The concurrent assessment of agronomic, ecological and environmental variables enables better choice of agroecological service crop termination management

dc.contributor.author Navarro-Miró, David ca
dc.contributor.author Caballero-López, Berta ca
dc.contributor.author Sans, Francesc Xavier ca
dc.contributor.other Consorci del Museu de Ciències Naturals de Barcelona ca
dc.coverage.spatial Europa ca
dc.coverage.spatial Europe en
dc.coverage.spatial Europa es
dc.date.accessioned 2023-04-14T08:53:47Z
dc.date.available 2023-04-14T08:53:47Z
dc.date.issued 2022-04-05
dc.description.abstract Although organic farming was originally promoted as an alternative farming system to address agronomic, environmental and ecological issues, its conventionalisation has led to an intensification and specialisation of production. In the light of this, several studies have questioned the environmental benefits of organic farming as well as its agronomic viability. Thus, there is a need to improve organic vegetable systems to reduce their environmental impact without affecting their productivity. To tackle this challenge, European farmers and researchers have recently started to focus on agroecological service crops (ASCs). However, few studies have simultaneously evaluated the agronomic, environmental and ecological aspects of ASC management under different European pedo-climatic conditions. We evaluated effects of the ASC management strategies—no-till roller crimping (NT-RC) and green manuring (T-GM) on cropping system performance using agronomic, environmental and ecological indicators—to exemplify the need for multidimensional analysis to understand management implications for addressing environmental and agronomic challenges. We combined the results from 11 organic vegetable field trials conducted in seven European countries over a period of 2 years to test for general trends. Our results provide solid evidence that NT-RC management across different pedo-climatic conditions in Europe enhances the activity density of ground and rove beetles and improves both the potential energy recycling within the system and weed control. However, in NT-RC plots, lower cash crop yield and quality, energetic efficiency of production and activity density of spiders were observed compared to T-GM. Synthesis and applications. Multidimensional analyses using agronomic, environmental and ecological indicators are required to understand the implications of agricultural management in agroecosystem functioning. Introducing agroecological service crops combined with the use of no-till roller crimping is a promising strategy for improving agronomic performance (e.g. fewer weeds) and reducing environmental (e.g. increasing the potentially recyclable energy) and ecological (e.g. enhancing the activity density of beneficial taxa such as ground and rove beetles) impacts. However, our study also indicates a need for agronomic and environmental improvements while promoting a wider acceptance of this strategy. ca
dc.description.abstract Although organic farming was originally promoted as an alternative farming system to address agronomic, environmental and ecological issues, its conventionalisation has led to an intensification and specialisation of production. In the light of this, several studies have questioned the environmental benefits of organic farming as well as its agronomic viability. Thus, there is a need to improve organic vegetable systems to reduce their environmental impact without affecting their productivity. To tackle this challenge, European farmers and researchers have recently started to focus on agroecological service crops (ASCs). However, few studies have simultaneously evaluated the agronomic, environmental and ecological aspects of ASC management under different European pedo-climatic conditions. We evaluated effects of the ASC management strategies—no-till roller crimping (NT-RC) and green manuring (T-GM) on cropping system performance using agronomic, environmental and ecological indicators—to exemplify the need for multidimensional analysis to understand management implications for addressing environmental and agronomic challenges. We combined the results from 11 organic vegetable field trials conducted in seven European countries over a period of 2 years to test for general trends. Our results provide solid evidence that NT-RC management across different pedo-climatic conditions in Europe enhances the activity density of ground and rove beetles and improves both the potential energy recycling within the system and weed control. However, in NT-RC plots, lower cash crop yield and quality, energetic efficiency of production and activity density of spiders were observed compared to T-GM. Synthesis and applications. Multidimensional analyses using agronomic, environmental and ecological indicators are required to understand the implications of agricultural management in agroecosystem functioning. Introducing agroecological service crops combined with the use of no-till roller crimping is a promising strategy for improving agronomic performance (e.g. fewer weeds) and reducing environmental (e.g. increasing the potentially recyclable energy) and ecological (e.g. enhancing the activity density of beneficial taxa such as ground and rove beetles) impacts. However, our study also indicates a need for agronomic and environmental improvements while promoting a wider acceptance of this strategy. en
dc.description.abstract Although organic farming was originally promoted as an alternative farming system to address agronomic, environmental and ecological issues, its conventionalisation has led to an intensification and specialisation of production. In the light of this, several studies have questioned the environmental benefits of organic farming as well as its agronomic viability. Thus, there is a need to improve organic vegetable systems to reduce their environmental impact without affecting their productivity. To tackle this challenge, European farmers and researchers have recently started to focus on agroecological service crops (ASCs). However, few studies have simultaneously evaluated the agronomic, environmental and ecological aspects of ASC management under different European pedo-climatic conditions. We evaluated effects of the ASC management strategies—no-till roller crimping (NT-RC) and green manuring (T-GM) on cropping system performance using agronomic, environmental and ecological indicators—to exemplify the need for multidimensional analysis to understand management implications for addressing environmental and agronomic challenges. We combined the results from 11 organic vegetable field trials conducted in seven European countries over a period of 2 years to test for general trends. Our results provide solid evidence that NT-RC management across different pedo-climatic conditions in Europe enhances the activity density of ground and rove beetles and improves both the potential energy recycling within the system and weed control. However, in NT-RC plots, lower cash crop yield and quality, energetic efficiency of production and activity density of spiders were observed compared to T-GM. Synthesis and applications. Multidimensional analyses using agronomic, environmental and ecological indicators are required to understand the implications of agricultural management in agroecosystem functioning. Introducing agroecological service crops combined with the use of no-till roller crimping is a promising strategy for improving agronomic performance (e.g. fewer weeds) and reducing environmental (e.g. increasing the potentially recyclable energy) and ecological (e.g. enhancing the activity density of beneficial taxa such as ground and rove beetles) impacts. However, our study also indicates a need for agronomic and environmental improvements while promoting a wider acceptance of this strategy. es
dc.format application/pdf ca
dc.format.extent 12 p. ca
dc.format.mimetype application/pdf ca
dc.identifier.citation Journal of Applied Ecology, 2022, 12 p. ca
dc.identifier.entitat consorcis ca
dc.identifier.uri http://hdl.handle.net/11703/130269
dc.language eng ca
dc.provenance Ajuntament de Barcelona. Museu de Ciències Naturals de Barcelona ca
dc.rights Tots els drets reservats ca
dc.rights.accessrights info:eu-repo/semantics/restrictedAccess ca
dc.rights.holder © 2022 British Ecological Society. ca
dc.rights.notes L'Ajuntament de Barcelona no pot donar autorització sobre l'ús d'aquest document ni facilitar-ne còpies. La utilització i/o reproducció d'aquest document fora de l’àmbit municipal representa l'incompliment de la legislació vigent sobre propietat intel·lectual ca
dc.subject Conreus ca
dc.subject Ecologia agrícola ca
dc.subject Coleòpters ca
dc.subject Crops en
dc.subject Agricultural ecology en
dc.subject Beetles en
dc.subject Cultivos es
dc.subject Ecología agrícola es
dc.subject Coleópteros es
dc.subject.category Ciència i tecnologia ca
dc.subject.forma articles ca
dc.title The concurrent assessment of agronomic, ecological and environmental variables enables better choice of agroecological service crop termination management ca
dc.type text ca
dc.type.driver info:eu-repo/semantics/article ca
dc.type.driver info:eu-repo/semantics/publishedVersion ca
metadadalocal.dependencia 8008920

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