| Autor: |
Hénault C; Agroécologie, AgroSup Dijon, INRAE, Univ. Bourgogne Franche-Comté, F-21000, Dijon, France. catherine.henault@inra.fr.; URSOLS, INRAE, 45075, Orléans, France. catherine.henault@inra.fr., Bourennane H; URSOLS, INRAE, 45075, Orléans, France., Ayzac A; URSOLS, INRAE, 45075, Orléans, France., Ratié C; Infosol, US1106, INRAE, 45075, Orléans, France., Saby NPA; Infosol, US1106, INRAE, 45075, Orléans, France., Cohan JP; ARVALIS- Institut du Végétal Route de Châteaufort - RD 36 - ZA des Graviers, 91190, Villiers le Bacle, France., Eglin T; ADEME, Direction Bioéconomie et Energies Renouvelables, Service Forêts, Alimentation et Bioéconomie, F-49000, Angers, France., Gall CL; TERRES INOVIA, Avenue Lucien Brétignières, 78850, Thiverval Grignon, France. |
| Abstrakt: |
While concerns about human-induced effects on the Earth's climate have mainly concentrated on carbon dioxide (CO 2 ) and methane (CH 4 ), reducing anthropogenic nitrous oxide (N 2 O) flux, mainly of agricultural origin, also represents an opportunity for substantial mitigation. To develop a solution that induces neither the transfer of nitrogen pollution nor decreases agricultural production, we specifically investigated the last step of the denitrification pathway, the N 2 O reduction path, in soils. We first observed that this path is mainly driven by soil pH and is progressively inhibited when pH is lower than 6.8. During field experiments, we observed that liming acidic soils to neutrality made N 2 O reduction more efficient and decreased soil N 2 O emissions. As we estimated acidic fertilized soils to represent 37% [27-50%] of French soils, we calculated that liming could potentially decrease France's total N 2 O emissions by 15.7% [8.3-21.2%]. Nevertheless, due to the different possible other impacts of liming, we currently recommend that the deployment of this solution to mitigate N 2 O emission should be based on local studies that take into account agronomic, environmental and economic aspects. |
