气候变化下物种重新分布的机制、检测和影响

Jake A. Lawlor, Lise Comte, Gaël Grenouillet, Jonathan Lenoir, J. Alex Baecher, R.M.W.J. Bandara, Romain Bertrand, I-Ching Chen, Sarah E. Diamond, Lesley T. Lancaster, Nikki Moore, Jerome Murienne, Brunno F. Oliveira, Gretta T. Pecl, Malin L. Pinsky, Jonathan Rolland, Madeleine Rubenstein, Brett R. Scheffers, Laura M. Thompson, Brit van Amerom, Fabricio Villalobos, Sarah R. Weiskopf, Jennifer Sunday
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引用次数: 0

摘要

物种分布的变化是对气候变化的一种常见生态反应,而全球气温上升通常被假定为主要驱动因素。然而,在不同物种、系统和研究中,物种分布变化的方向和速率存在很大差异,这使得管理和预测生物多样性对人为变化的响应变得更加复杂。在这篇综述中,我们总结了记录物种分布区变化的方法,讨论了为什么观察到的分布区变化往往与我们的预期不符,并探讨了物种分布区变化对自然和社会的影响。根据生物迁移数据库(BioShifts)的物种分布区迁移观测结果,大多数(59%)记录在案的物种分布区迁移在方向上与气候变化一致。然而,许多观测到的物种并没有发生转移,或者转移的方向与基于温度的预期相反。这些滞后或与预期相反的变化可能是由其他生物或非生物因素导致的,包括其他非温度气候驱动因素、栖息地特征和物种相互作用,而这些因素通常不在物种分布变化记录中考虑。要了解和管理物种分布区的变化,就需要增加和连接观测生物数据,概括不同系统的分布区变化模式,并预测与管理相关的时间尺度上的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mechanisms, detection and impacts of species redistributions under climate change

Mechanisms, detection and impacts of species redistributions under climate change

Mechanisms, detection and impacts of species redistributions under climate change
Shifts in species distributions are a common ecological response to climate change, and global temperature rise is often hypothesized as the primary driver. However, the directions and rates of distribution shifts are highly variable across species, systems, and studies, complicating efforts to manage and anticipate biodiversity responses to anthropogenic change. In this Review, we summarize approaches to documenting species range shifts, discuss why observed range shifts often do not match our expectations, and explore the impacts of species range shifts on nature and society. The majority (59%) of documented range shifts are directionally consistent with climate change, based on the BioShifts database of range shift observations. However, many observed species have not shifted or have shifted in directions opposite to temperature-based expectations. These lagging or expectation-contrary shifts might be explained by additional biotic or abiotic factors driving range shifts, including additional non-temperature climatic drivers, habitat characteristics, and species interactions, which are not normally considered in range shift documentations. Understanding and managing range shifts will require increasing and connecting observational biological data, generalizing range shift patterns across systems, and predicting shifts at management-relevant timescales. Warming temperatures driven by climate change are causing species geographic ranges to shift, but factors such as habitat characteristics and species interactions impact these changes. This Review examines range shift documentation, how shifts differ from temperature-based expectations, and the effects of range shifts on natural and human systems.
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