Climate-sensitive forecasts of marked short-term and long-term changes in the distributions or abundances of Northwestern boreal landbirds

A. Raymundo , T. Micheletti , S. Haché , D. Stralberg , F.E.C. Stewart , J.A. Tremblay , C. Barros , I.M.S. Eddy , A.M. Chubaty , M. Leblond , C.L. Mahon , S.L. Van Wilgenburg , E.M. Bayne , F. Schmiegelow , T.D.S. Docherty , E.J.B. McIntire , S.G. Cumming
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Abstract

Climate change presents a major threat to biodiversity globally. Northern ecosystems, such as Canada's boreal forest, are predicted to experience particularly severe climate-induced changes. These changes may reduce the carrying capacity and habitat suitability of the boreal forest for many wildlife species. Boreal birds are susceptible to both direct and indirect effects of climate change, and several studies have predicted northward shifts in species distributions as temperatures become warmer. We forecasted spatially-explicit changes in the densities of 72 boreal landbird species using integrated climate change projections and a forest dynamics model in the Taiga Plains ecozone of the Northwest Territories (NT), Canada, over the 2011–2091 horizon. We 1) identified "winner," "loser," and "bellringer" species over short (2031) and long-term (2091) forecasts, 2) mapped landbird range and density changes under three contrasting Global Circulation Models (GCMs), and 3) quantify differences in landbird density predictions across a latitudinal gradient. Species that showed a moderate increase or decrease in their predicted abundance were considered "winners" and "losers," respectively. Species that showed a marked increase or decrease – a doubling or halving – of their predicted abundance in all three GCMs, were termed "bellringers". From 2011–2031, only 2/72 (2.8%) were considered winners, and 3/72 (4.2%) were losers. From 2011–2091, the abundance of more species was predicted to change: 26/72 (36.1%) were winners, and 10/72 species (13.9%) were losers. Four species were considered bellringers: Gray-cheeked Thrush, White-crowned Sparrow, Fox Sparrow, and American Tree Sparrow. Overall, projected range shifts were strongly oriented along a southeast-to-northwest axis. Shifts to the north and south were evenly distributed among all three GCMs. Our results suggest that future climate-mitigated distribution shifts and population declines of boreal landbirds will require targeted conservation actions. They also highlight the importance of the NT as a potential refugium for many boreal-breeding landbird species in Canada.

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对气候敏感的西北北方陆地鸟类分布或数量明显的短期和长期变化预测。
气候变化对全球生物多样性构成重大威胁。据预测,加拿大北方森林等北方生态系统将经历特别严重的气候引起的变化。这些变化可能会降低北方森林对许多野生动物物种的承载能力和栖息地适宜性。北方鸟类很容易受到气候变化的直接和间接影响,一些研究预测,随着气温升高,物种分布将向北转移。我们利用综合气候变化预测和森林动力学模型,预测了 2011-2091 年间加拿大西北地区泰加平原生态区 72 种北方陆地鸟类密度的空间明确变化。我们:1)确定了短期(2031 年)和长期(2091 年)预测中的 "赢家"、"输家 "和 "敲钟人 "物种;2)绘制了三种不同全球环流模型(GCM)下陆地鸟类分布范围和密度变化图;3)量化了纬度梯度上陆地鸟类密度预测的差异。预测丰度出现适度增加或减少的物种分别被视为 "赢家 "和 "输家"。在所有三个全球气候模式中,预测丰度出现明显增加或减少(增加一倍或减少一半)的物种被称为 "敲钟人"。从 2011-2031 年,只有 2/72 (2.8%)的物种被认为是赢家,3/72 (4.2%)的物种被认为是输家。从 2011-2091 年,预测有更多物种的丰度会发生变化:26/72(36.1%)的物种被认为是赢家,10/72 的物种(13.9%)被认为是输家。有 4 个物种被认为是敲钟人:灰颊鸫、白冠麻雀、狐麻雀和美洲树麻雀。总体而言,预计的分布范围转移主要沿着东南-西北轴线。向北和向南的移动在所有三个 GCM 中分布均匀。我们的研究结果表明,未来由气候引起的北方陆栖鸟类分布转移和种群数量下降需要采取有针对性的保护措施。这些结果还强调了北部地区作为加拿大许多北方繁殖陆鸟物种的潜在庇护所的重要性。
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