Agronomic operations Evaluation of the greenhouse-gas reduction efficacy of a rapeseed (Brassica napus L.) biofuel crop and impact of agronomic techniques L. Belelli Marchesini (1), R. Casa (2), D. Papale (1), F. Pieruccetti (2), P. Stefani (1), N. Arriga (1), F. Mazzenga (1), and R. Valentini (1). (1) Department of Forest Science and Resources, University of Tuscia, Italy. (2) Department of Crop Production, University of Tuscia, Italy. FOCUS ON THE GHG EMISSION REDUCTION EFFICACY OF BIOFUELS The need of using ecologically friendly fuels as a remedy to tackle climate change effects and as an answer to growing costs of petroleum, has encouraged the production of biofuels in the latest years (Farrel et al. 2006). Biofules are a clean source of energy produced from biomass such as wood, energy crops, energy wastes and residues, accounting for approximately 11% of total primary energy consumed globally and for about 80% of renewable energy (GBEP, 2007). Biofuel life cycle analysis is used to evaluate environmental impact and potential factors related to product life cycle energy balance, including raw material, production, consumption and waste utilization. Fuel is considered not renewable if the amount of fossil fuel energy used in production is significantly higher than accumulated in the product, i.e the ratio of biofuel energy (calorific value) to the total energy used for fuel production, is less than 1 (Janulis, 2004). Rapeseed oil is a renewable fuel, the oil is obtained by an annual plant, and all the carbon released by combustion has been fixed by the plant trough the process of photosynthesis. However for a complete analysis of the carbon cycle additional information relative to various processes required to produce and convert the material into useful forms. If most of biofuels were found to reduce green-house gas emissions by more than 30% relative to gasoline (Zah et al., 2007), the debate about the production of biofuel crops should also focus on the overall assessment of its environmental costs and benefits. Such an analysis should take into account a comparison between a land dedicated to energy crops and traditional land-use scenarios, especially whether native ecosystems are destroyed to produce biofuels, but also verify the balance of green-house gases for a determined biofuel crop along its whole productive cycle. Meteo data CO 2 Fluxes, ecological parameters Remote sensing NDVI, LAI, fPAR ANN, models Remote sensing GPP Air borne measurements Inventories Phytopathology, Fire Trace gases in agricultural and forest ecosystems Kyoto-oriented policiesFuture scenarios LINE I: Flux measurement and up-scaling LINE V: Policy and scenarios LINE IV: Non CO 2 trace gas fluxes LINE II: Regionalization LINE III: Experimental verification National Sink CARBOITALY Research lines Deciduous Forests Croplands Evergreen Forests Forest Plantations Maquis Pastures and Meadows THE CARBOITALY PROJECT Carboitaly is a project financed by the Italian national fund for research (FISR) aimed at quantifying, through appropriate methods and a solid scientific approach, the carbon sequestration by agricultural and forest ecosystems at national scale in Italy. Theobjective of the project is to organize and manage the GHG flux measurements network in Italy, being formed at present by 20 sites over 11 regions. All data collected from sites are integrated in a project database. Measurement of fluxes and environmental parameters This activity includes continuous and long term monitoring of CO 2 fluxes in different types of ecosystems in Italy as well as all the ancillary parameters concerning physical and chemical properties of air, soil and biomass. In particular mandatory measurements include fluxes of carbon dioxide, water vapour, and sensible heat by eddy covariance (EC) technique, net radiation, soil heat flux, vertical profiles of air temperature and humidity. In respect with the environmental parameters each site provides measurements of soil water content and temperature and of ecophysiological parameters of vegetation. Inventory measurements include the characterization of carbon pools, particularly the assessment of soil carbon stocks, and the quality of soil carbon through its fractionation in different pools by dimension and density. No tillage Tillage Eddy covariance and environmental monitoring Crop and weeds growth monitoring EXPERIMENTAL ACTIVITIES Under the framework of the CARBOITALY project, two paired experimental sites for the monitoring of CO 2 fluxes by eddy covariance technique over rapeseed (Brassica napus L.) biofuel crops in the province of Viterbo (Italy) were established in fall The experimental activities aim at the comparison between a tillage and no tillage agricultural managements in respect with the greenhouse gas balance of the crop systems accounting for all removals and emissions (direct and indirect) during the productive cycle. Moreover the activities cover a wide range of observations of biophysical parameters in the soil, plant, atmosphere compartments to evaluate the effect on the environment of the two agricultural managements DateOperationTreatment 01-03/09/2007Ploughing (depth 30cm)T 26/09/2007Fertilization ( 50 kg/ha P 2 O 4 )T 01-03/10/2007Tillage (depth cm)T 08/10/2007Weeding - Glifosate (3L/ha)NT 10/10/2007Sowing Rapeseed (var. Sartori) (depth 2 cm, rows spaced 36 cm) + fertilization ( 50 kg/ha P 2 O 4 )NT 11/10/2007Sowing Rapeseed (var. Sartori) (depth 2 cm, rows spaced 36 cm)T 20/11/2007Weeding after seedling emergency (metazaclor -butisan S 2L/ha)NT 20/12/2007Weeding after seedling emergency (clopiralid -Lontrel g/ha)T 14/03/2008Fertilization - Urea ( 70 kg/ha di N)T+NT 14/03/2008Weeding (Haloxifop-R-methyl ester -Gallant 30W 2.5/ha)NT 15/03/2008Weeding (Haloxifop-R-methyl ester -Gallant 30W 2.5/ha and Clopiralid -Lontrel g/ha )T 30/05/2008Expected rapeseed harvestingNT+T Info: