Steve Hix scite author profile

The endemic fauna of New Zealand evolved in the absence of mammalian predators and their introduction has been responsible for many extinctions and declines. Introduced species including possums (Trichosurus vulpecula Kerr), ship rats (Rattus rattus L.) and stoats (Mustela erminea L.) are targeted to protect native birds. Control methodologies currently rely largely on labor-intensive trapping or the use of increasingly unpopular poisons, or poisons that are linked with low welfare standards. Hence, the development of safer humane predator toxins and delivery systems is highly desirable. Para-aminopropiophenone (PAPP) is being developed as a toxin for feral cats (Felis catus L.) and stoats. Carnivores appear to be much more susceptible to PAPP than birds, so it potentially has high target specificity, at least in New Zealand. Pen trials with 20 feral cats and 15 stoats have been undertaken using meat baits containing a proprietary formulation of PAPP. A PAPP dose of 20-34 mg kg(-1) was lethal for feral cats and 37-95 mg kg(-1) was lethal for stoats. Our assessments suggest that PAPP, for the control of feral cats and stoats, is a humane and effective toxin. PAPP causes methaemoglobinaemia, resulting in central nervous system anoxia, lethargy and death.

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Alternatives to brodifacoum and 1080 for possum and rodent control—how and why?

Eason

Henderson²,

Hix³

et al. 2010

New Zealand Journal of Zoology

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The risks of vertebrate pesticides to non-target animals are determined by intrinsic susceptibility, the toxicokinetics of the compounds used, and the degree and frequency of exposure. Metabolism and persistence studies coupled with field surveys have provided us with an improved understanding of the toxicokinetics and non-target effects of different anticoagulants. This has enabled improved choice of tools for island versus mainland use in New Zealand, and has stimulated the development of low-residue tools. Brodifacoum is a potent secondgeneration rodenticide used worldwide for commensal rodent control, and has been widely used to eradicate rodents from islands. The risks associated with 'one-off' application of baits containing second-generation anticoagulants for rodent eradication on islands are considered to be outweighed by the potential benefits to their ecosystems. Possums are susceptible to bait containing brodifacoum, but not to first-generation anticoagulants, hence brodifacoum has been the only alternative to 1080 that effectively targets both possums and rodents. On the mainland, contamination of wildlife and game species and secondary poisoning of non-target species has been substantial where brodifacoum has been used repeatedly. We are extending the current range of low residue alternatives to reduce reliance on brodifacoum and sodium fluoroacetate (1080). Currently, suitable alternatives available include encapsulated cyanide Feratox † and cholecalciferol paste Feracol † . Other compounds being developed as alternatives include micro-encapsulated zinc phosphate and low dose cholecalciferol and coumatetralyl, or C'C.

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Encapsulated sodium nitrite as a new toxicant for possum control in New Zealand

Shapiro¹,

Eason²,

Bunt³

et al. 2016

NZ J Ecol

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Sodium nitrite (NaNO 2 ), a commonly used food preservative, has been researched in New Zealand for the control of brushtail possums (Trichosurus vulpecula). In sufficiently high doses, NaNO 2 is toxic because it disrupts circulatory transport of oxygen. As NaNO 2 is very bitter, encapsulation and mixing it through a highly palatable bait formulation is necessary to effectively deliver it to target pest species. In no-choice cage trials, 12/12 possums consumed a lethal dose of toxic paste bait and died on average after 95.6 minutes (±4.9 SE). In two-choice cage trials 7/8 possums consumed a lethal dose of toxic paste bait and died on average after 96.7 minutes (±11.4 SE). Two field trials targeting possums using this toxic paste in bait stations reduced their abundance by 81.2% (± 2.5% SE) and 72.7% (± 1.6% SE) respectively. NaNO 2 paste, known as BaitRite, has been registered in New Zealand as a vertebrate toxic agent for controlling possums.

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Smarter Pest Control Tools with Low-Residue and Humane Toxins

Eason¹,

Ogilvie²,

Miller³

et al. 2008

vertebrate_pest_conference

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Considerable effort has been put into retaining older vertebrate pesticides and improving the effectiveness and safety of pest control. Nevertheless, conventional control targeting single species is sometimes still associated with non-target impacts, bioaccumulation of toxins, fluctuating pest numbers, and unexpected ecological consequences. To counter this, we are developing multi-species bait types for sustained field use that are more palatable to vertebrate pest species. We are incorporating "low-residue" toxicants, namely zinc phosphide, cholecalciferol, diphacinone, and a combination of coumatetralyl and cholecalciferol, in new bait formulations. Looking to the future, we seek to increasingly combine "low-residue" characteristics with humaneness. New humane formulations of cyanide are being developed for a variety of pest species, and para-aminopropiophenone is being introduced for predator control in New Zealand as part of the product development and registration pipeline.

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Steve Hix

Efficacy of encapsulated sodium nitrite as a new tool for feral pig management

Development of a new humane toxin for predator control in New Zealand

Alternatives to brodifacoum and 1080 for possum and rodent control—how and why?

Encapsulated sodium nitrite as a new toxicant for possum control in New Zealand

Smarter Pest Control Tools with Low-Residue and Humane Toxins

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