Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time

Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time

To survive the temperature variation that occurs during the winter months, winter wheat (Triticum aestivum L.) plants must tolerate episodes of freezing of varying intensity and duration. In this study, fully cold-acclimated plants of six lines of winter wheat were exposed to -12, -14, -16, or -18 °...

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Main Authors: Cecilia Cuevas, Brian Bellinger, Daniel Skinner
Format: Article
Language:English
Published: Communications in Plant Sciences 2014-11-01
Series:Communications in Plant Sciences
Subjects:
Triticum aestivum
Winterhardiness
Freezing
Cold
Tolerance
Online Access:https://complantsci.files.wordpress.com/2014/11/complantsci_5_1_2.pdf
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spelling doaj-58bc2d37822749a8aa16a3d106a9d3052020-11-24T22:01:46ZengCommunications in Plant SciencesCommunications in Plant Sciences2237-40272237-40272014-11-0151-2914Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of timeCecilia Cuevas0Brian Bellinger1Daniel Skinner2USDA - ARS and Department of Crop an d Soil Sciences, 209 Johnson Hall, Washington State Uni versity , Pullman, WA 99164 USAUSDA - ARS and Department of Crop an d Soil Sciences, 209 Johnson Hall, Washington State Uni versity , Pullman, WA 99164 USAUSDA - ARS and Department of Crop an d Soil Sciences, 209 Johnson Hall, Washington State Uni versity , Pullman, WA 99164 USATo survive the temperature variation that occurs during the winter months, winter wheat (Triticum aestivum L.) plants must tolerate episodes of freezing of varying intensity and duration. In this study, fully cold-acclimated plants of six lines of winter wheat were exposed to -12, -14, -16, or -18 °C, for 1-5 hours. Electrolyte leakage and plant survival were used to assess damage to the plants. Plants exposed to subzero temperatures for 4 hours experienced less electrolyte leakage and survived more frequently than plants exposed for 1-3, or 5 hours. This increased tolerance of freezing stress after longer exposure suggests a threshold effect that, once reached, results in activation of mechanisms that enable greater stability of the cell membranes and greater plant survival. Further elucidation of this mechanism and the genes involved may provide new avenues of approach to improve freezing tolerance of crop plants.https://complantsci.files.wordpress.com/2014/11/complantsci_5_1_2.pdfTriticum aestivumWinterhardinessFreezingColdTolerance
collection DOAJ
language English
format Article
sources DOAJ
author Cecilia Cuevas
Brian Bellinger
Daniel Skinner
spellingShingle Cecilia Cuevas
Brian Bellinger
Daniel Skinner
Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time
Communications in Plant Sciences
Triticum aestivum
Winterhardiness
Freezing
Cold
Tolerance
author_facet Cecilia Cuevas
Brian Bellinger
Daniel Skinner
author_sort Cecilia Cuevas
title Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time
title_short Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time
title_full Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time
title_fullStr Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time
title_full_unstemmed Membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time
title_sort membrane stability of winter wheat plants exposed to subzero temperatures for variable lengths of time
publisher Communications in Plant Sciences
series Communications in Plant Sciences
issn 2237-4027
2237-4027
publishDate 2014-11-01
description To survive the temperature variation that occurs during the winter months, winter wheat (Triticum aestivum L.) plants must tolerate episodes of freezing of varying intensity and duration. In this study, fully cold-acclimated plants of six lines of winter wheat were exposed to -12, -14, -16, or -18 °C, for 1-5 hours. Electrolyte leakage and plant survival were used to assess damage to the plants. Plants exposed to subzero temperatures for 4 hours experienced less electrolyte leakage and survived more frequently than plants exposed for 1-3, or 5 hours. This increased tolerance of freezing stress after longer exposure suggests a threshold effect that, once reached, results in activation of mechanisms that enable greater stability of the cell membranes and greater plant survival. Further elucidation of this mechanism and the genes involved may provide new avenues of approach to improve freezing tolerance of crop plants.
topic Triticum aestivum
Winterhardiness
Freezing
Cold
Tolerance
url https://complantsci.files.wordpress.com/2014/11/complantsci_5_1_2.pdf
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AT brianbellinger membranestabilityofwinterwheatplantsexposedtosubzerotemperaturesforvariablelengthsoftime
AT danielskinner membranestabilityofwinterwheatplantsexposedtosubzerotemperaturesforvariablelengthsoftime
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