogle Scholar
, , , (1985). Continuing geographical spread of Bufo marinus in Australia: range expansion between 1974 and 1980. Journal of Herpetology, 19, 185–188.CrossRefGoogle Scholar
, , , et al. (2011). Excluding access to invasion hubs can contain the spread of an invasive vertebrate. Proceedings of the Royal Society B, 278, 2900–2908.CrossRefGoogle ScholarPubMed
(2004). An Assessment of the Introduced Cane Toad’s (Bufo marinus Linnaeus) Impacts on the Native Australian Fauna, with Particular Reference to the Eastern Kimberley Region. Unpublished Report to the WA Department of Industry and Resources. Palmerston, NT: HLA-Envirosciences Pty Ltd.
, (1988). Within habitat relationships between invading Bufo marinus and Australian species of frog during the tropical dry season. Australian Wildlife Research, 15, 293–305.CrossRefGoogle Scholar
, (1985). The rate of range expansion by Bufo marinus in northern Australia, 1980–84. Australian Wildlife Research, 12, 550–559.CrossRefGoogle Scholar
(1936). The introduction of the Great Mexican Toad Bufo marinus into Australia. The Australian Naturalist, 9, 163–164.Google Scholar
, , , et al. (2006). The amphibian tree of life. Bulletin of the American Museum of Natural History, 297, 1–370.CrossRefGoogle Scholar
, , , (2013). Interacting biocontrol programs: invasive cane toads reduce rates of breakdown of cowpats by dung beetles. Austral Ecology, 38, 891–895.CrossRefGoogle Scholar
(1947). The giant toad (Bufo marinus) an enemy of bees. Agricultural Gazette of NSW, 58, 374–375.Google Scholar
, (2011). Impacts of eggs and tadpoles of the invasive cane toad (Bufo marinus) on aquatic predators in tropical Australia. Austral Ecology, 36, 53–58.CrossRefGoogle Scholar
, , , , (2006). Effects of an invasive anuran (the cane toad, Bufo marinus) on the invertebrate fauna of a tropical Australian floodplain. Animal Conservation, 9, 431–438.CrossRefGoogle Scholar
, , , , (2007). Do invasive cane toads (Chaunus marinus) compete with Australian frogs (Cyclorana australis)?Austral Ecology, 32, 900–907.CrossRefGoogle Scholar
, , (2010). Adjusting to a toxic invader: native Australian frog learns not to prey on cane toads. Behavioral Ecology, 21, 966–971.CrossRefGoogle Scholar
, , , (2006). Monitoring the impact of cane toads (Bufo marinus) on Northern Territory frogs: a progress report. In Science of Cane Toad Invasion and Control. Proceedings of the Invasive Animals CRC/CSIRO/Qld NRM&W Cane Toad Workshop, Brisbane, June 2006 (eds. and ). Canberra, ACT: Invasive Animals Cooperative Research Centre, pp. 47–54.Google Scholar
, (2006). Spawning-site selection by feral cane toads (Bufo marinus) at an invasion front in tropical Australia. Austral Ecology, 31, 551–558.CrossRefGoogle Scholar
, (2009). Larval alarm pheromones as a potential control for invasive cane toads (Bufo marinus) in tropical Australia. Chemoecology, 19, 211–217.CrossRefGoogle Scholar
, , , , (2013). Behaviour and survivorship of a dasyurid predator (Antechinus flavipes) in response to encounters with the toxic and invasive cane toad (Rhinella marina). Australian Mammalogy, 35, 136–143.CrossRefGoogle Scholar
, , , et al. (2008). Modelling species distributions without using species distributions: the cane toad in Australia under current and future climates. Ecography, 31, 423–434.CrossRefGoogle Scholar
, , (2010). Modeling the consequences of thermal trait variation for the cane toad invasion of Australia. Ecological Applications, 20, 2273–2285.CrossRefGoogle Scholar
(2009). Alien Reptiles and Amphibians: A Scientific Compendium and Analysis. Netherlands: Springer.CrossRefGoogle Scholar
, (2005). Observations of freshwater crocodiles (Crocodylus johnstoni) preying upon cane toads (Bufo marinus) in the northern territory. Herpetofauna, 35, 98–100.Google Scholar
, , (2008). Invasive cane toads (Bufo marinus) cause mass mortality of freshwater crocodiles (Crocodylus johnstoni) in tropical Australia. Biological Conservation, 141, 1773–1782.CrossRefGoogle Scholar
, , , (2013). Do invasive cane toads affect the parasite burdens of native Australian frogs?International Journal for Parasitology: Parasites and Wildlife, 2, 155–164.Google ScholarPubMed
