Climate drying reduces serotinous seedbanks and threatens persistence in two fire-killed shrubs

N. J. Enright; M. C. Agne

doi:10.1071/WF24046

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Climate drying reduces serotinous seedbanks and threatens persistence in two fire-killed shrubs

Journal article

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Climate drying reduces serotinous seedbanks and threatens persistence in two fire-killed shrubs

N. J. Enright and M. C. Agne

International journal of wildland fire, Vol.34(2), WF24046

2025

DOI: https://doi.org/10.1071/WF24046

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Abstract

<italic>Banksia</italic>

chronosequence

climate change

fire

<italic>Hakea</italic>

seed storage

serotiny

shrublands

Background Mediterranean-type ecosystems (MTEs) are experiencing declining rainfall, increasing temperature, and shifting fire regimes as climate changes. While changes in fire regimes and post-fire recruitment are widely reported, evidence for changing plant demographic rates is limited. Aims We hypothesised increased time to maturity and decreased serotinous seed stores available for post-fire recruitment due to declining rainfall over recent decades for two fire-killed serotinous shrubs of south-east Australian MTEs, Hakea decurrens and Banksia ornata. Methods Fruit and cone production for populations across time since fire chronosequences were measured in the same regions in the 1990s and in 2017. Key results Estimated time to 50% maturity increased from 3–15 years and 6–15 years for H. decurrens and B. ornata, respectively, while estimated canopy seed stores were 90% and 50% lower in 2017 than in the 1990s. Conclusions Delayed reproductive maturity and decreased total seed stores were significantly related to decreasing rainfall received by 2017 populations over their lifetimes (5–17% less than for stands in the 1990s). Implications Shifts in inter-fire rates of seed production and storage, combined with changes to fire regimes and post-fire recruitment conditions due to climate change may already threaten the persistence of some species.

Details

Title: Climate drying reduces serotinous seedbanks and threatens persistence in two fire-killed shrubs
Authors/Creators: N. J. Enright - Murdoch University, Centre for Terrestrial Ecosystem Science and Sustainability
M. C. Agne
Publication Details: International journal of wildland fire, Vol.34(2), WF24046
Publisher: CSIRO Publishing on behalf of IAWF.
Number of pages: 14
Grant note: Australian Research Council (ARC) Discovery Project: DP170101288
This research was funded by Australian Research Council (ARC) Discovery Project grant DP170101288 held by NJE at Murdoch University.
Identifiers: 991005743943707891
Murdoch Affiliation: School of Environmental and Conservation Sciences
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.40 Forestry; 3.40.1598 Wildfire Dynamics
Web Of Science research areas: Forestry
ESI research areas: Plant & Animal Science