Nutrient homeostasis within the plant circadian network

Circadian clocks have evolved to enhance adaptive physiology in the predictable, fluctuating environment caused by the rotation of the planet. Nutrient acquisition is central to plant growth performance and the nutrient demands of a plant change according to the time of day. Therefore, major aspects...

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Published in:Frontiers in plant science 2015-04, Vol.6, p.299-299
Main Authors: Haydon, Michael J, Román, Ángela, Arshad, Waheed
Format: Article
Language:English
Subjects:
Arabidopsis
Circadian Clocks
ion
metal
nutrient
Plant Science
Plants
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Arshad, Waheed
description Circadian clocks have evolved to enhance adaptive physiology in the predictable, fluctuating environment caused by the rotation of the planet. Nutrient acquisition is central to plant growth performance and the nutrient demands of a plant change according to the time of day. Therefore, major aspects of nutrient homeostasis, including carbon assimilation and mineral uptake, are under circadian control. It is also emerging that there is feedback of nutritional status to the circadian clock to integrate these processes. This review will highlight recent insights into the role of the circadian clock in regulating plant nutrition as well as discuss the role for nutrients in affecting circadian function.
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subjects Arabidopsis
Circadian Clocks
ion
metal
nutrient
Plant Science
Plants
title Nutrient homeostasis within the plant circadian network
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