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Article

Tree mortality across biomes is promoted by drought intensity, lower wood density and higher specific leaf area

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Citation

Greenwood S, Ruiz-Benito P, Martínez-Vilalta J, Lloret F, Kitzberger T, Allen CD, Fensham R, Laughlin DC, Kattge J, B?nisch G, Kraft NJB & Jump AS (2017) Tree mortality across biomes is promoted by drought intensity, lower wood density and higher specific leaf area. Ecology Letters, 20 (4), pp. 539-553. https://doi.org/10.1111/ele.12748

Abstract
Drought events are increasing globally, and reports of consequent forest mortality are widespread. However, due to a lack of a quantitative global synthesis, it is still not clear whether drought-induced mortality rates differ among global biomes and whether functional traits influence the risk of drought-induced mortality. To address these uncertainties, we performed a global meta-analysis of 58 studies of drought-induced forest mortality. Mortality rates were modelled as a function of drought, temperature, biomes, phylogenetic and functional groups, and functional traits. We identified a consistent global-scale response, where mortality increased with drought severity (log mortality (trees trees-1 year-1) increased 0.46 (95% CI=0.2-0.7) with one SPEI unit drought intensity). We found no significant differences in the magnitude of the response depending on forest biomes or between angiosperms and gymnosperms or evergreen and deciduous tree species. Functional traits explained some of the variation in drought responses between species (i.e. increased from 30 to 37% when wood density and specific leaf area were included). Tree species with denser wood and lower specific leaf area showed lower mortality responses. Our results illustrate the value of functional traits for understanding patterns of drought-induced tree mortality and suggest that mortality could become increasingly widespread in the future.

Keywords
Climate change; die-off; forest dynamics; functional traits

Journal
Ecology Letters: Volume 20, Issue 4

StatusPublished
Funders
Publication date30/04/2017
Publication date online21/02/2017
Date accepted by journal16/01/2017
URL
PublisherWiley-Blackwell
ISSN1461-023X
eISSN1461-0248

People (2)

Dr Sarah Greenwood

Dr Sarah Greenwood

Lecturer in Global Change Biology, Biological and Environmental Sciences

Professor Alistair Jump

Professor Alistair Jump

Dean of Natural Sciences, NS Management and Support

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