Performance of co-designed diversified Mediterranean cropping systems: Hybridizing stakeholders' knowledge and modelling data

IF 4.5 1区 农林科学 Q1 AGRONOMY
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引用次数: 0

Abstract

Mediterranean cropping systems, characterised by continuous cereal cropping, are largely dependent on synthetic inputs, such as N fertilisers. On the other hand, they face difficult pedoclimatic conditions, exacerbated by climate change. Diversification is seen as a way to increase cropping systems resilience. The aim of this study was to co-design diversified cropping systems based on the expertise of local stakeholders and co-assess their performance, using modelling data. Our case study is the Ebro valley in Spain, a Mediterranean area with great potential for diversification, particularly where irrigation is available. Two workshops were organized to i) define the reference system in the study area and its limitations ii) co-design diversified systems to overcome these limitations and iii) co-assess reference and diversified systems. Between the two workshops, the STICS soil-crop model was calibrated with local experimental data, enabling to simulate the inter-annual (2000–2021) agronomic and environmental performance of the reference and diversified systems. An economic analysis was conducted. Stakeholders evaluated all economic, agronomic and environmental aspects. The reference system was a continuous winter cereal crop based on synthetic N fertilisation and intensive tillage. The four diversified co-designed systems consisted in introducing pea and/or rapeseed every 2 or 4 years, reducing tillage and partially replacing synthetic N fertilisation with locally sourced livestock manure. Simulation results showed that wheat and barley grain yields remained stable with diversification. Pea and rapeseed yields were lower in rotations where both were introduced compared to when each was the only break crop over 4 years. At the system level, protein yield remained stable with diversification, however, energy yield decreased by 20 % when break crops were introduced twice and by 10 % when introduced once. Gross margins improved with diversification only when pea was introduced once (12 %), mainly due to reduced expenses (-31 %), while incomes remained stable compared to RCS. However, incomes decreased by 5 % when rapeseed was introduced once, and by 10 % when both break crops were introduced. Unexpectedly, environmental performance deteriorated with diversification, with increased N losses through ammonia volatilisation and nitrate leaching in the years following pea and rapeseed cropping, due to greater N availability in the soil. An increased use of pesticides was predicted by the stakeholders in diversified systems, where the environmental impacts were exacerbated with the higher presence of break crops. The reference system presented slightly lower N availability and increased soil organic carbon storage. Overall, the approach proved useful in identifying a diversification strategy that improved agronomic and economic performance, with the system including pea once every four years being the most efficient. However, the environmental trade-offs associated with the increased presence of pea and rapeseed in the crop rotation must be considered in order to mitigate the environmental risks.

共同设计的地中海多样化种植系统的性能:混合利益相关者的知识和建模数据
地中海种植系统的特点是连续种植谷物,在很大程度上依赖氮肥等合成投入。另一方面,它们还面临着因气候变化而加剧的困难的气候条件。多样化被认为是提高种植系统适应力的一种方法。本研究的目的是根据当地利益相关者的专业知识共同设计多样化种植系统,并利用建模数据共同评估其性能。我们的案例研究是西班牙埃布罗河谷,这是一个具有巨大多样化潜力的地中海地区,尤其是在有灌溉条件的地方。我们组织了两次研讨会,目的是 i) 确定研究地区的参考系统及其局限性 ii) 共同设计多样化系统以克服这些局限性,以及 iii) 共同评估参考系统和多样化系统。在两次研讨会之间,利用当地实验数据对 STICS 土壤-作物模型进行了校准,从而能够模拟参照系统和多样化系统的跨年度(2000-2021 年)农艺和环境绩效。进行了经济分析。利益相关者对所有经济、农艺和环境方面进行了评估。参照系统是一种基于合成氮肥和密集耕作的连续冬季谷物作物。四种共同设计的多样化系统包括每 2 年或 4 年引进豌豆和/或油菜籽、减少耕作以及用当地牲畜粪便部分替代合成氮肥。模拟结果显示,小麦和大麦谷物产量在多样化后保持稳定。与 4 年中只种植豌豆和油菜籽的情况相比,同时种植这两种作物的轮作中豌豆和油菜籽的产量较低。在系统水平上,蛋白质产量随多样化而保持稳定,然而,当轮作两次时,能量产量下降了 20%,而轮作一次时,能量产量下降了 10%。只有在引进一次豌豆时,毛利率才会随着多样化而提高(12%),这主要是由于支出减少(-31%),而收入与 RCS 相比保持稳定。然而,当引进一次油菜籽时,收入减少了 5%,当引进两种间作时,收入减少了 10%。意想不到的是,环境绩效随着多样化而恶化,在种植豌豆和油菜后的几年里,由于土壤中氮的供应量增加,氨挥发和硝酸盐浸出造成的氮损失增加。利益相关者预测,在多样化系统中,农药的使用量会增加,由于间歇作物较多,对环境的影响也会加剧。参照系统的氮供应量略低,但土壤有机碳储存量增加。总体而言,该方法有助于确定可提高农艺和经济效益的多样化战略,其中每四年种植一次豌豆的系统效率最高。然而,为了降低环境风险,必须考虑轮作中豌豆和油菜籽种植比例增加带来的环境权衡问题。
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来源期刊
European Journal of Agronomy
European Journal of Agronomy 农林科学-农艺学
CiteScore
8.30
自引率
7.70%
发文量
187
审稿时长
4.5 months
期刊介绍: The European Journal of Agronomy, the official journal of the European Society for Agronomy, publishes original research papers reporting experimental and theoretical contributions to field-based agronomy and crop science. The journal will consider research at the field level for agricultural, horticultural and tree crops, that uses comprehensive and explanatory approaches. The EJA covers the following topics: crop physiology crop production and management including irrigation, fertilization and soil management agroclimatology and modelling plant-soil relationships crop quality and post-harvest physiology farming and cropping systems agroecosystems and the environment crop-weed interactions and management organic farming horticultural crops papers from the European Society for Agronomy bi-annual meetings In determining the suitability of submitted articles for publication, particular scrutiny is placed on the degree of novelty and significance of the research and the extent to which it adds to existing knowledge in agronomy.
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