Increasing soil organic carbon sequestration while closing the yield gap in Chinese wheat production

Guo Yifan; Chen Mingyou; Pan Junxiao; Shang Yiwei; Wu Xingjie; Cui Zhenling

首页> 外文期刊>Land Degradation and Development >Increasing soil organic carbon sequestration while closing the yield gap in Chinese wheat production

【24h】

Increasing soil organic carbon sequestration while closing the yield gap in Chinese wheat production

机译：增加土壤有机碳封存，同时关闭中国小麦生产的产量差距

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Managing soil organic carbon (SOC) to maximize crop yield is a vital strategy to feed the world's growing population. However, the low SOC contents in agricultural soils limits the maximization of wheat yield. Here, we used modeling and a long-term field experiment to determine whether improved crop management (IM) and an integrated procedure that combined IM with manure application (IMsoil) would close the yield gap while increasing SOC sequestration during wheat (Triticum aestivum L.) production in China. The yield of conventional farmers' practice (CM), operating with high fertilizer inputs, suboptimal management, and straw removal, was 5.3 Megagrams per hectare (Mg/ha), reaching 48% of yield potential (Yp, 11.0 Mg/ha) while reducing SOC sequestration during the year 2012-2019. The IM procedure with optimized density, planting dates, and nutrient management increased yield to 8.0 Mg/ha (i.e., 73% of Yp), and increased SOC sequestration. The IMsoil treatment further elevated wheat yield to 9.3 Mg/ha (i.e., 85% of Yp) by increasing spike number and pre-anthesis dry matter accumulation. The SOC sequestration in the IMsoil increased by 15.4 Mg C/ha at a rate of 2.20 Mg C ha-1 yr through large C inputs and high SOC transfer efficiencies compared with the beginning of this experiment. These results highlight the importance of combining optimized crop managements with soil amendment to close the yield gap with less fertilizer inputs while contributing to sustainable agriculture objectives.

机译：None

著录项

来源
《Land Degradation and Development》 |2021年第3期|共13页
作者
Guo Yifan; Chen Mingyou; Pan Junxiao; Shang Yiwei; Wu Xingjie; Cui Zhenling;
展开▼
作者单位

China Agr Univ Ctr Resources Key Lab Plant Soil Interact Minist Educ Beijing Peoples R China;

China Agr Univ Ctr Resources Key Lab Plant Soil Interact Minist Educ Beijing Peoples R China;

China Agr Univ Ctr Resources Key Lab Plant Soil Interact Minist Educ Beijing Peoples R China;

China Agr Univ Ctr Resources Key Lab Plant Soil Interact Minist Educ Beijing Peoples R China;

China Agr Univ Ctr Resources Key Lab Plant Soil Interact Minist Educ Beijing Peoples R China;

China Agr Univ Ctr Resources Key Lab Plant Soil Interact Minist Educ Beijing Peoples R China;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类土壤学;
关键词
dry matter accumulation; manure; population establishment; soil organic carbon stock; yield potential;

机译：干物质积累;粪便;人口建立;土壤有机碳股;产量潜力;

相似文献

外文文献
中文文献
专利

1. Using the DSSAT model to simulate wheat yield and soil organic carbon under a wheat-maize cropping system in the North China Plain [J] . LIU Hai-long, ZHANG Jing-suo, LIU Xiao-xia, 农业科学学报（英文版） . 2017,第010期
2. Using the DSSAT model to simulate wheat yield and soil organic carbon under a wheat-maize cropping system in the North China Plain [J] . LIU Hai-long, LIU Hong-bin, LEI Qiu-liang, 农业科学学报：英文版 . 2017,第010期
3. Straw incorporation influences soil organic carbon sequestration, greenhouse gas emission, and crop yields in a Chinese rice (Oryza sativa L.)-wheat (Triticum aestivum L.) cropping system [J] . Wang Haihou, Shen Mingxing, Hui Dafeng, Soil & Tillage Research . 2019,第期

机译：秸秆掺入影响中国稻米（Oryza Sativa L.） - 小麦（Triticum aestivum L）种植系统中的土壤有机碳封存，温室气体排放和作物产量
4. Straw incorporation increases crop yield and soil organic carbon sequestration but varies under different natural conditions and farming practices in China: a system analysis [J] . Han Xiao, Xu Cong, Dungait Jennifer A. J., Biogeosciences . 2018,第7期

机译：秸秆还田增加了作物产量和土壤有机碳固存，但在中国不同的自然条件和耕作方式下有所不同：系统分析
5. Straw incorporation increases crop yield and soil organic carbon sequestration but varies under different natural conditions and farming practices in China: a system analysis [J] . Han Xiao, Xu Cong, Dungait Jennifer A. J., Biogeosciences Discussions . 2018,第7期

机译：秸秆掺入增加了作物产量和土壤有机碳封存，但在中国的不同自然条件和农业实践中变化：系统分析
6. Changes of soil microbial biomass carbon and organic carbon with sea level elevation increasing in soils of mountainous areas, Southwest China [C] . PIAO Hechun, HONG Yetang, YUAN Zhiyun Chinesee science bulletin . 1999

机译：西南山区土壤微生物量碳和有机碳随海拔升高的变化
7. Closing Yield Gaps in South Asian Wheat Production (Bihar, India and Terai of Nepal) [D] . Park, Alexander Guy 2018

机译：缩小南亚小麦产量（印度比哈尔和尼泊尔的特莱）的单产差距
8. Subsoiling during summer fallow in rainfed winter-wheat fields enhances soil organic carbon sequestration on the Loess Plateau in China [O] . Huiyu Zhang, Zhiqiang Gao, Jianfu Xue, 2021

机译：夏季休耕期间雨水冬小麦田的岩浆增强了中国黄土高原的土壤有机碳封存
9. Straw incorporation increases crop yield and soil organic carbon sequestration but varies under different natural conditions and farming practices in China: a system analysis [O] . Xiao Han, Cong Xu, Jennifer A. J. Dungait, 2018

机译：秸秆掺入增加了作物产量和土壤有机碳封存，但在中国的不同自然条件和农业实践中变化：系统分析
10. Rapid Assessment of U.S. Forest and Soil Organic Carbon Storage and Forest Biomass Carbon Sequestration Capacity [R] . Sundquist, E. T., Ackerman, K. V., Bliss, N. B., 2009

机译：美国森林和土壤有机碳储量及森林生物量碳固存能力的快速评估

Increasing soil organic carbon sequestration while closing the yield gap in Chinese wheat production

摘要

著录项

相似文献

相关主题

期刊订阅