2002
DOI: 10.1007/s00442-002-1009-2
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Xylem hydraulic properties of roots and stems of nine Mediterranean woody species

Abstract: We studied the hydraulic architecture and water relations of nine co-occurring woody species in a Spanish evergreen oak forest over the course of a dry season. Our main objectives were to: (1) test the existence of a trade-off between hydraulic conductivity and security in the xylem, and (2) establish the safety margins at which the species operated in relation to hydraulic failure, and compare these safety margins between species and tissues (roots vs. stems). Our results showed that the relationship between … Show more

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Cited by 322 publications
(293 citation statements)
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“…P50 and a values were obtained from vulnerability curves established on roots and branches using the dehydration (Q. ilex; [47]) and air-injection methods (P. sylvestris; [30]) for individuals from the same populations studied here. Values of P to estimate PLC were obtained from measured water potentials (ΨMD for branch PLC and ΨPD for root PLC).…”
Section: Percentage Loss Of Hydraulic Conductivitymentioning
confidence: 99%
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“…P50 and a values were obtained from vulnerability curves established on roots and branches using the dehydration (Q. ilex; [47]) and air-injection methods (P. sylvestris; [30]) for individuals from the same populations studied here. Values of P to estimate PLC were obtained from measured water potentials (ΨMD for branch PLC and ΨPD for root PLC).…”
Section: Percentage Loss Of Hydraulic Conductivitymentioning
confidence: 99%
“…Values of P to estimate PLC were obtained from measured water potentials (ΨMD for branch PLC and ΨPD for root PLC). All sampling methods and vulnerability curve measurements are detailed in Aguadé et al [30] and Martínez-Vilalta et al [47]. Since there is controversy regarding the best method for establishing vulnerability curves, particularly for species with long vessels such as Q. ilex, we also estimated PLC using the vulnerability curve coefficients (a and P50) estimated in another study comparing several methods to establish vulnerability curves in Q. ilex [48], which obtained higher embolism resistance than the study cited above [47] that was conducted at our study site.…”
Section: Percentage Loss Of Hydraulic Conductivitymentioning
confidence: 99%
“…Xylem properties can differ largely among different tree species and also between roots, stem and branches of the same tree (Martínez-Vilalta et al 2002). It is assumed that about half of a plant's total hydraulic resistance is located belowground, which emphasizes the crucial role played by the root system in water flux control (Passioura 1988;Tyree and Ewers 1991).…”
Section: Introductionmentioning
confidence: 99%
“…It is assumed that about half of a plant's total hydraulic resistance is located belowground, which emphasizes the crucial role played by the root system in water flux control (Passioura 1988;Tyree and Ewers 1991). Surface roots may function like valves in the soil-plant-atmosphere flow path by enabling rapid water transport when the soil is wet, but disconnecting the plant from the driest soil patches through the development of drought-induced embolism (Alder et al 1996;Martínez-Vilalta et al 2002). In agreement with this idea, Sperry and Saliendra (1994) argued that xylem embolism should be easier to reverse in roots than in stems because roots frequently experience positive or near-positive pressures.…”
Section: Introductionmentioning
confidence: 99%
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