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RESEARCH PRODUCT
Effects of traditional forest management on carbon storage in a Mediterranean holm oak (Quercus ilex L.) coppice
Vincenzo PalmeriMassimo IovinoS. SferlazzaDs La Mela VecaFederico Guglielmo MaetzkeGiorgio Baiamontesubject
Mediterranean climateSettore AGR/05 - Assestamento Forestale E Selvicoltura010504 meteorology & atmospheric sciencesCarbon PoolForest management01 natural sciencesCoppicingBioenergyCarbon Pool Aboveground Carbon Belowground Carbon Dead Carbon Litter Carbon Soil Carbon Coppicinglcsh:ForestryCharcoalSilvicultureCoppicing0105 earth and related environmental sciencesNature and Landscape ConservationEcologySoil organic matterSoil CarbonForestryForestry04 agricultural and veterinary sciencesSoil carbonBelowground CarbonLitter CarbonAboveground Carbonvisual_art040103 agronomy & agriculturevisual_art.visual_art_medium0401 agriculture forestry and fisheriesEnvironmental sciencelcsh:SD1-669.5Dead Carbondescription
Abstract: In the last decade, there has been increased interest in measuring and modeling storage in the five forest carbon pools: the aboveground and belowground biomass (living biomass), the deadwood and litter (dead biomass), and the soil (soil organic matter). In this paper, we examined carbon storage in a holm oak coppice stand in the Madonie Mountains in Sicily (Italy), which is a typical case of managed coppice stands. Today, traditional coppice practices are only applied to a small number of forested areas in Sicily, such as the selected site, because of the decline in demand for wood and charcoal. The dendrometric parameters of the stands were recorded, and silvicultural indices were calculated immediately after cutting as well as during and at the end of the rotation period; they showed the trends typical of coppices. The carbon stocks in the five carbon pools were quantified to investigate the effects of coppicing on carbon storage in this Mediterranean area. Results showed that the lowest living biomass values were observed in the first years following coppicing, except for litter carbon. Belowground biomass and the soil carbon stock did not vary significantly with coppicing. During the rotation period, the aboveground biomass was completely restored, and the balance of the carbon stocks indicates that coppicing is a sustainable forest management choice from the point of view of the carbon balance, given that the logged trees are generally used for bioenergy production.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2018-04-18 | iForest - Biogeosciences and Forestry |