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Ecological restoration of field margins enhances biodiversity and multiple ecosystem services in rice agroecosystems

Néstor Pérez‐Méndez, Carles Alcaráz, Mar Català-Forner

2025Agriculture Ecosystems & Environment17 citationsDOIOpen Access PDF

Abstract

Ecological restoration of non-productive agricultural areas such as field margins has been identified as a key priority to enhance biodiversity and promote multiple ecosystem services within agroecosystems. Field margin restoration is especially important in rice ( Oryza sativa , L), a globally important crop which occupies around 15 % of world cropland surface. Even though assessment of how ecosystem service multifunctionality varies across different restoration strategies is scarce. Here, by using a 3-year field scale experiment, we evaluated how different restoration strategies (i.e., hedgerows, flower strips and passive restoration) contribute to ecosystem service multifunctionality in rice farming. We focused on the simultaneous provision of biodiversity enhancement, pest and weed control, mitigation of invasive species impact, and soil protection. We found that all restoration strategies substantially increased multifunctionality when compared to non-restored margins, with improved plant and natural enemy diversity, reduced weed abundance, enhanced protection against the invasive red swamp crawfish, and decreased soil erosion. Multifunctionality was similar across restoration strategies, yet the passive spontaneous restoration emerged as the most economically feasible. Overall, our results underscore the value of restoring non-productive areas such as field margins to promote rice multifunctional landscapes. Specifically, passive restoration strategies offer a promising approach to enhance multiple ecosystem services while remaining cost-effective, supporting both biodiversity conservation and sustainable agricultural production. • Ecological restoration of rice field margins enhances both plant and arthropod diversity. • Restoration improves pest and weed control. • Restoration improves soil protection and protection against Procambarus clarkii . • Restoration increases ecosystem service multifunctionality in rice farming. • Passive ecological restoration was the most cost-effective restoration strategy.

Topics & Concepts

AgroecosystemEcosystem servicesBiodiversityEnvironmental scienceEcosystemAgroforestryPaddy fieldRestoration ecologyEcologyEnvironmental resource managementAgricultureBiologyRice Cultivation and Yield ImprovementAgricultural Systems and PracticesAgriculture, Land Use, Rural Development
Ecological restoration of field margins enhances biodiversity and multiple ecosystem services in rice agroecosystems | Litcius