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Long-Term Phytoremediation of Coastal Saline Soil Reveals Plant Species-Specific Patterns of Microbial Community Recruitment

Xiaogai Wang, Ruibo Sun, Yinping Tian, Kai Guo, Hongyong Sun, Xiaojing Liu, Haiyan Chu, Binbin Liu

2020mSystems87 citationsDOIOpen Access PDF

Abstract

Despite knowing that phytoremediation by salt-tolerant plants is an effective technology for ameliorating saline soils and that microorganisms contribute significantly to plant stress tolerance and soil fertility, we still lack a comprehensive understanding of how microbes respond to the growth of salt-tolerant plants and the subsequent decline in soil salinity. The results of this study revealed different response patterns among bacterial, archaeal, and fungal communities and indicated that the decline in archaeal abundance might be a sign of successful remediation of coastal saline soils. The recruitment of specific fungal communities by different plant species indicated the importance of fungi in plant species-specific remediation functions. We also identified the taxa that may play key roles during remediation, and these taxa could potentially be used as indicators of phytoremediation. Overall, these findings highlight the importance of microbes in the phytoremediation of saline soil and suggest that the mechanisms involved are plant species specific.

Topics & Concepts

PhytoremediationTerm (time)Environmental scienceSalineEcologyPlant communityBiologyAgronomyAgroforestryEcological successionSoil waterEndocrinologyPhysicsQuantum mechanicsMicrobial Community Ecology and PhysiologyMycorrhizal Fungi and Plant InteractionsPlant-Microbe Interactions and Immunity