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Biogeosciences An interactive open-access journal of the European Geosciences Union
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Volume 13, issue 1
Biogeosciences, 13, 95-113, 2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
Biogeosciences, 13, 95-113, 2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 15 Jan 2016

Research article | 15 Jan 2016

Greenhouse gas balance of cropland conversion to bioenergy poplar short-rotation coppice

S. Sabbatini1, N. Arriga2, T. Bertolini3, S. Castaldi3, T. Chiti1, C. Consalvo1, S. Njakou Djomo4,5, B. Gioli6, G. Matteucci7, and D. Papale1 S. Sabbatini et al.
  • 1University of Tuscia, Department for Innovation in Biological, Agro-food and Forest systems, Via S. Camillo de Lellis snc, 01100 Viterbo (VT), Italy
  • 2University of Antwerp, Department of Biology, Research Group of Plant and Vegetation Ecology, Universiteitsplein 1, 2610 Wilrijk, Belgium
  • 3Second University of Naples, Department of Environmental, Biological, Pharmaceutical Sciences and Technologies, Via Vivaldi 43, 81100 Caserta (CE), Italy
  • 4Hasselt University, Department of Economic, Research Group of Environmental Economics, Martelarenlaan 42, 3500 Hasselt, Belgium
  • 5Aarhus University, Department of Agroecology, Blichers Alle 20, 8830, Tjele, Denmark
  • 6Institute of Biometeorology, National Research Council, Via G. Caproni 8, 50145 Firenze (FI), Italy
  • 7Institute for Agricultural and Forestry Systems in the Mediterranean, National Research Council, Via Cavour 4-6, 87036 Rende (CS), Italy

Abstract. The production of bioenergy in Europe is one of the strategies conceived to reduce greenhouse gas (GHG) emissions. The suitability of the land use change from a cropland (REF site) to a short-rotation coppice plantation of hybrid poplar (SRC site) was investigated by comparing the GHG budgets of these two systems over 24 months in Viterbo, Italy. This period corresponded to a single rotation of the SRC site. The REF site was a crop rotation between grassland and winter wheat, i.e. the same management of the SRC site before the conversion to short-rotation coppice. Eddy covariance measurements were carried out to quantify the net ecosystem exchange of CO2 (FCO2), whereas chambers were used to measure N2O and CH4 emissions from soil. The measurements began 2 years after the conversion of arable land to SRC so that an older poplar plantation was used to estimate the soil organic carbon (SOC) loss due to SRC establishment and to estimate SOC recovery over time. Emissions from tractors and from production and transport of agricultural inputs (FMAN) were modelled. A GHG emission offset, due to the substitution of natural gas with SRC biomass, was credited to the GHG budget of the SRC site. Emissions generated by the use of biomass (FEXP) were also considered. Suitability was finally assessed by comparing the GHG budgets of the two sites. CO2 uptake was 3512±224g CO2m−2 at the SRC site in 2 years, and 1838±107g CO2m−2 at the REF site. FEXP was equal to 1858±240g CO2m−2 at the REF site, thus basically compensating for FCO2, while it was 1118±521g CO2m−2 at the SRC site. The SRC site could offset 379.7±175.1g CO2eqm−2 from fossil fuel displacement. Soil CH4 and N2O fluxes were negligible. FMAN made up 2 and 4% in the GHG budgets of SRC and REF sites respectively, while the SOC loss was 455±524g CO2m−2 in 2 years. Overall, the REF site was close to neutrality from a GHG perspective (156±264g CO2eqm−2), while the SRC site was a net sink of 2202±792g CO2eqm−2. In conclusion the experiment led to a positive evaluation from a GHG viewpoint of the conversion of cropland to bioenergy SRC.

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Short summary
The suitability of a land use change (LUC) from cropland to short rotation coppice of poplar in Central Italy was investigated by comparing the respective greenhouse gas budgets. Biogenic and anthropogenic CO2, CH4, and N2O fluxes, change in soil C stocks, and effects of biomass use were considered. In 2 years the LUC saved 2358 ± 835 gCO2eq m-2. Net ecosystem exchange of CO2 and C exports represented the main contributions to the overall budgets, while soil non-CO2 fluxes were negligible.
The suitability of a land use change (LUC) from cropland to short rotation coppice of poplar in...