Root developmental adaptation to Fe toxicity: Mechanisms and management

Iron (Fe) is an essential microelement but is highly toxic when in excess. To cope with Fe excess, plants have evolved complex adaptive responses that include morphological and physiological modifications. The highly dynamic adjustments in overall root system architecture (RSA) determine root plasti...

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Published in	Plant signaling & behavior Vol. 11; no. 1; p. e1117722
Main Authors	Li, Guangjie, Kronzucker, Herbert J., Shi, Weiming
Format	Journal Article
Language	English
Published	United States Taylor & Francis 02.01.2016
Subjects	acute toxicity Adaptation Adaptation, Physiological - drug effects Arabidopsis Arabidopsis - drug effects Arabidopsis - growth & development Fe toxicity iron Iron - toxicity lateral roots nutrient management nutrients Plant Roots - drug effects Plant Roots - growth & development Plant Roots - physiology potassium Potassium - pharmacology rhizosphere root system architecture root systems Short Communication Fe toxicity nutrient management root system architecture Adaptation
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ISSN	1559-2316 1559-2324 1559-2324
DOI	10.1080/15592324.2015.1117722

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Abstract	Iron (Fe) is an essential microelement but is highly toxic when in excess. To cope with Fe excess, plants have evolved complex adaptive responses that include morphological and physiological modifications. The highly dynamic adjustments in overall root system architecture (RSA) determine root plasticity and allow plants to efficiently adapt to environmental constraints. However, the effects of Fe excess on RSA are poorly understood. Recently, we showed that excess Fe treatment in Arabidopsis not only directly impairs primary root (PR) growth but also arrests lateral root (LR) formation by acting at the tip of the growing primary root. Such a change is believed to help RSA adjust and restrict excessive Fe absorption in the part of the rhizosphere subject to acute toxicity while maintaining the absorption of other nutrients in the less stressed components of the root system. We further showed that the suppression of PR growth and LR formation under excess Fe is alleviated by K + addition, providing useful insight into the effectiveness of nutrient management to improve RSA and alleviate Fe toxicity symptoms in the field.
AbstractList	Iron (Fe) is an essential microelement but is highly toxic when in excess. To cope with Fe excess, plants have evolved complex adaptive responses that include morphological and physiological modifications. The highly dynamic adjustments in overall root system architecture (RSA) determine root plasticity and allow plants to efficiently adapt to environmental constraints. However, the effects of Fe excess on RSA are poorly understood. Recently, we showed that excess Fe treatment in Arabidopsis not only directly impairs primary root (PR) growth but also arrests lateral root (LR) formation by acting at the tip of the growing primary root. Such a change is believed to help RSA adjust and restrict excessive Fe absorption in the part of the rhizosphere subject to acute toxicity while maintaining the absorption of other nutrients in the less stressed components of the root system. We further showed that the suppression of PR growth and LR formation under excess Fe is alleviated by K(+) addition, providing useful insight into the effectiveness of nutrient management to improve RSA and alleviate Fe toxicity symptoms in the field. Iron (Fe) is an essential microelement but is highly toxic when in excess. To cope with Fe excess, plants have evolved complex adaptive responses that include morphological and physiological modifications. The highly dynamic adjustments in overall root system architecture (RSA) determine root plasticity and allow plants to efficiently adapt to environmental constraints. However, the effects of Fe excess on RSA are poorly understood. Recently, we showed that excess Fe treatment in Arabidopsis not only directly impairs primary root (PR) growth but also arrests lateral root (LR) formation by acting at the tip of the growing primary root. Such a change is believed to help RSA adjust and restrict excessive Fe absorption in the part of the rhizosphere subject to acute toxicity while maintaining the absorption of other nutrients in the less stressed components of the root system. We further showed that the suppression of PR growth and LR formation under excess Fe is alleviated by K + addition, providing useful insight into the effectiveness of nutrient management to improve RSA and alleviate Fe toxicity symptoms in the field. Iron (Fe) is an essential microelement but is highly toxic when in excess. To cope with Fe excess, plants have evolved complex adaptive responses that include morphological and physiological modifications. The highly dynamic adjustments in overall root system architecture (RSA) determine root plasticity and allow plants to efficiently adapt to environmental constraints. However, the effects of Fe excess on RSA are poorly understood. Recently, we showed that excess Fe treatment in Arabidopsis not only directly impairs primary root (PR) growth but also arrests lateral root (LR) formation by acting at the tip of the growing primary root. Such a change is believed to help RSA adjust and restrict excessive Fe absorption in the part of the rhizosphere subject to acute toxicity while maintaining the absorption of other nutrients in the less stressed components of the root system. We further showed that the suppression of PR growth and LR formation under excess Fe is alleviated by K⁺ addition, providing useful insight into the effectiveness of nutrient management to improve RSA and alleviate Fe toxicity symptoms in the field.
Author	Kronzucker, Herbert J. Li, Guangjie Shi, Weiming
Author_xml	– sequence: 1 givenname: Guangjie surname: Li fullname: Li, Guangjie organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences – sequence: 2 givenname: Herbert J. surname: Kronzucker fullname: Kronzucker, Herbert J. organization: Department of Biological Sciences, University of Toronto, 1265 Military Trail – sequence: 3 givenname: Weiming surname: Shi fullname: Shi, Weiming email: wmshi@issas.ac.cn organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Addendum to: Li GJ, Song HY, Bao HL, Kronzucker HJ, Shi WM. AUX1 and PIN2 protect lateral root formation in Arabidopsis under Fe Stress. Plant Physiol 2015; 169: 2608-2623. DOI:10.1104/pp.15.00904
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SubjectTerms	acute toxicity Adaptation Adaptation, Physiological - drug effects Arabidopsis Arabidopsis - drug effects Arabidopsis - growth & development Fe toxicity iron Iron - toxicity lateral roots nutrient management nutrients Plant Roots - drug effects Plant Roots - growth & development Plant Roots - physiology potassium Potassium - pharmacology rhizosphere root system architecture root systems Short Communication
Title	Root developmental adaptation to Fe toxicity: Mechanisms and management
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