Yue Li, Ji Chen, Craig F. Drury, Mark Liebig, Jane M. F. Johnson, Zhaozhi Wang, Hao Feng, Diego Abalos
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引用次数: 1
Abstract
Abstract
Conservation agriculture is often assumed to reduce soil N2O emissions. Yet, studies analyzing the specific effect of conservation agriculture practices on N2O emissions give contradictory results. Herein, we synthesized a comprehensive database on the three main conservation agriculture practices (cover crops, diversified crop rotations, and no-till and/or reduced tillage (NT/RT)) to elucidate the role of conservation practices on N2O emissions. Further, we used a random meta-forest approach to identify the most important predictors of the effects of these practices on soil N2O emissions. Averaged across all comparisons, NT/RT significantly decreased soil N2O emissions by 11% (95% CI: –19 to –1%) compared to conventional tillage. The reductions due to NT/RT were more commonly observed in humid climates and in soils with an initial carbon content < 20 g kg–1. The implementation of cover crops and diversified crop rotations led to variable effects on soil N2O emissions. Cover crops were more likely to reduce soil N2O emissions at neutral soil pH, and in soils with intermediate carbon (~20 g kg–1) and nitrogen (~3 g kg–1) contents. Diversified crop rotations tended to increase soil N2O emissions in temperate regions and neutral to alkaline soils. Our results provide a comprehensive predictive framework to understand the conditions in which the adoption of various conservation agriculture practices can contribute to climate change mitigation. Combining these results with a similar mechanistic understanding of conservation agriculture impacts on ecosystem services and crop production will pave the way for a wider adoption globally of these management practices.
保护性农业通常被认为可以减少土壤N2O的排放。然而,分析保护性农业实践对N2O排放的具体影响的研究得出了相互矛盾的结果。在此,我们综合了三种主要保护性农业实践(覆盖作物、多样化作物轮作和免耕和/或减少耕作(NT/RT))的综合数据库,以阐明保护性农业实践对N2O排放的作用。此外,我们使用随机元森林方法来确定这些做法对土壤N2O排放影响的最重要预测因子。在所有比较中平均来看,与传统耕作相比,NT/RT显著减少了11%的土壤N2O排放(95% CI: -19至-1%)。由于NT/RT的减少在湿润气候和具有初始碳含量的土壤中更为常见。20g kg-1。覆盖作物和不同轮作方式对土壤N2O排放的影响是不同的。在中性土壤pH和碳(~20 g kg-1)、氮(~3 g kg-1)含量适中的土壤中,覆盖作物更有可能减少N2O的排放。在温带地区和中性至碱性土壤中,多样化作物轮作倾向于增加土壤N2O排放。我们的研究结果提供了一个全面的预测框架,以了解采用各种保护性农业做法有助于减缓气候变化的条件。将这些结果与保护性农业对生态系统服务和作物生产影响的类似机制理解相结合,将为在全球范围内更广泛地采用这些管理实践铺平道路。
期刊介绍:
Agronomy for Sustainable Development (ASD) is a peer-reviewed scientific journal of international scope, dedicated to publishing original research articles, review articles, and meta-analyses aimed at improving sustainability in agricultural and food systems. The journal serves as a bridge between agronomy, cropping, and farming system research and various other disciplines including ecology, genetics, economics, and social sciences.
ASD encourages studies in agroecology, participatory research, and interdisciplinary approaches, with a focus on systems thinking applied at different scales from field to global levels.
Research articles published in ASD should present significant scientific advancements compared to existing knowledge, within an international context. Review articles should critically evaluate emerging topics, and opinion papers may also be submitted as reviews. Meta-analysis articles should provide clear contributions to resolving widely debated scientific questions.