Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar

Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar

The response of rice to nitrogen (N) was compared between three rice cultivars and three N treatments: 1:0, 0:1, and 1:1 NH4+:NO3−. The three rice cultivars used were: Shennong1401 (SN1401, erect panicle rice cultivar) and Habataki and Sasanishiki (curved panicle rice cultivars). At the booting stag...

Full description

Bibliographic Details
Main Authors: Jun Yi, Jiping Gao, Wenzhong Zhang, Wei Xin, Yanze Zhao, Ziang Li, Chen Zhao, Ying Zhao
Format: Article
Language:English
Published: Taylor & Francis Group 2019-01-01
Series:Journal of Plant Interactions
Subjects:
erect panicle japonica
hydroponics
metabolic genes
nitrogen uptake rate
nitrogen use efficiency
Online Access:http://dx.doi.org/10.1080/17429145.2019.1629036
id doaj-d0955c46a53a4b14b737ef31119be961
record_format Article
spelling doaj-d0955c46a53a4b14b737ef31119be9612021-03-18T15:12:47ZengTaylor & Francis GroupJournal of Plant Interactions1742-91451742-91532019-01-0114139740610.1080/17429145.2019.16290361629036Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivarJun Yi0Jiping Gao1Wenzhong Zhang2Wei Xin3Yanze Zhao4Ziang Li5Chen Zhao6Ying Zhao7Key Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityKey Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityKey Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityKey Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityKey Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityKey Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityKey Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityKey Laboratory of Northern Japonica Rice Genetics and Breeding, Ministry of Education and Liaoning Province, Key Laboratory of Northeast Rice Biology and Genetics and Breeding, Ministry of Agriculture, Rice Research Institute of Shenyang Agricultural UniversityThe response of rice to nitrogen (N) was compared between three rice cultivars and three N treatments: 1:0, 0:1, and 1:1 NH4+:NO3−. The three rice cultivars used were: Shennong1401 (SN1401, erect panicle rice cultivar) and Habataki and Sasanishiki (curved panicle rice cultivars). At the booting stage, higher gene expression and enzyme activity associated with N metabolism of rice in the including-NO3− solutions effected the secondary assimilation of N metabolism, and ultimately increased grain development. During the tillering stage, lower NO3− uptake rates and glutamine synthetase and NADH-dependent glutamate synthase activity in Habataki and Sasanishiki under the NO3− treatments resulted in lower effective panicle number per plant. However, no significant differences were observed in the grain yield per plant of SN1401 between NH4+ and NO3− treatments. Our results indicate that the erect panicle rice cultivar can grow better under the including-NO3− treatment.http://dx.doi.org/10.1080/17429145.2019.1629036erect panicle japonicahydroponicsmetabolic genesnitrogen uptake ratenitrogen use efficiency
collection DOAJ
language English
format Article
sources DOAJ
author Jun Yi
Jiping Gao
Wenzhong Zhang
Wei Xin
Yanze Zhao
Ziang Li
Chen Zhao
Ying Zhao
spellingShingle Jun Yi
Jiping Gao
Wenzhong Zhang
Wei Xin
Yanze Zhao
Ziang Li
Chen Zhao
Ying Zhao
Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar
Journal of Plant Interactions
erect panicle japonica
hydroponics
metabolic genes
nitrogen uptake rate
nitrogen use efficiency
author_facet Jun Yi
Jiping Gao
Wenzhong Zhang
Wei Xin
Yanze Zhao
Ziang Li
Chen Zhao
Ying Zhao
author_sort Jun Yi
title Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar
title_short Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar
title_full Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar
title_fullStr Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar
title_full_unstemmed Uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar
title_sort uptake and utilization of different nitrogen forms in erect panicle japonica rice cultivar
publisher Taylor & Francis Group
series Journal of Plant Interactions
issn 1742-9145
1742-9153
publishDate 2019-01-01
description The response of rice to nitrogen (N) was compared between three rice cultivars and three N treatments: 1:0, 0:1, and 1:1 NH4+:NO3−. The three rice cultivars used were: Shennong1401 (SN1401, erect panicle rice cultivar) and Habataki and Sasanishiki (curved panicle rice cultivars). At the booting stage, higher gene expression and enzyme activity associated with N metabolism of rice in the including-NO3− solutions effected the secondary assimilation of N metabolism, and ultimately increased grain development. During the tillering stage, lower NO3− uptake rates and glutamine synthetase and NADH-dependent glutamate synthase activity in Habataki and Sasanishiki under the NO3− treatments resulted in lower effective panicle number per plant. However, no significant differences were observed in the grain yield per plant of SN1401 between NH4+ and NO3− treatments. Our results indicate that the erect panicle rice cultivar can grow better under the including-NO3− treatment.
topic erect panicle japonica
hydroponics
metabolic genes
nitrogen uptake rate
nitrogen use efficiency
url http://dx.doi.org/10.1080/17429145.2019.1629036
work_keys_str_mv AT junyi uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
AT jipinggao uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
AT wenzhongzhang uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
AT weixin uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
AT yanzezhao uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
AT ziangli uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
AT chenzhao uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
AT yingzhao uptakeandutilizationofdifferentnitrogenformsinerectpaniclejaponicaricecultivar
_version_ 1724215723074519040

Similar Items