The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western Australia
Abstract Modeling suggests that excluding invasive cane toads from artificial water points (e.g., pastoral dams) along an arid coastal corridor in Western Australia would create a “waterless barrier” halting their spread. In this study, we explored one critical assumption of these models: that toads...
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2019-08-01
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| Series: | Conservation Science and Practice |
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| Online Access: | https://doi.org/10.1111/csp2.74 |
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doaj-422d1b3991c8481ca63b135a7e5329282020-11-25T01:57:39ZengWileyConservation Science and Practice2578-48542019-08-0118n/an/a10.1111/csp2.74The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western AustraliaEmily A. Gregg0Reid Tingley1Benjamin L. Phillips2School of BioSciences The University of Melbourne Parkville Victoria AustraliaSchool of BioSciences The University of Melbourne Parkville Victoria AustraliaSchool of BioSciences The University of Melbourne Parkville Victoria AustraliaAbstract Modeling suggests that excluding invasive cane toads from artificial water points (e.g., pastoral dams) along an arid coastal corridor in Western Australia would create a “waterless barrier” halting their spread. In this study, we explored one critical assumption of these models: that toads cannot persist in the corridor during the dry season without access to artificial water points. We explicitly tested this assumption by translocating and radio‐tracking 78 male cane toads in the proposed barrier region during the dry season. Telemetered toads moved substantial distances (maximum distance >2.5 km/night) and were adept at finding shelter. Nonetheless, toads experienced high water loss rates (1.89%/hr) and rapid mortality in both desert (mean ± SD = 43.6 hr ±1.4) and coastal (24.5 hr ±1.2) habitats. Survival analysis suggested that toads could survive a maximum of 5 days without access to surface water and would move a maximum of 5.35 km in this time. Our results confirm that artificial water points are a critical resource for toads in the proposed barrier region and provide further evidence that the waterless barrier could successfully halt toad expansion in Western Australia.https://doi.org/10.1111/csp2.74habitat useinvasioninvasion ecologyinvasive speciesmanagement strategiespest control |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Emily A. Gregg Reid Tingley Benjamin L. Phillips |
| spellingShingle |
Emily A. Gregg Reid Tingley Benjamin L. Phillips The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western Australia Conservation Science and Practice habitat use invasion invasion ecology invasive species management strategies pest control |
| author_facet |
Emily A. Gregg Reid Tingley Benjamin L. Phillips |
| author_sort |
Emily A. Gregg |
| title |
The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western Australia |
| title_short |
The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western Australia |
| title_full |
The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western Australia |
| title_fullStr |
The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western Australia |
| title_full_unstemmed |
The on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in Western Australia |
| title_sort |
on‐ground feasibility of a waterless barrier to stop the spread of invasive cane toads in western australia |
| publisher |
Wiley |
| series |
Conservation Science and Practice |
| issn |
2578-4854 |
| publishDate |
2019-08-01 |
| description |
Abstract Modeling suggests that excluding invasive cane toads from artificial water points (e.g., pastoral dams) along an arid coastal corridor in Western Australia would create a “waterless barrier” halting their spread. In this study, we explored one critical assumption of these models: that toads cannot persist in the corridor during the dry season without access to artificial water points. We explicitly tested this assumption by translocating and radio‐tracking 78 male cane toads in the proposed barrier region during the dry season. Telemetered toads moved substantial distances (maximum distance >2.5 km/night) and were adept at finding shelter. Nonetheless, toads experienced high water loss rates (1.89%/hr) and rapid mortality in both desert (mean ± SD = 43.6 hr ±1.4) and coastal (24.5 hr ±1.2) habitats. Survival analysis suggested that toads could survive a maximum of 5 days without access to surface water and would move a maximum of 5.35 km in this time. Our results confirm that artificial water points are a critical resource for toads in the proposed barrier region and provide further evidence that the waterless barrier could successfully halt toad expansion in Western Australia. |
| topic |
habitat use invasion invasion ecology invasive species management strategies pest control |
| url |
https://doi.org/10.1111/csp2.74 |
| work_keys_str_mv |
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