Repeated extreme heatwaves result in higher leaf thermal tolerances and greater safety margins

Date

2021

Authors

Ahrens, Collin W.
Challis, Anthea
Byrne, Margaret
Leigh, Andrea
Nicotra, Adrienne
Tissue, David
Rymer, Paul

Journal Title

Journal ISSN

Volume Title

Publisher

Wiley

Abstract

The frequency and severity of heatwave events are increasing, exposing species to conditions beyond their physiological limits. Species respond to heatwaves in different ways, however it remains unclear if plants have the adaptive capacity to successfully respond to hotter and more frequent heatwaves. We exposed eight tree populations from two climate regions grown under cool and warm temperatures to repeated heatwave events of moderate (40°C) and extreme (46°C) severity to assess adaptive capacity to heatwaves. Leaf damage and maximum quantum efficiency of photosystem II (Fv/Fm) were significantly impacted by heatwave severity and growth temperatures, respectively; populations from a warm-origin avoided damage under moderate heatwaves compared to those from a cool-origin, indicating a degree of local adaptation. We found that plasticity to heatwave severity and repeated heatwaves contributed to enhanced thermal tolerance and lower leaf temperatures, leading to greater thermal safety margins (thermal tolerance minus leaf temperature) in a second heatwave. Notably, while we show that adaptation and physiological plasticity are important factors affecting plant adaptive capacity to thermal stress, plasticity of thermal tolerances and thermal safety margins provides the opportunity for trees to persist among fluctuating heatwave exposures.

Description

Keywords

acclimation, adaptive capacity, climate change, Eucalyptus, plasticity

Citation

Source

New Phytologist

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2099-12-31