A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley

A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley

Terminal drought stress decreases crop yields by inducing abscisic acid (ABA) and premature leaf senescence. As potassium (K) is known to interfere with ABA homeostasis we addressed the question whether there is genetic variability regarding the role of K nutrition in ABA homeostasis and drought tol...

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Main Authors: Seyed A. Hosseini, Mohammad R. Hajirezaei, Christiane eSeiler, Nese eSreenivasulu, Nicolaus evon Wirén
Format: Article
Language:English
Published: Frontiers Media S.A. 2016-02-01
Series:Frontiers in Plant Science
Subjects:
Starch metabolism
drought stress tolerance
Primary metabolites
Potassium efficiency
ABA homeostasis
Online Access:http://journal.frontiersin.org/Journal/10.3389/fpls.2016.00206/full
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spelling doaj-96daf19c01234330b0283d53ebfae79a2020-11-25T01:07:31ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2016-02-01710.3389/fpls.2016.00206181358A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barleySeyed A. Hosseini0Mohammad R. Hajirezaei1Christiane eSeiler2Nese eSreenivasulu3Nicolaus evon Wirén4IPK GaterslebenIPK GaterslebenLeibniz-Institute for Plant Genetics and Crop Plant ResearchLeibniz-Institute for Plant Genetics and Crop Plant ResearchIPK GaterslebenTerminal drought stress decreases crop yields by inducing abscisic acid (ABA) and premature leaf senescence. As potassium (K) is known to interfere with ABA homeostasis we addressed the question whether there is genetic variability regarding the role of K nutrition in ABA homeostasis and drought tolerance. To compare their response to drought stress, two barley lines contrasting in drought-induced leaf senescence were grown in a pot experiment under high and low K supply for the analysis of flag leaves from the same developmental stage. Relative to the drought-sensitive line LPR, the line HPR retained more K in its flag leaves under low K supply and showed delayed flag leaf senescence under terminal drought stress. High K retention was further associated with a higher leaf water status, a higher concentration of starch and other primary carbon metabolites. With regard to ABA homeostasis, HPR accumulated less ABA but higher levels of the ABA degradation products phaseic acid and dehydro-phaseic acid. Under K deficiency this went along with higher transcript levels of ABA8’-HYDROXYLASE, encoding a key enzyme in ABA degradation. The present study provides evidence for a positive impact of the K nutritional status on ABA homeostasis and carbohydrate metabolism under drought stress. We conclude that genotypes with a high K nutritional status in the flag leaf show superior drought tolerance by promoting ABA degradation but attenuating starch degradation which delays flag leaf senescence. Flag leaf K levels may thus represent a useful trait for the selection of drought-tolerant barley cultivars.http://journal.frontiersin.org/Journal/10.3389/fpls.2016.00206/fullStarch metabolismdrought stress tolerancePrimary metabolitesPotassium efficiencyABA homeostasis
collection DOAJ
language English
format Article
sources DOAJ
author Seyed A. Hosseini
Mohammad R. Hajirezaei
Christiane eSeiler
Nese eSreenivasulu
Nicolaus evon Wirén
spellingShingle Seyed A. Hosseini
Mohammad R. Hajirezaei
Christiane eSeiler
Nese eSreenivasulu
Nicolaus evon Wirén
A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley
Frontiers in Plant Science
Starch metabolism
drought stress tolerance
Primary metabolites
Potassium efficiency
ABA homeostasis
author_facet Seyed A. Hosseini
Mohammad R. Hajirezaei
Christiane eSeiler
Nese eSreenivasulu
Nicolaus evon Wirén
author_sort Seyed A. Hosseini
title A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley
title_short A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley
title_full A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley
title_fullStr A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley
title_full_unstemmed A potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley
title_sort potential role of flag leaf potassium in conferring tolerance to drought-induced leaf senescence in barley
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2016-02-01
description Terminal drought stress decreases crop yields by inducing abscisic acid (ABA) and premature leaf senescence. As potassium (K) is known to interfere with ABA homeostasis we addressed the question whether there is genetic variability regarding the role of K nutrition in ABA homeostasis and drought tolerance. To compare their response to drought stress, two barley lines contrasting in drought-induced leaf senescence were grown in a pot experiment under high and low K supply for the analysis of flag leaves from the same developmental stage. Relative to the drought-sensitive line LPR, the line HPR retained more K in its flag leaves under low K supply and showed delayed flag leaf senescence under terminal drought stress. High K retention was further associated with a higher leaf water status, a higher concentration of starch and other primary carbon metabolites. With regard to ABA homeostasis, HPR accumulated less ABA but higher levels of the ABA degradation products phaseic acid and dehydro-phaseic acid. Under K deficiency this went along with higher transcript levels of ABA8’-HYDROXYLASE, encoding a key enzyme in ABA degradation. The present study provides evidence for a positive impact of the K nutritional status on ABA homeostasis and carbohydrate metabolism under drought stress. We conclude that genotypes with a high K nutritional status in the flag leaf show superior drought tolerance by promoting ABA degradation but attenuating starch degradation which delays flag leaf senescence. Flag leaf K levels may thus represent a useful trait for the selection of drought-tolerant barley cultivars.
topic Starch metabolism
drought stress tolerance
Primary metabolites
Potassium efficiency
ABA homeostasis
url http://journal.frontiersin.org/Journal/10.3389/fpls.2016.00206/full
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