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Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil
Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil
by Zhang, Ke , Lv, Cheng , Liu, Na , Cao, Xiaoyu , Dai, Jiulan , Li, Shuangshuang , Chen, Yihui , He, Huan
in Abundance / Acidobacteria / Actinobacteria / Agrochemicals / Aquatic Pollution / Atmospheric Protection/Air Quality Control/Air Pollution / Bacillus subtilis / Bacteria / Bacteroidetes / Chloroflexi / Crop growth / Crop yield / Earth and Environmental Science / Ecotoxicology / edaphic factors / Environment / Environmental Chemistry / Environmental Health / Environmental science / Fertilizers / Field tests / Fungi / Microorganisms / Nitrogen / Nonpoint source pollution / Phosphorus / Plant growth / plant growth-promoting rhizobacteria / Pollution sources / Proteobacteria / Relative abundance / Research Article / rRNA 16S / soil / Soil bacteria / Soil chemistry / Soil environment / Soil improvement / Soil microorganisms / Soil nutrients / Soil pollution / Soil properties / Soil quality / Soil remediation / Soil structure / Trichoderma / Verrucomicrobia / Waste Water Technology / Water Management / Water Pollution Control / Wheat
2021
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Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil
by Zhang, Ke , Lv, Cheng , Liu, Na , Cao, Xiaoyu , Dai, Jiulan , Li, Shuangshuang , Chen, Yihui , He, Huan
in Abundance / Acidobacteria / Actinobacteria / Agrochemicals / Aquatic Pollution / Atmospheric Protection/Air Quality Control/Air Pollution / Bacillus subtilis / Bacteria / Bacteroidetes / Chloroflexi / Crop growth / Crop yield / Earth and Environmental Science / Ecotoxicology / edaphic factors / Environment / Environmental Chemistry / Environmental Health / Environmental science / Fertilizers / Field tests / Fungi / Microorganisms / Nitrogen / Nonpoint source pollution / Phosphorus / Plant growth / plant growth-promoting rhizobacteria / Pollution sources / Proteobacteria / Relative abundance / Research Article / rRNA 16S / soil / Soil bacteria / Soil chemistry / Soil environment / Soil improvement / Soil microorganisms / Soil nutrients / Soil pollution / Soil properties / Soil quality / Soil remediation / Soil structure / Trichoderma / Verrucomicrobia / Waste Water Technology / Water Management / Water Pollution Control / Wheat
2021
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Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil
Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil
by Zhang, Ke , Lv, Cheng , Liu, Na , Cao, Xiaoyu , Dai, Jiulan , Li, Shuangshuang , Chen, Yihui , He, Huan
in Abundance / Acidobacteria / Actinobacteria / Agrochemicals / Aquatic Pollution / Atmospheric Protection/Air Quality Control/Air Pollution / Bacillus subtilis / Bacteria / Bacteroidetes / Chloroflexi / Crop growth / Crop yield / Earth and Environmental Science / Ecotoxicology / edaphic factors / Environment / Environmental Chemistry / Environmental Health / Environmental science / Fertilizers / Field tests / Fungi / Microorganisms / Nitrogen / Nonpoint source pollution / Phosphorus / Plant growth / plant growth-promoting rhizobacteria / Pollution sources / Proteobacteria / Relative abundance / Research Article / rRNA 16S / soil / Soil bacteria / Soil chemistry / Soil environment / Soil improvement / Soil microorganisms / Soil nutrients / Soil pollution / Soil properties / Soil quality / Soil remediation / Soil structure / Trichoderma / Verrucomicrobia / Waste Water Technology / Water Management / Water Pollution Control / Wheat
2021

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Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil
Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil
Journal Article

Effects of different types of microbial inoculants on available nitrogen and phosphorus, soil microbial community, and wheat growth in high-P soil

Zhang, Ke,
Lv, Cheng,
Liu, Na,
Cao, Xiaoyu,
Dai, Jiulan,
Li, Shuangshuang,
Chen, Yihui,
He, Huan
2021
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Overview
Irrational application of chemical fertilizers causes soil nutrient imbalance, reduced microbial diversity, soil diseases, and other soil quality problems and is one of the main sources of non-point pollution. The application of microbial inoculant (MI) can improve the soil environment and crop growth to reduce problems caused by irrational application of chemical fertilizers. Field experiments were carried out in high-phosphorus soils to study the effects of the addition of various MIs combined with chemical fertilizers on soil properties, wheat growth, and soil microbial composition and structure. The MIs consisted of one fungal agent: Trichoderma compound agent (TC) and five bacterial agents, namely soil remediation agent (SR), anti-repeat microbial agent (AM), microbial agent (MA), plant growth-promoting rhizobacteria (PG), and biological fertilizer agent (BF). The wheat yield increased by 15.2–33.4% with the addition of MIs, and PG with Bacillus subtilis as the core microorganism had the most obvious effect on increasing the production ( p  < 0.05). For the entire growth period of wheat, all MIs applied significantly increased the available nitrogen (AN) ( p  < 0.05) but did not significantly affect the available phosphorus (AP). BF has the best effect on increasing AN in the soil. The 16S rRNA sequencing results indicated that the dominant phyla of soil bacteria were Proteobacteria, Acidobacteria, Bacteroidetes, Actinobacteria, and Verrucomicrobia. The addition of MIs increased the relative abundance of Acidobacteria, Actinobacteria, Chloroflexi and decreased Proteobacteria and Bacteroidetes. The diversity of soil bacterial community (Chao1) was significantly higher in the soil added with TC than that added with BF ( p  < 0.05). All bacterial agents significantly enriched various genera ( p  < 0.05), while the fungal agent (TC) did not enrich the genera significantly. pH and AN, but not TP, were closely related to the dominant bacteria phylum in high-P soil. The application of MIs improved AN in soil, increased the wheat yield, and changed the relative abundance of the soil dominant phylum, and these changes were closely related to the type of MIs. The results provide a scientific basis for rational use of different types of MIs in high-P soil.
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Publisher
Springer Berlin Heidelberg,Springer Nature B.V
Subject

Abundance

/ Acidobacteria

/ Actinobacteria

/ Agrochemicals

/ Aquatic Pollution

/ Atmospheric Protection/Air Quality Control/Air Pollution

/ Bacillus subtilis

/ Bacteria

/ Bacteroidetes

/ Chloroflexi

/ Crop growth

/ Crop yield

/ Earth and Environmental Science

/ Ecotoxicology

/ edaphic factors

/ Environment

/ Environmental Chemistry

/ Environmental Health

/ Environmental science

/ Fertilizers

/ Field tests

/ Fungi

/ Microorganisms

/ Nitrogen

/ Nonpoint source pollution

/ Phosphorus

/ Plant growth

/ plant growth-promoting rhizobacteria

/ Pollution sources

/ Proteobacteria

/ Relative abundance

/ Research Article

/ rRNA 16S

/ soil

/ Soil bacteria

/ Soil chemistry

/ Soil environment

/ Soil improvement

/ Soil microorganisms

/ Soil nutrients

/ Soil pollution

/ Soil properties

/ Soil quality

/ Soil remediation

/ Soil structure

/ Trichoderma

/ Verrucomicrobia

/ Waste Water Technology

/ Water Management

/ Water Pollution Control

/ Wheat

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