BEST project (2019-2022) - Bio-Economy in Europe and SDGs: Development, Contribution and Trade-Offs
The development of the bioeconomy is closely linked to national and international sustainability goals. As a major importer of agricultural and forestry products, the EU must also take into account the global impact of its own actions in policy-making. Conflicts of interest are foreseeable if expected developments in different areas are superimposed. Data sets and models that can capture these conflicting objectives still have various weaknesses. BEST uses two global macro models based on different data sets and theoretical backgrounds. They are supplemented by a detailed partial model that records production, trade and demand of individual product groups of the bioeconomy. Global land-use change and the effectiveness of land-use governance are also considered.
On this basis, the following questions are examined in detail:
What potential development paths are there for the bioeconomy in the EU in the medium term (2030) with regard to the regional and global achievement of SDGs and expectations in different areas of use and in the long term (2050/60) against the background of Shared Socioeconomic Pathways (SSPs) and climate objectives?
What contributions and what conflicts of objectives for the achievement of the socio-economic and environmental SDGs (2, 6-9 and 12-15) in Europe and worldwide result from these development paths?
What are the impacts of individual isolated national policies (including the EU) on the promotion and regulation of bioeconomy versus coordinated global mechanisms? What are the opportunities and limitations to steer the development of a sustainable bioeconomy that ensures the highest possible degree of target achievement? The project is divided into 5 work packages. Two workshops are planned for the exchange with national and international experts.
The work plan consists of 5 work packages:
Development of bioeconomy (BE) scenarios: Literature research, quantification of different scenarios of the BE for the EU and globally for the years 2030 and 2050. The countries and country groups considered in the models are regarded specifically. Expert workshop on the scenarios.
Global land-use change and effectiveness of land-use governance: Creation of a global data set on: landuse change, drivers, assessment of ecosystem services, governance indicators (partial use of an existing database at the ILR). Econometric analysis to estimate land supply functions taking into account national governance quality. Empirically based parameterization of social cost functions for the loss of vegetation dependent ecosystem services.
Global modelling of the BE and the conflicting objectives of relevant SDGs: Extension and updating of the partial model in GINFORS and validation. Quantification of the long-term scenario baselines in the macro models. Analysis of the BE scenarios with regard to their effects on SDGs.
Evaluation and synthesis of the results with regard to the SDGs and development of policy options: Evaluation and synthesis of results from AP1 to AP3. Development of policy options both for the EU and Germany and globally based on the evaluation. Quantitative analysis of the policy options for a more sustainable design of BE.
Coordination, internal exchange and dissemination: An intensive exchange and coordination process takes place between the project partners. For dissemination, see the exploitation plan.
The project is financed by the German Federal Ministry for Education and Research as part of its research on the bio-economy.
Christian Lutz, co-ordinator, Gesellschaft für Wirtschaftliche Strukturforschung, Braunschweig, Germany
The contribution of the Economic of Modeling of Agricultural System group in Bonn consists mainly of the development of long-term global scenarios with the regard to the bio-economy based on the application of the Computable General Equilibrium model CGEBOX and their detailed analysis. It draws on the G-RDEM module of CGEBox and extensions such as GTAP-AEZ.
Britz, W., Roson, R. (2019): GTAP-RDEM: A GTAP-Based Recursive Dynamic CGE Model for Long-Term Baseline Generation and Analysis , Journal of Global Economic Analysis 4(1): 50-96
Britz, W., van der Mensbrugghe, D. (2018): CGEBox: A Flexible, Modular and Extendable Framework for CGE Analysis in GAMS, Journal of Global Economic Analysis 3(2): 106-176
Haddad, S., Britz, W., Boerner, J. (2019): Economic Impacts and Land Use Change from Increasing Demand for Forest Products in the European Bioeconomy: A General Equilibrium Based Sensitivity Analysis, Forests 10(52): 1-27.
Escobar, N., Haddad, S., Börner, J., Britz, W. (2018): Land use mediated GHG emissions and spillovers from increased consumption of bioplastic, Environmental Research Letters 13(125005)
Wolfgang Britz, project lead
Rienne Wilts, project realization (from autumn 2019 onwards)
Last updated: Saturday, December 21, 2019
- Contribution to DFG Excellence cluster Phenorob, 2020-2024
- New H2020 research project MINDSTEP, 2019-2023
- New BMBF research project BEST, 2019-2022
- New BioSC research project Transform2Bio, 2019-2022
- GTAP research fellow award for Wolfgang Britz
- Aus unserer Forschung: Oekonomische und oekologische Bewertung eines Glyphosatverzichts am Beispiel der Silomaisproduktion in Nordrhein-Westfalen
- Long-term impacts of bio-based innovation in the chemical sector: a dynamic global perspective (2020) Nong, D., Escobar, N., Britz, W., Börner, J. (2020): Long-term impacts of bio-based innovation in the chemical sector: a dynamic global perspective, Journal of Cleaner Production, online 8th July 2020
- Can Food Waste Reduction in Europe Help to Increase Food Availability and Reduce Pressure on Natural Resources Globally? (2020) Jafari, Y., Britz, W., Dudu, H., Roson, R., Sartori, M. (2020): Can Food Waste Reduction in Europe Help to Increase Food Availability and Reduce Pressure on Natural Resources Globally?, German Journal of Agricultural Economics 69(2): 143-168
- Coupling crop and bio-economic farm modelling to evaluate the revised fertilization regulations in Germany (2019) Kuhn, T., Enders, A., Gaiser, T., Schäfer, D., Srivastava, A., Britz, W. (2019): Coupling crop and bio-economic farm modelling to evaluate the revised fertilization regulations in Germany , Agricultural Systems
- On-farm compliance costs with the EU-Nitrates Directive: A modelling approach for specialized livestock production in northwest Germany (2019) Kuhn, T., Schäfer, D., Holm-Müller, K., Britz, W. (2019): On-farm compliance costs with the EU-Nitrates Directive: A modelling approach for specialized livestock production in northwest Germany, Agricultural Systems 173: 233-243