Recent climate change strongly impacted the population dynamic of a North American insect pest species

Yan Boulanger, Adele Desaint, Veronique Martel, Maryse Marchand, Salomon Massoda Tonye, Remi Saint-Amant, Jacques Regniere
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Abstract

Climate change is redefining the dynamics of forest ecosystems globally, particularly through its impact on forest pest populations such as the spruce budworm (SBW, Choristoneura fumiferana [Clem.]), a major defoliator in North American boreal forests. This study investigates the shifts in the population dynamics of spruce budworm across its range in response to recent climate change. We used a process-based, temperature-dependent ecophysiological model combined with the ERA5 reanalysis to assess changes in SBW phenology, reproduction rate, winter survival and population growth rates from 1950 to 2022 across North America. Our findings demonstrate a pronounced northward expansion of suitable climate conditions for SBW, accompanied by earlier phenological events and increased reproduction rates in northern regions. Conversely, the southern parts of its range are experiencing increased winter mortality due to warmer temperatures. This study highlights the significant impact of elevated temperatures, particularly during critical developmental windows such as spring and summer, which are pivotal for spruce budworm survival and reproduction. Additionally, our results reveal that the observed shifts in pest dynamics are more strongly driven by climate change than by changes in landscape composition and structure. We estimated that suitable growth rates have shifted northward by over 68 km on average, but this shift reached more than 200 km in the easternmost portions of its range. Climate-induced shift in suitable conditions for SBW underscores the need for adaptive forest management strategies that consider the rapid ecological changes and the potential for increased forest vulnerability due to climatic and biotic stressors. This study provides vital insights that can inform adaptive management ensuring the sustainability of forest ecosystems in the face of ongoing climate change.
近期气候变化对北美一种害虫的种群动态产生了强烈影响
气候变化正在重新定义全球森林生态系统的动态,特别是通过其对森林害虫种群的影响,如云杉芽虫(SBW,Choristoneura fumiferana [Clem.]),它是北美北方森林的一种主要落叶害虫。本研究调查了云杉芽虫在其分布范围内的种群动态随近期气候变化而发生的变化。我们使用了一个基于过程的、依赖温度的生态生理学模型,并结合ERA5再分析,评估了1950年至2022年北美地区云杉芽虫的物候学、繁殖率、冬季存活率和种群增长率的变化。我们的研究结果表明,SBW 的适宜气候条件明显向北扩展,同时北部地区的物候期提前,繁殖率提高。相反,由于气温升高,其分布区南部的冬季死亡率正在上升。这项研究强调了气温升高的重大影响,尤其是在春夏等关键发育窗口期,这对云杉芽虫的生存和繁殖至关重要。此外,我们的研究结果表明,所观察到的害虫动态变化更多是受气候变化的影响,而不是受景观组成和结构变化的影响。据我们估计,适宜生长率平均向北移动了 68 千米以上,但在其分布区的最东部,这种移动超过了 200 千米。气候引起的小蠹适宜条件的变化突出表明,需要制定适应性森林管理战略,考虑到快速的生态变化以及气候和生物压力因素导致森林脆弱性增加的可能性。这项研究提供了重要的见解,可以为适应性管理提供信息,确保森林生态系统在面对持续气候变化时的可持续性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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