Abstract
Microchip-automated devices have the potential to provide individual free-living animals with safe nesting areas and act as a method of targeted food delivery, while excluding competitors and predators. Wildlife have been successfully trained to use such devices in captivity but never in the wild. Bringing animals into captivity may not always be feasible or appropriate due to the high cost, likely increased stress on the animals, and potential biosecurity risk. Therefore to demonstrate proof of concept that wildlife could be trained in situ to use commercially available microchip-automated devices, a brush-tailed phascogale in the wild was exposed to a microchip-automated door attached to a nest box. The phascogale was successfully trained within 15 days to use the microchip-automated door.
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