Abstract
Biodegradable chelant (S,S)-N,N '-ethylenediaminedisuccinic acid (EDDS) has the more advantages of enhanced metal mobility, rapid degradation, environmental friendliness, and ammonium release. However, the risk of metal and/or nitrate residues and leaching within EDDS biodegradation remains as the bottleneck for the widespread application of EDDS-induced phytoremediation. This study aims to explore if the inoculation of plant growth-promoting rhizobacteria (PGPRs) can eliminate the risk associated with the short-term application of EDDS by investigating Cu phytoextraction and soil nitrate content. Results showed that EDDS application significantly increased the copper (Cu) concentration in shoots, soil total Cu, NH4+-N and NO3--N content, but decreased plant biomass. The inoculation of PGPRs in the soil showed a strong ability to increase plant biomass, Cu phytoextraction and soil NH4+-N content, and decrease soil Cu and NO3--N content. Moreover, bacterial dominant taxa were found to be the largest contributors to soil NH4+-N and NO3--N variation, and the abundance of denitrifying bacteria (Bacteroidetes and Stenotrophomonas) decreased in the treatment with PGPRs. The risk of residual Cu and nitrate leaching was reduced by the inoculation of PGPRs without significantly changing the stability of the bacterial community. These new findings indicate that the exogenous application of beneficial rhizobacteria can provide an effective strategy to reduce the risk in metal-contaminated soils of chelant-assisted phytoextraction.
Original language | English |
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Article number | 132288 |
Number of pages | 10 |
Journal | Chemosphere |
Volume | 287 |
Issue number | Part 3 |
DOIs | |
Publication status | Published - Jan-2022 |
Keywords
- EDDS
- PGPRs
- Phytoextraction
- Cu and nitrate leaching
- Denitrifying bacteria
- MICROBIAL COMMUNITY
- SOIL
- COPPER
- CHELANT
- WASTE
- RESPONSES
- METALS
- EDTA
- BIODEGRADATION
- RHIZOSPHERE