农科机构知识库联盟

Straw enhanced CO2 and CH4 but decreased N2O emissions from flooded paddy soils: Changes in microbial community compositions

文献类型：外文期刊

第一作者： Wang, Ning

作者： Wang, Ning;Yu, Jian-Guang;Zhao, Ya-Hui;Chang, Zhi-Zhou;Shi, Xiao-Xia;Ma, Lena Q.;Li, Hong-Bo;Ma, Lena Q.

作者机构：

关键词： Straw return;Paddy soil;Greenhouse gas;Microbial community compositions

期刊名称：ATMOSPHERIC ENVIRONMENT （影响因子：4.798；五年影响因子：5.295 ）

ISSN： 1352-2310

年卷期： 2018 年 174 卷

页码：

收录情况： SCI

摘要： To explore microbial mechanisms of straw-induced changes in CO2, CH4, and N2O emissions from paddy field, wheat straw was amended to two paddy soils from Taizhou (TZ) and Yixing (YX), China for 60 d under flooded condition. Illumia sequencing was used to characterize shift in bacterial community compositions. Compared to control, 1-5% straw amendment significantly elevated CO2 and CH4 emissions with higher increase at higher application rates, mainly due to increased soil DOC concentrations. In contrast, straw amendment decreased N2O emission. Considering CO2, CH4, and N2O emissions as a whole, an overall increase in global warming potential was observed with straw amendment. Total CO2 and CH4 emissions from straw-amended soils were significantly higher for YX than TZ soil, suggesting that straw-induced greenhouse gas emissions depended on soil characteristics. The abundance of C-turnover bacteria Firmicutes increased from 28-41% to 54-77% with straw amendment, thereby increasing CO2 and CH4 emissions. However, straw amendment reduced the abundance of denitrifying bacteria Proteobacteria from 18% to 7.2-13% or increased the abundance of N2O reducing bacteria Clostridium from 7.6-11% to 13-30%, thereby decreasing N2O emission. The results suggested straw amendment strongly influenced greenhouse gas emissions via alerting soil properties and bacterial community compositions. Future field application is needed to ascertain the effects of straw return on greenhouse gas emissions.

分类号：

相关文献

[1]Characteristics of methane emission and its relations with soil carbon status and management practices under double rice systems. Guo, LP,He, YJ,Lin, ED,Zhang, GM. 2002

[2]Long-term effects of potassium fertilization and straw return on soil potassium levels and crop yields in north-central China. Zhao, Shicheng,He, Ping,Qiu, Shaojun,Jin, Jiyun,He, Ping,He, Ping,Johnston, Adrian M.,Jia, Liangliang,Liu, Mengchao,Johnston, Adrian M..

[3]Effects of enhancing soil organic carbon sequestration in the topsoil by fertilization on crop productivity and stability: Evidence from long-term experiments with wheat-maize cropping systems in China. Zhang, Xubo,Sun, Nan,Xu, Minggang,Zhang, Xubo,Wu, Lianhai,Zhang, Xubo,Bingham, Ian J.,Li, Zhongfang.

[4]Sensitivity of soil respiration to soil temperature decreased under deep biochar amended soils in temperate croplands. He, Xinhua,He, Xinhua,Du, Zhangliu,Wang, Yiding,Lu, Ning,Zhang, Qingzhong.

[5]Soil CO2 and N2O Emissions in Maize Growing Season Under Different Fertilizer Regimes in an Upland Red Soil Region of South China. Zhang Xu-bo,Sun Nan,Ding Xue-shan,Wang Bo-ren,Li Dong-chu,Wu Lian-hai,Li Jian-wei. 2014

[6]Effects of long-term full straw return on yield and potassium response in wheat-maize rotation. Bai You-lu,Wang Lei,Lu Yan-li,Yang Li-ping,Zhou Li-ping,Ni Lu,Cheng Ming-fang. 2015

[7]The efficiency of long-term straw return to sequester organic carbon in Northeast China's cropland. Wang Shi-chao,Zhao Ya-wen,Wang Jin-zhou,Xu Ming-gang,Lu Chang-ai,Zhu Ping,Cui Xian,Han Xiao-zeng. 2018

[8]Changes in soil organic carbon and its chemical fractions under different tillage practices on loess soils of the Guanzhong Plain in north-west China. Sun, H. Y.,Wang, C. X.,Wang, X. D.,Sun, H. Y.,Wang, C. X.,Rees, R. M.. 2013

[9]Effect of biochar on soil respiration in the maize growing season after 5 years of consecutive application. Lu, Ning,Liu, Xing-Ren,Du, Zhang-Liu,Wang, Yi-Ding,Zhang, Qing-Zhong.

