Department of Natural Resource Sciences, McGill University, 21111 Lakeshore, Ste-Anne-de-Bellevue, QC, Canada.
Acopian Center for Conservation Learning, Hawk Mountain Sanctuary Association, Orwigsburg, PA, USA.
Oecologia. 2022 Feb;198(2):295-306. doi: 10.1007/s00442-021-05057-9. Epub 2021 Oct 17.
Highly mobile predators can show strong numerical responses to pulsed resources, sometimes resulting in irruptions where large numbers of young invade landscapes at a continental scale. High production of young in irruption years may have a strong influence on the population dynamics unless immature survival is reduced compared to non-irruption years. This could occur if subordinate individuals (mainly immatures) are forced into suboptimal habitats due to density-dependent effects in irruption years. To test whether irruptive individuals had lower survival than non-irruptive ones, we combined necropsy results (N = 365) with telemetry (N = 185) from more than 20 years to record timing and causes of mortality in snowy owls (Bubo scandiacus), which irrupt into eastern North America during winter following high breeding output caused by lemming peaks in the Arctic. Mortality was more than four times higher in irruption years than non-irruption years, but only for immatures, and occurred disproportionately in early winter for immatures, but not adults. Mortality was also higher in eastern North America, where owl abundance fluctuates considerably between years, compared to core winter regions of the Arctic and Prairies where populations are more stable. Most mortality was not due to starvation, but rather associated with human activity, especially vehicle collisions. We conclude that immature snowy owls that irrupt into eastern North America are limited by density-dependent factors, such as increased competition forcing individuals to occupy risky human-altered habitats. For highly mobile, irruptive animals, resource pulses may have a limited impact on population dynamics due to low subsequent survival of breeding output during the nonbreeding season.
高度迁徙的捕食者对脉冲资源可能会表现出强烈的数量响应,有时会导致大量幼崽在大陆范围内入侵景观,形成爆发。爆发年份中大量幼崽的产生可能会对种群动态产生强烈影响,除非不成熟个体的存活率与非爆发年份相比降低。如果由于密度依赖效应,从属个体(主要是不成熟个体)被迫进入次优栖息地,就可能会发生这种情况。为了测试爆发个体的存活率是否低于非爆发个体,我们结合了剖检结果(N=365)和超过 20 年的遥测数据(N=185),记录雪鸮(Bubo scandiacus)的死亡时间和原因,雪鸮在冬季会因北极地区旅鼠高峰期而繁殖量增加,从而在东加拿大爆发。爆发年份的死亡率是非爆发年份的四倍多,但仅对不成熟个体而言,而且不成熟个体在初冬的死亡率不成比例,而成体则没有。在东加拿大的死亡率也更高,那里的猫头鹰数量在年份之间波动很大,而北极和草原的核心冬季地区的种群则更稳定。大多数死亡不是由于饥饿,而是与人类活动有关,尤其是与车辆碰撞有关。我们的结论是,进入东加拿大的不成熟雪鸮受到密度依赖因素的限制,例如竞争加剧迫使个体占据危险的人为改变的栖息地。对于高度迁徙、爆发的动物来说,由于繁殖季节后非繁殖季节繁殖产量的后续存活率较低,资源脉冲对种群动态的影响可能有限。
