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Shifts in the Rhizosphere and Endosphere Colonizing Bacterial Communities Under Drought and Salinity Stress as Affected by a Biofertilizer Consortium.
Microb Ecol. 2022 Aug; 84(2):483-495.ME

Abstract

The present research asks how plant growth-promoting bacterial (PGPB) inoculants and chemical fertilizers change rhizosphere and root endophytic bacterial communities in durum wheat, and its dependence on environmental stress. A greenhouse experiment was carried out under drought (at 40% field capacity), or salinity (150 mM NaCl) conditions to investigate the effects of a chemical fertilizer (containing nitrogen, phosphorus, potassium and zinc) or a biofertilizer (a bacterial consortium of four PGPBs). High-throughput amplicon sequencing of the 16S rRNA of the rhizosphere, non-sterilized, or surface-sterilized roots, showed shifts in bacterial communities in response to stress treatments, which were greater for salinity than for drought and tended to show increased oligotrophs relative abundances compared to non-stress controls. The results also showed that Proteobacteria, Acidobacteria, Bacteroidetes, Gemmatimonadetes, Thaumarchaeota, Firmicutes, and Verrucomicrobia had a higher relative abundance in the rhizosphere, while Actinobacteria were more abundant on roots, while Candidatus_Saccharibacteria and Planctomycetes inside roots. The results indicated that the root endophytic bacterial communities were more affected by (bio-) fertilization treatments than those in the rhizosphere, particularly as affected by PGPB inoculation. This greater susceptibility of endophytes to (bio-) fertilizers was associated with increased abundance of the 16S rRNA and acdS genes in plant roots, especially under stress conditions. These changes in root endophytes, which coincided with an improvement in grain yield and photosynthetic capacity of plants, may be considered as one of the mechanisms by which PGPB affect plants.

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Authors+Show Affiliations

Yaghoubi Khanghahi M
Department of Soil, Plant and Food Sciences, University of Bari Aldo Moro, Via Amendola 165/A, 70126, Bari, Italy.
Crecchio C
Department of Soil, Plant and Food Sciences, University of Bari Aldo Moro, Via Amendola 165/A, 70126, Bari, Italy.
Verbruggen E
Plants and Ecosystems Research Group, Department of Biology, University of Antwerp, Universiteitsplein 1, 2610, Wilrijk, Belgium. erik.verbruggen@uantwerpen.be.

MeSH

BacteriaDroughtsEndophytesFertilizersPlant RootsRNA, Ribosomal, 16SRhizosphereSalt StressSoil Microbiology

Pub Type(s)

Journal Article

Language

eng

PubMed ID

34499191

Citation

Yaghoubi Khanghahi, Mohammad, et al. "Shifts in the Rhizosphere and Endosphere Colonizing Bacterial Communities Under Drought and Salinity Stress as Affected By a Biofertilizer Consortium." Microbial Ecology, vol. 84, no. 2, 2022, pp. 483-495.
Yaghoubi Khanghahi M, Crecchio C, Verbruggen E. Shifts in the Rhizosphere and Endosphere Colonizing Bacterial Communities Under Drought and Salinity Stress as Affected by a Biofertilizer Consortium. Microb Ecol. 2022;84(2):483-495.
Yaghoubi Khanghahi, M., Crecchio, C., & Verbruggen, E. (2022). Shifts in the Rhizosphere and Endosphere Colonizing Bacterial Communities Under Drought and Salinity Stress as Affected by a Biofertilizer Consortium. Microbial Ecology, 84(2), 483-495. https://doi.org/10.1007/s00248-021-01856-y
Yaghoubi Khanghahi M, Crecchio C, Verbruggen E. Shifts in the Rhizosphere and Endosphere Colonizing Bacterial Communities Under Drought and Salinity Stress as Affected By a Biofertilizer Consortium. Microb Ecol. 2022;84(2):483-495. PubMed PMID: 34499191.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Shifts in the Rhizosphere and Endosphere Colonizing Bacterial Communities Under Drought and Salinity Stress as Affected by a Biofertilizer Consortium. AU - Yaghoubi Khanghahi,Mohammad, AU - Crecchio,Carmine, AU - Verbruggen,Erik, Y1 - 2021/09/09/ PY - 2021/04/22/received PY - 2021/08/31/accepted PY - 2021/9/10/pubmed PY - 2022/9/8/medline PY - 2021/9/9/entrez KW - Biofertilizer KW - Durum wheat KW - Endophyte KW - PGPB KW - Rhizosphere SP - 483 EP - 495 JF - Microbial ecology JO - Microb Ecol VL - 84 IS - 2 N2 - The present research asks how plant growth-promoting bacterial (PGPB) inoculants and chemical fertilizers change rhizosphere and root endophytic bacterial communities in durum wheat, and its dependence on environmental stress. A greenhouse experiment was carried out under drought (at 40% field capacity), or salinity (150 mM NaCl) conditions to investigate the effects of a chemical fertilizer (containing nitrogen, phosphorus, potassium and zinc) or a biofertilizer (a bacterial consortium of four PGPBs). High-throughput amplicon sequencing of the 16S rRNA of the rhizosphere, non-sterilized, or surface-sterilized roots, showed shifts in bacterial communities in response to stress treatments, which were greater for salinity than for drought and tended to show increased oligotrophs relative abundances compared to non-stress controls. The results also showed that Proteobacteria, Acidobacteria, Bacteroidetes, Gemmatimonadetes, Thaumarchaeota, Firmicutes, and Verrucomicrobia had a higher relative abundance in the rhizosphere, while Actinobacteria were more abundant on roots, while Candidatus_Saccharibacteria and Planctomycetes inside roots. The results indicated that the root endophytic bacterial communities were more affected by (bio-) fertilization treatments than those in the rhizosphere, particularly as affected by PGPB inoculation. This greater susceptibility of endophytes to (bio-) fertilizers was associated with increased abundance of the 16S rRNA and acdS genes in plant roots, especially under stress conditions. These changes in root endophytes, which coincided with an improvement in grain yield and photosynthetic capacity of plants, may be considered as one of the mechanisms by which PGPB affect plants. SN - 1432-184X UR - https://www.unboundmedicine.com/medline/citation/34499191/Shifts_in_the_Rhizosphere_and_Endosphere_Colonizing_Bacterial_Communities_Under_Drought_and_Salinity_Stress_as_Affected_by_a_Biofertilizer_Consortium_ DB - PRIME DP - Unbound Medicine ER -