Département de Biologie, Chimie et Géographie, Université du Québec À Rimouski, Rimouski, QC, Canada.
Canada Research Chair On Northern Biodiversity, Université du Québec À Rimouski, Rimouski, QC, Canada.
Oecologia. 2024 Apr;204(4):775-788. doi: 10.1007/s00442-024-05534-x. Epub 2024 Mar 30.
Habitat selection theory suggests that environmental features selected at coarse scales reveal fundamental factors affecting animal fitness. When these factors vary across seasons, they may lead to large-scale movements, including long-distance seasonal migrations. We analyzed the seasonal habitat selection of 25 satellite-tracked Arctic hares from a population on Ellesmere Island (Nunavut, Canada) that relocated over 100 km in the fall. Since no other lagomorph is known to perform such extensive movements, this population offered an ideal setting to test animal movement and habitat selection theory. On summer grounds hares selected low elevation areas, while on winter grounds they selected high vegetation biomass, high elevation, and steep slopes. During fall relocation, they alternated between stopover and traveling behavioral states (ratio 2:1). Stopover locations were characterized by higher vegetation heterogeneity and lower rugosity than traveling locations, while vegetation biomass and elevation interacted to explain stopover locations in a more complex way. The selected combination of environmental features thus varied across seasons and behavioral states, in a way broadly consistent with predictions based on the changing food and safety needs of hares. Although causality was not demonstrated, our results improve our understanding of long-distance movements and habitat selection in Arctic hares, as well as herbivore ecology in the polar desert. Results also provide strong support to animal movement and habitat selection theory, by showing how some important hypotheses hold when tested in a species phylogenetically distinct from most animal models used in this research field.
栖息地选择理论表明,在粗尺度上选择的环境特征揭示了影响动物适应度的基本因素。当这些因素在季节间变化时,它们可能导致大规模的运动,包括长距离季节性迁徙。我们分析了来自埃尔斯米尔岛(加拿大努纳武特地区)一个种群的 25 只经过卫星追踪的北极兔的季节性栖息地选择,这些兔子在秋季迁移了 100 多公里。由于没有其他兔形目动物被认为会进行如此广泛的运动,因此这个种群为测试动物运动和栖息地选择理论提供了理想的环境。在夏季栖息地,兔子选择低海拔地区,而在冬季栖息地,它们选择高植被生物量、高海拔和陡峭的斜坡。在秋季迁移过程中,它们在停留和移动行为状态之间交替(比例为 2:1)。停留地点的植被异质性和粗糙度高于移动地点,而植被生物量和海拔以更复杂的方式相互作用来解释停留地点。因此,所选的环境特征组合在不同季节和行为状态下都有所不同,这与基于兔子不断变化的食物和安全需求的预测大致一致。尽管没有证明因果关系,但我们的结果提高了我们对北极兔长途迁徙和栖息地选择以及极地荒漠中食草动物生态学的理解。结果还为动物运动和栖息地选择理论提供了强有力的支持,表明在与该研究领域中大多数动物模型在系统发育上不同的物种中进行测试时,一些重要假设是如何成立的。
