Waad Bousselmi, Alice Calvo, Takoua Gritli, Mustapha Missbah El Idrissi, Thomas Reitz, Fabiano Sillo, Raffaella Balestrini, Bacem Mnasri
{"title":"豆科植物选择影响:间作制度对甘蓝型油菜农艺性能和根系相关细菌群落的不同影响","authors":"Waad Bousselmi, Alice Calvo, Takoua Gritli, Mustapha Missbah El Idrissi, Thomas Reitz, Fabiano Sillo, Raffaella Balestrini, Bacem Mnasri","doi":"10.1007/s11104-025-07855-z","DOIUrl":null,"url":null,"abstract":"<h3 data-test=\"abstract-sub-heading\">Background and Aims</h3><p><i>Brassica napus</i> L., an oilseed crop, is one of the three major crop groups contributing to global food production. It is generally grown as a monoculture and is very demanding in terms of nitrogen inputs. To meet the nutritional needs of <i>B. napus</i> and to reduce the excessive use of chemical inputs, intercropping with legumes plays an important role in agricultural ecosystems. This study aims to assess how different intercropping systems with two forage legumes (<i>Medicago sativa</i> L. and <i>Hedysarum coronarium</i> L.) affect the biometric parameters of <i>B. napus</i> and influence the associated bacterial communities in the rhizosphere and root compartments.</p><h3 data-test=\"abstract-sub-heading\">Methods</h3><p>A two-year field experiment was conducted to assess how <i>M. sativa</i> L. and <i>H. coronarium</i> L. intercropping influences <i>B. napus</i> biometric parameters and bacterial communities in both rhizosphere and root compartments, with particular emphasis on inter-annual variability and temporal dynamics of plant–microbe interactions.</p><h3 data-test=\"abstract-sub-heading\">Results</h3><p>Our results showed that the agronomic parameters varied among the different cultivation systems and between the two growing seasons (2022 and 2023). <i>H. coronarium</i> proved to be the best legume to be used in intercropping with <i>B. napus</i>, particularly under drought conditions. Thus, this legume demonstrated high potential for supporting oilseed production when water availability is limited, highlighting its value for climate-resilient cropping systems. The intercropped legume species also shaped the bacterial communities in both the rhizosphere and <i>B. napus</i> roots, with Vicinamibacterales and Caulobacterales orders that increased in legume-canola intercropping systems.</p><h3 data-test=\"abstract-sub-heading\">Conclusion</h3><p>This study demonstrates that in intercropping with legumes, the promotion of <i>B. napus</i> growth depends on the legume species choice. Moreover, intercropping practice affects bacterial composition, particularly in <i>B. napus</i> roots, suggesting different microbial recruitment mediated by the presence of a specific legume.</p>","PeriodicalId":20223,"journal":{"name":"Plant and Soil","volume":"86 1","pages":""},"PeriodicalIF":4.1000,"publicationDate":"2025-09-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Legume choice matters: different effects on Brassica napus agronomic performance and root-associated bacterial communities in intercropping systems\",\"authors\":\"Waad Bousselmi, Alice Calvo, Takoua Gritli, Mustapha Missbah El Idrissi, Thomas Reitz, Fabiano Sillo, Raffaella Balestrini, Bacem Mnasri\",\"doi\":\"10.1007/s11104-025-07855-z\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<h3 data-test=\\\"abstract-sub-heading\\\">Background and Aims</h3><p><i>Brassica napus</i> L., an oilseed crop, is one of the three major crop groups contributing to global food production. It is generally grown as a monoculture and is very demanding in terms of nitrogen inputs. To meet the nutritional needs of <i>B. napus</i> and to reduce the excessive use of chemical inputs, intercropping with legumes plays an important role in agricultural ecosystems. This study aims to assess how different intercropping systems with two forage legumes (<i>Medicago sativa</i> L. and <i>Hedysarum coronarium</i> L.) affect the biometric parameters of <i>B. napus</i> and influence the associated bacterial communities in the rhizosphere and root compartments.</p><h3 data-test=\\\"abstract-sub-heading\\\">Methods</h3><p>A two-year field experiment was conducted to assess how <i>M. sativa</i> L. and <i>H. coronarium</i> L. intercropping influences <i>B. napus</i> biometric parameters and bacterial communities in both rhizosphere and root compartments, with particular emphasis on inter-annual variability and temporal dynamics of plant–microbe interactions.