Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits

Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits

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Many temperate European tree species have their southernmost distribution limits in the Mediterranean Basin. The projected climatic conditions, particularly an increase in dryness, might induce an altitudinal and latitudinal retreat at their southernmost distribution limit. Therefore, characterizing the morphological and physiological variability of temperate tree species under dry conditions is essential to understand species’ responses to expected climate change. In this study, we compared branch-level hydraulic traits of four Scots pine and four sessile oak natural stands located at the western and central Mediterranean Basin to assess their adjustment to water limiting conditions. Hydraulic traits such as xylem- and leaf-specific maximum hydraulic conductivity (KS-MAX and KL-MAX), leaf-to-xylem area ratio (AL:AX) and functional xylem fraction (FX) were measured in July 2015 during a long and exceptionally dry summer. Additionally, xylem-specific native hydraulic conductivity (KS-N) and native percentage of loss of hydraulic conductivity (PLC) were measured for Scots pine. Interspecific differences in these hydraulic traits as well as intraspecific variability between sites were assessed. The influence of annual, summer and growing season site climatic aridity (P/PET) on intraspecific variability was investigated. Sessile oak displayed higher values of KS-MAX, KL-MAX, AL:AX but a smaller percentage of FX than Scots pines. Scots pine did not vary in any of the measured hydraulic traits across the sites, and PLC values were low for all sites, even during one of the warmest summers in the region. In contrast, sessile oak showed significant differences in KS-MAX, KL-MAX, and FX across sites, which were significantly related to site aridity. The striking similarity in the hydraulic traits across Scots pine sites suggests that no adjustment in hydraulic architecture was needed, likely as a consequence of a drought-avoidance strategy. In contrast, sessile oak displayed adjustments in the hydraulic architecture along an aridity gradient, pointing to a drought-tolerance strategy.

