Home / All Projects / Projects / Soil ECological function REstoration to enhance agrosystem services in (...)

Soil ECological function REstoration to enhance agrosystem services in rainfed rice cropping systems in agroecological transition


The importance of soil ecological processes and functions for plant growth and other ecosystem services makes soil an essential component of sustainable agroecological systems. Soil (ecological) Function Restoration, i.e. the intensification of these ecological processes, during agroecological transition, is the core of our project. The overall objective of the SECuRE project is to provide Soil Function Restoration (SFR) practices based on local and scientific knowledge, in order to increase both agronomic, socio-economic and ecological performances of agroecological agrosystems in a tropical context.


SFR aims to optimize current farmer’s practices and propose innovative practices that will promote soil habitat in order to intensify associated soil and plant functions.
We aim to (i) assess local knowledge and farmers’ interventions on SFR, (ii) improve our scientific knowledge of SFR on diverse plant functions, (iii) test at field level various SFR practices, (iv) evaluate the impact of SFR practices in terms of agronomic, socio-economic and ecological performances, and (v) disseminate our results.


Different outputs will be provided by our project:
Update information on farmers’ practices and knowledge on soil function restoration
Update knowledge on the soil-plant interactions following different restoration practices;
Characterize the joint agronomic and ecological performances of agrosystems and more specifically on SFR practices;
Disseminate the ‘best’ restoration practices, ‘best’ meaning the ones improving both agronomic and ecological performances;
Organize annual farmer visits of field trials;
Publish in peer-reviewed journals;
E-learning and training of Master and PhD students.


A better inclusion of SFR practices based on traditional and scientific knowledge in tropical agroecological systems will likely improve agronomic performances and the provision of agrosystem services ensuring Human well-being such as nutrient cycling, carbon sequestration, farmer’s livelihood, and food security.

  • Project Number
  • Call for project
  • Start date :
    1 June 2017
  • Closing date :
    31 December 2019
  • Research units in the network
Scientific partners: