Box 9: The Global Bioenergy Partnership

The Global Bioenergy Partnership (GBEP), launched at the 14th session of the United Nations Commission on Sustainable Development in May 2006, is an international initiative established to implement the commitments taken by the G8+5 countries* in the 2005 Gleneagles Plan of Action. It promotes global high- level policy dialogue on bioenergy; supports national and regional bioenergy policy-making and market development; favours efficient and sustainable uses of biomass; develops project activities in bioenergy; fosters bilateral and multilateral exchange of information, skills and technology; and facilitates bioenergy integration into energy markets by tackling specific barriers in the supply chain.

The Partnership is chaired by Italy, and FAO is a Partner and hosts the GBEP Secretariat. GBEP cooperates with FAO’s International Bioenergy Platform, the International Biofuels Forum, the International Partnership for the Hydrogen Economy, the Mediterranean Renewable Energy Programme, the Methane to Markets Partnership, the Renewable Energy Policy Network for the 21st Century, the Renewable Energy and Energy Efficiency Partnership, the United Nations Conference on Trade and Development (UNCTAD) BioFuels Initiative and the Bioenergy Implementing Agreements and related tasks of the International Energy Agency, among others. In addition, the Partnership has formed a task force to work on harmonizing methodologies for life-cycle analysis and developing a methodological framework for this purpose. All these initiatives provide important avenues for assisting both developing and developed countries in building national regulatory frameworks for bioenergy.

* [The G8+5 group comprises the G8 countries (Canada, France, Germany, Italy, Japan, the Russian Federation, the United Kingdom and the United States of America), plus the five major emerging economies (Brazil, China, India, Mexico and South Africa)]

Source: FAO, The State of Food and Agriculture, Biofuels: Prospects, Risks and Opportunities (2008) , Chapter 5, p.58

Liquid Biofuels for Transport Prospects, risks and opportunities

TABLE 1: Biofuel production by country, 2007

TABLE 2: Biofuel yields for different feedstocks and countries

TABLE 3: Hypothetical potential for ethanol from principal cereal and sugar crops

TABLE 4: Voluntary and mandatory bioenergy targets for transport fuels in G8+5 countries

TABLE 5: Applied tariffs on ethanol in selected countries

TABLE 6: Total support estimates for biofuels in selected OECD economies in 2006

TABLE 7: Approximate average and variable rates of support per litre of biofuel in selected OECD economies

TABLE 8: Energy demand by source and sector: reference scenario

TABLE 9: Land requirements for biofuel production

TABLE 10: Water requirements for biofuel crops

TABLE 11: Import bills of total food and major food commodities for 2007 and their percentage increase over 2006

TABLE 12: Net importers of petroleum products and major cereals, ranked by prevalence of undernourishment

TABLE 13: Share of net staple food-seller households among urban, rural and total households

Box 1: Other types of biomass for heat, power and transport

Box 2: Biotechnology applications for biofuels

Box 3: Biofuel policies in Brazil

Box 4: Biofuel policies in the United States of America

Box 5: Biofuel policies in the European Union

Box 6: Main sources of uncertainty for biofuel projections

Box 7: Biofuels and the World Trade Organization

Box 8: Biofuels and preferential trade initiatives

Box 9: The Global Bioenergy Partnership

Box 10: Biofuels and the United Nations Framework Convention on Climate Change

Box 11: Jatropha – a “miracle” crop?

Box 12: Agricultural growth and poverty reduction

Box 13: Cotton in the Sahel

Box 14: Biofuel crops and the land issue in the United Republic of Tanzania

Figure 1: World primary energy demand by source, 2005

Figure 2: Total primary energy demand by source and region, 2005

Figure 3: Trends in consumption of transport biofuels

Figure 4: Biofuels – from feedstock to end use

Figure 5: Uses of biomass for energy

Figure 6: Conversion of agricultural feedstocks into liquid biofuels

Figure 7: Estimated ranges of fossil energy balances of selected fuel types

Figure 8: Support provided at different points in the biofuel supply chain

Figure 9: Biofuel production costs in selected countries, 2004 and 2007

Figure 10: Breakeven prices for crude oil and selected feedstocks in 2005

Figure 11: Breakeven prices for maize and crude oil in the United States of America

Figure 12: Breakeven prices for maize and crude oil with and without subsidies

Figure 13: Maize and crude oil breakeven prices and observed prices, 2003–08

Figure 14: Price relationships between crude oil and other biofuel feedstocks, 2003-08

Figure 15: Food commodity price trends 1971–2007, with projections to 2017

Figure 16: Global ethanol production, trade and prices, with projections to 2017

Figure 17: Major ethanol producers, with projections to 2017

Figure 18: Global biodiesel production, trade and prices, with projections to 2017

Figure 19: Major biodiesel producers, with projections to 2017

Figure 20: Total impact of removing trade-distorting biofuel policies for ethanol, 2013–17 average

Figure 21: Total impact of removing trade-distorting biofuel policies for biodiesel, 2013–17 average

Figure 22: Life-cycle analysis for greenhouse gas balances

Figure 23: Reductions in greenhouse gas emissions of selected biofuels relative to fossil fuels

Figure 24: Potential for cropland expansion

Figure 25: Potential for yield increase for selected biofuel feedstock crops

Figure 26: Potential for irrigated area expansion

Figure 27: Agricultural trade balance of least-developed countries

Figure 28: Distribution of poor net buyers and sellers of staple foods1

Figure 29: Average welfare gain/loss from a 10 percent increase in the price of the main staple, by income (expenditure) quintile for rural and urban households