Legume-based rotation enhances subsequent wheat yield and maintains soil carbon storage

IF 6.4 1区 农林科学 Q1 AGRONOMY Agronomy for Sustainable Development Pub Date : 2023-09-04 DOI:10.1007/s13593-023-00918-4
Chunyan Liu, Ximei Feng, Yi Xu, Amit Kumar, Zhengjun Yan, Jie Zhou, Yadong Yang, Leanne Peixoto, Zhaohai Zeng, Huadong Zang
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引用次数: 1

Abstract

Legume inclusion into cropping systems has been proposed to maintain high crop yields while offering multiple environmental benefits. However, the effect of legumes as pre-crop on subsequent wheat yield and soil has not been well explored. Thus, a 7-year field experiment was used to determine the interactive effects of mineral fertilization and legumes (peanut, mung bean, soybean, adzuki bean) inclusion on wheat productivity and soil quality. Our results showed that legume inclusion led to a higher wheat yield advantage (52% on average) than maize–wheat rotation under no fertilization but the advantage decreased to 26% with fertilization. All legume–wheat rotation systems supported stable wheat production, where a stronger effect was observed after peanut than after maize. Meanwhile, the wheat yield under legume–wheat systems was more resistant (i.e., less variability in the yield after ceasing fertilization) and more resilient (i.e., recovering more quickly after fertilizer re-application) relative to maize-wheat. Furthermore, soil ecosystem multifunctionality increased by 0.8 times in the topsoil while maintaining soil organic carbon stocks, even with low C and N inputs under legume–wheat. Interestingly, we also observed a positive correlation between wheat yield and soil ecosystem multifunctionality. In conclusion, legume inclusion as a sustainable practice can optimize crop yields by enhancing soil multifunctionality while maintaining soil organic carbon stocks, particularly for integration into low-yielding agroecosystems.

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以豆科作物为基础的轮作提高了随后的小麦产量,并保持了土壤碳储量
豆类纳入种植系统已被提出,以保持高作物产量,同时提供多种环境效益。然而,豆科作物作为前茬作物对后续小麦产量和土壤的影响尚未得到很好的探讨。为此,采用为期7年的田间试验,研究了矿质施肥与豆科植物(花生、绿豆、大豆、小豆)包养对小麦产量和土壤质量的互作效应。结果表明,与不施肥的玉米-小麦轮作相比,豆科作物轮作带来的小麦产量优势(平均52%)更高,但施肥后优势降低至26%。所有豆类-小麦轮作系统都支持稳定的小麦生产,其中花生轮作的效果强于玉米轮作。与此同时,豆类-小麦体系下的小麦产量相对于玉米-小麦具有更强的抗性(即停止施肥后产量变异性较小)和更强的抗逆性(即再次施肥后恢复更快)。此外,即使在低碳、低氮投入条件下,豆科小麦下表层土壤生态系统的多功能性在保持土壤有机碳储量的情况下也提高了0.8倍。有趣的是,我们还发现小麦产量与土壤生态系统多功能性呈正相关。综上所述,作为一种可持续的做法,豆科植物包种可以通过增强土壤的多功能性来优化作物产量,同时保持土壤有机碳储量,特别是用于融入低产农业生态系统。
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来源期刊
Agronomy for Sustainable Development
Agronomy for Sustainable Development 农林科学-农艺学
CiteScore
10.70
自引率
8.20%
发文量
108
审稿时长
3 months
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.
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