CEFE, Univ Montpellier, CNRS, EPHE, IRD, Montpellier, France.
Centre d'Etudes Biologiques de Chizé UMR 7372, Université de la Rochelle-CNRS, Villiers-en-Bois, France.
J Anim Ecol. 2024 Jul;93(7):918-931. doi: 10.1111/1365-2656.14113. Epub 2024 May 24.
Phenological adjustment is the first line of adaptive response of vertebrates when seasonality is disrupted by climate change. The prevailing response is to reproduce earlier in warmer springs, but habitat changes, such as forest degradation, are expected to affect phenological plasticity, for example, due to loss of reliability of environmental cues used by organisms to time reproduction. Relying on a two-decade, country-level capture-based monitoring of common songbirds' reproduction, we investigated how habitat anthropization, here characterized by the rural-urban and forest-farmland gradients, affected the average phenology and plasticity to local temperature in two common species, the great tit Parus major and the blue tit Cyanistes caeruleus. We built a hierarchical model that simultaneously estimated fledging phenology and its response to spring temperatures based on the changes in the proportion of juveniles captured over the breeding season. Both species fledge earlier in warmer sites (blue tit: 2.94 days/°C, great tit: 3.83 days/°C), in warmer springs (blue tit: 2.49 days/°C, great tit: 2.75 days/°C) and in most urbanized habitats (4 days for blue tit and 2 days for great tit). The slope of the reaction norm of fledging phenology to spring temperature varied across sites in both species, but this variation was explained by habitat anthropization only in the deciduous forest specialist, the blue tit. In this species, the responses to spring temperature were shallower in agricultural landscapes and slightly steeper in more urban areas. Habitat anthropization did not explain variation in the slope of the reaction norm in the habitat-generalist species (great tit), for which mean fledgling phenology and plasticity were correlated (i.e., steeper response in later sites). The effects of habitat change on phenological reaction norms provide another way through which combined environmental degradations may threaten populations' persistence, to an extent depending on species and on the changes in their prey phenology and abundance.
物候调整是脊椎动物应对气候变化导致的季节性破坏的第一道适应反应。普遍的反应是在温暖的春天更早繁殖,但栖息地的变化,如森林退化,预计会影响物候可塑性,例如,由于生物体用来定时繁殖的环境线索的可靠性丧失。我们利用一项为期二十年、基于国家层面的常见鸣禽繁殖的基于捕捉的监测,研究了栖息地的人为化(这里以城乡和森林-农田梯度来刻画)如何影响两种常见物种——大山雀 Parus major 和蓝山雀 Cyanistes caeruleus 的平均物候和对当地温度的可塑性。我们构建了一个层次模型,该模型同时根据繁殖季节中捕获的幼鸟比例的变化,估计了幼鸟的离巢物候及其对春季温度的反应。两种鸟类在温暖的地方(蓝山雀:2.94 天/°C,大山雀:3.83 天/°C)和温暖的春天(蓝山雀:2.49 天/°C,大山雀:2.75 天/°C)中更早离巢,在城市化程度较高的栖息地中离巢更早(蓝山雀:4 天,大山雀:2 天)。两种鸟类的离巢物候对春季温度的反应规范的斜率在不同地点都有所变化,但这种变化仅在落叶林专食性物种(蓝山雀)中可以用栖息地的人为化来解释。在这个物种中,对春季温度的反应在农业景观中较浅,在更城市化的地区略深。栖息地的人为化不能解释广域适应物种(大山雀)中反应规范斜率的变化,因为该物种的平均幼鸟离巢物候和可塑性相关(即,较晚地点的反应更陡峭)。栖息地变化对物候反应规范的影响提供了另一种方式,即综合环境退化可能会威胁到种群的生存,在一定程度上取决于物种及其猎物物候和丰度的变化。
