Anderson Skye Elise, Amir Zachary, Bruce Tom, Luskin Matthew Scott
The Wildlife Observatory of Australia (WildObs) QCIF Brisbane Queensland Australia.
School of the Environment & Centre for Biodiversity and Conservation Science University of Queensland Brisbane Queensland Australia.
Ecol Evol. 2025 Jun 4;15(6):e71464. doi: 10.1002/ece3.71464. eCollection 2025 Jun.
The Australian Wet Tropics rainforests are a biodiversity hotspot covering just 0.2% of the continent's land area. However, historic forest loss, modern fragmentation, and climate change continue to threaten these ecosystems. Southern cassowaries () are large flightless birds restricted to closed-canopy tropical forests in Australia. Cassowaries are obligate frugivores whose dispersal of large-seeded plants is considered a keystone species interaction supporting forest regeneration. We conducted camera trapping across cassowaries' Australian range and quantified habitat associations using hierarchical models that account for imperfect detection. Cassowary detections were significantly higher in rainforests compared to adjacent wet sclerophyll closed-canopy forests, confirming their status as habitat specialists. Cassowaries' relative abundance (λ in Royle-Nichols modelling) declined with forest degradation and rainfall but was not strongly affected by human footprint or elevation. This aligns with observations of them occasionally foraging on anthropogenic food sources at the edges of large intact forests (e.g., where there are human-planted fruit trees). These findings provide the ecological reasons underpinning known cassowary hotspots in large rainforests that are relatively dry. It would be valuable to deepen our understanding of their persistence in degraded rainforests near humans via diet and survival studies, and we caution that their association with rainfall means that they may be impacted by climate change.
澳大利亚湿热带雨林是一个生物多样性热点地区,仅占该国陆地面积的0.2%。然而,历史上的森林砍伐、现代的碎片化以及气候变化继续威胁着这些生态系统。南方食火鸡是大型不会飞的鸟类,仅分布于澳大利亚有封闭树冠的热带森林。食火鸡是专性食果动物,其对大种子植物的传播被认为是支持森林更新的关键物种相互作用。我们在食火鸡在澳大利亚的分布范围内进行了相机诱捕,并使用考虑了不完全检测的分层模型对栖息地关联进行了量化。与相邻的湿性硬叶封闭树冠森林相比,食火鸡在雨林中的被检测率显著更高,证实了它们作为栖息地专家的地位。食火鸡的相对丰度(在罗伊尔 - 尼科尔斯模型中的λ)随着森林退化和降雨量的减少而下降,但受人类足迹或海拔的影响不大。这与它们偶尔在大片完整森林边缘的人为食物来源上觅食的观察结果一致(例如,有人工种植果树的地方)。这些发现为相对干燥的大型雨林中已知的食火鸡热点地区提供了生态原因。通过饮食和生存研究加深我们对它们在人类附近退化雨林中生存的理解将是很有价值的,并且我们提醒它们与降雨的关联意味着它们可能会受到气候变化的影响。