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  Estimating the carbon sequestration potential of short rotation coppice on marginal sites : a model approach

Quinkenstein, A., Matos, E., Freese, D., Jochheim, H., Schneider, B. U., Hüttl, R. F. J. (2009): Estimating the carbon sequestration potential of short rotation coppice on marginal sites: a model approach, 2nd World Congress of Agroforestry (Nairobi 2009).

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 Creators:
Quinkenstein, A.1, Author
Matos, E.1, Author
Freese, D.1, Author
Jochheim, H.1, Author
Schneider, Bernd Uwe2, Author              
Hüttl, Reinhard F. J.2, Author              
Affiliations:
1External Organizations, ou_persistent22              
2Staff Scientific Executive Board, GFZ Publication Database, Deutsches GeoForschungsZentrum, ou_146063              

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Free keywords: 23-28 August 2009
 DDC: 550 - Earth sciences
 Abstract: In the temperate zone, the increasing need to replace fossil fuels by renewable energy resources, taking into account the general limiting conditions of climate change, has resulted in alternative land-use systems coming to the fore. Short rotation coppice (SRC) of fast-growing trees such as poplar or black locust offers an approach for the sustainable production of biomass and a prolonged fixation of carbon in the plants and the soil with positive effects on soil humus and general fertility of marginal agricultural sites. In the open-cast mining area of Lusatia in northeast Germany, reclaimed mine sites provide a large area of marginal land. To estimate the benefits for carbon sequestration in the above-ground and below-ground biomass as well as in the soil of a poplar and a black locust SRC, results of several field experiments conducted in that region were evaluated. In addition, the empirical carbon model shortcar was used to simulate the carbon cycle of SRC and to estimate the net primary production, net ecosystem and net biome production of the tree plantations. The results demonstrate that SRC can form an effective carbon sink at least for the considered time period. If the effect of replacing fossil energy fuels by regrowing biomass is taken into account, SRC can be considered to be a permanent carbon sink and may provide a promising alternative for future land use in the temperate zone.

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 Dates: 2009
 Publication Status: Finally published
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 Identifiers: eDoc: 14261
GFZPOF: PT2 Earth System Dynamics: Coupled Processes and Regional Impact
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Title: 2nd World Congress of Agroforestry (Nairobi 2009)
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Title: 2nd World Congress of Agroforestry (Nairobi 2009)
Source Genre: Proceedings
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