Potential roles of the rhizospheric bacterial community in assisting Miscanthus floridulus in remediating multi-metal(loid)s contaminated soils-Reference-Cited by-同舟云学术

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Potential roles of the rhizospheric bacterial community in assisting Miscanthus floridulus in remediating multi-metal(loid)s contaminated soils

Published:2023-06 Issue: Volume:227 Page:115749
ISSN:0013-9351
Container-title:Environmental Research
language:en
Short-container-title:Environmental Research

Author:

Xiao Yunhua,Chen Liang,Teng Kai,Ma Jingjing,Xiang Sha,Jiang Lihong,Liu Gang,Yang Bo,Fang Jun

Publisher

Elsevier BV

Subject

General Environmental Science,Biochemistry

Reference73 articles.

1. Heavy metals and soil microbes;Abdu;Environ. Chem. Lett.,2016

2. Assessment of Miscanthus x giganteus capacity to restore the functionality of metal-contaminated soils: ex situ experiment;Al Souki;Appl Soil Ecoi,2017

3. Perspectives of bacterial ACC deaminase in phytoremediation;Arshad;Trends Biotechnol.,2007

4. Potential use of Pseudomonas koreensis AGB-1 in association with Miscanthus sinensis to remediate heavy metal(loid)-contaminated mining site soil;Babu;J. Environ. Manag.,2015

5. In situ restoration of soil ecological function in a coal gangue reclamation area after 10 years of elm/poplar phytoremediation;Bai;J. Environ. Manag.,2022

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1. The potential of magnetic biochar prepared by a solvent-free method as a soil amendment: Metal immobilization performance, soil microbial co-occurrence network and community assembly mechanism;Journal of Environmental Chemical Engineering;2024-10

2. Invasive Amaranthus spp. for heavy metal phytoremediation: Investigations of cadmium and lead accumulation and soil microbial community in three zinc mining areas;Ecotoxicology and Environmental Safety;2024-10

3. Environmental remediation potential of a pioneer plant (Miscanthus sp.) from abandoned mine into biochar: Heavy metal stabilization and environmental application;Journal of Environmental Management;2024-08

4. Contribution of Cd passivating functional bacterium H27 to tobacco growth under Cd stress;Chemosphere;2024-08

5. Phosphate-solubilizing bacteria improve the antioxidant enzyme activity of Potamogeton crispus L. and enhance the remediation effect on Cd-contaminated sediment;Journal of Hazardous Materials;2024-05

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