Physiological of biochar and α-Fe2O3 nanoparticles as amendments of Cd accumulation and toxicity toward muskmelon grown in pots

Background Due to the severe cadmium (Cd) pollution of farmland soil, effective measures need to be taken to reduce the Cd content in agricultural products. In this study, we added α-Fe2O3 nanoparticles (NPs) and biochar into Cd-contaminated soil to investigate physiological responses of muskmelon i...

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Bibliographic Details
Published in:Journal of nanobiotechnology 2021-12, Vol.19 (1), p.1-15, Article 442
Main Authors: Wang, Yunqiang, Zou, Zhengkang, Su, Xinliang, Wan, Fengting, Zhou, Ying, Lei, Zhen, Yi, Licong, Dai, Zhaoyi, Li, Junli
Format: Article
Language:English
Subjects:
Adsorption
Agricultural land
Agricultural products
Agriculture
Anthocyanins
Biochar
Biosynthesis
Cadmium
Charcoal
Chlorophyll
Differentially expressed genes
Environmental impact
Enzymes
Experiments
Ferric oxide
Genes
Glutathione
Harvest
Heavy metals
Iron
Life cycles
MAP kinase
Metabolism
Muskmelon
Nanoparticles
Physiological responses
Physiology
Pollution
Sediment pollution
Seeds
Signal transduction
Soil amendment
Soil contamination
Soil investigations
Soil pollution
Soil remediation
Soils
Toxicity
α-Fe2O3 NPs
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Summary:Background Due to the severe cadmium (Cd) pollution of farmland soil, effective measures need to be taken to reduce the Cd content in agricultural products. In this study, we added α-Fe2O3 nanoparticles (NPs) and biochar into Cd-contaminated soil to investigate physiological responses of muskmelon in the whole life cycle. Results The results showed that Cd caused adverse impacts on muskmelon (Cucumis melo) plants. For instance, the chlorophyll of muskmelon leaves in the Cd alone treatment was reduced by 8.07–32.34% in the four periods, relative to the control. The treatments with single amendment, α-Fe2O3 NPs or 1% biochar or 5% biochar, significantly reduced the soil available Cd content, but the co-exposure treatments (α-Fe2O3 NPs and biochar) had no impact on the soil available Cd content. All treatments could reduce the Cd content by 47.64–74.60% and increase the Fe content by 15.15–95.27% in fruits as compared to the Cd alone treatment. The KEGG enrichment results of different genes in different treatments indicated that single treatments could regulate genes related to anthocyanin biosynthesis, glutathione metabolism and MAPK signal transduction pathways to reduce the Cd toxicity. Conclusions Overall the combination of biochar and α-Fe2O3 NPs can alleviate Cd toxicity in muskmelon. The present study could provide new insights into Cd remediation in soil using α-Fe2O3 NPs and biochar as amendments. Graphic Abstract
ISSN:1477-3155
1477-3155
DOI:10.1186/s12951-021-01187-7