Mechanisms Underpinning Climatic Impacts on Natural Populations: Altered Species Interactions are More Important than Direct Effects

Shifts in species' distribution and abundance in response to climate change have been well documented, but the underpinning processes are still poorly understood. We present the results of a systematic literature review and meta-analysis investigating the frequency and importance of different mec...

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Additional Info

Field	Value
Source	https://resources.unep-wcmc.org/products/WCMC_RT411
Author	UNEP-WCMC
Maintainer	UNEP-WCMC
Last Updated	March 9, 2023, 14:16 (UTC)
Created	March 9, 2023, 12:15 (UTC)
GUID	unep-wcmc-rsrc-report-wcmc_rt411
Issued	2023-03-09T01:01:43.310Z
Language	en
Modified	2023-03-09T01:01:43.310Z
Publisher email	info@unep-wcmc.org
Publisher name	UNEP-WCMC
Theme	Report
avg_rating	2
citation	Ockendon, N., Baker, D. J., Carr, J. A., White, E. C., Almond, R. E. A., Amano, T., Bertram, E., Bradbury, R. B., Bradley, C., Butchart, S. H. M., Doswald, N., Foden, W., Gill, D. J. C., Green, R. E., Sutherland, W. J., Tanner, E. V. J. And Pearce-Higgins, J. W. (2014). Mechanisms Underpinning Climatic Impacts on Natural Populations: Altered Species Interactions are More Important than Direct Effects. Cambridge, United Kingdom. Available at: https://onlinelibrary.wiley.com/doi/abs/10.1111/gcb.12559
data_type	webpage
date_published	2014-03-28
icon_url	https://resources.unep-wcmc.org/assets/icons/document-placeholder-e938f98deb4879afb3aeb922f66a9def5d814e683ac7f4f20614478110eae22f.svg
license	copyright
num_views	0
short_description	Although shifts in species’ distribution and abundance in response to climate change have been well documented, the reasons behind this are poorly understood. Research by partners of the Cambridge Conservation Initiative has demonstrated that climate change disrupts natural relationships between species and results in changes in distribution and abundance.