Publications des scientifiques de l'IRD

Zribi L., Mouillot Florent, Gharbi F., Ourcival J. M., Hanchi B. (2015). Warm and fertile sub-humid conditions enhance litterfall to sustain high soil respiration fluxes in a mediterranean cork oak forest. Forests, 6 (9), p. 2918-2940. ISSN 1999-4907.

Titre du document
Warm and fertile sub-humid conditions enhance litterfall to sustain high soil respiration fluxes in a mediterranean cork oak forest
Année de publication
2015
Type de document
Article référencé dans le Web of Science WOS:000362558500002
Auteurs
Zribi L., Mouillot Florent, Gharbi F., Ourcival J. M., Hanchi B.
Source
Forests, 2015, 6 (9), p. 2918-2940 ISSN 1999-4907
Soil respiration is a major component of the global carbon budget and Mediterranean ecosystems have usually been studied in locations with shallow soils, mild temperatures, and a prolonged dry season. This study investigates seasonal soil respiration rates and underlying mechanisms under wetter, warmer, and more fertile conditions in a Mediterranean cork oak forest of Northern Tunisia (Africa), acknowledged as one of the most productive forests in the Mediterranean basin. We applied a soil respiration model based on soil temperature and relative water content and investigated how ecosystem functioning under these favorable conditions affected soil carbon storage through carbon inputs to the soil litter. Annual soil respiration rates varied between 1774 gC m(-2) year(-1) and 2227 gC m(-2) year(-1), which is on the highest range of observations under Mediterranean climate conditions. We attributed this high soil carbon flux as a response to favorable temperatures and soil water content, but this could be sustained only by a small carbon allocation to roots (root/shoot ratio = 0.31-0.41) leading to a large allocation to leaves with a multiannual leaf production, enhanced annual twig elongation (11.5-28.5 cm) with a reduced leaf life span (<1 year) maintaining a low LAI (1.68-1.88) and generating a high litterfall (386-636 gC m(-2) year(-1)). Thus, the favorable climatic and edaphic conditions experienced by these Mediterranean cork oak forests drove high soil respiration fluxes which balanced the high carbon assimilation leading to a relatively small overall contribution (10.96-14.79 kgC m(-2)) to soil carbon storage.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020] ; Pédologie [068] ; Etudes, transformation, conservation du milieu naturel [082]
Description Géographique
TUNISIE ; ZONE MEDITERRANEENNE
Localisation
Fonds IRD [F B010065403]
Identifiant IRD
fdi:010065403
Contact