Photosynthetic parameters of Juglans nigra trees are linked to cumulative water stress

The influence of water deficits and drought on tree physiological processes, growth, and survival has been the focus of substantial research efforts and debate over the past decades, but there is still a need to quantitatively link finer scale mechanistic explanations of the influence of water statu...

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Bibliographic Details
Published inCanadian journal of forest research Vol. 49; no. 7; pp. 752 - 758
Main Authors Gauthier, Martin-Michel, Jacobs, Douglass F
Format Journal Article
LanguageEnglish
Published Ottawa NRC Research Press 01.07.2019
Canadian Science Publishing NRC Research Press
Subjects
Aquatic resources
Carbon dioxide
Carbon dioxide fixation
Carbon sequestration
changement climatique
climate change
Climatic changes
Drought
Droughts
gas exchange
Influence
Juglans nigra
Light levels
noyer
Photons
Photosynthesis
Physiological aspects
Physiological responses
Physiology
Phytochemistry
Scientific equipment and supplies industry
Stress
stress hydrique
Studies
sécheresse
Trees
United States
Vertical orientation
walnut
Water
Water stress
échange gazeux
United States
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Summary:The influence of water deficits and drought on tree physiological processes, growth, and survival has been the focus of substantial research efforts and debate over the past decades, but there is still a need to quantitatively link finer scale mechanistic explanations of the influence of water status with the physiological responses of trees, particularly for those past the sapling stage. Hence, the objective of this study was to link accumulated water stress during the growing season to leaf physiological response mechanisms of Juglans nigra L. trees. Results showed that trees subjected to higher cumulative water stress had lower maximum light-saturated photosynthesis (A max ), initiated net photosynthesis at higher light levels (I c ), and displayed reduced effectiveness of CO 2 fixation per photons absorbed (Q e ) at the bottom and upper positions along the vertical canopy gradient. Results suggest that water stress integral (S ψ ), a variable that takes into account accumulated water deficits, would be useful to help future research efforts aimed at investigating responses to drought in trees past the sapling stage.
ISSN:0045-5067
1208-6037
DOI:10.1139/cjfr-2018-0355