</p><h3 data-test=\\\"abstract-sub-heading\\\">Results</h3><p>Our results showed that the agronomic parameters varied among the different cultivation systems and between the two growing seasons (2022 and 2023). <i>H. coronarium</i> proved to be the best legume to be used in intercropping with <i>B. napus</i>, particularly under drought conditions. Thus, this legume demonstrated high potential for supporting oilseed production when water availability is limited, highlighting its value for climate-resilient cropping systems. The intercropped legume species also shaped the bacterial communities in both the rhizosphere and <i>B. napus</i> roots, with Vicinamibacterales and Caulobacterales orders that increased in legume-canola intercropping systems.</p><h3 data-test=\\\"abstract-sub-heading\\\">Conclusion</h3><p>This study demonstrates that in intercropping with legumes, the promotion of <i>B. napus</i> growth depends on the legume species choice. 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Legume choice matters: different effects on Brassica napus agronomic performance and root-associated bacterial communities in intercropping systems
Background and Aims
Brassica napus L., an oilseed crop, is one of the three major crop groups contributing to global food production. It is generally grown as a monoculture and is very demanding in terms of nitrogen inputs. To meet the nutritional needs of B. napus and to reduce the excessive use of chemical inputs, intercropping with legumes plays an important role in agricultural ecosystems. This study aims to assess how different intercropping systems with two forage legumes (Medicago sativa L. and Hedysarum coronarium L.) affect the biometric parameters of B. napus and influence the associated bacterial communities in the rhizosphere and root compartments.
Methods
A two-year field experiment was conducted to assess how M. sativa L. and H. coronarium L. intercropping influences B. napus biometric parameters and bacterial communities in both rhizosphere and root compartments, with particular emphasis on inter-annual variability and temporal dynamics of plant–microbe interactions.
Results
Our results showed that the agronomic parameters varied among the different cultivation systems and between the two growing seasons (2022 and 2023). H. coronarium proved to be the best legume to be used in intercropping with B. napus, particularly under drought conditions. Thus, this legume demonstrated high potential for supporting oilseed production when water availability is limited, highlighting its value for climate-resilient cropping systems. The intercropped legume species also shaped the bacterial communities in both the rhizosphere and B. napus roots, with Vicinamibacterales and Caulobacterales orders that increased in legume-canola intercropping systems.
Conclusion
This study demonstrates that in intercropping with legumes, the promotion of B. napus growth depends on the legume species choice. Moreover, intercropping practice affects bacterial composition, particularly in B. napus roots, suggesting different microbial recruitment mediated by the presence of a specific legume.
期刊介绍:
Plant and Soil publishes original papers and review articles exploring the interface of plant biology and soil sciences, and that enhance our mechanistic understanding of plant-soil interactions. We focus on the interface of plant biology and soil sciences, and seek those manuscripts with a strong mechanistic component which develop and test hypotheses aimed at understanding underlying mechanisms of plant-soil interactions. Manuscripts can include both fundamental and applied aspects of mineral nutrition, plant water relations, symbiotic and pathogenic plant-microbe interactions, root anatomy and morphology, soil biology, ecology, agrochemistry and agrophysics, as long as they are hypothesis-driven and enhance our mechanistic understanding. Articles including a major molecular or modelling component also fall within the scope of the journal. All contributions appear in the English language, with consistent spelling, using either American or British English.
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