TY - JOUR
T1 - New weapons in the toad toolkit
T2 - A review of methods to control and mitigate the biodiversity impacts of invasive cane toads (rhinella marina)
AU - Tingley, Reid
AU - Ward-Fear, Georgia
AU - Schwarzkopf, Lin
AU - Greenlees, Matthew J.
AU - Phillips, Benjamin L.
AU - Brown, Gregory
AU - Clulow, Simon
AU - Webb, Jonathan
AU - Capon, Robert
AU - Sheppard, Andy
AU - Strive, Tanja
AU - Tizard, Mark
AU - Shine, Richard
N1 - Publisher Copyright:
© 2017 by The University of Chicago Press. All rights reserved.
PY - 2017
Y1 - 2017
N2 - Our best hope of developing innovative methods to combat invasive species is likely to come from the study of high-profile invaders that have attracted intensive research not only into control, but also basic biology. Here we illustrate that point by reviewing current thinking about novel ways to control one of the world’s most well-studied invasions: that of the cane toad in Australia. Recently developed methods for population suppression include more effective traps based on the toad’s acoustic and pheromonal biology. New tools for containing spread include surveillance technologies (e.g., eDNA sampling and automated call detectors), as well as landscape-level barriers that exploit the toad’s vulnerability to desiccation— a strategy that could be significantly enhanced through the introduction of sedentary, rangecore genotypes ahead of the invasion front. New methods to reduce the ecological impacts of toads include conditioned taste aversion in free-ranging predators, gene banking, and targeted gene flow. Lastly, recent advances in gene editing and gene drive technology hold the promise of modifying toad phenotypes in ways that may facilitate control or buffer impact. Synergies between these approaches hold great promise for novel and more effective means to combat the toad invasion and its consequent impacts on biodiversity.
AB - Our best hope of developing innovative methods to combat invasive species is likely to come from the study of high-profile invaders that have attracted intensive research not only into control, but also basic biology. Here we illustrate that point by reviewing current thinking about novel ways to control one of the world’s most well-studied invasions: that of the cane toad in Australia. Recently developed methods for population suppression include more effective traps based on the toad’s acoustic and pheromonal biology. New tools for containing spread include surveillance technologies (e.g., eDNA sampling and automated call detectors), as well as landscape-level barriers that exploit the toad’s vulnerability to desiccation— a strategy that could be significantly enhanced through the introduction of sedentary, rangecore genotypes ahead of the invasion front. New methods to reduce the ecological impacts of toads include conditioned taste aversion in free-ranging predators, gene banking, and targeted gene flow. Lastly, recent advances in gene editing and gene drive technology hold the promise of modifying toad phenotypes in ways that may facilitate control or buffer impact. Synergies between these approaches hold great promise for novel and more effective means to combat the toad invasion and its consequent impacts on biodiversity.
KW - Bufo marinus
KW - Conditioned taste aversion
KW - Containment
KW - Genome engineering
KW - Mitigation
KW - Suppression
UR - http://www.scopus.com/inward/record.url?scp=85019218420&partnerID=8YFLogxK
U2 - 10.1086/692167
DO - 10.1086/692167
M3 - Review article
AN - SCOPUS:85019218420
SN - 0033-5770
VL - 92
SP - 123
EP - 149
JO - Quarterly Review of Biology
JF - Quarterly Review of Biology
IS - 2
ER -