Modelling competition for below-ground resources and light within a winter pea (Pisum sativum L.)–wheat (Triticum aestivum L.) intercrop (Azodyn-InterCrop): towards a decision making oriented-tool - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Precision agriculture Année : 2009

Modelling competition for below-ground resources and light within a winter pea (Pisum sativum L.)–wheat (Triticum aestivum L.) intercrop (Azodyn-InterCrop): towards a decision making oriented-tool

Résumé

Grain legume-cereal intercrops allow a gain of productivity grown along the growth cycle on the same piece of land under low input (of which nitrogen (N) fertilizers) levels. This is partly due to a better use of soil nitrogen (larger available soil N per plant for cereal N uptake and an increased contribution of N fixation for pea nutrition) under combinations (species and crop management systems) fully optimized within a given soil and climate environment. Modeling is a powerful tool to explore a wide range of combinations. It can be further used as a decision making oriented-tool provided below-ground resources and light sharing is satisfactorily simulated. Our work aimed at designing a new dynamic intercrop growth model (Azodyn Inter-Crop (IC)) based upon Azodyn for wheat and Afisol for pea. Nitrogen and water partitioning between species is firstly driven by nitrogen and water demand of each species. When intercrop demand is larger than soil supply then water and N acquisition is limited by root exploration, soil nutrient supply and N taken up by the companion species as it concurrently depletes available below-ground resources. The ‘functional’ root layer concept allows to account for advantage towards species with a faster root penetration rate. Leaf area expansion is driven by daily satisfaction of N demand, itself computed through an adapted version of N dilution curve to intercrop growth. Light sharing depends on leaf area index (LAI) growth and leaf properties (reflectance, leaf angle) of each species. Model outputs show Azodyn-IC can satisfactorily simulate N taken up, LAI, light interception efficiency and crop growth of each sole- and intercropped species along the growth cycle leading to realistic yields for the applied N fertilizer rates. It also emphasizes competition for light and below-ground resources within intercrops is tightly and dynamically linked within intercrop.
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Dates et versions

hal-01341822 , version 1 (04-07-2016)

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  • HAL Id : hal-01341822 , version 1
  • PRODINRA : 358847

Citer

Philippe Malagoli, C Naudin, G Goulevant, M Sester, G Corre-Hellou, et al.. Modelling competition for below-ground resources and light within a winter pea (Pisum sativum L.)–wheat (Triticum aestivum L.) intercrop (Azodyn-InterCrop): towards a decision making oriented-tool. Precision agriculture, 2009, 9, pp.659-666. ⟨hal-01341822⟩
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