Remediation of copper-contaminated soils using Tagetes patula L., earthworms and arbuscular mycorrhizal fungi

Abstract

Arbuscular mycorrhizal fungi (AMF) and earthworms have potential uses in the bioremediation of contaminated soils. In recent years, heavy metal-contaminated sites have been remediated by adding plants and AMF or earthworms to the soil. However, there are few studies on remediation using combinations of plants, animals, and microbes, especially for the remediation of Cu-contaminated soil. The present study investigated the separate and combined effects of AMF and earthworms on Cu-contaminated soil in which Tagetes patula L. was grown. The results show that the combined application of AMF and earthworms markedly increased the biomass of plant shoots and roots by more than 100%. It also increased Cu extraction by T. patula by 270%. The combined treatment was effective in increasing the CEC, contents of OM, and available Cu, P and K, but reduced the soil pH. Furthermore, the combined treatment significantly increased the abundance and diversity of the soil microbial community. In particular, the abundances of the bacteria Bacteroides, Proteobacteria, and Actinobacteria were increased, with the genera Flavobacterium, Pedobacter, Algoriphagus, Gaetbulibacter, Pseudomonas, Luteimonas, and Arthrobacter dominating. Meanwhile, the abundance of the fungus Zygomycota was increased, with Mortierella dominating. Moreover, inoculation with earthworms greatly improved the structure of the soil microbial community.

NOVELTY STATEMENT

Compared with phytoremediation or microbial remediation alone, combined remediation was considered to be a more efficient remediation strategy. This study describes the effects of the combined remediation of T. patula, AMF, and earthworms on the physiochemical properties and microbial community of Cu-contaminated soil. This provides a comprehensive strategy to improve the phytoremediation efficiency in Cu-contaminated soil.

Keywords:

• Copper
• Eisenia foetida
• co-inoculation
• microbial community
• soil physiochemical properties

Additional information

Funding

This study was supported by the China Agriculture Research System of MOF and MARA, the National Natural Science Foundation of China (41571307, 31901180, and 31800525), China Postdoctoral Science Foundation (2019M651845), and the Special Fund Project of Fundamental Scientific Research Funds for Central Universities of Nanjing Agricultural University (KYQN202061).