Fire is notably becoming more intense, frequent and widespread due to climate change. In northern Australia, inappropriate fire regimes have been implicated in mammal declines, yet nothing is known about how different aspects of fire regimes affect bats in this region. This study aimed to determine how fire intensity, associated with seasonality, affects insectivorous bats on a local scale. An experimental M BACI approach was used on five site replicates across Cape York Peninsula, where ultrasonic detectors were used to determine the activity of insectivorous bats in response to low intensity burns (LIBs) and high intensity burns (HIBs) on a local scale. Total bat activity increased due to LIBs, but showed no response to HIBs. Activity of edge-open guild bats also increased due to LIBs but decreased in response to HIBs. Activity of open guild bats was unaffected by LIBs, but exhibited a strong positive response to HIBs. Activity of closed guild bats showed no response to fire, or fire intensity. Responses were likely derived from changes in habitat structure and prey availability. Given that each bat guild responded differently to each fire intensity, this lends support to the ‘pyrodiversity begets biodiversity’ concept, which is currently the basis for many fire management practices for conservation in northern Australia.
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7 December 2020
Effect of fire on insectivorous bat activity in northern Australia: does fire intensity matter on a local scale?
Julie Broken-Brow,
Alan T. Hitch,
Kyle N. Armstrong,
Luke K.-P. Leung
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Australian Journal of Zoology
Vol. 67 • No. 6
May 2021
Vol. 67 • No. 6
May 2021
bat conservation
bat guilds
burn regime
ecomorphological guild
mammal decline
microbats
pyrodiversity