Aboveground Biomass and Nutrient Pools in Two Evergreen Oak Stands of the Middle Moroccan Atlas Area

TitleAboveground Biomass and Nutrient Pools in Two Evergreen Oak Stands of the Middle Moroccan Atlas Area
Publication TypeJournal Article
Year of Publication2013
AuthorsBoulmane, M., Santa-Regina I., Khia A., Abbassi H., & Halim M.
JournalArid Land Research and Management
Volume27
Issue2
Pagination188 - 202
Date Published2013///
Keywordsaboveground biomass, allometric method, forest ecosystem, litter decomposition, nutrient storage, Quercus ilex
Abstract

The aboveground tree biomass and nutrient pools, litterfall, and weight loss of litter due to decomposition have been measured in two permanent plots of evergreen oak forest (Quercus ilex L.) of the Middle Moroccan Atlas area (Tafachna and Reggada). The aboveground biomass was estimated by cutting and weighing twenty trees Y (biomass)¼aX (X¼(D2H)b, D and H are respectively the diameter at 1.30m and tree height. The aboveground biomass of the two studied stands was: 96.0 and 86.4 t ha1, respectively, for Tafachna and Reggada of which the woody part accounts for approximately 96%. The average productions of litter are, respectively, 3030 and 3560 kg ha1 yr1 for Tafachna and Reggada. The leaves account for approximately 70% of the total litterfall, restored to the soil 38.3 kg ha1 yr1 for Tafachana and 44.6 kg ha1 an1 for Reggada (approximately 74% of the total nutrient amount of the litterfall). The decomposition pattern of the leaves litter from each site according to diameter classes. In order to establish biomass regression equations the best fit was obtained by applying the allometric method: follows a negative exponential equation of form RF¼A þB exp (kt). The nitrogen was the bioelement that contributed the greatest amount to the bio- geochemical cycling between vegetation and soil. At the level of internal exchange to the trees, translocation, and transfer, the nitrogen was followed by phosphorus and potassium.

URLhttp://www.tandfonline.com/doi/abs/10.1080/15324982.2012.723114