Abstract
Fruit bats (Family: Pteropodidae) are animals of great ecological and economic importance, yet their populations are threatened by ongoing habitat loss and human persecution. A lack of ecological knowledge for the vast majority of Pteropodid species presents additional challenges for their conservation and management.In Australia, populations of flying‐fox species (Genus: Pteropus) are declining and management approaches are highly contentious. Australian flying‐fox roosts are exposed to management regimes involving habitat modification, through human–wildlife conflict management policies, or vegetation restoration programs. Details on the fine‐scale roosting ecology of flying‐foxes are not sufficiently known to provide evidence‐based guidance for these regimes, and the impact on flying‐foxes of these habitat modifications is poorly understood.We seek to identify and test commonly held understandings about the roosting ecology of Australian flying‐foxes to inform practical recommendations and guide and refine management practices at flying‐fox roosts.We identify 31 statements relevant to understanding of flying‐fox roosting structure and synthesize these in the context of existing literature. We then contribute a contemporary, fine‐scale dataset on within‐roost structure to further evaluate 11 of these statements. The new dataset encompasses 13‐monthly repeat measures from 2,522 spatially referenced roost trees across eight sites in southeastern Queensland and northeastern New South Wales.We show evidence of sympatry and indirect competition between species, including spatial segregation of black and grey‐headed flying‐foxes within roosts and seasonal displacement of both species by little red flying‐foxes. We demonstrate roost‐specific annual trends in occupancy and abundance and provide updated demographic information including the spatial and temporal distributions of males and females within roosts.Insights from our systematic and quantitative study will be important to guide evidence‐based recommendations on restoration and management and will be crucial for the implementation of priority recovery actions for the preservation of these species in the future.
Highlights
Fruit bats (Family: Pteropodidae) are animals of extraordinary ecological and economic importance (Fujita & Tuttle, 1991)
Half are listed as near threatened to extinct according to the IUCN (88 of the 177 species with sufficient data) (IUCN, 2020), with human persecution and habitat loss identified as two of the largest threats imposed on these species (Acharya et al, 2011; Andrianaivoarivelo et al, 2011; IUCN, 2020; Jenkins et al, 2007)
This study takes a thorough, multifaceted approach to better understand the ecology of flying-fox roost use and structure in Australia
Summary
Fruit bats (Family: Pteropodidae) are animals of extraordinary ecological and economic importance (Fujita & Tuttle, 1991). Fruit bats are responsible for the propagation of at least 289 plant species across their distribution, 186 of which have economic value, making fruit bats important contributors to the sustainability of human livelihoods (Fujita & Tuttle, 1991). Despite their importance, many fruit bat species are in severe decline. While measures have been taken in some countries to reverse this trend—including increased legislative protection (Aziz et al, 2016; Eby & Lunney, 2002a; Thiriet, 2010) and community awareness campaigns (Anthony et al, 2018; Carroll & Feistner, 1996; Trewhella et al, 2005)—conservation and management efforts for the majority of these species remain hindered by an enduring absence of ecological knowledge (Fujita & Tuttle, 1991; Mickleburgh et al, 2002) and ongoing conflict with humans (Aziz et al, 2016; Currey et al, 2018)
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