[10]Crop yield and soil organic matter after long-term straw return to soil in China. Wang, Jinzhou,Xu, Minggang,Zhang, Wenju,Lu, Chang'ai,Wang, Jinzhou,Feng, Gu,Wang, Jinzhou,Wang, Xiujun,Wang, Xiujun.

[11]Changes in soil microbial community, enzyme activities and organic matter fractions under long-term straw return in north-central China. Zhao, Shicheng,Zhou, Wei,Qiu, Shaojun,Huang, Shaowen,He, Ping,He, Ping,Li, Kejiang.

[12]Simulating the effects of long-term discontinuous and continuous fertilization with straw return on crop yields and soil organic carbon dynamics using the DNDC model. Zhang, Jing,Hu, Kelin,Li, Baoguo,Li, Kejiang,Zheng, Chunlian.

[13]Nitrate and Inhibition of Ruminal Methanogenesis: Microbial Ecology, Obstacles, and Opportunities for Lowering Methane Emissions from Ruminant Livestock. Yang, Chengjian,Rooke, John A.,Cabeza, Irene,Wallace, Robert J.. 2016

[14]Greenhouse gas emissions and stocks of soil carbon and nitrogen from a 20-year fertilised wheat -maize intercropping system: A model approach. Zhang, Xubo,Xu, Minggang,Sun, Nan,Wang, Boren,Zhang, Xubo,Wu, Lianhai,Liu, Jian.

[15]Effects of N Fertilizer Application on Soil N2O Emissions and CH4 Uptake: A Two-Year Study in an Apple Orchard in Eastern China. Xie, Baohua,Yu, Junbao,Han, Guangxuan,Gu, Jiangxin,Yu, Junbao,Zheng, Xunhua,Xu, Yu,Lin, Haitao. 2017

[16]Effects of Soil pH on CO2 Emission from Long-Term Fertilized Black Soils in Northeastern China. Wang, Lianfeng,Han, Zuoqiang,Zhang, Xilin,Wang, Lianfeng. 2010

[17]CO2 Emission from Acidified Black Soils Amended with Alkaline Ameliorants of Lime and Plant Ash. Han, Zuoqiang,Wang, Lianfeng,Zhang, Xilin,Wang, Lianfeng. 2010

[18]Assessing environmental impacts of organic and inorganic fertilizer on daily and seasonal Greenhouse Gases effluxes in rice field. Yuan, Jing,Sha, Zhi-min,Hassani, Danial,Cao, Lin-kui,Zhao, Zheng.

[19]Effect of rice panicle size on paddy field CH4 emissions. Sun, Yanni,Zhang, Yi,Hang, Xiaoning,Zhang, Weijian,Tian, Yunlu,Hang, Xiaoning,Deng, Aixi,Zhang, Jun,Zhang, Weijian.

[20]AMMONIA AND GREENHOUSE GAS EMISSIONS FROM CO-COMPOSTING OF DEAD HENS WITH MANURE AS AFFECTED BY FORCED AERATION RATE. Zhu, Z.,Dong, H.,Xi, J.,Xin, H..

作者其他论文更多>>

Integrated application of fertilization increased maize (Zea mays L.) yield by improving soil quality, particularly under limited water conditions in a semi-arid sandy area

作者：Wang, Ning;Zhang, Tonghui;Li, Yuqiang;Cong, Anqi;Lian, Jie;Wang, Ning;Cong, Anqi;Wang, Ning;Feng, Keyun

关键词：Semiarid areas; Organic fertilizer; Plant growth promoting rhizobacteria; Soil quality; Maize yield
A collaborative scheduling and planning method for multiple machines in harvesting and transportation operations-Part I: Harvester task allocation and sequence optimization

作者：Wang, Ning;Li, Shunda;Han, Yuxiao;Zhang, Man;Li, Han;Wang, Ning;Xiao, Jianxing;Wang, Tianhai;Zhang, Man;Wang, Hao;Wang, Hao

