Long-Term Irrigation Affects the Dynamics and Activity of the Wheat Rhizosphere Microbiome

ABSTRACT Here, we assessed the relative influence of wheat genotype, agricultural practices (conventional vs organic) and soil type on the rhizosphere microbiome. We characterized the prokaryotic (archaea and bacteria) and eukaryotic (fungi and protists) communities in soils from four different countries (Cameroon, France, Italy, Senegal) and determined if a rhizosphere core microbiome existed across these different countries. The wheat genotype had a limited effect on the rhizosphere microbiome (2% of variance) as the majority of the microbial taxa were consistently associated to multiple wheat genotypes grown in the same soil. Large differences in taxa richness and in community structure were observed between the eight soils studied (57% variance) and the two agricultural practices (10% variance). Despite these differences between soils, we observed that 177 taxa (2 archaea, 103 bacteria, 41 fungi and 31 protists) were consistently detected in the rhizosphere, constituting a core microbiome. In addition to being prevalent, these core taxa were highly abundant and collectively represented 50% of the reads in our data set. Based on these results, we identify a list of key taxa as future targets of culturomics, metagenomics and wheat synthetic microbiomes. Additionally, we show that protists are an integral part of the wheat holobiont that is currently overlooked.

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Reduced dependence of rhizosphere microbiome on plant-derived carbon in 32-year long-term inorganic and organic fertilized soils

Soil Biology and Biochemistry ◽

10.1016/j.soilbio.2014.09.028 ◽

2015 ◽

Vol 80 ◽

pp. 70-78 ◽

Cited By ~ 81

Author(s):

Chao Ai ◽

Guoqing Liang ◽

Jingwen Sun ◽

Xiubin Wang ◽

Ping He ◽

...

Keyword(s):

Rhizosphere Microbiome ◽

Inorganic And Organic

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Influence of plant genotype and soil on the wheat rhizosphere microbiome: Evidences for a core microbiome across eight African and European soils

10.1101/777383 ◽

2019 ◽

Author(s):

Marie Simonin ◽

Cindy Dasilva ◽

Valeria Terzi ◽

Eddy L. M. Ngonkeu ◽

Diégane Diouf ◽

...

Keyword(s):

Community Structure ◽

Soil Type ◽

Agricultural Practices ◽

Plant Genotype ◽

Wheat Genotype ◽

Limited Effect ◽

Core Microbiome ◽

Taxa Richness ◽

Wheat Rhizosphere ◽

Rhizosphere Microbiome

AbstractHere, we assessed the relative influence of wheat genotype, agricultural practices (conventional vs organic) and soil type on the rhizosphere microbiome. We characterized the prokaryotic (archaea, bacteria) and eukaryotic (fungi, protists) communities in soils from four different countries (Cameroon, France, Italy, Senegal) and determined if a rhizosphere core microbiome existed across these different countries. The wheat genotype had a limited effect on the rhizosphere microbiome (2% of variance) as the majority of the microbial taxa were consistently associated to multiple wheat genotypes grown in the same soil. Large differences in taxa richness and in community structure were observed between the eight soils studied (57% variance) and the two agricultural practices (10% variance). Despite these differences between soils, we observed that 179 taxa (2 archaea, 104 bacteria, 41 fungi, 32 protists) were consistently detected in the rhizosphere, constituting a core microbiome. In addition to being prevalent, these core taxa were highly abundant and collectively represented 50% of the reads in our dataset. Based on these results, we identify a list of key taxa as future targets of culturomics, metagenomics and wheat synthetic microbiomes. Additionally, we show that protists are an integral part of the wheat holobiont that is currently overlooked.Graphical Abstract

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Long-term N fertilization altered 13C-labeled fungal community composition but not diversity in wheat rhizosphere of Chinese black soil

Soil Biology and Biochemistry ◽

10.1016/j.soilbio.2019.04.009 ◽

2019 ◽

Vol 135 ◽

pp. 117-126 ◽

Cited By ~ 4

Author(s):

Qingfeng Wang ◽

Mingchao Ma ◽

Xin Jiang ◽

Baoku Zhou ◽

Dawei Guan ◽

...

Keyword(s):

Community Composition ◽

Fungal Community ◽

Black Soil ◽

N Fertilization ◽

Fungal Community Composition ◽

Wheat Rhizosphere

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Biouptake Responses of Trace Metals to Long-Term Irrigation with Diverse Wastewater in the Wheat Rhizosphere Microenvironment

International Journal of Environmental Research and Public Health ◽

10.3390/ijerph16173218 ◽

2019 ◽

Vol 16 (17) ◽

pp. 3218

Author(s):

Renfei Li ◽

Yuan Zhang ◽

Hong Yu ◽

Qiuling Dang ◽

Hanxia Yu ◽

...

Keyword(s):

Trace Metals ◽

Trace Metal ◽

Rhizosphere Soil ◽

Metal Speciation ◽

Wastewater Irrigation ◽

Soil Redox Potential ◽

Wheat Rhizosphere ◽

Different Sources ◽

Trace Metal Speciation

Wastewater irrigation is widely practiced and may cause serious environmental problems. However, current knowledge on the effects of long-term irrigation with wastewater from different sources on the biouptake of trace metals (TMs) in the rhizosphere zone by plants in farmlands is limited. Here, we analyzed wheat rhizosphere soil and wheat roots collected from a typical wastewater irrigation area in North China to evaluate the influence of wastewater irrigation from different sources on the bioavailability of trace metals in soils. Results showed that irrigation with tanning and domestic wastewater helped enhance the bioavailability of trace metals in rhizosphere soil by increasing the active organic carbon content, soil redox potential, and catalase activity, thus enhancing the proportion of the potentially bioavailable part of trace metal speciation. Conversely, irrigation with pharmaceutical wastewater can reduce the bioavailability of trace metals in rhizosphere soil by increasing total soil antibiotics and thus decreasing the proportions of bioavailable and potentially bioavailable parts of trace metal speciation. These findings can provide insights into the migration and transformation of trace metal speciation in soil rhizosphere microenvironments under the context of wastewater irrigation.

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The influence of farming systems and microbial preparations on the structure of the microbocenosis of the rhizosphere of Triticum aestivum L.

Abstract book of the 2nd International Scientific Conference "Plants and Microbes: the Future of Biotechnology" PLAMIC2020 ◽

10.28983/plamic2020.063 ◽

2020 ◽

Author(s):

A. Yu. Egovtseva ◽

T. N. Melnichuk ◽

S. F. Abdurashitov

Keyword(s):

Triticum Aestivum ◽

Winter Wheat ◽

Farming Systems ◽

Farming System ◽

Triticum Aestivum L ◽

Taxonomic Structure ◽

Traditional Farming ◽

Wheat Rhizosphere ◽

Rhizosphere Microbiome ◽

No Till

The use of microbial preparations contributed to a change in the taxonomic structure of winter wheat rhizosphere microbiome was established. A more significant effect of microbial preparations was noted under no-till technology on the structure of the microbiome than with the traditional farming system.

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