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Stomatal and leaf growth responses to partial drying of root tips in willow.

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Stomatal and leaf growth responses to partial drying of root tips in willow. / Liu, L.; McDonald, A. J. S.; Stadenberg, I. et al.
In: Tree Physiology, Vol. 21, No. 11, 07.2001, p. 765-770.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Liu, L, McDonald, AJS, Stadenberg, I & Davies, WJ 2001, 'Stomatal and leaf growth responses to partial drying of root tips in willow.', Tree Physiology, vol. 21, no. 11, pp. 765-770. <http://heronpublishing.com/tree/summaries/volume21/a21-765.html>

APA

Liu, L., McDonald, A. J. S., Stadenberg, I., & Davies, W. J. (2001). Stomatal and leaf growth responses to partial drying of root tips in willow. Tree Physiology, 21(11), 765-770. http://heronpublishing.com/tree/summaries/volume21/a21-765.html

Vancouver

Liu L, McDonald AJS, Stadenberg I, Davies WJ. Stomatal and leaf growth responses to partial drying of root tips in willow. Tree Physiology. 2001 Jul;21(11):765-770.

Author

Liu, L. ; McDonald, A. J. S. ; Stadenberg, I. et al. / Stomatal and leaf growth responses to partial drying of root tips in willow. In: Tree Physiology. 2001 ; Vol. 21, No. 11. pp. 765-770.

Bibtex

@article{60d3197021094521865c9b55a3c4975e,
title = "Stomatal and leaf growth responses to partial drying of root tips in willow.",
abstract = "Root tips of intact willow (Salix dasyclados Wimm., Clone 81-090) plants were partially dried by exposure to ambient greenhouse air and then kept in water-vapor-saturated air for up to 3 days. The drying treatment increased abscisic acid (ABA) concentrations in both the root tips subjected to drying and in the xylem sap, while it reduced leaf stomatal conductance and leaf extension rate. Despite the decrease in stomatal conductance, leaf water potentials were unaffected by the root drying treatment, indicating that the treatment reduced hydraulic conductivity between roots and foliage. After roots subjected to drying were returned to a nutrient solution or excised, ABA concentrations in the remaining roots and in the xylem sap, stomatal conductance of mature leaves and extension rate of unfolding leaves all returned to values observed in control plants. The 4-fold increase in xylem sap ABA concentration following the root drying treatment was not solely the result of reduced sap flow, and thus may be considered a potential cause, not merely a consequence, of the observed reduction in stomatal conductance.",
keywords = "abscisic acid, leaf extension rate, root drying, stomatal conductance, willow.",
author = "L. Liu and McDonald, {A. J. S.} and I. Stadenberg and Davies, {William J.}",
year = "2001",
month = jul,
language = "English",
volume = "21",
pages = "765--770",
journal = "Tree Physiology",
issn = "1758-4469",
publisher = "Oxford University Press",
number = "11",

}

RIS

TY - JOUR

T1 - Stomatal and leaf growth responses to partial drying of root tips in willow.

AU - Liu, L.

AU - McDonald, A. J. S.

AU - Stadenberg, I.

AU - Davies, William J.

PY - 2001/7

Y1 - 2001/7

N2 - Root tips of intact willow (Salix dasyclados Wimm., Clone 81-090) plants were partially dried by exposure to ambient greenhouse air and then kept in water-vapor-saturated air for up to 3 days. The drying treatment increased abscisic acid (ABA) concentrations in both the root tips subjected to drying and in the xylem sap, while it reduced leaf stomatal conductance and leaf extension rate. Despite the decrease in stomatal conductance, leaf water potentials were unaffected by the root drying treatment, indicating that the treatment reduced hydraulic conductivity between roots and foliage. After roots subjected to drying were returned to a nutrient solution or excised, ABA concentrations in the remaining roots and in the xylem sap, stomatal conductance of mature leaves and extension rate of unfolding leaves all returned to values observed in control plants. The 4-fold increase in xylem sap ABA concentration following the root drying treatment was not solely the result of reduced sap flow, and thus may be considered a potential cause, not merely a consequence, of the observed reduction in stomatal conductance.

AB - Root tips of intact willow (Salix dasyclados Wimm., Clone 81-090) plants were partially dried by exposure to ambient greenhouse air and then kept in water-vapor-saturated air for up to 3 days. The drying treatment increased abscisic acid (ABA) concentrations in both the root tips subjected to drying and in the xylem sap, while it reduced leaf stomatal conductance and leaf extension rate. Despite the decrease in stomatal conductance, leaf water potentials were unaffected by the root drying treatment, indicating that the treatment reduced hydraulic conductivity between roots and foliage. After roots subjected to drying were returned to a nutrient solution or excised, ABA concentrations in the remaining roots and in the xylem sap, stomatal conductance of mature leaves and extension rate of unfolding leaves all returned to values observed in control plants. The 4-fold increase in xylem sap ABA concentration following the root drying treatment was not solely the result of reduced sap flow, and thus may be considered a potential cause, not merely a consequence, of the observed reduction in stomatal conductance.

KW - abscisic acid

KW - leaf extension rate

KW - root drying

KW - stomatal conductance

KW - willow.

M3 - Journal article

VL - 21

SP - 765

EP - 770

JO - Tree Physiology

JF - Tree Physiology

SN - 1758-4469

IS - 11

ER -