Abstract
AbstractAimMany dry forests and woodlands worldwide are fire‐prone and support bird and plant communities shaped by fire. Changes in fire regimes, including the time between fires, have important implications for population trajectories. We studied the responses of bird and plant communities of heathy woodlands to time since the last fire, a key measure underpinning fire management, to evaluate whether current management strategies will enhance conservation of multiple taxa.LocationOtway Ranges, south‐eastern Australia.MethodsWe surveyed birds and plants at 38 sites, stratified by an 80‐year post‐fire chronosequence, and modelled the responses of individual species, functional groups and community composition to fire history. Model outputs were used to evaluate the impacts of fire management as guided by (a) domains of tolerable fire intervals, a concept based on plant life history traits, and (b) the spatial arrangement of post‐fire age classes, a surrogate for animal habitats.ResultsBird and plant communities both responded to time since fire. Notable relationships included the following: a high reporting rate of ground‐foraging birds and high cover and species richness of shrubs immediately after fire; and a gradual increase up to ~50 years and ~20 years post‐fire of birds that forage in the mid‐storey and facultative‐resprouting plants, respectively. Post‐fire age classes had distinct bird and plant assemblages. Tolerable fire intervals currently used by land managers (min 12–max 45 years between fires) encompassed the peak in richness of most plant functional groups but not the preferred habitat of lower‐mid‐storey foraging birds.Main conclusionsFire management based solely on birds or plants risks population declines in other biota. Use of functional groups can help guide strategic planning, such as spatial representation of post‐fire age classes across the landscape. Maintaining late‐successional vegetation will provide habitat for several groups of birds, while fire is needed at sufficient frequency to prevent loss of plants and ground‐foraging birds.
Highlights
We examine how approaches to fire management may affect bird and plant communities in a heathy woodland ecosystem dominated by epicormic-resprouting Eucalyptus trees in south- eastern Australia
We examined how communities of birds and plants change over time following fire in a heathy woodland ecosystem by using three approaches: models of change in individual species over time, models of change in functional groups based on life history traits and comparison of community composition between post-fire successional stages
By identifying mechanisms that shape bird and plant communities post-fire, a deeper understanding is gained of how manipulating fire regimes influences components of biodiversity
Summary
Many dry forests and woodlands worldwide are fire-prone and support bird and plant communities shaped by fire. We aimed to determine how (a) individual species, (b) functional groups of species and (c) the composition of bird and plant communities respond to time since fire
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