Snow, ponds, trees, and frogs: how environmental processes mediate climate change impacts on four subarctic terrestrial and freshwater ecosystems

IF 2.9 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Facets Pub Date : 2023-01-01 DOI:10.1139/facets-2022-0163
M. Morison, N. Casson, S. Mamet, J. Davenport, T. Livingston, L. Fishback, H. White, A. Windsor
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Abstract

Amplified warming in subarctic regions is having measurable impacts on terrestrial and freshwater ecosystem processes. At the boundary of the discontinuous and continuous permafrost zones, and at the northern extent of the boreal forest, the Hudson Bay Lowlands has experienced, and is projected to continue to experience dramatic rates of climate change in the coming decades. In this review, we explore the impacts of climate change on terrestrial and freshwater ecosystems in the Hudson Bay Lowlands and other environmental processes that mediate these impacts. We surveyed published literature from the region to identify climate indicators associated with impacts on snowpacks, ponds, vegetation, and wood frogs. These climate indicators were calculated using statistically downscaled climate projections, and the potential impacts on ecosystem processes are discussed. While there is a strong trend towards longer and warmer summers, associated changes in the vegetation community mean that snowpacks are not necessarily decreasing, which is important for freshwater ponds dependent on snowmelt recharge. A clear throughline is that the impacts on these ecosystem processes are complex, interconnected, and nonlinear. This review provides a framework for understanding the ways in which climate change has and will affect subarctic regions.
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雪、池塘、树木和青蛙:环境过程如何调节气候变化对亚北极陆地和淡水生态系统的影响
亚北极地区升温加剧正在对陆地和淡水生态系统过程产生可测量的影响。在不连续和连续永久冻土带的边界,以及北方森林的北部地区,哈德逊湾低地已经经历了,并且预计在未来几十年将继续经历急剧的气候变化。在本文中,我们探讨了气候变化对哈德逊湾低地陆地和淡水生态系统的影响以及介导这些影响的其他环境过程。我们调查了该地区发表的文献,以确定与积雪、池塘、植被和林蛙影响相关的气候指标。这些气候指标是用统计上缩小尺度的气候预估来计算的,并讨论了对生态系统过程的潜在影响。虽然夏季变长变暖的趋势很明显,但植被群落的相关变化意味着积雪不一定会减少,这对依赖融雪补给的淡水池塘很重要。一条清晰的主线是,对这些生态系统过程的影响是复杂的、相互关联的和非线性的。这篇综述为理解气候变化已经并将影响亚北极地区的方式提供了一个框架。
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来源期刊
Facets
Facets MULTIDISCIPLINARY SCIENCES-
CiteScore
5.40
自引率
6.50%
发文量
48
审稿时长
28 weeks
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