Aestivation dynamics of bogong moths (Agrotis infusa) in the Australian Alps and predation by wild pigs (Sus scrofa)

We document predation of aestivating bogong moths (Agrotis infusa) by wild pigs (Sus scrofa) at a location in the Australian Alps. This is the first known record of pigs preying on bogong moths. Wild pigs are recent colonisers of the region, though already the population appears seasonally habituated to foraging on aestivating moths. This is indicative of adaptation of a feral animal undertaking dietary resource switching within what is now a modified ecosystem and food web. The significance of this predation on moth abundance is unclear. Long-term monitoring to compare numbers of moths with historical surveys undertaken before the colonisation by wild pigs will require that they are excluded from aestivation sites. Our surveys in 2014–15 observed bogong moths to arrive about one month earlier compared with a similar survey in 1951–52, though to also depart earlier.

Diet Of Foxes And Cats, With Evidence Of Predation On Yellow-Footed Rock-Wallabies (Petrogale Xanthopus Celeris) By Foxes In Southwsetern Queensland.

INTRODUCED red foxes (Vulpes vulpes) and feral cats (Felis catus) were shot on Lambert, Acton and Caranna Pastoral Stations in southwestern Queensland (25�20'S; 145�24'E) (Fig. 1) as part of a feral animal control program undertaken before and during the experimental reintroduction of yellowfooted rock-wallabies (Petrogale xanthopus celeris) to Lambert Station. Animals were encountered during regular fieldtrip spotlight surveys or as part of a macropod harvesting program. Sixty-eight V. vulpes (20?, 10?, 38 sex unknown) and 32 F. catus (10?, 12?, 10 sex unknown) were shot between February 1998 and October 2000; stomach content analysis was carried out on 27 V. vulpes (18?, 9?) and 23 F. catus (11?, 12?). Animals not sexed or examined were shot in the absence of the first author.

Disease and fertility control in wildlife and feral animal populations: options for vaccine delivery using vectors

A wide variety of vertebrates have been introduced into Australia during the 200 years of European settlement. Many have become pests causing significant environmental damage and having the potential to act as reservoirs of infectious diseases. Control of vertebrate pest species by fertility control is attractive on animal welfare grounds. Should exotic animal diseases become established in any of these feral animal populations vaccination would be an essential element in the control or eradication of disease. The only experience to date with vaccination of wildlife or feral animals has been the successful control of rabies in foxes in Europe by means of a live, attenuated rabies vaccine and a vaccinia-rabies recombinant vaccine. The feasibility of vaccination for disease control or fertility control in other vertebrate pests will depend on the development and evaluation of several vaccine vector strategies. The choice of vector, based on live viruses or bacteria, naked DNA coding for vaccine antigen or virus-like particles encapsidating genetic material coding for vaccine antigen, will depend on optimization of vector delivery strategies and immunogenicity of the vaccine antigen. Past experience from the vaccination of foxes against rabies suggests that rates of uptake of the vaccine bait and immunogenicity of the vaccine will be crucial factors in determining the success of other vaccines controlling disease or fertility.