Overview
FrançaisABSTRACT
Tomorrow's agriculture will have to face two major challenges: feeding populations (food security) and implementing practices that respect the environment and biodiversity (agroecology), to which must be added the need to store carbon in soils (climate change). This article looks at alternative solutions to the use of synthetic inputs, aimed at improving the growth and yield of cultivated plants (biostimulation), their health (biocontrol) and, finally, increasing the carbon stock in soils. More difficult to implement than synthetic inputs, biosolutions will require major R&D efforts over the next few years if they are to offer a genuine alternative to current practices.
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Read the articleAUTHORS
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Wafa ACHOUAK: CNRS research director and scientific advisor to BioIntrant - Lab. d'Écologie microbienne de la Rhizosphère (LEMiRE), UMR 7265 BIAM, Aix-Marseille univ., CEA, CNRS, Saint-Paul-lez-Durance, France
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Thierry HEULIN: CNRS research director and scientific advisor to BioIntrant - Lab. d'Écologie microbienne de la Rhizosphère (LEMiRE), UMR 7265 BIAM, Aix-Marseille univ., CEA, CNRS, Saint-Paul-lez-Durance, France
INTRODUCTION
The consequences of climate change are having an impact on crops, which are increasingly exposed to abiotic stresses such as drought and soil salinity, making them more vulnerable to biotic stresses. Against this backdrop, the challenges associated with food production are forcing the agricultural sector to seek out and adapt innovative solutions, particularly to mitigate the impacts of climate change. In addition, agriculture is currently facing a major challenge aimed at limiting or replacing synthetic inputs for fertilization and plant protection. This is in response to environmental issues and increasingly strong consumer demand.
Environmental challenges include reducing the leaching of fertilizers (nitrogen and phosphate) and the spread of pesticides in soils, which are responsible for polluting water tables and rivers. Consumer demand is such that many are turning to "organic" food to ensure they are consuming "healthy" food products. A totally "organic" diet for all consumers is probably impossible to achieve, both in terms of volume and price. A realistic solution for farmers and consumers is to move towards the implementation of agriculture that is compatible with the protection of the environment and biodiversity, which has been called agroecology for some years now.
INRAE's definition of agroecology: "Faced with the challenges of global food security, climate change, biodiversity restoration and resource depletion, agroecology offers a promising framework for reflection and innovation. It proposes several levers to ensure agricultural production while reducing the use of inputs and preserving soil and water. Among these levers, biocontrol enables us to regulate pests and diseases by using their natural predators (birds, insects, auxiliary micro-organisms). Using these natural regulators means encouraging biodiversity in cultivated areas. Another agroecology lever is crop diversification, from plot to landscape, which contributes to biodiversity and reduces the use of inputs. This framework makes it possible to reflect on the links between animal and plant production in local areas, as well as the links between all the organisms present in ecosystems. These developments, which will lead to more heterogeneous production and products, will go hand in hand with changes in diets.
Among the practices advocated by agroecology, reduced tillage and the use of solutions replacing synthetic inputs (biofertilizers and biocontrol agents) are at the heart of the issues at stake. Indeed, reduced tillage means a greater need for herbicides, the use of which is increasingly being called into question. There is therefore an urgent need to offer farmers alternative biological solutions.
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KEYWORDS
agriculture | soils | biocontrol | biostimulation | carbon stock | rhizosphere
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Ecological engineering
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Bibliography
- (1) - HARTMANN (A.) et coll - Lorenz Hiltner, a pioneer in rhizosphere microbial ecology and soil bacteriology research. - Plant and Soil, 312. https://doi :10.1007/s11104-007-9514-z (2008).
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