Amendment of degraded desert soil with wastewater debris containing immobilized Chlorella sorokiniana and Azospirillum brasilense significantly modifies soil bacterial community structure, diversity, and richness

The main goal of this study was to expand our knowledge of what happens to the soil bacterial community in an eroded desert soil when improvement of soil fertility is derived from the application of debris of tertiary wastewater treatment containing immobilized microalgae Chlorella sorokiniana and t...

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Bibliographic Details
Published in:Biology and fertility of soils 2013-11, Vol.49 (8), p.1053-1063
Main Authors: Lopez, Blanca R., Bashan, Yoav, Trejo, Adan, de-Bashan, Luz E.
Format: Article
Language:English
Subjects:
Agriculture
Agronomy. Soil science and plant productions
Azospirillum brasilense
Bacteria
Biochemistry and biology
Biological and medical sciences
Biomedical and Life Sciences
Chemical, physicochemical, biochemical and biological properties
Chlorella sorokiniana
Community ecology
Community structure
Desert soils
Deserts
Detritus
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
Life Sciences
Microalgae
Microbiology
Microorganisms
Original Paper
Other nutrients. Amendments. Solid and liquid wastes. Sludges and slurries
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Plant growth
Population structure
Rhizosphere
Soil conditioners
Soil fertility
Soil microorganisms
Soil science
Soil Science & Conservation
Soil-plant relationships. Soil fertility. Fertilization. Amendments
Soils
Species diversity
Species richness
Tertiary wastewater treatment
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Summary:The main goal of this study was to expand our knowledge of what happens to the soil bacterial community in an eroded desert soil when improvement of soil fertility is derived from the application of debris of tertiary wastewater treatment containing immobilized microalgae Chlorella sorokiniana and the plant growth-promoting bacterium (PGPB) Azospirillum brasilense . We hypothesized that an “improved” non-agricultural desert soil will exhibit substantial changes in the structure of the bacterial community in a relatively short time after amendment. To assess the effect of the amendments, microalgae and PGPB alone or combined, on the structure of the rhizosphere bacterial community, changes in species richness and bacterial diversity over time were based on sequence differences in the 16S rRNA gene, performed with PCR–denaturing gradient gel electrophoresis (DGGE) and then analyzed by similarity test and non-metric multidimensional scaling analysis. Root surface colonization and persistence in the rhizosphere of A . brasilense was monitored by fluorescent in situ hybridization and sequencing of DGGE bands. Application of waste debris significantly changed the rhizosphere bacterial population structure, whether comparisons were made over time, between inoculated and non-inoculated soil, and among different inoculated microorganisms. Species richness and diversity increased when the waste debris contained the microalgae–bacteria association and also over time. Even as its secondary role as an inoculant after wastewater treatment, A . brasilense colonized the root surface profusely and persisted within the rhizosphere bacterial community. This study demonstrated that small organic amendment to desert soil significantly changed soil bacterial community compared to the original soil and also 2 months after amendments were added.
ISSN:0178-2762
1432-0789
DOI:10.1007/s00374-013-0799-1