(2001). The Cane Toad. The History and Ecology of a Successful Colonist. Otley, West Yorkshire: Westbury Academic and Scientific Publishing.Google Scholar
, , , (2010). Something different for dinner? Responses of a native Australian predator (the keelback snake) to an invasive prey species (the cane toad). Biological Invasions, 12, 1045–1051.CrossRefGoogle Scholar
, , , (2014). After the crash: how do predators adjust following the invasion of a novel toxic prey type?Austral Ecology, 39, 190–197.CrossRefGoogle Scholar
(1999). Feral Future: The Untold Story of Australia’s Exotic Invaders. Chicago, IL: University of Chicago Press.Google Scholar
(2006). Modelling potential control strategies for cane toads. In Science of Cane Toad Invasion and Control. Proceedings of the Invasive Animals CRC/CSIRO/Qld NRM&W Cane Toad Workshop, Brisbane, June 2006 (eds. and ). Canberra, ACT: Invasive Animals Cooperative Research Centre, pp. 123–133.Google Scholar
(1934). The control of insect pests of sugar cane. The Cane Growers’ Quarterly Bulletin, 2, 1–8.Google Scholar
(1936). A survey of the feeding habits of the giant toad (Bufo marinus L.), and notes on its progress since its introduction to Queensland. Proceedings of the Queensland Society of Sugar Cane Technologists, 7, 63–74.Google Scholar
, , (2011). Behavioural responses of native predators to an invasive toxic prey species. Austral Ecology, 36, 605–611.Google Scholar
, , (2010). Conditioned taste aversion enhances the survival of an endangered predator imperiled by a toxic invader. Journal of Applied Ecology, 47, 558–565.CrossRefGoogle Scholar
(2007). Community On-Ground Cane Toad Control in the Kimberley. Review for Western Australia Department of Environment and Conservation. Canberra, ACT: Invasive Animals Cooperative Research Centre.Google Scholar
, , , (2009). Predicting the ecological impact of cane toads (Bufo marinus) on camaenid land snails in north-western Australia. Wildlife Research, 36, 533–540.CrossRefGoogle Scholar
, , , et al. (2014). Behavioural responses of reptile predators to invasive cane toads in tropical Australia. Austral Ecology, 39, 448–454.CrossRefGoogle Scholar
, (2004). Adapting to an invasive species: toxic cane toads induce morphological change in Australian snakes. Proceedings of the National Academy of Sciences of the United States of America, 101, 17 150–17 155.CrossRefGoogle Scholar
, (2006a). Allometry and selection in a novel predator–prey system: Australian snakes and the invading cane toad. Oikos, 112, 122–130.CrossRefGoogle Scholar
, (2006b). An invasive species induces rapid adaptive change in a native predator: cane toads and black snakes in Australia. Proceedings of the Royal Society B, 273, 1545–1550.CrossRefGoogle Scholar
, , (2003). Assessing the potential impact of cane toads Bufo marinus on Australian snakes. Conservation Biology, 17, 1738–1747.CrossRefGoogle Scholar
, , , (2006). Invasion and the evolution of speed in toads. Nature, 439, 803CrossRefGoogle ScholarPubMed
, , (2008). The toad ahead: challenges of modelling the range and spread of an invasive species. Wildlife Research, 35, 222–234.CrossRefGoogle Scholar
, (2011). The effects of experimentally infecting Australian tree frogs with lungworms from invasive cane toads. International Journal of Parasitology, 41, 943–949.CrossRefGoogle ScholarPubMed
, , (2010). Infection dynamics of the lungworm Rhabdias pseudosphaerocephala in its natural host, the cane toad Bufo marinus, and in novel hosts (Australian frogs). Journal of Wildlife Diseases, 46, 1152–1164.CrossRefGoogle Scholar
, , , , (2012). Host-parasite relationships during a biologic invasion: 75 years post-invasion, cane toads and sympatric Australian frogs retain separate lungworm faunas. Journal of Wildlife Diseases, 48, 951–961.CrossRefGoogle Scholar
(2007). Phylogeny of South American Bufo (Anura: Bufonidae) inferred from combined evidence. Zoological Journal of the Linnean Society, 146, 407–452.CrossRefGoogle Scholar
, , (2010). Predation on toxic cane toads (Bufo marinus) may imperil bluetongue lizards (Tiliqua scincoides intermedia, Scincidae) in tropical Australia. Wildlife Research, 37, 166–173.CrossRefGoogle Scholar
