Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria

Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria

Azospirillum brasilense and Pseudomonas fluoresceins are well-known plant growth promoting rhizobacteria. However, the effects of A. brasilense and P. fluoresceins on the N cycles in the paddy field and rice plant growth are little known. This study investigated whether and how A. brasilense and P....

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Main Authors: Jun-hua ZHANG, Jing HUANG, Sajid HUSSAIN, Lian-feng ZHU, Xiao-chuang CAO, Chun-quan ZHU, Qian-yu JIN, Hui ZHANG
Format: Article
Language:English
Published: Elsevier 2021-10-01
Series:Journal of Integrative Agriculture
Subjects:
N transformation
paddy soil
plant growth promoting rhizobacteria
rice productivity
Online Access:http://www.sciencedirect.com/science/article/pii/S2095311920634542
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spelling doaj-a5564bc3f696406cb6734df7ad7cceca2021-08-08T04:17:54ZengElsevierJournal of Integrative Agriculture2095-31192021-10-01201027812796Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteriaJun-hua ZHANG0Jing HUANG1Sajid HUSSAIN2Lian-feng ZHU3Xiao-chuang CAO4Chun-quan ZHU5Qian-yu JIN6Hui ZHANG7State Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, P.R.ChinaState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, P.R.ChinaState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, P.R.ChinaState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, P.R.ChinaState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, P.R.ChinaState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, P.R.ChinaState Key Laboratory of Rice Biology, China National Rice Research Institute, Hangzhou 310006, P.R.China; Correspondence JIN Qian-yuAgricultural Resources and Environment Institute, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, P.R.China; Correspondence ZHANG HuiAzospirillum brasilense and Pseudomonas fluoresceins are well-known plant growth promoting rhizobacteria. However, the effects of A. brasilense and P. fluoresceins on the N cycles in the paddy field and rice plant growth are little known. This study investigated whether and how A. brasilense and P. fluoresceins contribute to the N transformations and N supply capacities in the rhizosphere, and clarified the effects of A. brasilense and P. fluoresceins on the N application rate in rice cultivation. Inoculations with A. brasilense and P. fluoresceins coupled with N application rate trials were conducted in the paddy field in 2016 and 2017. The inoculations of rice seedlings included four treatments: sterile saline solution (M0), A. brasilense (Mb), P. fluoresceins (Mp), and co-inoculation with a mixture of A. brasilense and P. fluoresceins (Mbp). The N application rate included four levels: 0 kg N ha–1 (N0), 90 kg N ha–1 (N90), 180 kg N ha–1 (N180), and 270 kg N ha–1 (N270). The results indicated that the Mbp and Mp treatments significantly enhanced the ammonification activities in the rhizosphere compared with the M0 treatment, especially for higher N applications, while the Mbp and Mb treatments greatly enhanced the nitrogenase activities in the rhizosphere compared with the M0 treatments, especially for lower N applications. Azospirillum brasilense and P. fluoresceins did not participate in the nitrification processes or the denitrification processes in the soil. The soil respiration rate and microbial biomass N were greatly affected by the interactions between the rhizobacteria inoculations and the N fertilizer applications. In the Mbp treatment, N supply capacities and rice grain yields showed no significant differences among the N90, N180, and N270 applications. The N application rate in the study region can be reduced to 90 kg N ha–1 for rice seedlings co-inoculated with a mixture of A. brasilense and P. fluoresceins.http://www.sciencedirect.com/science/article/pii/S2095311920634542N transformationpaddy soilplant growth promoting rhizobacteriarice productivity
collection DOAJ
language English
format Article
sources DOAJ
author Jun-hua ZHANG
Jing HUANG
Sajid HUSSAIN
Lian-feng ZHU
Xiao-chuang CAO
Chun-quan ZHU
Qian-yu JIN
Hui ZHANG
spellingShingle Jun-hua ZHANG
Jing HUANG
Sajid HUSSAIN
Lian-feng ZHU
Xiao-chuang CAO
Chun-quan ZHU
Qian-yu JIN
Hui ZHANG
Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria
Journal of Integrative Agriculture
N transformation
paddy soil
plant growth promoting rhizobacteria
rice productivity
author_facet Jun-hua ZHANG
Jing HUANG
Sajid HUSSAIN
Lian-feng ZHU
Xiao-chuang CAO
Chun-quan ZHU
Qian-yu JIN
Hui ZHANG
author_sort Jun-hua ZHANG
title Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria
title_short Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria
title_full Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria
title_fullStr Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria
title_full_unstemmed Increased ammonification, nitrogenase, soil respiration and microbial biomass N in the rhizosphere of rice plants inoculated with rhizobacteria
title_sort increased ammonification, nitrogenase, soil respiration and microbial biomass n in the rhizosphere of rice plants inoculated with rhizobacteria
publisher Elsevier
series Journal of Integrative Agriculture
issn 2095-3119
publishDate 2021-10-01
description Azospirillum brasilense and Pseudomonas fluoresceins are well-known plant growth promoting rhizobacteria. However, the effects of A. brasilense and P. fluoresceins on the N cycles in the paddy field and rice plant growth are little known. This study investigated whether and how A. brasilense and P. fluoresceins contribute to the N transformations and N supply capacities in the rhizosphere, and clarified the effects of A. brasilense and P. fluoresceins on the N application rate in rice cultivation. Inoculations with A. brasilense and P. fluoresceins coupled with N application rate trials were conducted in the paddy field in 2016 and 2017. The inoculations of rice seedlings included four treatments: sterile saline solution (M0), A. brasilense (Mb), P. fluoresceins (Mp), and co-inoculation with a mixture of A. brasilense and P. fluoresceins (Mbp). The N application rate included four levels: 0 kg N ha–1 (N0), 90 kg N ha–1 (N90), 180 kg N ha–1 (N180), and 270 kg N ha–1 (N270). The results indicated that the Mbp and Mp treatments significantly enhanced the ammonification activities in the rhizosphere compared with the M0 treatment, especially for higher N applications, while the Mbp and Mb treatments greatly enhanced the nitrogenase activities in the rhizosphere compared with the M0 treatments, especially for lower N applications. Azospirillum brasilense and P. fluoresceins did not participate in the nitrification processes or the denitrification processes in the soil. The soil respiration rate and microbial biomass N were greatly affected by the interactions between the rhizobacteria inoculations and the N fertilizer applications. In the Mbp treatment, N supply capacities and rice grain yields showed no significant differences among the N90, N180, and N270 applications. The N application rate in the study region can be reduced to 90 kg N ha–1 for rice seedlings co-inoculated with a mixture of A. brasilense and P. fluoresceins.
topic N transformation
paddy soil
plant growth promoting rhizobacteria
rice productivity
url http://www.sciencedirect.com/science/article/pii/S2095311920634542
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