Responses of barley Albina and Xantha mutants deficient in magnesium chelatase to soil salinity

Zhiyu Zuo; Xiangnan Li; Chao Xu; Junjie Yang; Xiancan Zhu; Shengqun Liu; Fengbin Song; Fulai Liu; Hanping Mao

doi:10.17221/329/2017-PSE

Responses of barley Albina and Xantha mutants deficient in magnesium chelatase to soil salinity

Zhiyu Zuo, Xiangnan Li, Chao Xu, Junjie Yang, Xiancan Zhu, Shengqun Liu, Fengbin Song, Fulai Liu, Hanping Mao

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6 Citationer (Scopus)

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Abstract

Soil salinity reduces the plant growth and grain yield in barley. The barley mutants Albina and Xantha, deficient in magnesium chelatase, represent a suitable model object for analysis of the roles of chloroplast in salt stress response. Spring barley (Hordeum vulgare cv. Svalofs Bonus) and four nonallelic Albina (alb-e¹⁶ and alb-f¹⁷) and Xantha (xan-s⁴⁶ and xan-b¹²) mutants were used to investigate the effects of soil salinity on physiological traits of plants. Under salt stress, larger reduction in stomatal conductance and higher Na concentration was found in Albina and Xantha mutants compared with wild type (WT). In addition, the Albina and Xantha mutants had lower capacity of reactive oxygen species (ROS) scavenging while higher ROS generation rate compared with WT, exposed to soil salinity. Therefore, the limitations in chloroplast development affected Na⁺/K⁺ homeostasis and decreased the oxygen scavenging capacity, hence affecting the salt tolerance in barley.

Originalsprog	Engelsk
Tidsskrift	Plant, Soil and Environment
Vol/bind	63
Udgave nummer	8
Sider (fra-til)	348-354
Antal sider	7
ISSN	1214-1178
DOI	https://doi.org/10.17221/329/2017-PSE
Status	Udgivet - 2017

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Responses of barley Albina and Xantha mutants deficient in magnesium chelatase to soil salinityForlagets udgivne version, 1,52 MB

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@article{ced05a0d69ca4f50a7900b53ae6f56ef,

title = "Responses of barley Albina and Xantha mutants deficient in magnesium chelatase to soil salinity",

abstract = "Soil salinity reduces the plant growth and grain yield in barley. The barley mutants Albina and Xantha, deficient in magnesium chelatase, represent a suitable model object for analysis of the roles of chloroplast in salt stress response. Spring barley (Hordeum vulgare cv. Svalofs Bonus) and four nonallelic Albina (alb-e16 and alb-f17) and Xantha (xan-s46 and xan-b12) mutants were used to investigate the effects of soil salinity on physiological traits of plants. Under salt stress, larger reduction in stomatal conductance and higher Na concentration was found in Albina and Xantha mutants compared with wild type (WT). In addition, the Albina and Xantha mutants had lower capacity of reactive oxygen species (ROS) scavenging while higher ROS generation rate compared with WT, exposed to soil salinity. Therefore, the limitations in chloroplast development affected Na+/K+ homeostasis and decreased the oxygen scavenging capacity, hence affecting the salt tolerance in barley.",

author = "Zhiyu Zuo and Xiangnan Li and Chao Xu and Junjie Yang and Xiancan Zhu and Shengqun Liu and Fengbin Song and Fulai Liu and Hanping Mao",

year = "2017",

doi = "10.17221/329/2017-PSE",

language = "English",

volume = "63",

pages = "348--354",

journal = "Plant, Soil and Environment",

issn = "1214-1178",

publisher = "Czech Academy of Agricultural Sciences",

number = "8",

}

TY - JOUR

T1 - Responses of barley Albina and Xantha mutants deficient in magnesium chelatase to soil salinity

AU - Zuo, Zhiyu

AU - Li, Xiangnan

AU - Xu, Chao

AU - Yang, Junjie

AU - Zhu, Xiancan

AU - Liu, Shengqun

AU - Song, Fengbin

AU - Liu, Fulai

AU - Mao, Hanping

PY - 2017

Y1 - 2017

N2 - Soil salinity reduces the plant growth and grain yield in barley. The barley mutants Albina and Xantha, deficient in magnesium chelatase, represent a suitable model object for analysis of the roles of chloroplast in salt stress response. Spring barley (Hordeum vulgare cv. Svalofs Bonus) and four nonallelic Albina (alb-e16 and alb-f17) and Xantha (xan-s46 and xan-b12) mutants were used to investigate the effects of soil salinity on physiological traits of plants. Under salt stress, larger reduction in stomatal conductance and higher Na concentration was found in Albina and Xantha mutants compared with wild type (WT). In addition, the Albina and Xantha mutants had lower capacity of reactive oxygen species (ROS) scavenging while higher ROS generation rate compared with WT, exposed to soil salinity. Therefore, the limitations in chloroplast development affected Na+/K+ homeostasis and decreased the oxygen scavenging capacity, hence affecting the salt tolerance in barley.

AB - Soil salinity reduces the plant growth and grain yield in barley. The barley mutants Albina and Xantha, deficient in magnesium chelatase, represent a suitable model object for analysis of the roles of chloroplast in salt stress response. Spring barley (Hordeum vulgare cv. Svalofs Bonus) and four nonallelic Albina (alb-e16 and alb-f17) and Xantha (xan-s46 and xan-b12) mutants were used to investigate the effects of soil salinity on physiological traits of plants. Under salt stress, larger reduction in stomatal conductance and higher Na concentration was found in Albina and Xantha mutants compared with wild type (WT). In addition, the Albina and Xantha mutants had lower capacity of reactive oxygen species (ROS) scavenging while higher ROS generation rate compared with WT, exposed to soil salinity. Therefore, the limitations in chloroplast development affected Na+/K+ homeostasis and decreased the oxygen scavenging capacity, hence affecting the salt tolerance in barley.

U2 - 10.17221/329/2017-PSE

DO - 10.17221/329/2017-PSE

M3 - Journal article

SN - 1214-1178

VL - 63

SP - 348

EP - 354

JO - Plant, Soil and Environment

JF - Plant, Soil and Environment

IS - 8

ER -

Responses of barley Albina and Xantha mutants deficient in magnesium chelatase to soil salinity

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