, , (2012). Interacting impacts of invasive plants and invasive toads on native lizards. American Naturalist, 179, 413–422.CrossRefGoogle ScholarPubMed
, , , et al. (2010). Biological control of the cane toad in Australia: a review. Animal Conservation, 13 (Suppl. 1), 16–23.CrossRefGoogle Scholar
(2010). The ecological impact of invasive cane toads (Bufo marinus) in Australia. Quarterly Review of Biology, 85, 253–291.CrossRefGoogle Scholar
(2012). Invasive species as drivers of evolutionary change: cane toads in Australia. Evolutionary Applications, 5, 107–116.CrossRefGoogle ScholarPubMed
(2014). A review of ecological interactions between native frogs and invasive cane toads in Australia. Austral Ecology, 39, 1–16.CrossRefGoogle Scholar
, (2011). Invasive-species control: understanding conflicts between researchers and the general community. Frontiers in Ecology and the Environment, 9, 400–406.CrossRefGoogle Scholar
, , , (2009). The myth of the toad-eating frog. Frontiers in Ecology and the Environment, 7, 359–361.CrossRefGoogle Scholar
(2003). Confronting introduced species: a form of xenophobia?Biological Invasions, 5, 179–192.CrossRefGoogle Scholar
, (2006). Toxic tucker: the potential impact of cane toads on Australian reptiles. Pacific Conservation Biology, 12, 40–49.CrossRefGoogle Scholar
, (2012). The (non) impact of invasive cane toads on freshwater crocodiles at Lake Argyle in tropical Australia. Animal Conservation, 15, 152–163.CrossRefGoogle Scholar
, , (2010). Frogs under friendly fire: how accurately can the general public recognize invasive species?Biological Conservation, 143, 1477–1484.CrossRefGoogle Scholar
, , (2011). Assessing the potential impact of invasive cane toads on a commercial freshwater fishery in tropical Australia. Wildlife Research, 38, 380–385.CrossRefGoogle Scholar
, , (1995). The potential geographical distribution of the cane toad, Bufo marinus L. in Australia. Conservation Biology, 9, 294–299.Google Scholar
, , (2012). Hydric balance and locomotor performance of an anuran (Rhinella marina) invading the Australian arid zone. Oikos, 121, 1959–1965.CrossRefGoogle Scholar
, , , et al. (2013). Identifying optimal barriers to halt the invasion of cane toads Rhinella marina in arid Australia. Journal of Applied Ecology, 50, 129–137.CrossRefGoogle Scholar
, , , et al. (2013). Isolation breeds naivety: Island living robs Australian varanid lizards of toad-toxin immunity via four-base-pair mutation. Evolution, 67, 289–294.CrossRefGoogle ScholarPubMed
, , , (2007). The cane toad’s (Chaunus marinus) increasing ability to invade Australia is revealed by a dynamically updated range model. Proceedings of the Royal Society B, 274, 1413–1419.CrossRefGoogle ScholarPubMed
, , , (2008). A toad more traveled: the heterogeneous invasion dynamics of cane toads in Australia. American Naturalist, 171, E134–E148.CrossRefGoogle ScholarPubMed
, , , et al. (2009). Phylogeny and biogeography of the Rhinella marina species complex (Amphibia, Bufonidae) revisited: implications for Neotropical diversification hypotheses. Zoologica Scripta, 39, 128–140.CrossRefGoogle Scholar
(1981). Bioclimatic limits to the spread of Bufo marinus in Australia: a baseline. Proceedings of the Ecological Society of Australia, 11, 143–149.Google Scholar
, , , (2009). Maladaptive traits in invasive species: in Australia, cane toads are more vulnerable to predatory ants than are native frogs. Functional Ecology, 23, 559–568.CrossRefGoogle Scholar
, , (2010). Using a native predator (the meat ant, Iridomyrmex reburrus) to reduce the abundance of an invasive species (the cane toad, Bufo marinus) in tropical Australia. Journal of Applied Ecology, 47,273–280.CrossRefGoogle Scholar
, , , et al. (2008). A native dasyurid predator (common planigale, Planigale maculata) rapidly learns to avoid toxic cane toads. Austral Ecology, 33, 821–829.CrossRefGoogle Scholar
, (2009). The extra-limital spread of an invasive species via “stowaway” dispersal: toad to nowhere?Animal Conservation, 12, 38–45.CrossRefGoogle Scholar
- 3
- Cited by