Hurricanes increase tropical forest vulnerability to drought

Summary Rapid changes in climate and disturbance regimes, including droughts and hurricanes, are likely to influence tropical forests, but our understanding of the compound effects of disturbances on forest ecosystems is extremely limited. Filling this knowledge gap is necessary to elucidate the fut...

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Bibliographic Details
Published in:The New phytologist 2022-08, Vol.235 (3), p.1005-1017
Main Authors: Smith‐Martin, Chris M., Muscarella, Robert, Ankori‐Karlinsky, Roi, Delzon, Sylvain, Farrar, Samuel L., Salva‐Sauri, Melissa, Thompson, Jill, Zimmerman, Jess K., Uriarte, María
Format: Article
Language:English
Subjects:
Capacitance
Climate
Climate change
coastal tropical forests
cyclonic storm
Damage tolerance
Disturbance
Drought
Drought resistance
Ecosystems
Environmental Sciences
Forest ecosystems
Forest productivity
forest succession
Forests
High resistance
Hurricane Hugo
Hurricanes
Mortality
P-50 xylem optical vulnerability curves
P50 xylem optical vulnerability curves
plant hydraulics
plant-climate interactions
Resilience
Safety margins
Species
Storm damage
Terrestrial ecosystems
Threatened species
Tropical climate
Tropical forests
tropical trees and palms
Turgor
Vulnerability
Vulnerable species
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Summary:Summary Rapid changes in climate and disturbance regimes, including droughts and hurricanes, are likely to influence tropical forests, but our understanding of the compound effects of disturbances on forest ecosystems is extremely limited. Filling this knowledge gap is necessary to elucidate the future of these ecosystems under a changing climate. We examined the relationship between hurricane response (damage, mortality, and resilience) and four hydraulic traits of 13 dominant woody species in a wet tropical forest subject to periodic hurricanes. Species with high resistance to embolisms (low P50 values) and higher safety margins (SMP50) were more resistant to immediate hurricane mortality and breakage, whereas species with higher hurricane resilience (rapid post‐hurricane growth) had high capacitance and P50 values and low SMP50. During 26 yr of post‐hurricane recovery, we found a decrease in community‐weighted mean values for traits associated with greater drought resistance (leaf turgor loss point, P50, SMP50) and an increase in capacitance, which has been linked with lower drought resistance. Hurricane damage favors slow‐growing, drought‐tolerant species, whereas post‐hurricane high resource conditions favor acquisitive, fast‐growing but drought‐vulnerable species, increasing forest productivity at the expense of drought tolerance and leading to higher overall forest vulnerability to drought.
ISSN:0028-646X
1469-8137
1469-8137
DOI:10.1111/nph.18175