Gadolinium accumulation, distribution, chemical forms, and influence on the growth of rice seedlings

The content of gadolinium (Gd) is continuously increased in environment, which potentially threatens human health and ecological equilibrium. However, the phytotoxicity of Gd on plants remains unknown until now. In this study, the accumulation, distribution, and chemical forms of Gd as well as its i...

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Published inEcotoxicology and environmental safety Vol. 179; pp. 265 - 271
Main Authors Zhang, Caiyun, Liu, Dongwu, Shi, Kailun, Liu, Chengkun, Lyu, Keliang, Chen, Jie, Wang, Xue
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Inc 15.09.2019
Subjects
Accumulation
Chemical forms
Gadolinium
Growth
Rice
Subcellular distribution
Gadolinium
Chemical forms
Growth
Subcellular distribution
Accumulation
Rice
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Abstract The content of gadolinium (Gd) is continuously increased in environment, which potentially threatens human health and ecological equilibrium. However, the phytotoxicity of Gd on plants remains unknown until now. In this study, the accumulation, distribution, and chemical forms of Gd as well as its influence on growth and nutrient balance were systematically studied in rice seedlings after the treatments of different concentrations of Gd (0, 1, 10, 100, and 1000 μM) for 10 days. The results showed that most Gd was accumulated in the roots and only a little percentage of Gd was transported to shoots. The accumulation of Gd was increased in a dose-dependent manner in various chemical forms and subcellular fractions. More than 80% of Gd was in the forms of insoluble oxalates and phosphates. Gd was mainly compartmentalized in the cell wall, and the content of Gd was increased with increasing concentrations of Gd. In addition, hormetic effects of Gd were found on rice growth. The growth of rice was induced by the lower concentration of Gd, but inhibited by the higher concentration of Gd. The results indicated that rice seedlings could cope with Gd toxicity through cell wall compartmentalization as well as forming of precipitates with oxalate and phosphate. [Display omitted] •The subcellular distribution of Gd was investigated in the rice seedings.•The chemical forms of Gd and accumulation were investigated in the rice.•The distribution characteristics of Gd was investigated in the rice seedings.•Gd tolerance was related to the subcellular distribution and chemical forms.
AbstractList The content of gadolinium (Gd) is continuously increased in environment, which potentially threatens human health and ecological equilibrium. However, the phytotoxicity of Gd on plants remains unknown until now. In this study, the accumulation, distribution, and chemical forms of Gd as well as its influence on growth and nutrient balance were systematically studied in rice seedlings after the treatments of different concentrations of Gd (0, 1, 10, 100, and 1000 μM) for 10 days. The results showed that most Gd was accumulated in the roots and only a little percentage of Gd was transported to shoots. The accumulation of Gd was increased in a dose-dependent manner in various chemical forms and subcellular fractions. More than 80% of Gd was in the forms of insoluble oxalates and phosphates. Gd was mainly compartmentalized in the cell wall, and the content of Gd was increased with increasing concentrations of Gd. In addition, hormetic effects of Gd were found on rice growth. The growth of rice was induced by the lower concentration of Gd, but inhibited by the higher concentration of Gd. The results indicated that rice seedlings could cope with Gd toxicity through cell wall compartmentalization as well as forming of precipitates with oxalate and phosphate. [Display omitted] •The subcellular distribution of Gd was investigated in the rice seedings.•The chemical forms of Gd and accumulation were investigated in the rice.•The distribution characteristics of Gd was investigated in the rice seedings.•Gd tolerance was related to the subcellular distribution and chemical forms.
The content of gadolinium (Gd) is continuously increased in environment, which potentially threatens human health and ecological equilibrium. However, the phytotoxicity of Gd on plants remains unknown until now. In this study, the accumulation, distribution, and chemical forms of Gd as well as its influence on growth and nutrient balance were systematically studied in rice seedlings after the treatments of different concentrations of Gd (0, 1, 10, 100, and 1000 μM) for 10 days. The results showed that most Gd was accumulated in the roots and only a little percentage of Gd was transported to shoots. The accumulation of Gd was increased in a dose-dependent manner in various chemical forms and subcellular fractions. More than 80% of Gd was in the forms of insoluble oxalates and phosphates. Gd was mainly compartmentalized in the cell wall, and the content of Gd was increased with increasing concentrations of Gd. In addition, hormetic effects of Gd were found on rice growth. The growth of rice was induced by the lower concentration of Gd, but inhibited by the higher concentration of Gd. The results indicated that rice seedlings could cope with Gd toxicity through cell wall compartmentalization as well as forming of precipitates with oxalate and phosphate.
Author Liu, Dongwu
Wang, Xue
Liu, Chengkun
Zhang, Caiyun
Shi, Kailun
Lyu, Keliang
Chen, Jie
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Keywords Gadolinium
Chemical forms
Growth
Subcellular distribution
Accumulation
Rice
Language English
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Snippet The content of gadolinium (Gd) is continuously increased in environment, which potentially threatens human health and ecological equilibrium. However, the...
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SubjectTerms Accumulation
Chemical forms
Gadolinium
Growth
Rice
Subcellular distribution
Title Gadolinium accumulation, distribution, chemical forms, and influence on the growth of rice seedlings
URI https://dx.doi.org/10.1016/j.ecoenv.2019.04.074
https://www.ncbi.nlm.nih.gov/pubmed/31059993
https://search.proquest.com/docview/2231893836
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