Arable soil nitrogen dynamics reflect organic inputs via the extended composite phenotype

被引:11
|
作者
Neal, Andrew L. [1 ]
Barrat, Harry A. [1 ,11 ]
Bacq-Lebreuil, Aurelie [2 ,12 ]
Qin, Yuwei [3 ]
Zhang, Xiaoxian [4 ]
Takahashi, Taro [1 ,5 ]
Rubio, Valentina [6 ,7 ]
Hughes, David [8 ]
Clark, Ian M. [4 ]
Cardenas, Laura M. [1 ]
Gardiner, Laura-Jayne [9 ]
Krishna, Ritesh [9 ]
Glendining, Margaret L. [8 ]
Ritz, Karl [2 ]
Mooney, Sacha J. [2 ]
Crawford, John W. [10 ]
机构
[1] Rothamsted Res, Net Zero & Resilient Farming, North Wyke, England
[2] Univ Nottingham, Sch Biosci, Loughborough, England
[3] Wageningen Univ, Dept Environm Sci, Wageningen, Netherlands
[4] Rothamsted Res, Sustainable Soils & Crops, Harpenden, Herts, England
[5] Univ Bristol, Bristol Vet Sch, Langford, England
[6] Inst Nacl Invest Agr INIA, Estn Expt INIA La Estanzuela, Programa Prod & Sustentabilidad Ambiental, Colonia, Uruguay
[7] Cornell Univ, Sch Integrat Plant Sci, Ithaca, NY USA
[8] Rothamsted Res, Intelligent Data Ecosyst, Harpenden, Herts, England
[9] Hartree Ctr, IBM Res Europe Daresbury, Warrington, Cheshire, England
[10] Univ Glasgow, Adam Smith Business Sch, Glasgow, Lanark, Scotland
[11] Carbon Trust, London, England
[12] Genesis, Lisors, France
来源
NATURE FOOD | 2023年 / 4卷 / 01期
基金
英国自然环境研究理事会; 英国生物技术与生命科学研究理事会; 英国科研创新办公室;
关键词
AGRICULTURAL SOILS; SOLUTE TRANSPORT; USE EFFICIENCY; EMISSIONS; FERTILIZATION; MODEL; ABUNDANCE; GENES; N2O; DENITRIFICATION;
D O I
10.1038/s43016-022-00671-z
中图分类号
TS2 [食品工业];
学科分类号
0832 ;
摘要
Achieving food security requires resilient agricultural systems with improved nutrient-use efficiency, optimized water and nutrient storage in soils, and reduced gaseous emissions. Success relies on understanding coupled nitrogen and carbon metabolism in soils, their associated influences on soil structure and the processes controlling nitrogen transformations at scales relevant to microbial activity. Here we show that the influence of organic matter on arable soil nitrogen transformations can be decoded by integrating metagenomic data with soil structural parameters. Our approach provides a mechanistic explanation of why organic matter is effective in reducing nitrous oxide losses while supporting system resilience. The relationship between organic carbon, soil-connected porosity and flow rates at scales relevant to microbes suggests that important increases in nutrient-use efficiency could be achieved at lower organic carbon stocks than currently envisaged.
引用
收藏
页码:51 / 60
页数:10
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