Temporal carbon dynamics over the rotation period of two alternative management systems in Mediterranean mountain Scots pine forests

•Moderate management system increases carbon stocks.•Soil carbon stocks remain constant throughout the rotation period.•More carbon was stored in the forest floor under the intensive forest system. Forests play an important role in the mitigation of global warming, acting as carbon sinks. However, t...

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Bibliographic Details
Published in:Forest ecology and management 2015-07, Vol.348, p.186-195
Main Authors: Moreno-Fernández, Daniel, Díaz-Pinés, Eugenio, Barbeito, Ignacio, Sánchez-González, Mariola, Montes, Fernando, Rubio, Agustín, Cañellas, Isabel
Format: Article
Language:English
Subjects:
Adaptive forest management
Biomass
Carbon
Carbon stocks
Climate change
Forest management
Forests
Life Sciences
Management systems
Pinus sylvestris
Raw materials
Silviculture
Soil (material)
Trees
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Summary:•Moderate management system increases carbon stocks.•Soil carbon stocks remain constant throughout the rotation period.•More carbon was stored in the forest floor under the intensive forest system. Forests play an important role in the mitigation of global warming, acting as carbon sinks. However, the effects of forest management on the carbon pools over the rotation period in Mediterranean areas are scarcely understood. The objective of this work is to assess the way in which two alternative management systems; one more intensive and the other more moderate (with less severe harvesting and more spread over time) affect the carbon stocks in the living tree biomass, coarse woody debris, forest floor and mineral soil in Mediterranean forests. For this purpose, two chronosequences were established covering the whole rotation period in two Pinus sylvestris L. forests. We conducted four forest inventories over a period of 15years, measuring the diameter and the height of all the trees higher than 1.3m in order to calculate the carbon stored in the living parts of the tree. Soil pits were excavated and we collected soil samples to estimate the soil organic carbon. We found that the temporal trends for living tree biomass were similar in both forests. However, the total living tree carbon stored at the end of the rotation period was greater in the forest with the longer rotation period and lighter thinning regime (345.5Mgha−1 of carbon) than in the intensively-managed forest (223.8Mgha−1 of carbon). On average, more carbon was found to be stored in the forest floor under the more intensive management system, whereas more carbon was present in the first 20cm of mineral soil under the moderate management system. Moreover, in each forest, the carbon stocks of the forest floor and in the uppermost cm of the soil remained constant over the rotation period. Therefore, management systems with longer rotation periods and moderate harvesting intensities are recommended to increase carbon fixation in Mediterranean forests.
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2015.03.043