The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition

The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition

Abstract Straw return plays an important role in the improvement of farmland ecological environments, increasing soil fertility, crop quality, and yield. However, in the early growth of rice (Oryza sativa L.), straw decomposition and rice growth may be inhibited by suboptimal carbon/nitrogen (C/N) r...

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Main Authors: Jichao Tang, Ruoyu Zhang, Hechao Li, Jiali Tan, Wenjie Song, Xin Wen, Bilin Lu, Zhengrong Hu
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:Food and Energy Security
Subjects:
grain yield
N fertilizer
rice
root growth
straw return
Online Access:https://doi.org/10.1002/fes3.298
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spelling doaj-811f55e04fb74675a9521a6cdfaae0492021-08-19T09:16:24ZengWileyFood and Energy Security2048-36942021-08-01103n/an/a10.1002/fes3.298The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decompositionJichao Tang0Ruoyu Zhang1Hechao Li2Jiali Tan3Wenjie Song4Xin Wen5Bilin Lu6Zhengrong Hu7Hubei Collaborative Innovation Center for Grain Industry Agricultural College Yangtze University Jingzhou ChinaHubei Collaborative Innovation Center for Grain Industry Agricultural College Yangtze University Jingzhou ChinaHubei Collaborative Innovation Center for Grain Industry Agricultural College Yangtze University Jingzhou ChinaHubei Collaborative Innovation Center for Grain Industry Agricultural College Yangtze University Jingzhou ChinaHubei Collaborative Innovation Center for Grain Industry Agricultural College Yangtze University Jingzhou ChinaHubei Collaborative Innovation Center for Grain Industry Agricultural College Yangtze University Jingzhou ChinaHubei Collaborative Innovation Center for Grain Industry Agricultural College Yangtze University Jingzhou ChinaCentral South Agricultural Experiment Station of China Tobacco Changsha ChinaAbstract Straw return plays an important role in the improvement of farmland ecological environments, increasing soil fertility, crop quality, and yield. However, in the early growth of rice (Oryza sativa L.), straw decomposition and rice growth may be inhibited by suboptimal carbon/nitrogen (C/N) ratios. We, therefore, explored methods that could alleviate the inhibition of straw decomposition using different combinations of ammonium bicarbonate and compound fertilizer. No fertilizer (CK) and compound fertilizer (S0) were used as the control. The ratios of added ammonium bicarbonate were 10% (S1), 20% (S2), 30% (S3), and 40% (S4), respectively. Compared with the S0 treatment, the S2 treatment accelerated straw decomposition, promoted the early growth of tillers and roots, and improved the leaf area index, dry matter accumulation, and N use efficiency (apparent N utilization, agronomic N utilization, and partial factor productivity increased by 4.05‒19.48% in two years). Moreover, panicle number, filled‐grain percentage, and 1000‐grain weight were significantly higher in the S2 treatment than other treatments. The grain yield of S2 treatment was significantly higher than that of S0 treatment by 4.06% (2019) and 5.66% (2020). Regression analysis revealed that the optimal ratios of ammonium bicarbonate for increasing straw decomposition and grain yield were relatively close, 16.27% and 14.60%, respectively. These results suggest that compared with conventional fertilization method (S0), the 20% treatment is a more effective fertilization method that prevents inhibition of straw decomposition, promoting rice growth and yield, and improving nitrogen (N) use efficiency.https://doi.org/10.1002/fes3.298grain yieldN fertilizerriceroot growthstraw return
collection DOAJ
language English
format Article
sources DOAJ
author Jichao Tang
Ruoyu Zhang
Hechao Li
Jiali Tan
Wenjie Song
Xin Wen
Bilin Lu
Zhengrong Hu
spellingShingle Jichao Tang
Ruoyu Zhang
Hechao Li
Jiali Tan
Wenjie Song
Xin Wen
Bilin Lu
Zhengrong Hu
The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition
Food and Energy Security
grain yield
N fertilizer
rice
root growth
straw return
author_facet Jichao Tang
Ruoyu Zhang
Hechao Li
Jiali Tan
Wenjie Song
Xin Wen
Bilin Lu
Zhengrong Hu
author_sort Jichao Tang
title The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition
title_short The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition
title_full The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition
title_fullStr The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition
title_full_unstemmed The combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition
title_sort combination of different nitrogen fertilizer types could promote rice growth by alleviating the inhibition of straw decomposition
publisher Wiley
series Food and Energy Security
issn 2048-3694
publishDate 2021-08-01
description Abstract Straw return plays an important role in the improvement of farmland ecological environments, increasing soil fertility, crop quality, and yield. However, in the early growth of rice (Oryza sativa L.), straw decomposition and rice growth may be inhibited by suboptimal carbon/nitrogen (C/N) ratios. We, therefore, explored methods that could alleviate the inhibition of straw decomposition using different combinations of ammonium bicarbonate and compound fertilizer. No fertilizer (CK) and compound fertilizer (S0) were used as the control. The ratios of added ammonium bicarbonate were 10% (S1), 20% (S2), 30% (S3), and 40% (S4), respectively. Compared with the S0 treatment, the S2 treatment accelerated straw decomposition, promoted the early growth of tillers and roots, and improved the leaf area index, dry matter accumulation, and N use efficiency (apparent N utilization, agronomic N utilization, and partial factor productivity increased by 4.05‒19.48% in two years). Moreover, panicle number, filled‐grain percentage, and 1000‐grain weight were significantly higher in the S2 treatment than other treatments. The grain yield of S2 treatment was significantly higher than that of S0 treatment by 4.06% (2019) and 5.66% (2020). Regression analysis revealed that the optimal ratios of ammonium bicarbonate for increasing straw decomposition and grain yield were relatively close, 16.27% and 14.60%, respectively. These results suggest that compared with conventional fertilization method (S0), the 20% treatment is a more effective fertilization method that prevents inhibition of straw decomposition, promoting rice growth and yield, and improving nitrogen (N) use efficiency.
topic grain yield
N fertilizer
rice
root growth
straw return
url https://doi.org/10.1002/fes3.298
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