Leaf morpho-anatomical adjustments in a Quercus pubescens forest after 10 years of partial rain exclusion in the field

In the Mediterranean region, a reduction of annual precipitation and a longer and drier summer season are expected with climate change by the end of the century, eventually endangering forest survival. To cope with such rapid changes, trees may modulate their morpho-anatomical and physiological trai...

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Bibliographic Details
Published in:Tree physiology 2024-05, Vol.44 (5)
Main Authors: Laoué, Justine, Gea-Izquierdo, Guillermo, Dupouyet, Sylvie, Conde, María, Fernandez, Catherine, Ormeño, Elena
Format: Article
Language:English
Subjects:
Climate Change
Droughts
Ecology, environment
Forests
Life Sciences
Plant Leaves - anatomy & histology
Plant Leaves - physiology
Plant Stomata - anatomy & histology
Plant Stomata - physiology
Plant Transpiration - physiology
Quercus - anatomy & histology
Quercus - physiology
Rain
Trees - anatomy & histology
Trees - physiology
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Summary:In the Mediterranean region, a reduction of annual precipitation and a longer and drier summer season are expected with climate change by the end of the century, eventually endangering forest survival. To cope with such rapid changes, trees may modulate their morpho-anatomical and physiological traits. In the present study, we focused on the variation in leaf gas exchange and different leaf morpho-anatomical functional traits of Quercus pubescens Willd. in summer using a long-term drought experiment in natura consisting of a dynamic rainfall exclusion system where trees have been submitted to amplified drought (AD) (~-30% of annual precipitation) since April 2012 and compared them with trees under natural drought (ND) in a Mediterranean forest. During the study, we analyzed net CO2 assimilation (An), stomatal conductance (gs), transpiration (E), water-use efficiency (WUE), stomatal size and density, density of glandular trichomes and non-glandular trichomes, thickness of the different leaf tissues, specific leaf area and leaf surface. Under AD, tree functioning was slightly impacted, since only An exhibited a 49% drop, while gs, E and WUE remained stable. The decrease in An under AD was regulated by concomitant lower stomatal density and reduced leaf thickness. Trees under AD also featured leaves with a higher non-glandular trichome density and a lower glandular trichome density compared with ND, which simultaneously limits transpiration and production costs. This study points out that Q. pubescens exhibits adjustments of leaf morpho-anatomical traits which can help trees to acclimate to AD scenarios as those expected in the future in the Mediterranean region.
ISSN:1758-4469
0829-318X
1758-4469
DOI:10.1093/treephys/tpae047