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Arbuscular mycorrhizal fungi and nitrilotriacetic acid regulated Suaeda salsa growth in Cd-contaminated saline soil by driving rhizosphere bacterial assemblages

[Display omitted] •Combined AMF and NTA enhanced remediation efficiency of Suaeda salsa for Na and Cd.•Proteobacteria that help plants resist Cd and Na were enriched in combined treatment.•Network showed that bacteria related to Cd or Na were consistent in combined treatment. Phytoremediation is an...

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Published in:Environmental and experimental botany 2022-01, Vol.193, p.104669, Article 104669
Main Authors: Li, Xue, Zhang, Zhechao, Luo, Junqing, Cui, Xi, Xu, Jing, Hou, Yazhou, Hao, Baihui, Guo, Wei
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container_title Environmental and experimental botany
container_volume 193
creator Li, Xue
Zhang, Zhechao
Luo, Junqing
Cui, Xi
Xu, Jing
Hou, Yazhou
Hao, Baihui
Guo, Wei
description [Display omitted] •Combined AMF and NTA enhanced remediation efficiency of Suaeda salsa for Na and Cd.•Proteobacteria that help plants resist Cd and Na were enriched in combined treatment.•Network showed that bacteria related to Cd or Na were consistent in combined treatment. Phytoremediation is an environmentally friendly method to remediate heavy metal contaminated saline soil. Arbuscular mycorrhizal fungi (AMF) and biodegradable chelators have potential roles in enhancing the phytoremediation efficiency, while their combined effects are largely unexplored. This study was objected to evaluate the effects of AMF and nitrilotriacetic acid (NTA) on phytoremediation using Suaeda salsa. A pot experiment consisting of four treatments (CK, AMF, NTA and AMF + NTA) was conducted for this purpose. The results showed that the shoot and root biomass of Suaeda salsa ranged from 1.84 to 5.86 mg kg−1 and 0.09 to 0.48 mg kg−1 respectively, and were the highest in the AMF + NTA treatment. The AMF + NTA treatment enhanced the Na accumulation by 116 % and 490 %, and enhanced Cd accumulation by 61 % and 33 %, respectively, in plant shoots and roots compared with the CK. The AMF treatment significantly promoted the dominance of Actinobacteria (mainly including Arenimonas, Gaiella, Nocardioides and Marmoricola), whereas the AMF + NTA treatment enhanced that of Proteobacteria (mainly including Aminobacter, Candidatus_Paracaedibacter, Longimicrobium and Flavitalea) in rhizosphere bacterial communities. Network analysis revealed that the bacteria related to Cd were independent from that related to Na in the AMF treatment, but they were consistent in the AMF + NTA treatment. Structural equation modeling further confirmed that single application of AMF or NTA affected plant growth both directly and indirectly, and their combined application could further promote phytoremediation efficiency by enhancing the interactions among bacteria, soil and plants. This study not only proved the benefit of the combined application of AMF and NTA to the improvement of phytoremediation efficiency, but also provided insights into the mechanisms for the improvement from the perspective of rhizosphere microbial community changes.
