Temperature extremes: geographic patterns, recent changes, and implications for organismal vulnerabilities

Temperature extremes: geographic patterns, recent changes, and implications for organismal vulnerabilities

Extreme temperatures can injure or kill organisms and can drive evolutionary patterns. Many indices of extremes have been proposed, but few attempts have been made to establish geographic patterns of extremes and to evaluate whether they align with geographic patterns in biological vulnerability and...

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Published in:Global change biology Vol. 22; no. 12; pp. 3829 - 3842
Main Authors: Buckley, Lauren B., Huey, Raymond B.
Format: Journal Article
Language:English
Published: England Blackwell Publishing Ltd 01-12-2016
Subjects:
Agricultural production
Agriculture
Animals
Biodiversity
Biogeochemistry
Biogeography
Climate Change
CLIMDEX
Cold Temperature
diversity
extreme events
heat
Hot Temperature
Humans
Temperature
thermal stress
thermal tolerance
CLIMDEX
heat
thermal tolerance
diversity
extreme events
thermal stress
climate change
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Summary:Extreme temperatures can injure or kill organisms and can drive evolutionary patterns. Many indices of extremes have been proposed, but few attempts have been made to establish geographic patterns of extremes and to evaluate whether they align with geographic patterns in biological vulnerability and diversity. To examine these issues, we adopt the CLIMDEX indices of thermal extremes. We compute scores for each index on a geographic grid during a baseline period (1961–1990) and separately for the recent period (1991–2010). Heat extremes (temperatures above the 90th percentile during the baseline period) have become substantially more common during the recent period, particularly in the tropics. Importantly, the various indices show weak geographic concordance, implying that organisms in different regions will face different forms of thermal stress. The magnitude of recent shifts in indices is largely uncorrelated with baseline scores in those indices, suggesting that organisms are likely to face novel thermal stresses. Organismal tolerances correlate roughly with absolute metrics (mainly for cold), but poorly with metrics defined relative to local conditions. Regions with high extreme scores do not correlate closely with regions with high species diversity, human population density, or agricultural production. Even though frequency and intensity of extreme temperature events have – and are likely to have – major impacts on organisms, the impacts are likely to be geographically and taxonomically idiosyncratic and difficult to predict.
Bibliography:National Science Foundation - No. DBI-1349865; No. EF-1065638; No. IB-1038016
istex:86EC1D9DC49615AC7EDB00C0BFE0BC98CC5B4DDE
ark:/67375/WNG-3827SM9V-8
Figure S1. Geographic patterns on a thermodynamic scale.
ArticleID:GCB13313
ObjectType-Article-2
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ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.13313