Ecosystem type and species’ traits help explain bird responses to spatial patterns of fire

IF 3.6 3区 环境科学与生态学 Q1 ECOLOGY Fire Ecology Pub Date : 2023-10-10 DOI:10.1186/s42408-023-00221-3
Frederick W. Rainsford, Katherine M. Giljohann, Andrew F. Bennett, Michael F. Clarke, Josephine MacHunter, Katharine Senior, Holly Sitters, Simon Watson, Luke T. Kelly
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Abstract

Abstract Background Understanding how temporal and spatial attributes of fire regimes, environmental conditions, and species’ traits interact to shape ecological communities will help improve biodiversity conservation in fire-affected areas. We compared the influence of time since the last fire at a site, and the area and diversity of post-fire successional vegetation surrounding a site (i.e., the “spatial context” of fire), on bird species and functional groups in two ecosystems in south-eastern Australia. These ecosystems, semi-arid “mallee” woodlands and temperate “foothill” forests, differ in stand-regeneration patterns, climate, and topography. For 22 bird species in mallee woodlands, 33 species in foothill forests and four functional groups of birds in both ecosystems, we fitted non-linear models that differed in fire regime predictor variables. Results In foothill forests, models that included both time since fire and a spatial context variable explained more variation in bird abundances than models that included only time since fire or a spatial variable. In mallee woodlands, the addition of spatial attributes of fire helped explain the occurrence of several species, but this finding was muted when measured across all species. There were key differences between ecosystems in functional group responses to fire regimes. Canopy/upper-midstorey foragers were positively associated with the amount of late -successional vegetation in mallee woodlands, but not in foothill forests. Lower-midstorey foragers showed a decline response to the amount of late -successional vegetation in mallee woodlands and a contrasting incline response in foothill forests. However, lower-midstorey foragers showed a similar response to the amount of surrounding early -successional vegetation in both ecosystems—decreasing in abundance when > 50% of the surrounding vegetation was early-successional. Conclusions The influence of fire regimes on birds varies among species within sites, across landscapes and between ecosystems. Species’ foraging traits influence bird associations with fire regimes, and help to make sense of a myriad of relationships, but are usefully understood in the context of ecosystem types and the regeneration patterns of their dominant flora. The spatial context of fire regimes is also important—the amount of successional vegetation surrounding a site influences bird abundance. Fire management strategies that incorporate the spatial contexts of fire regimes, as well as the temporal and ecological contexts of fire regimes, will have the greatest benefits for biodiversity.
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生态系统类型和物种特征有助于解释鸟类对火灾空间格局的反应
背景了解火情时空属性、环境条件和物种特征如何相互作用形成生态群落,将有助于改善火灾灾区的生物多样性保护。我们比较了在澳大利亚东南部的两个生态系统中,自最后一次火灾以来的时间,以及火灾后遗址周围演替植被的面积和多样性(即火灾的“空间背景”)对鸟类物种和功能群的影响。这些生态系统,半干旱的“mallee”林地和温带的“foothill”森林,在林分更新模式、气候和地形上有所不同。我们拟合了mallee林地的22种鸟类、山麓林地的33种鸟类和两个生态系统中4个功能类群的非线性模型,这些模型在火情预测变量上存在差异。结果:在山麓森林中,同时包含火灾发生时间和空间环境变量的模型比只包含火灾发生时间或空间变量的模型更能解释鸟类丰度的变化。在mallee林地中,火的空间属性有助于解释几种物种的发生,但当对所有物种进行测量时,这一发现并不明显。不同生态系统在功能群对火灾的响应上存在关键差异。林冠层/上层中层觅食者与后期演替植被数量呈显著正相关,而山麓林冠层/上层中层觅食者与后期演替植被数量呈显著正相关。低中层采集者对mallee林地晚演替植被数量的响应呈下降趋势,而对山麓林地的响应呈倾斜趋势。然而,在两个生态系统中,较低中层觅食者对周围早期演替植被数量的减少表现出相似的响应。50%的周围植被为早期演替。结论火灾对鸟类的影响在不同物种、不同景观和不同生态系统之间存在差异。物种的觅食特征影响鸟类与火灾制度的联系,并有助于理解无数的关系,但在生态系统类型和其优势植物群的再生模式的背景下理解是有用的。火灾环境的空间背景也很重要——一个地点周围演替植被的数量会影响鸟类的丰度。结合了火灾制度的空间背景以及火灾制度的时间和生态背景的火灾管理战略将对生物多样性产生最大的好处。
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来源期刊
Fire Ecology
Fire Ecology ECOLOGY-FORESTRY
CiteScore
6.20
自引率
7.80%
发文量
24
审稿时长
20 weeks
期刊介绍: Fire Ecology is the international scientific journal supported by the Association for Fire Ecology. Fire Ecology publishes peer-reviewed articles on all ecological and management aspects relating to wildland fire. We welcome submissions on topics that include a broad range of research on the ecological relationships of fire to its environment, including, but not limited to: Ecology (physical and biological fire effects, fire regimes, etc.) Social science (geography, sociology, anthropology, etc.) Fuel Fire science and modeling Planning and risk management Law and policy Fire management Inter- or cross-disciplinary fire-related topics Technology transfer products.
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