Research frontiers for improving our understanding of drought-induced tree and forest mortality

• Published in: The New phytologist Vol. 218; no. 1; pp. 15 - 28
• Main Authors: Hartmann, Henrik, Moura, Catarina F., Anderegg, William R. L., Ruehr, Nadine K., Salmon, Yann, Allen, Craig D., Arndt, Stefan K., Breshears, David D., Davi, Hendrik, Galbraith, David, Ruthrof, Katinka X., Wunder, Jan, Adams, Henry D., Bloemen, Jasper, Cailleret, Maxime, Cobb, Richard, Gessler, Arthur, Grams, Thorsten E. E., Jansen, Steven, Kautz, Markus, Lloret, Francisco, O'Brien, Michael
• Format: Journal Article
• Language: English
• Published: England New Phytologist Trust 01.04.2018; Wiley Subscription Services, Inc; Wiley
• Subjects: Atmospheric models; Biogeochemistry; carbon–water cycling; Drought; dynamic vegetation models; Ecological monitoring; Ecophysiology; Ecosystem services; Ecosystems; Forests; insects and pathogens; Life Sciences; Modelling; monitoring network; Mortality; Mortality risk; Risk factors; Scaling; tree death; Trees; Vapor pressure; Vapour pressure; Vegetal Biology; Viewpoints; monitoring network; carbon-water cycling; tree death; dynamic vegetation models; insects and pathogens
• ISSN: 0028-646X; 1469-8137
• DOI: 10.1111/nph.15048

Accumulating evidence highlights increased mortality risks for trees during severe drought, particularly under warmer temperatures and increasing vapour pressure deficit (VPD). Resulting forest die-off events have severe consequences for ecosystem services, biophysical and biogeochemical land–atmosphere processes. Despite advances in monitoring, modelling and experimental studies of the causes and consequences of tree death from individual tree to ecosystem and global scale, a general mechanistic understanding and realistic predictions of drought mortality under future climate conditions are still lacking. We update a global tree mortality map and present a roadmap to a more holistic understanding of forest mortality across scales. We highlight priority research frontiers that promote: (1) new avenues for research on key tree ecophysiological responses to drought; (2) scaling from the tree/plot level to the ecosystem and region; (3) improvements of mortality risk predictions based on both empirical and mechanistic insights; and (4) a global monitoring network of forest mortality. In light of recent and anticipated large forest die-off events such a research agenda is timely and needed to achieve scientific understanding for realistic predictions of drought-induced tree mortality. The implementation of a sustainable network will require support by stakeholders and political authorities at the international level.