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Effects of Wheat and Faba Bean Intercropping on Microorganism Involved in Nitrogen Transformation in the Rhizosphere Soils

Soil microorganism is one of the key factors that affects soil ecological activity. It is an important symbol of soil health, and the soil nitrogen cycle is closely related to the microorganisms. The relationship between nitrogen and microorganisms under the intercropping is im-portant for the farml...

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Published in:	Journal of agricultural resources and environment 2016-01, Vol.33 (5), p.482
Main Authors:	Yan-Fen, Tang, Yong-Bo, Xu, Zheng, Yi, Bao-Kun, Lei
Format:	Article
Language:	Chinese
Subjects:	Abundance Actinobacteria Actinomyces Aerobic bacteria Agricultural land Agricultural practices Agriculture Ammonium Anaerobic bacteria Anaerobic microorganisms Bacteria Biochemistry Biology Community structure Corn Crop diseases Crops Elongation Environmental changes Fatty acids Fertilizers Fungi Genes Intercropping Measurement methods Microorganisms Monoculture Nitrates Nitrogen Nitrogen cycle Nitrous oxide NorB protein Nutrition Phospholipids Polymerase chain reaction Rhizosphere Rhizosphere microorganisms Soil conservation Soil fertility Soil microorganisms Soil pollution Soil sciences Soil structure Wheat
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creator	Yan-Fen, Tang Yong-Bo, Xu Zheng, Yi Bao-Kun, Lei
description	Soil microorganism is one of the key factors that affects soil ecological activity. It is an important symbol of soil health, and the soil nitrogen cycle is closely related to the microorganisms. The relationship between nitrogen and microorganisms under the intercropping is im-portant for the farmland ecosystem. In this paper, phospholipid fatty acids(PLFA) analysis was used to determine soil microbial communi-ties, e.g., biomasses of anaerobic bacteria, aerobic bacteria, bacteria, fungi and actinobacteria. The abundance of nitrifying genes (AOB, AOA) and three denitrifying genes (nirK, norB, nosZ) were measured using real-time quantitative polymerase chain reaction. The enzymes, nitrate and ammonium concentrations were measured using conventional methods. The results showed that along with the growth period, the TPLFAs (total phospholipid fatty acids) increased and the bacterias, fungus, actinomyces and aerobic bacterias significantly (P
doi_str_mv	10.13254/j.jare.2016.0083
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subjects	Abundance Actinobacteria Actinomyces Aerobic bacteria Agricultural land Agricultural practices Agriculture Ammonium Anaerobic bacteria Anaerobic microorganisms Bacteria Biochemistry Biology Community structure Corn Crop diseases Crops Elongation Environmental changes Fatty acids Fertilizers Fungi Genes Intercropping Measurement methods Microorganisms Monoculture Nitrates Nitrogen Nitrogen cycle Nitrous oxide NorB protein Nutrition Phospholipids Polymerase chain reaction Rhizosphere Rhizosphere microorganisms Soil conservation Soil fertility Soil microorganisms Soil pollution Soil sciences Soil structure Wheat
title	Effects of Wheat and Faba Bean Intercropping on Microorganism Involved in Nitrogen Transformation in the Rhizosphere Soils
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