5LL353FD

12581

5 janvier 2021 17:06

5 janvier 2021 17:06

Crop diversification, both in time and in space, is essential for agroecological pest management. Process-based weed dynamics models are valuable tools to investigate this issue. Indeed, (1) weeds are the most harmful pest in arable crops and are essential for biodiversity, and (2) the processes driving crop-weed interactions are similar to those for crop-crop interactions in crop mixtures and crop rotations. Such models (3) synthesize existing and produce emergent knowledge on agroecological levers such as crop diversification, (4) mobilize this knowledge for cropping-system design, and (5) transfer research-based knowledge to stakeholders. The present paper illustrates these five items with the FLORSYS model. Its inputs are a detailed list of cultural operations over several years (crop succession including cover crops and crop mixtures, management techniques), together with daily weather data, soil characteristics and a regional weed species pool. FLORSYS runs at a daily time step, (1) focusing on processes leading to plant emergence and establishment of crop and weed species with different ecological requirements (essential for crops sown in different seasons and in mixtures where timing often determines the fate of a species), (2) representing and modelling the functioning of heterogeneous crop-weed canopies including diverse plant ages, morphologies and shade responses (as in crop mixtures), (3) including a carry-over effect on future cropping seasons (which is essential for crop rotations), and (4) assessing weed contribution to biodiversity. Detailed biophysical model outputs allow understanding the performance of a given crop, management technique or cropping system. Together with stakeholders, detailed model outputs were aggregated into indicators of crop production as well as weed benefits and harmfulness to simplify the multicriteria comparison of cropping systems. To facilitate decision support, FLORSYS was used as a virtual farm-field network, and the resulting simulation outputs were aggregated into a faster and easier-to-use metamodel (DECIFLORSYS) using machine learning techniques. These models were used to evaluate and promote the benefits of crop diversification for agroecological weed management, by (1) identifying crop ideotypes, (2) tracking crop-diverse solutions in farm-field networks, (3) evaluating crop-diverse solutions proposed by experts and stakeholders, and (4) feeding participatory workshops with farmers. The case studies demonstrate that the benefits of crop diversification depend on the production situations and cropping systems, and thus the need for flexible rules on crop diversification and the usefulness of models such as FLORSYS to establish these rules.

None

• AB - Transversal
• FREDO adventice
• FREDO lutte
• GEO France
• agroécologie
• couvert végétal
• outil

• biological interaction
• cover crop
• crop-weed competition
• cropping system design
• ecological intensification
• ideotype
• intercropping
• mechanistic model
• rotation

Field Crops Research

261

108006

February 1, 2021

1 février 2021

10.1016/j.fcr.2020.108006 Le DOI est une URL unique de référencement d'une publication. Il est donc plus fiable et permanent qu'une URL classique

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