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Napoly A., Boone A., Samuelsson P., Gollvik S., Martin E., Seferian R., Carrer D., Decharme B., Jarlan Lionel. (2017). The interactions between soil-biosphere-atmosphere (ISBA) land surface model multi-energy balance (MEB) option in SURFEXv8 - Part 2 : introduction of a litter formulation and model evaluation for local-scale forest sites. Geoscientific Model Development, 10 (4), 1621-1644. ISSN 1991-959X

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Lien direct chez l'éditeur doi:10.5194/gmd-10-1621-2017

Titre
The interactions between soil-biosphere-atmosphere (ISBA) land surface model multi-energy balance (MEB) option in SURFEXv8 - Part 2 : introduction of a litter formulation and model evaluation for local-scale forest sites
Année de publication2017
Type de documentArticle référencé dans le Web of Science WOS:000399753800002
AuteursNapoly A., Boone A., Samuelsson P., Gollvik S., Martin E., Seferian R., Carrer D., Decharme B., Jarlan Lionel.
SourceGeoscientific Model Development, 2017, 10 (4), p. 1621-1644. ISSN 1991-959X
RésuméLand surface models (LSMs) need to balance a complicated trade-off between computational cost and complexity in order to adequately represent the exchanges of energy, water and matter with the atmosphere and the ocean. Some current generation LSMs use a simplified or composite canopy approach that generates recurrent errors in simulated soil temperature and turbulent fluxes. In response to these issues, a new version of the interactions between soil-biosphere-atmosphere (ISBA) land surface model has recently been developed that explicitly solves the transfer of energy and water from the upper canopy and the forest floor, which is characterized as a litter layer. The multi-energy balance (MEB) version of ISBA is first evaluated for three well-instrumented contrasting local-scale sites, and sensitivity tests are performed to explore the behavior of new model parameters. Second, ISBA-MEB is benchmarked against observations from 42 forested sites from the global micrometeorological network (FLUXNET) for multiple annual cycles. It is shown that ISBA-MEB outperforms the composite version of ISBA in improving the representation of soil temperature, ground, sensible and, to a lesser extent, latent heat fluxes. Both versions of ISBA give comparable results in terms of simulated latent heat flux because of the similar formulations of the water uptake and the stomatal resistance. However, MEB produces a better agreement with the observations of sensible heat flux than the previous version of ISBA for 87.5% of the simulated years across the 42 forested FLUXNET sites. Most of this improvement arises owing to the improved simulation of the ground conduction flux, which is greatly improved using MEB, especially owing to the forest litter parameterization. It is also shown that certain processes are also modeled more realistically (such as the partitioning of evapotranspiration into transpiration and ground evaporation), even if certain statistical performances are neutral. The analyses demonstrate that the shading effect of the vegetation, the explicit treatment of turbulent transfer for the canopy and ground, and the insulating thermal and hydrological effects of the forest floor litter turn out to be essential for simulating the exchange of energy, water and matter across a large range of forest types and climates.
Plan de classementBioclimatologie [072] ; Etudes, transformation, conservation du milieu naturel [082] ; Pédologie [068] ; Sciences fondamentales / Techniques d'analyse et de recherche [020]
LocalisationFonds IRD [F B010069982]
Identifiant IRDfdi:010069982
Lien permanenthttp://www.documentation.ird.fr/hor/fdi:010069982

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