At a time when climate change and increased CO2 emissions due to human activities are major concerns, tillage was thought to hold the key to increasing carbon sequestration in cultivated soil. Numerous studies confirmed that reducing or even eliminating tillage could improve sequestration. This recommendation, supported by the Intergovernmental Panel on Climate Change (IPCC)1, was made based on a number of results obtained mainly in North America. However, recent reviews of scientific literature2have highlighted methodological weaknesses regarding much of the research, challenging the importance of tillage on possible carbon sequestration. INRA researchers analysed the results of experiments carried out in France by Arvalis-Institut du Végétal over a period of 20 to 41 years in Boigneville (Ile-de-France region) using an original approach that included calculating carbon stores over a greater depth (0–60cm) and monitoring carbon stores over time.
They were able to demonstrate that carbon sequestration in the soil for three tillage methods (annual tillage, minimum tillage and no-tillage) were identical after 41 years of these practices being continually implemented. Minimum tillage did indeed increase carbon sequestration at the surface (0–10 cm), but reduced it at greater depths (10–30 cm).
By analysing changes in carbon stores over time, the researchers showed that reduced tillage leads to phases of carbon capture and release that depend on climate conditions. Dry years promote carbon sequestration in conjunction with minimal tillage, while years with significant rainfall lead to carbon being released when compared to tilled soil.
Carbon sequestration rates were not constant but rather positive or negative. Over the long term, the effectiveness of tillage methods depends on climate conditions, especially rainfall. Reduced tillage can impact ecosystem services other than climate regulation, but does not appear to be effective for carbon sequestration in humid temperate climates.
1 IPCC (2006) Guidelines for National Greenhouse Gas Inventories.
2 Références :
- Angers D.A., Eriksen-Hamel N.S. (2008) Full-inversion tillage and organic carbon distribution in soil proﬁles: a meta-analysis. Soil Sci. Soc. Am. J. 72: 1370-1374.
- Luo Z., Wang E., Sun O.J. (2010)Can no-tillage stimulate carbon sequestration in agricultural soils? A meta-analysis of paired experiments. Agric. Ecosyst. Environ. 139: 224-231.
- Virto I., Barré P., Burlot A., Chenu C., 2012.Carbon input differences as the main factor explaining the variability in soil organic C storage in no-tilled compared to inversion tilled agrosystems. Biogeochemistry 108: 17-26.
Bassem Dimassi, Bruno Mary, Richard Wylleman, Jérôme Labreuche, Daniel Couture, François Piraux, Jean-Pierre Cohan. Long-term effect of contrasted tillage and crop management on soil carbon dynamics during 41 years. Agriculture, Ecosystems and Environment, 15 April 2014. DOI: 10.1016/j.agee.2014.02.014
Bassem Dimassi, Jean-Pierrre Cohan, Jerome Labreuche, Bruno Mary. Changes in soil carbon and nitrogen following tillage conversion in a long-term experiment in Northern France. Agriculture, Ecosystems and Environment, 20 March 2013. DOI: 10.1016/j.agee.2013.01.012