Comprehensive analysis of SUSIBA2 rice: The low-methane trait and associated changes in soil carbon and microbial communities
文献类型: 外文期刊
作者: Du, Lin 1 ; Wang, Yunfei 1 ; Shan, Zhen 1 ; Shen, Xueliang 1 ; Wang, Feng 1 ; Su, Jun 1 ;
作者机构: 1.Fujian Acad Agr Sci, Fujian Prov Key Lab Genet Engn Agr, Inst Biotechnol, Fuzhou 350003, Peoples R China
关键词: SUSIBA2 rice; CH4 emission; Microbial biomass carbon; Methanogen; Methanotroph
期刊名称:SCIENCE OF THE TOTAL ENVIRONMENT ( 影响因子:7.963; 五年影响因子:7.842 )
ISSN: 0048-9697
年卷期: 2021 年 764 卷
页码:
收录情况: SCI
摘要: Rice cultivation is the primary source of anthropogenic methane (CH4), which dramatically impacts global climate change. A growing body of evidence shows that optimizing photosynthate distribution is important for increasing rice yields and mitigating CH4 emissions. Therefore, the molecular rice breeding with a barley HvSUSIBA2 gene that confers elevated photosynthate flux to grains, is predicted to enhance rice yield and mitigate CH4 emissions in paddies. Here, in a series of field experiments with differences in growing season and rice variety, we show that SUSIBA2 rice reduced CH4 emissions from paddies. SUSIBA2 rice grown in the early rice season and late rice season showed similar mitigation effects, with reduction rates of 50.98% for early rice and 50.97% for late rice. The reduction rate of SUSIBA2 rice during the winter rice season was significantly lower (22.26%) than those of other rice seasons. The reduction rates also varied between rice varieties, and SUSIBA2 japonica rice showed a more significant CH4 mitigation effect than SUSIBA2 indica rice. Further yield-scaled CH4 emission analyses indicated that the SUSIBA2 effect did not mitigate CH4 emissions at the expense of yield. Compared with the wild type, SUSIBA2 rice significantly reduced soil organic carbon properties and the abundance of CH4-related microbes, and altered methanogenic and methanotrophic communities, indicating that SUSIBA2 rice released less carbon to the soil, which reduced CH4 production. Furthermore, a comparison of microbial communities between SUSIBA2 japonica and indica rice revealed different responses of methanogenic and methanotrophic communities, which may partly explain their differences in growth performance and CH4 mitigation effect. Thus, our results show that SUSIBA2 rice substantially reduces CH4 emissions and that SUSIBA2 can potentially mitigate the CH4 emissions of japonica and indica rice under distinct cultivation conditions. (C) 2020 Elsevier B.V. All rights reserved.
- 相关文献
作者其他论文 更多>>
-
Editing the RR-TZF Gene Subfamily in Rice Uncovers Potential Risks of CRISPR/Cas9 for Targeted Genetic Modification
作者:Zhou, Shufen;Lu, Xiaozhuan;Wu, Weiren;Zhou, Shufen;Tian, Dagang;Liu, Huaqing;Zhang, Di;Chen, Rui;Yang, Shaohua;Wang, Feng
关键词:CRISPR/Cas9;
RR-TZF gene subfamily; rice (Oryza sativa L.); off-target effects; inheritable mutagenicity -
GLR36T807I Mutation of Casuarina equisetifoli Is Associated With a Decreased JA Response to Insect Feeding by Lymantria xylina
作者:Chang, Huan;Su, Jun;Li, Chengli;Zhu, Tengfei;Cai, Shouping;Chen, Jie;Zhan, Fangfang;Zeng, Liqiong;Ye, Gongfu;Fang, Yu;Li, Jian
关键词:
Casuarina equisetifolia ; flavonoids; glutamate receptor-like protein 3.6 (GLR3.6); jasmonic acid;Lymantria xylina ; phosphorylation -
Arginine accumulation suppresses heat production during fermentation of the biocontrol fungus Beauveria bassiana
作者:Wu, Tong;Su, Jun;Wu, Tong;Zhan, Fangfang;Zeng, Liqiong;Lin, Haoyu;Cai, Shouping;Sun, Yanli;Fu, Shihui;Fang, Yu;Lin, Xiaochun
关键词:Beauveria bassiana; solid-state fermentation; multiomics; arginine; heating period
-
CeJAZ3 suppresses longifolene accumulation in Casuarina equisetifolia, affecting the host preference of Anoplophora chinensis
作者:Yang, Hua;Jiang, Lijuan;Bao, Xiaochun;Liu, Haolan;Xu, Qianle;Li, Jian;Yang, Hua;Jiang, Lijuan;Bao, Xiaochun;Liu, Haolan;Xu, Qianle;Li, Jian;Yao, Xingliang;Su, Jun;Cai, Shouping;Fang, Yu
关键词:
Casuarina equisetifolia ;Anoplophora chinensis ; host preference; JAZ; longifolene; integrated pest management -
Organic management improves soil P availability via increasing inorganic P solubilization in tea plantations
作者:Chang, Yunni;Wu, Zhidan;Chen, Yuzhen;Jiang, Fuying;Wang, Feng;Chang, Yunni;Wu, Zhidan;Chen, Yuzhen;Jiang, Fuying;Wang, Feng;Chang, Yunni;Wu, Zhidan;Chen, Yuzhen;Jiang, Fuying;Wang, Feng;Penuelas, Josep;Sardans, Jordi;Penuelas, Josep;Sardans, Jordi
关键词:Phosphorus availability; Soil microbial community; Functional gene; Tea plantation
-
Chromosome-level genome assembly of the pine wood nematode carrier Arhopalus unicolor
作者:Zou, Xiangying;Zeng, Liqiong;Tang, Chensheng;Cai, Shouping;Zou, Xiangying;Su, Jun;You, Xingzao;Zhong, Jinghui;Zheng, Zhaofei;Lin, Xiaochun;Zhang, Biaoqiang;Zhang, Xinliang;Fang, Yu;Sun, Yanli
关键词:
-
Metabolomics and microbial community analysis provides new insights into tea quality in different oolong tea cultivars
作者:Chang, Yunni;Wu, Zhidan;Jiang, Fuying;Chen, Yuzhen;Sun, Jun;Wang, Feng;Chang, Yunni;Wu, Zhidan;Jiang, Fuying;Chen, Yuzhen;Sun, Jun;Wang, Feng;Chang, Yunni;Wu, Zhidan;Jiang, Fuying;Chen, Yuzhen;Sun, Jun;Wang, Feng
关键词:Microorganism; Metabolites; Oolong tea; Tea cultivars
