Leaf morphological and physiological adaptations of a deciduous oak (Quercus faginea Lam.) to the Mediterranean climate: A comparison with a closely related temperate species (Quercus robur L.)
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Date
2015
Authors
Gil Pelegrín, EustaquioSancho Knapik, Domingo
Peguero Pina, José Javier
Sisó S
Díaz-Espejo A
Flexas J
Galmés J
Journal Title
Journal ISSN
Volume Title
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Typology
articleArticle
Abstract
'White oaks' - one of the main groups of the genus Quercus L. - are represented in western Eurasia by the 'roburoid oaks', a deciduous and closely related genetic group that should have an Arcto-Tertiary origin under temperate-nemoral climates. Nowadays, roburoid oak species such as Quercus robur L. are still present in these temperate climates in Europe, but others are also present in southern Europe under Mediterranean-type climates, such as Quercus faginea Lam. We hypothesize the existence of a coordinated functional response at the whole-shoot scale in Q. faginea under Mediterranean conditions to adapt to more xeric habitats. The results reveal a clear morphological and physiological segregation between Q. robur and Q. faginea, which constitute two very contrasting functional types in response to climate dryness. The most outstanding divergence between the two species is the reduction in transpiring area in Q. faginea, which is the main trait imposed by the water deficit in Mediterranean-type climates. The reduction in leaf area ratio in Q. faginea should have a negative effect on carbon gain that is partially counteracted by a higher inherent photosynthetic ability of Q. faginea when compared with Q. robur, as a consequence of higher mesophyll conductance, higher maximum velocity of carboxylation and much higher stomatal conductance (gs). The extremely high gs of Q. faginea counteracts the expected reduction in gs imposed by the stomatal sensitivity to vapor pressure deficit, allowing this species to diminish water losses maintaining high net CO2 assimilation values along the vegetative period under nonlimiting soil water potential values. In conclusion, the present study demonstrates that Q. faginea can be regarded as an example of adaptation of a deciduous oak to Mediterranean-type climates. © 2015 The Author 2015.
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Bibliographic citation
Peguero-Pina, J. J., Sisó, S., Sancho-Knapik, D., Díaz-Espejo, A., Flexas, J., Galmés, J., & Gil-Pelegrín, E. (2016). Leaf morphological and physiological adaptations of a deciduous oak (Quercus faginea Lam.) to the Mediterranean climate: A comparison with a closely related temperate species (Quercus robur L.). Tree Physiology, 36(3), 287-299. https://doi.org/10.1093/treephys/tpv107
AGROVOC subjects
Quercus fagineaQuercus robur
Adaptación
Clima mediterráneo
Other field subjects
leaf arearoburoid oaks
stomatal conductance
Adaptation
Adaptation, Physiological
ANATOMICAL PROPERTIES
anatomy and histology
AREA RATIO
Carbon Dioxide
Climate
climate effect
CO2 ASSIMILATION
Comparative Study
deciduous tree
Divergence
Drought
Europe
functional morphology
functional role
Hydraulic Conductance
Iberian Peninsula
ILEX SUBSP BALLOTA
leaf area
Leaf morphology
Mediterranean Environment
Mediterranean Region
mesophyll cell
Mesophyll cells
MESOPHYLL DIFFUSION CONDUCTANCE
Metabolism
Nitrogen
Oak
Photosynthesis
PHOTOSYNTHETIC CAPACITY
Physiological Response
Physiology
Plant Leaf
Plant Leaves
plant stoma
Plant Stomata
Quercus
Quercus alba
Quercus faginea
Quercus robur
Rain
Relatedness
Ribulose-Bisphosphate Carboxylase
ribulosebisphosphate carboxylase
roburoid oaks
Season
Seasons
SOIL WATER POTENTIAL
Southern Europe
Species Difference
Species Specificity
Stomatal conductance
temperate environment
Temperature
Vapor pressure
vapor pressure deficit