Strategies to reduce CH4 and N2O emissions whilst maintaining crop yield in rice-wheat system under climate change using SPACSYS model
文献类型: 外文期刊
第一作者: Wang, Shuhui
作者: Wang, Shuhui;Sun, Nan;Zhang, Shuxiang;Xu, Minggang;Wang, Shuhui;Wellens, Joost;Longdoz, Bernard;Meersmans, Jeroen;Colinet, Gilles;Mu, Zhijian;Wang, Fa;Shi, Xiaojun;Liu, Chuang;Xu, Minggang;Wu, Lianhai;Wu, Lianhai
作者机构:
关键词: Climate change; Crop yield; SOC; GHG; Mitigation; SPACSYS
期刊名称:AGRICULTURAL SYSTEMS ( 影响因子:6.1; 五年影响因子:7.0 )
ISSN: 0308-521X
年卷期: 2025 年 226 卷
页码:
收录情况: SCI
摘要: CONTEXT: Climate change is projected to threaten food security and stimulate greenhouse gas emissions. Hence, adaptation measures without sacrificing food production are required. OBJECTIVE: To assess possible consequences of rice-wheat system under climate change and to propose possible practices for mitigation. METHODS: The Soil-Plant-Atmosphere Continuum SYStem (SPACSYS) model was tested using datasets from long-term experiment (1991-2019) assessing the impact of different fertilisation on crop production, crop nitrogen (N) content, soil organic carbon (SOC) stock, methane (CH4) and nitrous oxide (N2O) emissions in a Cambisol under rice-wheat system. The validated SPACSYS was then used to investigate the possible mitigation strategies from 2024 to 2100 under climate change scenarios (SSP1-2.6 and SSP5-8.5) and the baseline scenario and mitigation management scenarios, i.e., (i) reduced N application rate by 20 % (RNA), (ii) the introduction of mid-season drainage (MSD) and (iii) integrated management combining RNA with MSD (IM). RESULTS AND CONCLUSIONS: Results showed that SPACSYS performed effectively in simulating yield and N content in grain and straw, SOC stock and CH4 and N2O emissions. Scenarios analysis elucidated that RNA would not decrease grain yields for either rice or wheat under the two climate change scenarios. Compared to the baseline scenario, low level of climate change scenario considering the CO2 fertilisation effects (SSP1-2.6_CO2) may benefit wheat yield (28 %) and had no effects on rice yield. In contrast, under the SSP5-8.5 scenario, whether CO2 fertilisation effects are considered or not, both rice and wheat yield could face great loss (i.e., 11.8-29.9 % for rice, 8.3-19.4 % for wheat). The winter wheat would not be suitable for planting in the distant future (2070-2100) due to the incomplete vernalisation caused by warming. The switching from winter wheat to spring wheat from 2070 onward could avoid the yield loss by 8.3-19.4 %. Climate change could decrease SOC sequestration rate. Under future climate change scenarios, IM could significantly decrease CH4 emissions by 56 % and N2O emissions by 24 %, as such reducing the net global warming potential by 69 % compared to no adaptation. Our simulations suggest that under climate change, crop switching in rice-wheat system combining integrated mitigation practices is possible to mitigate global warming and maintain crop production.
分类号:
- 相关文献
作者其他论文 更多>>
-
Soil aggregate carbon stocks and sequestration efficiency under long-term fertilization across China's croplands
作者:Cheng, Man;Ma, Haiyang;Li, Puwang;Cheng, Man;Shi, Ting;Xu, Minggang;Cheng, Man;Chen, Zhixuan;Wen, Yongli
关键词:Soil aggregation; Carbon distribution; Carbon sequestration efficiency; Long-term fertilization; China' croplands
-
Large loss of reactive nitrogen and the associated environmental damages from tea production in China
作者:Huang, Xingcheng;Zhang, Wushuai;Wang, Xiaozhong;Shi, Xiaojun;Chen, Xinping;Liu, Bin;Zhang, Fusuo;Huang, Xingcheng;Lakshmanan, Prakash;Zhang, Wushuai;Wang, Xiaozhong;Liu, Bin;Shi, Xiaojun;Chen, Xinping;Zhang, Fusuo;Lakshmanan, Prakash;Lakshmanan, Prakash;Lakshmanan, Prakash;Ni, Kang;Ruan, Jianyun;Huang, Xingcheng
关键词:tea plantation; reactive nitrogen; damage cost; mitigation potential; meta-analysis
-
pH threshold in controlling dominant nitrification pathway in acidic soils
作者:Cao, Miaomiao;Li, Yong;Zhang, Yuxuan;Uwiragiye, Yves;Jing, Hang;Cheng, Yi;Cai, Zucong;Yu, Debang;Wang, Jing;Tang, Quan;Elrys, Ahmed S.;Cheng, Yi;Cheng, Yi;Xu, Minggang;Xu, Minggang;Mueller, Christoph;Mueller, Christoph;Cheng, Yi;Mueller, Christoph;Qian, Yinfei;Cheng, Yi
关键词:Soil pH; Nitrogen addition; Autotrophic nitrification; Heterotrophic nitrification
-
Peanut-Colonized Piriformospora indica Enhanced Drought Tolerance by Modulating the Enzymes and Expression of Drought-Related Genes
作者:Gao, Jie;Wang, Chen;Tian, Pei-Cong;Liu, Chuang;Wei, Yi;Huang, Yu-Qian;Zhang, Shi-Hong;Ahsan, Taswar
关键词:antioxidant enzymes; drought-related genes; PEG6000 drought stress; Piriformospora indica
-
Yes-associated protein 1 is essential for maintaining lactation via regulating mammary epithelial cell dynamics and secretion capacity
作者:Lv, Haimiao;Wu, Zihui;Lin, Yuxin;Liu, Miaoyu;Xu, Linghua;Wang, Xiaojie;Sun, Nan;Abdelrahman, Mohamed;Yang, Liguo;Hua, Guohua;Lv, Haimiao;Hua, Guohua;Lv, Haimiao;Hua, Guohua;Xu, Xiaoling;Liu, Yan;Abdel-Shafy, Hamdy;Abdelrahman, Mohamed;Alsaegh, Aiman A.;Ahmed, Ahmed Ezzat;Ahmed, Ahmed Ezzat;Yang, Liguo;Hua, Guohua
关键词:Lactation; Yes-associated protein1(YAP1); Prolactin; Melatonin; Mammary epithelial cells
-
Organic carbon and nitrogen accrual evidenced by the underpinning protection mechanisms in soil profile following contrasting 35-year fertilization regimes
作者:Abrar, Muhammad Mohsin;Nan, Sun;Xu, Minggang;Abrar, Muhammad Mohsin;Fan, Ruqin;Du, Jianjun;Waqas, Muhammad Ahmed;Mehmood, Khalid;Zhou, Baoku;Ma, Xingzhu;Xu, Minggang
关键词:SOM; Crop productivity; Soil fertility; Subsoils; Carbon storage; Nitrogen stocks
-
Combined application of chemical and organic fertilizers enhances soil organic carbon sequestration and crop productivity by improving carbon stability and management index in a rice-rice cropping system
作者:Xu, Hu;Yang, Xueyun;Xu, Hu;Mustafa, Adnan;Sun, Nan;Xu, Minggang;Mustafa, Adnan;Saeed, Qudsia;Jiang, Guiying;Liu, Kailou;Kucerik, Jiri;Xu, Minggang
关键词:Long-term fertilization; Double rice cropping system; Crop yield; OC sequestration and stability; Carbon management index
