Magnetic (Fe3O4) Nanoparticles Reduce Heavy Metals Uptake and Mitigate Their Toxicity in Wheat Seedling

Konaté, Alexandre; He, Xiao; Zhang, Zhiyong; Ma, Yuhui; Zhang, Peng; Alugongo, Gibson Maswayi; Rui, Yukui

doi:10.3390/su9050790

Cited by 255 publications

(93 citation statements)

References 52 publications

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“…Heavy metal contamination is not only a threat to living organisms but also a global environmental concern [1]. Cadmium is generally released from industrial activities, such as refining, mining, and plastic manufacturing [2].…”

Section: Introductionmentioning

confidence: 99%

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Cadmium Uptake by Wheat (Triticum aestivum L.): An Overview

Abedi

Mojiri

2020

Plants

119

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Cadmium is a toxic heavy metal that may be detected in soils and plants. Wheat, as a food consumed by 60% of the world’s population, may uptake a high quantity of Cd through its roots and translocate Cd to the shoots and grains thus posing risks to human health. Therefore, we tried to explore the journey of Cd in wheat via a review of several papers. Cadmium may reach the root cells by some transporters (such as zinc-regulated transporter/iron-regulated transporter-like protein, low-affinity calcium transporters, and natural resistance-associated macrophages), and some cation channels or Cd chelates via yellow stripe 1-like proteins. In addition, some of the effective factors regarding Cd uptake into wheat, such as pH, organic matter, cation exchange capacity (CEC), Fe and Mn oxide content, and soil texture (clay content), were investigated in this paper. Increasing Fe and Mn oxide content and clay minerals may decrease the Cd uptake by plants, whereas reducing pH and CEC may increase it. In addition, the feasibility of methods to diminish Cd accumulation in wheat was studied. Amongst agronomic approaches for decreasing the uptake of Cd by wheat, using organic amendments is most effective. Using biochar might reduce the Cd accumulation in wheat grains by up to 97.8%.

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Section: Introductionmentioning

confidence: 99%

“…In addition, Cd is persistent and remains in the environment for decades [3]. Several farmlands have been polluted by metals via industrial emissions, fertilizers, and urban waste [1]. The main roles of heavy metals in plant metabolism are the basis of their involvement in reduction/oxidation procedures [4].…”

Section: Introductionmentioning

confidence: 99%

Cadmium Uptake by Wheat (Triticum aestivum L.): An Overview

Abedi

Mojiri

2020

Plants

119

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“…glucose semi-cellulose, pectate, and proteins) is significantly increased, suggesting that both mechanisms work together to detoxify cadmium at high concentrations . Nanotechnology has been claimed to have a high potential for reducing the toxicity of heavy metals from the environment, which has been confirmed in the study of Konate et al (2017). Chemical composition, size, surface coating, reactivity, and, most importantly, concentration are factors that determine the performance of nanoparticles.…”

Section: Discussionmentioning

confidence: 92%

“…Enhancement growth, facilitation of transfer of materials, and exploitation of new Fe fertilizers with nanotechnology as well as nanomaterials may provide alternate methods of eliminating symptoms of Fe chlorosis (Sheykhbaglou et al 2018). Iron oxide nanoparticles are among the most important oxides in the field of nanomaterials, which are also present in nature as nano-sized crystals in the form of both maghemite (Fe 2 O 3 ) and magnetite (Fe 3 O 4 ) (Bombin et al 2015;Rui et al 2016), and the latter nanoparticles have been successfully used to absorb heavy metal ions such as cadmium (Konate et al 2017).…”

Section: Introductionmentioning

confidence: 99%

Response of tomato plants to interaction effects of magnetic (Fe₃O₄) nanoparticles and cadmium stress

