Australian megafires alter predicted distribution of the southern greater glider (Petauroides volans)

IF 1.6 4区 环境科学与生态学 Q3 ECOLOGY Austral Ecology Pub Date : 2024-08-16 DOI:10.1111/aec.13582
Jenna C. H. Ridley, Karen Marsh, Tyrone Lavery, Wade Blanchard, David Lindenmayer, Maldwyn J. Evans
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Abstract

Altered fire regimes and the increased frequency and/or severity of wildfires are significant issues for fire-sensitive species. In the Austral summer of 2019/2020, Australia experienced one of the worst fire seasons in recorded history (known as the 2019/2020 megafires), affecting 12.6 million hectares of eastern Australia. The Endangered southern greater glider (Petauroides volans) inhabits large areas impacted by the 2019/2020 megafires. With increasing fire severity, frequency, and intensity, there is a need to understand where in the landscape southern greater gliders are most impacted by fire, and where the species is most likely to persist in fire-affected landscapes. This is challenging given the lack of systematic data collected for this species. Maximum entropy modelling (Maxent) is a type of species distribution model with good predictive performance for presence-only records. We used Maxent to model the distribution of the southern greater glider in the two years prior (2017–2019) and two years post (2020–2022) megafire across the East Gippsland region of Victoria, an area heavily affected by the 2019/2020 megafires. Whilst we found that the predicted short-term area of occurrence of the southern greater glider remained relatively stable in the two years after megafire, a large area of marginal habitat was considerably reduced. We interpret this result as a potential contraction of suitable habitat where southern greater gliders may become isolated. Post fire, higher elevation areas and locations that experienced comparatively lower fire severity and a lower fire frequency had a higher predicted occurrence of the southern greater glider. Understanding the role of fire in species survival is essential for effective biodiversity conservation and management of species. More comprehensive and systematic monitoring in suitable and unsuitable areas will enhance our understanding of the distribution of the southern greater glider, including areas subject to wildfire.

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澳大利亚大火改变了南部大滑翔机(Petauroides volans)的分布预测
火灾机制的改变以及野火频率和/或严重程度的增加,对火灾敏感物种而言是一个重大问题。在 2019/2020 年澳大利亚夏季,澳大利亚经历了有史以来最严重的火灾季节之一(被称为 2019/2020 年特大火灾),影响了澳大利亚东部 1260 万公顷的土地。濒危的南方大滑翔机(Petauroides volans)栖息在受 2019/2020 年特大火灾影响的大片地区。随着火灾的严重程度、频率和强度不断增加,有必要了解南部大滑翔机在地貌中受火灾影响最大的地方,以及该物种最有可能在受火灾影响的地貌中持续存在的地方。由于缺乏针对该物种收集的系统数据,这项工作极具挑战性。最大熵模型(Maxent)是一种物种分布模型,对于仅存在的记录具有良好的预测性能。我们使用 Maxent 对维多利亚州东吉普斯兰地区大火前两年(2017-2019 年)和大火后两年(2020-2022 年)南方大滑翔机的分布进行了建模,该地区受到 2019/2020 年大火的严重影响。我们发现,在特大火灾发生后的两年中,南部大滑翔机的预测短期出现面积保持相对稳定,但边缘栖息地的面积大幅减少。我们将这一结果解释为合适的栖息地可能会缩小,南方大滑翔机可能会被隔离。火灾发生后,海拔较高的地区和火灾严重程度相对较低、火灾频率较低的地点预计会出现更多的南方大袋鼯。了解火灾在物种生存中的作用对于有效保护生物多样性和管理物种至关重要。对适宜和不适宜地区进行更全面、更系统的监测,将有助于我们更好地了解南方大袋鼯的分布情况,包括遭受野火的地区。
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来源期刊
Austral Ecology
Austral Ecology 环境科学-生态学
CiteScore
2.90
自引率
6.70%
发文量
117
审稿时长
12-24 weeks
期刊介绍: Austral Ecology is the premier journal for basic and applied ecology in the Southern Hemisphere. As the official Journal of The Ecological Society of Australia (ESA), Austral Ecology addresses the commonality between ecosystems in Australia and many parts of southern Africa, South America, New Zealand and Oceania. For example many species in the unique biotas of these regions share common Gondwana ancestors. ESA''s aim is to publish innovative research to encourage the sharing of information and experiences that enrich the understanding of the ecology of the Southern Hemisphere. Austral Ecology involves an editorial board with representatives from Australia, South Africa, New Zealand, Brazil and Argentina. These representatives provide expert opinions, access to qualified reviewers and act as a focus for attracting a wide range of contributions from countries across the region. Austral Ecology publishes original papers describing experimental, observational or theoretical studies on terrestrial, marine or freshwater systems, which are considered without taxonomic bias. Special thematic issues are published regularly, including symposia on the ecology of estuaries and soft sediment habitats, freshwater systems and coral reef fish.
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