Byers Diane L
School of Biological Sciences, Illinois State University, Campus Box 4120, Normal, Illinois 61790-4120 USA.
Appl Plant Sci. 2017 Jun 28;5(6). doi: 10.3732/apps.1700012. eCollection 2017 Jun.
Plant-pollinator interactions are potentially at risk due to climate change. Because of the spatial and temporal variation associated with the effects of climate change and the responses of both actors, research to assess this interaction requires creative approaches. This review focuses on assessments of plants' and pollinators' altered phenology in response to environmental changes, as phenology is one of the key responses. I reviewed research methods with the goal of presenting the wide diversity of available techniques for addressing changes in these interactions. Approaches ranged from use of historical specimens to multisite experimental community studies; while differing in depth of historical information and community interactions, all contribute to assessment of phenology changes. Particularly insightful were those studies that directly assessed the environmental changes across spatial and temporal scales and the responses of plants and pollinators at these scales. Longer-term studies across environmental gradients, potentially with reciprocal transplants, enable an assessment of climate impacts at both scales. While changes in phenology are well studied, the impacts of phenology changes are not. Future research should include approaches to address this gap.
由于气候变化,植物与传粉者之间的相互作用可能面临风险。由于气候变化影响以及双方行为的响应存在时空变化,评估这种相互作用的研究需要创新方法。本综述聚焦于评估植物和传粉者因环境变化而改变的物候,因为物候是关键响应之一。我回顾了研究方法,目的是展示用于解决这些相互作用变化的各种可用技术。方法从使用历史标本到多地点实验群落研究不等;虽然在历史信息深度和群落相互作用方面存在差异,但所有这些都有助于评估物候变化。那些直接评估跨时空尺度的环境变化以及植物和传粉者在这些尺度上的响应的研究尤其具有洞察力。跨环境梯度的长期研究,可能包括相互移植,能够在两个尺度上评估气候影响。虽然物候变化已得到充分研究,但物候变化的影响却未得到充分研究。未来的研究应包括弥补这一差距的方法。
