Rumor has it...: relay communication of stress cues in plants.

Rumor has it...: relay communication of stress cues in plants.

Recent evidence demonstrates that plants are able not only to perceive and adaptively respond to external information but also to anticipate forthcoming hazards and stresses. Here, we tested the hypothesis that unstressed plants are able to respond to stress cues emitted from their abiotically-stres...

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Main Authors: Omer Falik, Yonat Mordoch, Lydia Quansah, Aaron Fait, Ariel Novoplansky
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3206794?pdf=render
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spelling doaj-9eac4916b016445f931f85c2d81ceb9a2020-11-25T00:26:49ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-01611e2362510.1371/journal.pone.0023625Rumor has it...: relay communication of stress cues in plants.Omer FalikYonat MordochLydia QuansahAaron FaitAriel NovoplanskyRecent evidence demonstrates that plants are able not only to perceive and adaptively respond to external information but also to anticipate forthcoming hazards and stresses. Here, we tested the hypothesis that unstressed plants are able to respond to stress cues emitted from their abiotically-stressed neighbors and in turn induce stress responses in additional unstressed plants located further away from the stressed plants. Pisum sativum plants were subjected to drought while neighboring rows of five unstressed plants on both sides, with which they could exchange different cue combinations. On one side, the stressed plant and its unstressed neighbors did not share their rooting volumes (UNSHARED) and thus were limited to shoot communication. On its other side, the stressed plant shared one of its rooting volumes with its nearest unstressed neighbor and all plants shared their rooting volumes with their immediate neighbors (SHARED), allowing both root and shoot communication. Fifteen minutes following drought induction, significant stomatal closure was observed in both the stressed plants and their nearest unstressed SHARED neighbors, and within one hour, all SHARED neighbors closed their stomata. Stomatal closure was not observed in the UNSHARED neighbors. The results demonstrate that unstressed plants are able to perceive and respond to stress cues emitted by the roots of their drought-stressed neighbors and, via 'relay cuing', elicit stress responses in further unstressed plants. Further work is underway to study the underlying mechanisms of this new mode of plant communication and its possible adaptive implications for the anticipation of forthcoming abiotic stresses by plants.http://europepmc.org/articles/PMC3206794?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Omer Falik
Yonat Mordoch
Lydia Quansah
Aaron Fait
Ariel Novoplansky
spellingShingle Omer Falik
Yonat Mordoch
Lydia Quansah
Aaron Fait
Ariel Novoplansky
Rumor has it...: relay communication of stress cues in plants.
PLoS ONE
author_facet Omer Falik
Yonat Mordoch
Lydia Quansah
Aaron Fait
Ariel Novoplansky
author_sort Omer Falik
title Rumor has it...: relay communication of stress cues in plants.
title_short Rumor has it...: relay communication of stress cues in plants.
title_full Rumor has it...: relay communication of stress cues in plants.
title_fullStr Rumor has it...: relay communication of stress cues in plants.
title_full_unstemmed Rumor has it...: relay communication of stress cues in plants.
title_sort rumor has it...: relay communication of stress cues in plants.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Recent evidence demonstrates that plants are able not only to perceive and adaptively respond to external information but also to anticipate forthcoming hazards and stresses. Here, we tested the hypothesis that unstressed plants are able to respond to stress cues emitted from their abiotically-stressed neighbors and in turn induce stress responses in additional unstressed plants located further away from the stressed plants. Pisum sativum plants were subjected to drought while neighboring rows of five unstressed plants on both sides, with which they could exchange different cue combinations. On one side, the stressed plant and its unstressed neighbors did not share their rooting volumes (UNSHARED) and thus were limited to shoot communication. On its other side, the stressed plant shared one of its rooting volumes with its nearest unstressed neighbor and all plants shared their rooting volumes with their immediate neighbors (SHARED), allowing both root and shoot communication. Fifteen minutes following drought induction, significant stomatal closure was observed in both the stressed plants and their nearest unstressed SHARED neighbors, and within one hour, all SHARED neighbors closed their stomata. Stomatal closure was not observed in the UNSHARED neighbors. The results demonstrate that unstressed plants are able to perceive and respond to stress cues emitted by the roots of their drought-stressed neighbors and, via 'relay cuing', elicit stress responses in further unstressed plants. Further work is underway to study the underlying mechanisms of this new mode of plant communication and its possible adaptive implications for the anticipation of forthcoming abiotic stresses by plants.
url http://europepmc.org/articles/PMC3206794?pdf=render
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