A. Tiekstra scite author profile

A. Tiekstra

5Publications

100Citation Statements Received

52Citation Statements Given

How they've been cited

164

How they cite others

Affiliations

University of Bristol

Publications

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Stomatal Closure in Flooded Tomato Plants Involves Abscisic Acid and a Chemically Unidentified Anti-Transpirant in Xylem Sap

et al. 1996

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We address the question of how soil flooding closes stomata of tomato (Lycopersicon esculentum Mill. cv Ailsa Craig) plants within a few hours in the absence of leaf water deficits. Three hypotheses to explain this were tested, namely that (a) flooding increases abscisic acid (ABA) export in xylem sap from roots, (b) flooding increases ABA synthesis and export from older to younger leaves, and (c) flooding promotes accumulation of ABA within foliage because of reduced export. Hypothesis a was rejected because delivery of ABA from flooded roots in xylem sap decreased. Hypothesis b was rejected because older leaves neither supplied younger leaves with ABA nor influenced their stomata. Limited support was obtained for hypothesis c. Heat girdling of petioles inhibited phloem export and mimicked flooding by decreasing export of [14C]sucrose, increasing bulk ABA, and closing stomata without leaf water deficits. However, in flooded plants bulk leaf ABA did not increase until after stomata began to close. Later, ABA declined, even though stomata remained closed. Commelina communis L. epidermal strip bioassays showed that xylem sap from roots of flooded tomato plants contained an unknown factor that promoted stomatal closure, but it was not ABA. This may be a root-sourced positive message that closes stomata in flooded tomato plants.

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External Pressures Based on Leaf Water Potentials Do Not Induce Xylem Sap to Flow at Rates of Whole Plant Transpiration from Roots of Flooded or Well-drained Tomato and Maize Plants. Impact of Shoot Hydraulic Resistances

Tiekstra¹

2000

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Cryopreservation of Lilium Species and Cultivars

Bouman¹,

Tiekstra²,

Petutschnig³

et al. 2003

Acta Hortic.

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Adaptions of the mineral composition of tissue culture media on the basis of plant elemental analysis and composition of hydroponic substrates

Bouman¹,

Tiekstra²

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Development of New Tissue Culture Media, Using the Relation Between Mineral Composition of Plant and Medium

Bouman¹,

Morris²,

Tiekstra³

2001

Acta Hortic.

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A. Tiekstra

Stomatal Closure in Flooded Tomato Plants Involves Abscisic Acid and a Chemically Unidentified Anti-Transpirant in Xylem Sap

External Pressures Based on Leaf Water Potentials Do Not Induce Xylem Sap to Flow at Rates of Whole Plant Transpiration from Roots of Flooded or Well-drained Tomato and Maize Plants. Impact of Shoot Hydraulic Resistances

Cryopreservation of Lilium Species and Cultivars

Adaptions of the mineral composition of tissue culture media on the basis of plant elemental analysis and composition of hydroponic substrates

Development of New Tissue Culture Media, Using the Relation Between Mineral Composition of Plant and Medium

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