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Bibliographic Details
Main Authors: Martínez-Sancho, E., Dorado-Liñán, I., Hacke, U. G., Seidel, H., Menzel, A.
Format: artículo biblioteca
Language:English
Published: Frontiers Media 2017
Subjects:Anisohydric, Drought, Functional xylem anatomy, Isohydric, Hydraulic conductivity, Mediterranean Basin, Pinus sylvestris, Quercus petraea,
Online Access:http://hdl.handle.net/20.500.12792/2775
http://hdl.handle.net/10261/290305
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spelling dig-inia-es-10261-2903052023-02-17T08:29:29Z Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits Martínez-Sancho, E. Dorado-Liñán, I. Hacke, U. G. Seidel, H. Menzel, A. Anisohydric Drought Functional xylem anatomy Isohydric Hydraulic conductivity Mediterranean Basin Pinus sylvestris Quercus petraea Many temperate European tree species have their southernmost distribution limits in the Mediterranean Basin. The projected climatic conditions, particularly an increase in dryness, might induce an altitudinal and latitudinal retreat at their southernmost distribution limit. Therefore, characterizing the morphological and physiological variability of temperate tree species under dry conditions is essential to understand species’ responses to expected climate change. In this study, we compared branch-level hydraulic traits of four Scots pine and four sessile oak natural stands located at the western and central Mediterranean Basin to assess their adjustment to water limiting conditions. Hydraulic traits such as xylem- and leaf-specific maximum hydraulic conductivity (KS-MAX and KL-MAX), leaf-to-xylem area ratio (AL:AX) and functional xylem fraction (FX) were measured in July 2015 during a long and exceptionally dry summer. Additionally, xylem-specific native hydraulic conductivity (KS-N) and native percentage of loss of hydraulic conductivity (PLC) were measured for Scots pine. Interspecific differences in these hydraulic traits as well as intraspecific variability between sites were assessed. The influence of annual, summer and growing season site climatic aridity (P/PET) on intraspecific variability was investigated. Sessile oak displayed higher values of KS-MAX, KL-MAX, AL:AX but a smaller percentage of FX than Scots pines. Scots pine did not vary in any of the measured hydraulic traits across the sites, and PLC values were low for all sites, even during one of the warmest summers in the region. In contrast, sessile oak showed significant differences in KS-MAX, KL-MAX, and FX across sites, which were significantly related to site aridity. The striking similarity in the hydraulic traits across Scots pine sites suggests that no adjustment in hydraulic architecture was needed, likely as a consequence of a drought-avoidance strategy. In contrast, sessile oak displayed adjustments in the hydraulic architecture along an aridity gradient, pointing to a drought-tolerance strategy. 2023-02-17T08:29:29Z 2023-02-17T08:29:29Z 2017 artículo Frontiers in Plant Science 8: e598 (2017) http://hdl.handle.net/20.500.12792/2775 http://hdl.handle.net/10261/290305 10.3389/fpls.2017.00598 1664-302X en open Frontiers Media
institution INIA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-inia-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del INIA España
language English
topic Anisohydric
Drought
Functional xylem anatomy
Isohydric
Hydraulic conductivity
Mediterranean Basin
Pinus sylvestris
Quercus petraea
Anisohydric
Drought
Functional xylem anatomy
Isohydric
Hydraulic conductivity
Mediterranean Basin
Pinus sylvestris
Quercus petraea
spellingShingle Anisohydric
Drought
Functional xylem anatomy
Isohydric
Hydraulic conductivity
Mediterranean Basin
Pinus sylvestris
Quercus petraea
Anisohydric
Drought
Functional xylem anatomy
Isohydric
Hydraulic conductivity
Mediterranean Basin
Pinus sylvestris
Quercus petraea
Martínez-Sancho, E.
Dorado-Liñán, I.
Hacke, U. G.
Seidel, H.
Menzel, A.
Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits
description Many temperate European tree species have their southernmost distribution limits in the Mediterranean Basin. The projected climatic conditions, particularly an increase in dryness, might induce an altitudinal and latitudinal retreat at their southernmost distribution limit. Therefore, characterizing the morphological and physiological variability of temperate tree species under dry conditions is essential to understand species’ responses to expected climate change. In this study, we compared branch-level hydraulic traits of four Scots pine and four sessile oak natural stands located at the western and central Mediterranean Basin to assess their adjustment to water limiting conditions. Hydraulic traits such as xylem- and leaf-specific maximum hydraulic conductivity (KS-MAX and KL-MAX), leaf-to-xylem area ratio (AL:AX) and functional xylem fraction (FX) were measured in July 2015 during a long and exceptionally dry summer. Additionally, xylem-specific native hydraulic conductivity (KS-N) and native percentage of loss of hydraulic conductivity (PLC) were measured for Scots pine. Interspecific differences in these hydraulic traits as well as intraspecific variability between sites were assessed. The influence of annual, summer and growing season site climatic aridity (P/PET) on intraspecific variability was investigated. Sessile oak displayed higher values of KS-MAX, KL-MAX, AL:AX but a smaller percentage of FX than Scots pines. Scots pine did not vary in any of the measured hydraulic traits across the sites, and PLC values were low for all sites, even during one of the warmest summers in the region. In contrast, sessile oak showed significant differences in KS-MAX, KL-MAX, and FX across sites, which were significantly related to site aridity. The striking similarity in the hydraulic traits across Scots pine sites suggests that no adjustment in hydraulic architecture was needed, likely as a consequence of a drought-avoidance strategy. In contrast, sessile oak displayed adjustments in the hydraulic architecture along an aridity gradient, pointing to a drought-tolerance strategy.
format artículo
topic_facet Anisohydric
Drought
Functional xylem anatomy
Isohydric
Hydraulic conductivity
Mediterranean Basin
Pinus sylvestris
Quercus petraea
author Martínez-Sancho, E.
Dorado-Liñán, I.
Hacke, U. G.
Seidel, H.
Menzel, A.
author_facet Martínez-Sancho, E.
Dorado-Liñán, I.
Hacke, U. G.
Seidel, H.
Menzel, A.
author_sort Martínez-Sancho, E.
title Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits
title_short Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits
title_full Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits
title_fullStr Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits
title_full_unstemmed Contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits
title_sort contrasting hydraulic architectures of scots pine and sessile oak at their southernmost distribution limits
publisher Frontiers Media
publishDate 2017
url http://hdl.handle.net/20.500.12792/2775
http://hdl.handle.net/10261/290305
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AT hackeug contrastinghydraulicarchitecturesofscotspineandsessileoakattheirsouthernmostdistributionlimits
AT seidelh contrastinghydraulicarchitecturesofscotspineandsessileoakattheirsouthernmostdistributionlimits
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