气候变化
渗入
利基
生物多样性
航程(航空)
生态学
生态位
非生物成分
生物
栖息地
生物化学
基因
复合材料
材料科学
作者
Scott A. Taylor,Erica L. Larson,R. G. Harrison
标识
DOI:10.1016/j.tree.2015.04.010
摘要
•Hybrid zones can be monitored to understand changes in species distributions. •Hybrid zones can be monitored to document adaptive introgression. •Citizen science can help us monitor hybrid zones. •Hybrid zones can act as windows on climate change. Defining the impacts of anthropogenic climate change on biodiversity and species distributions is currently a high priority. Niche models focus primarily on predicted changes in abiotic factors; however, species interactions and adaptive evolution will impact the ability of species to persist in the face of changing climate. Our review focuses on the use of hybrid zones to monitor responses of species to contemporary climate change. Monitoring hybrid zones provides insight into how range boundaries shift in response to climate change by illuminating the combined effects of species interactions and physiological sensitivity. At the same time, the semipermeable nature of species boundaries allows us to document adaptive introgression of alleles associated with response to climate change. Defining the impacts of anthropogenic climate change on biodiversity and species distributions is currently a high priority. Niche models focus primarily on predicted changes in abiotic factors; however, species interactions and adaptive evolution will impact the ability of species to persist in the face of changing climate. Our review focuses on the use of hybrid zones to monitor responses of species to contemporary climate change. Monitoring hybrid zones provides insight into how range boundaries shift in response to climate change by illuminating the combined effects of species interactions and physiological sensitivity. At the same time, the semipermeable nature of species boundaries allows us to document adaptive introgression of alleles associated with response to climate change.
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