doi_str_mv 10.1016/j.envexpbot.2021.104669
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Phytoremediation is an environmentally friendly method to remediate heavy metal contaminated saline soil. Arbuscular mycorrhizal fungi (AMF) and biodegradable chelators have potential roles in enhancing the phytoremediation efficiency, while their combined effects are largely unexplored. This study was objected to evaluate the effects of AMF and nitrilotriacetic acid (NTA) on phytoremediation using Suaeda salsa. A pot experiment consisting of four treatments (CK, AMF, NTA and AMF + NTA) was conducted for this purpose. The results showed that the shoot and root biomass of Suaeda salsa ranged from 1.84 to 5.86 mg kg−1 and 0.09 to 0.48 mg kg−1 respectively, and were the highest in the AMF + NTA treatment. The AMF + NTA treatment enhanced the Na accumulation by 116 % and 490 %, and enhanced Cd accumulation by 61 % and 33 %, respectively, in plant shoots and roots compared with the CK. The AMF treatment significantly promoted the dominance of Actinobacteria (mainly including Arenimonas, Gaiella, Nocardioides and Marmoricola), whereas the AMF + NTA treatment enhanced that of Proteobacteria (mainly including Aminobacter, Candidatus_Paracaedibacter, Longimicrobium and Flavitalea) in rhizosphere bacterial communities. Network analysis revealed that the bacteria related to Cd were independent from that related to Na in the AMF treatment, but they were consistent in the AMF + NTA treatment. Structural equation modeling further confirmed that single application of AMF or NTA affected plant growth both directly and indirectly, and their combined application could further promote phytoremediation efficiency by enhancing the interactions among bacteria, soil and plants. 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Phytoremediation is an environmentally friendly method to remediate heavy metal contaminated saline soil. Arbuscular mycorrhizal fungi (AMF) and biodegradable chelators have potential roles in enhancing the phytoremediation efficiency, while their combined effects are largely unexplored. This study was objected to evaluate the effects of AMF and nitrilotriacetic acid (NTA) on phytoremediation using Suaeda salsa. A pot experiment consisting of four treatments (CK, AMF, NTA and AMF + NTA) was conducted for this purpose. The results showed that the shoot and root biomass of Suaeda salsa ranged from 1.84 to 5.86 mg kg−1 and 0.09 to 0.48 mg kg−1 respectively, and were the highest in the AMF + NTA treatment. The AMF + NTA treatment enhanced the Na accumulation by 116 % and 490 %, and enhanced Cd accumulation by 61 % and 33 %, respectively, in plant shoots and roots compared with the CK. The AMF treatment significantly promoted the dominance of Actinobacteria (mainly including Arenimonas, Gaiella, Nocardioides and Marmoricola), whereas the AMF + NTA treatment enhanced that of Proteobacteria (mainly including Aminobacter, Candidatus_Paracaedibacter, Longimicrobium and Flavitalea) in rhizosphere bacterial communities. Network analysis revealed that the bacteria related to Cd were independent from that related to Na in the AMF treatment, but they were consistent in the AMF + NTA treatment. Structural equation modeling further confirmed that single application of AMF or NTA affected plant growth both directly and indirectly, and their combined application could further promote phytoremediation efficiency by enhancing the interactions among bacteria, soil and plants. 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Phytoremediation is an environmentally friendly method to remediate heavy metal contaminated saline soil. Arbuscular mycorrhizal fungi (AMF) and biodegradable chelators have potential roles in enhancing the phytoremediation efficiency, while their combined effects are largely unexplored. This study was objected to evaluate the effects of AMF and nitrilotriacetic acid (NTA) on phytoremediation using Suaeda salsa. A pot experiment consisting of four treatments (CK, AMF, NTA and AMF + NTA) was conducted for this purpose. The results showed that the shoot and root biomass of Suaeda salsa ranged from 1.84 to 5.86 mg kg−1 and 0.09 to 0.48 mg kg−1 respectively, and were the highest in the AMF + NTA treatment. The AMF + NTA treatment enhanced the Na accumulation by 116 % and 490 %, and enhanced Cd accumulation by 61 % and 33 %, respectively, in plant shoots and roots compared with the CK. The AMF treatment significantly promoted the dominance of Actinobacteria (mainly including Arenimonas, Gaiella, Nocardioides and Marmoricola), whereas the AMF + NTA treatment enhanced that of Proteobacteria (mainly including Aminobacter, Candidatus_Paracaedibacter, Longimicrobium and Flavitalea) in rhizosphere bacterial communities. Network analysis revealed that the bacteria related to Cd were independent from that related to Na in the AMF treatment, but they were consistent in the AMF + NTA treatment. Structural equation modeling further confirmed that single application of AMF or NTA affected plant growth both directly and indirectly, and their combined application could further promote phytoremediation efficiency by enhancing the interactions among bacteria, soil and plants. 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subjects Arbuscular mycorrhizal fungi (AMF)
Microbial community
Nitrilotriacetic acid (NTA)
Phytoremediation efficiency
Rhizosphere bacteria function
title Arbuscular mycorrhizal fungi and nitrilotriacetic acid regulated Suaeda salsa growth in Cd-contaminated saline soil by driving rhizosphere bacterial assemblages
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