关键词：Agricultural machine; Collaborative scheduling; Scheduling model; Electronic map; Path planning
GhADT5 enhances alkali stress tolerance in cotton by regulating phenylalanine-derived flavonoid biosynthesis and antioxidant defense

作者：Wang, Lidong;Zhang, Menghao;Meng, Junting;Liu, Mengyue;Meng, Yuan;Chen, Wenhua;Fan, Yapeng;Huang, Hui;Sun, Yuping;Yang, Zhining;Chen, Xiao;Wu, Fange;Song, Ruize;Wang, Shuai;Lu, Xuke;Chen, Xiugui;Zhao, Lanjie;Wang, Junjuan;Cui, Yupeng;Ye, Wuwei;Wang, Lidong;Chen, Qin;Ye, Wuwei;Nan, Hongyu;Wang, Ning;Feng, Keyun;Guang, Lijun;Zhou, Xue-Rong

关键词：Phenylalanine (phe); Flavonoid biosynthesis; Arogenate dehydratase (ADT); GhADT5; Cotton (Gossypium Spp.); Virus-induced gene silencing (VIGS); Cotton breeding
Application of Synthetic Microbial Communities of Kalidium schrenkianum in Enhancing Wheat Salt Stress Tolerance

作者：Zhu, Jing;Jia, Qiong;Tang, Qi-Yong;Osman, Ghenijan;Gu, Mei-Ying;Wang, Ning;Zhang, Zhi-Dong

关键词：Kalidium schrenkianum; synthetic microbial communities; wheat; salt stress tolerance
Bioprospecting of a Native Plant Growth-Promoting Bacterium Bacillus cereus B6 for Enhancing Uranium Accumulation by Sudan Grass (Sorghum sudanense (Piper) Stapf)

作者：Wu, Longyuan;Wang, Yanzhi;Sun, Meng;Shi, Chong;Zhang, Lijuan;Wang, Ning;Huang, Wei;Wang, Yanzhi;Sun, Meng;Wang, Wei;Zhang, Lijuan;Zheng, Guofeng

关键词：Bacillus cereus; plant growth-promoting activity; uranium stress
Hybrid path planning methods for complete coverage in harvesting operation scenarios

作者：Wang, Ning;Jin, Zhiwen;Zhang, Zhao;Zhang, Man;Li, Han;Wang, Ning;Jin, Zhiwen;Wang, Tianhai;Xiao, Jianxing;Zhang, Man;Wang, Hao;Wang, Hao

关键词：Agricultural machinery; Complete coverage path planning; Minimum row spacing; Corner turning path model; Electronic map
The clock component LHY1b negatively regulates alkaline stress by repressing AOX1-mediated oxidative responses in soybean

作者：He, Jiaxian;Lin, Jiayu;Wang, Ning;Yang, Xucheng;Chen, Yifei;Zhang, Manting;Chen, Ruifeng;Chen, Xiulin;Dong, Lidong;Kong, Fanjiang;Liu, Baohui;Li, Meina;Yang, Jing;Zhang, Chunbao;Tian, Zhixi;He, Jiaxian

关键词：

Straw enhanced CO2 and CH4 but decreased N2O emissions from flooded paddy soils: Changes in microbial community compositions

作者其他论文 更多>>

Integrated application of fertilization increased maize (Zea mays L.) yield by improving soil quality, particularly under limited water conditions in a semi-arid sandy area

A collaborative scheduling and planning method for multiple machines in harvesting and transportation operations-Part I: Harvester task allocation and sequence optimization

GhADT5 enhances alkali stress tolerance in cotton by regulating phenylalanine-derived flavonoid biosynthesis and antioxidant defense

Application of Synthetic Microbial Communities of Kalidium schrenkianum in Enhancing Wheat Salt Stress Tolerance

Bioprospecting of a Native Plant Growth-Promoting Bacterium Bacillus cereus B6 for Enhancing Uranium Accumulation by Sudan Grass (Sorghum sudanense (Piper) Stapf)

Hybrid path planning methods for complete coverage in harvesting operation scenarios

The clock component LHY1b negatively regulates alkaline stress by repressing AOX1-mediated oxidative responses in soybean

作者其他论文更多>>