1. Mechanism of synergistic remediation of soil phenanthrene contamination in paddy fields by rice-crab coculture and bioaugmentation with Pseudomonas sp.
- Author
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Sun, Nan, Yang, An-Pei, Wang, Si-Ming, Zhu, Guang-Lei, Liu, Jin, Wang, Tian-Yi, Wang, Zi-Jian, Qi, Bo-Wei, Liu, Xin-ying, Lv, Shao-xuan, Li, Ming-hang, and Fu, Qiang
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SOIL remediation , *BIOREMEDIATION , *POLYCYCLIC aromatic hydrocarbons , *PLANT growth-promoting rhizobacteria , *AGRICULTURE , *PADDY fields , *ANALYSIS of river sediments - Abstract
[Display omitted] • Combining rice-crab coculture and bioaugmentation improved phenanthrene degradation. • Bioaugmentation changed the soil microbial community structure. • Crab bioturbation promotes the secretion of rice root exudates. • Pseudomonas sp. was positively correlated with some PGPRs. • The strategy achieves "remediation while production" in rice paddies. Polycyclic aromatic hydrocarbons (PAHs) are persistent and harmful pollutants with high priority concern in agricultural fields. This work constructed a rice-crab coculture and bioaugmentation (RCM) system to remediate phenanthrene (a model PAH) contamination in rice fields. The results showed that RCM had a higher remediation performance of phenanthrene in rice paddy compared with rice cultivation alone, microbial addition alone, and crab-rice coculture, reaching a remediation efficiency of 88.92 % in 42 d. The concentration of phenanthrene in the rice plants decreased to 6.58 mg/kg, and its bioconcentration effect was efficiently inhibited in the RCM system. In addition, some low molecular weight organic acids of rice root increased by 12.87 %∼73.87 %, and some amino acids increased by 140 %∼1150 % in RCM. Bioturbation of crabs improves soil aeration structure and microbial migration, and adding Pseudomonas promoted the proliferation of some plant growth-promoting rhizobacteria (PGPRs), which facilitated the degradation of phenanthrene. This coupling rice-crab coculture with bioaugmentation had favorable effects on soil enzyme activity, microbial community structure, and PAH degradation genes in paddy fields, enhancing the removal of and resistance to PAH contamination in paddy fields and providing new strategies for achieving a balance between production and remediation in contaminated paddy fields. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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