Zadeh

Arvin

Jamei

et al. 2019

Journal of Plant Interactions

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Research on nanotechnology as an emerging discipline has advanced several branches of technology. Although iron is considered as an essential element for plant growth, its role in mitigating abiotic stresses has not been studied widely. Therefore, in this research, it has been attempted to investigate the effect of magnetic Fe 3 o 4 nanoparticles on tomato plants under cadmium stress using 5 levels of magnetic (Fe 3 O 4 ) nanoparticles (nano-Fe 3 O 4 ) (0, 10, 20, 50, 100 mg/L) and 3 levels of CdCl 2 (0, 100, 200 μM). Cadmium reduced growth and photosynthesis parameters as well as nutritional elements and increased the content of MDA, H 2 O 2 , and proline in tomato plants. Meanwhile 20 mg/L nano-Fe 3 o 4 was able to improve cadmium toxicity by reduction in cadmium accumulation and increase in nutrient intake. However, 20 mg/L nano-Fe 3 o 4 is potentially useful for plant growth and may motivate the variations of plants defense mechanisms in response to cadmium toxicity. ARTICLE HISTORY

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“…Advances of nanotechnology in various fields of human activity contributed to increased production and wider implementation of nanomaterials (Scrinis and Lyons 2007;Ditta and Arshad 2016;Ruttkay-Nedecky et al 2017). Recent evidence suggests the efficiency of metal nanoparticles (NPs) and their oxides in reducing the toxic effects of adverse stressors on crops through the activation of their protective systems, which is a good prerequisite for wider use of nanomaterials in the agriculture as fertilizers or plant protection factors (Abdel Latef et al 2016;Saxena et al 2016;Taran et al 2016;Konate et al 2017). However, increased use of nanomaterials may enhance their release into the environment as well (e.g.…”

Section: Introductionmentioning

confidence: 99%

Phytotoxicity of colloidal solutions of stabilized and non-stabilized nanoparticles of essential metals and their oxides

Konotop¹,

Stepanchenko²,

Karpets³

et al. 2019

Nova Biotechnologica Et Chimica

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Advances in nanotechnology in various fields of human activity contribute to increase of their production, improved properties and wider implementation of nanomaterials. However, increasing use may enhance their release into the environment and can lead to affecting human health. The toxicity of colloidal solutions of metal nanoparticles (Cu, Mn) and their oxides, obtained in the absence and presence of a stabilizer, was examined and compared with the use of the standard test system of Allium cepa L.. The phytotoxicity of the experimental solutions was evaluated according to the growth response of the onion roots; the cyto- and genotoxicity were estimated due to the proliferative activity of the root meristem cells. It was established that solutions of stabilized metal nanoparticles were at given concentration toxic to Allium cepa L. according to the integral index of roots growth, however, were not cytotoxic. Difference in the phytotoxicity of stabilized and non-stabilized metal nanoparticles and their oxides depended on their phase composition and affected root growth.

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Magnetic (Fe3O4) Nanoparticles Reduce Heavy Metals Uptake and Mitigate Their Toxicity in Wheat Seedling

Cited by 255 publications

References 52 publications

Cadmium Uptake by Wheat (Triticum aestivum L.): An Overview

Cadmium Uptake by Wheat (Triticum aestivum L.): An Overview

Response of tomato plants to interaction effects of magnetic (Fe₃O₄) nanoparticles and cadmium stress

Phytotoxicity of colloidal solutions of stabilized and non-stabilized nanoparticles of essential metals and their oxides

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Magnetic (Fe3O4) Nanoparticles Reduce Heavy Metals Uptake and Mitigate Their Toxicity in Wheat Seedling

Cited by 255 publications

References 52 publications

Cadmium Uptake by Wheat (Triticum aestivum L.): An Overview

Cadmium Uptake by Wheat (Triticum aestivum L.): An Overview

Response of tomato plants to interaction effects of magnetic (Fe3O4) nanoparticles and cadmium stress

Phytotoxicity of colloidal solutions of stabilized and non-stabilized nanoparticles of essential metals and their oxides

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Product

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Response of tomato plants to interaction effects of magnetic (Fe₃O₄) nanoparticles and cadmium stress