Sustainable intensification: time to question the goal of ever-increasing agricultural production

IF 6.6 1区农林科学 Q1 SOIL SCIENCE

Geoderma Pub Date : 2025-10-16 DOI:10.1016/j.geoderma.2025.117555

Gabriel Y.K. Moinet , Michiel H. in ’t Zandt , Jan Hassink , Johanna Schild , Rosa Boone , Henk Martens , Carmen Vazquez , Peter M. van Bodegom , Chenguang Gao , Nick van Eekeren , Marie J. Zwetsloot , Howard Koster , Marta Loreggian , Giulia Vultaggio , Deborah J. de Groot , Rachel E. Creamer

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引用次数: 0

Abstract

Soils play a pivotal role in agroecosystems by supporting multiple functions such as primary production, nutrient cycling, water regulation, climate regulation, and habitat for biodiversity. This study examines how land use intensity (LUI) affects soil multifunctionality in agricultural systems, with a focus on grasslands and croplands under conventional, organic and semi-natural management. Our approach uniquely combines detailed management information from commercial farms with a detailed assessment of multiple soil functions. By restricting the study to a narrow geographic area in the east of the Netherlands, we were able to isolate the effects of management from pedoclimatic variability, thus providing one of the first empirical tests of how LUI shapes multifunctionality under real farming conditions. Soil samples from 45 grasslands and 37 croplands were analysed. Soil functions were quantified using the Soil Navigator Decision Support System, and LUI was calculated from 11 management indicators for grasslands and croplands separately. Results showed that higher LUI improved primary production and nutrient cycling functions but negatively impacted climate regulation and habitat for biodiversity. Organic fields, defined here as those not receiving synthetic fertilisers or pest control, exhibited lower LUI, achieving better biodiversity and climate regulation but at a cost of productivity. Trade-offs were evident between primary production and biodiversity and climate regulation, while synergies were found between habitat for biodiversity and climate regulation. These findings emphasise the complexity of balancing soil functions at field scale, challenging claims that productivity can increase without trade-offs. We conclude that, rather than systematically aiming at intensifying production sustainably at field or farm scale, more attention should be given to balancing food availability with landscape management demands at regional to global scales.

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可持续集约化：是时候对不断增加农业生产的目标提出质疑了

土壤在农业生态系统中发挥着关键作用，支持多种功能，如初级生产、养分循环、水分调节、气候调节和生物多样性栖息地。本研究探讨了土地利用强度（LUI）如何影响农业系统中土壤的多功能性，重点研究了传统、有机和半自然管理下的草地和农田。我们的方法独特地将来自商业农场的详细管理信息与多种土壤功能的详细评估相结合。通过将研究限制在荷兰东部一个狭窄的地理区域，我们能够将管理的影响从气候变化中分离出来，从而提供了在真实农业条件下LUI如何形成多功能的首批实证测试之一。对45个草原和37个农田的土壤样本进行了分析。利用土壤导航决策支持系统（Soil Navigator Decision Support System）对土壤功能进行量化，并分别从草地和农田的11个管理指标中计算LUI。结果表明，较高的LUI改善了初级生产和养分循环功能，但对气候调节和生物多样性生境产生负面影响。有机农田（此处定义为未施用合成肥料或虫害防治的农田）的LUI较低，实现了更好的生物多样性和气候调节，但以牺牲生产力为代价。初级生产与生物多样性和气候调节之间存在明显的权衡关系，而生物多样性栖息地与气候调节之间存在协同效应。这些发现强调了在田间尺度上平衡土壤功能的复杂性，挑战了生产率可以在没有权衡的情况下提高的说法。我们的结论是，与其系统地以农田或农场规模的可持续生产为目标，不如更多地关注在区域和全球尺度上平衡粮食供应与景观管理需求。

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来源期刊

Geoderma 农林科学-土壤科学

CiteScore

11.80

自引率

6.60%

发文量

597

审稿时长

58 days

期刊介绍： Geoderma - the global journal of soil science - welcomes authors, readers and soil research from all parts of the world, encourages worldwide soil studies, and embraces all aspects of soil science and its associated pedagogy. The journal particularly welcomes interdisciplinary work focusing on dynamic soil processes and functions across space and time.