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C-MIP: an international model inter-comparison simulating organic carbon dynamics in bare fallow soils
conference contribution
posted on 2023-05-24, 15:56 authored by Farina, R, Ehrhardt, F, Bellocchi, G, Chenu, C, Soussana, JF, Abdalla, M, Alvaro-Fuentes, J, Blauer, M, Brilli, L, Chakrabarti, B, Clivot, H, De Antoni, M, Di Bene, C, Dorich, C, Ferchaud, F, Fitton, N, Francaviglia, R, Franko, U, Grant, B, Guenet, B, Matthew HarrisonMatthew Harrison, Kirschbaum, M, Kuka, K, Lehtonen, A, Martin, R, Meier, E, Menichetti, L, Mula, L, Nendel, C, Rolinski, S, Sharp, J, Shepherd, A, Smith, W, Snow, V, Taghizadeh-Toosi, A, Zhang, Q, Recous, SC sequestration in agricultural soils contributes to the achievement of the climate objectives (e.g. COP-21’s “4 per 1000” initiative). Reliable methodologies are needed to assess the soil C sequestration potential of agricultural lands in different management, soil and climate conditions. Simulation models extrapolate C dynamics from current knowledge in both time and space. This is difficult when soil is covered by vegetation, for the continuous input of plant residues and root exudates, and the influence of plants on soil water and temperature dynamics. Long-term bare fallow (LTBF) experiments offer ideal conditions to test models simulating soil organic C dynamics.
Funding
Dairy Australia Limited
History
Publication title
Proceedings of 6th International Symposium on Soil Organic MatterPagination
1-2Department/School
Tasmanian Institute of Agriculture (TIA)Publisher
British Society of Soil SciencePlace of publication
Harpenden, United KingdomEvent title
6th International Symposium on Soil Organic MatterEvent Venue
Harpenden, United KingdomDate of Event (Start Date)
2017-09-03Date of Event (End Date)
2017-09-07Repository Status
- Restricted