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    AthenaWeb, the EU's science media portal, is online with new functionalities and expanded video libraries. Check it out for video summaries of the latest European research activities in the fields of energy, the environment, renewables, biotech and much more. AthenaWeb - July 04, 2007.

    Biopact was invited to attend a European Union high-level meeting on international biofuels trade, to take place on Thursday and Friday in Brussels. Leaders from China, India, Africa and Brazil will discuss the opportunities and challenges arising in the emerging global biofuels sector. EU Commissioners for external relations, trade, energy, development & humanitarian aid as well as the directors of international organisations like the IEA, the FAO and the IFPRI will be present. Civil society and environmental NGOs complete the panorama of participants. Check back for exclusive stories from Friday onwards. Biopact - July 04, 2007.

    China's state-owned grain group COFCO says Beijing has stopped approving new fuel ethanol projects regardless of the raw materials, which has put a brake on its plan to build a sweet potato-based plant in Hebei. The Standard (Hong Kong) - July 03, 2007.

    Blue Diamond Ventures and the University of Texas A&M have formed a biofuels research alliance. The University will assist Blue Diamond with the production and conversion of non-food crops for manufacturing second-generation biofuels. MarketWire - July 03, 2007.

    African Union leaders are to discuss the idea of a single pan-African government, on the second day of their summit in Accra, Ghana. Libya's Colonel Muammar Gaddafi is championing the idea, but many African leaders are wary of the proposal. BBC - July 02, 2007.

    Triple Point Technology, a supplier of cross-industry software platforms for the supply, trading, marketing and movement of commodities, announced today the release and general availability of Commodity XL for Biofuels™. The software platform is engineered to address the rapidly escalating global market for renewable energy fuels and their feedstocks. Business Wire - July 02, 2007.

    Latin America's largest construction and engineering firm, Constructora Norberto Odebrecht SA, announced plans to invest some US$2.6 billion (€1.9 billion) to get into Brazil's booming ethanol business. It aims to reach a crushing capacity of 30 million to 40 million metric tons (33 million to 44 million tons) of cane per harvest over the next eight years. More soon. International Herald Tribune - June 30, 2007.

    QuestAir Technologies announces it has received an order valued at US$2.85 million for an M-3100 system to upgrade biogas created from organic waste to pipeline quality methane. QuestAir's multi-unit M-3100 system was purchased by Phase 3 Developments & Investments, LLC of Ohio, a developer of renewable energy projects in the agricultural sector. The plant is expected to be fully operational in the spring of 2008. Market Wire - June 30, 2007.

    Siemens Energy & Automation, Inc. and the U.S. National Corn-to-Ethanol Research Center (NCERC) today announced a partnership to speed the growth of alternative fuel technology. The 10-year agreement between the center and Siemens represents transfers of equipment, software and on-site simulation training. The NCERC facilitates the commercialization of new technologies for producing ethanol more effectively and plays a key role in the Bio-Fuels Industry for Workforce Training to assist in the growing need for qualified personnel to operate and manage bio-fuel refineries across the country. Business Wire - June 29, 2007.

    A paper published in the latest issue of the Journal of the American Ceramic Society proposes a new method of producing hydrogen for portable fuel cells that can work steadily for 10-20 times the length of equivalently sized Lithium-ion batteries. Zhen-Yan Deng, lead author, found that modified aluminum powder can be used to react with water to produce hydrogen at room temperature and under normal atmospheric pressure. The result is a cost-efficient method for powering fuel cells that can be used in portable applications and hybrid vehicles. More soon. Blackwell Publishing - June 29, 2007.

    An NGO called Grains publishes a report that highlights some of the potentially negative effects associated with the global biofuels sector. The findings are a bit one-sided because based uniquely on negative news stories. Moreover, the report does not show much of a long-term vision on the world's energy crisis, climate change, North-South relations, and the unique role biofuels can play in addressing these issues. Grain - June 29, 2007.

    Researchers at the Universidad de Tarapacá in Arica plan to grow Jatropha curcas in the arid north of Chile. The trial in the desert, is carried out to test the drought-tolerance of the biodiesel crop, and to see whether it can utilize the desert's scarce water resources which contain high amounts of salt minerals and boron, lethal to other crops. Santiago Times - June 28, 2007.

    India and Thailand sign a Memorandum of Understanding (MoU) that envisages cooperation through joint research and development and exchange of information in areas of renewable sources of energy like, biogas, solar-thermal, small hydro, wind and biomass energy. Daily India - June 28, 2007.

    Portucel - Empresa Produtora de Pasta e Papel SA said it plans to install biomass plants with an expected production capacity of 200,000 megawatt hours per year at its paper factories in Setubal and Cacia. The European Commission gave the green light for state aid totaling €46.5 million, contributing to Portucel's plans to extend and modernise its plants. Forbes - June 28, 2007.

    Petro-Canada and GreenField Ethanol have inked a long-term deal that makes Petro-Canada the exclusive purchaser of all ethanol produced at GreenField Ethanol's new facility in Varennes, Quebec. The ethanol will be blended with gasoline destined for Petro-Canada retail sites in the Greater Montreal Area. Petro-Canada - June 27, 2007.

    According to a study by the Korean Energy Economics Institute, biodiesel produced in Korea will become cheaper than light crude oil from 2011 onwards (678 won/liter versus 717.2 won/liter). The study "Prospects on the Economic Feasibility of Biodiesel and Improving the Support System", advises to keep biodiesel tax-free until 2010, after which it can compete with oil. Dong-A Ilbo - June 27, 2007.

    Kreido Biofuels announced today that it has entered into a marketing and distribution agreement with Eco-Energy, an energy and chemical marketing and trading company. Eco-Energy will purchase Kreido Biofuels’ biodiesel output from Wilmington, North Carolina, and Argo, Illinois, for a minimum of 3 years at current commercial market prices, as well as provide Kreido transportation and logistics services. Business Wire - June 27, 2007.

    Beijing Tiandi Riyue Biomass Technology Corp. Ltd. has started construction on its new fuel ethanol project in the county of Naiman in Inner Mongolia Autonomous Region's Chifeng City, the company's president told Interfax today. Interfax China - June 26, 2007.

    W2 Energy Inc. announces it will begin development of biobutanol from biomass. The biofuel will be manufactured from syngas derived from non-food biomass and waste products using the company's plasma reactor system. Market Wire - June 26, 2007.

    Finland based Metso Corporation, a global engineering firm has received an order worth €60 million to supply two biomass-fired power boilers to Portugal's EDP Producao - Bioeléctrica, S.A. The first boiler (83 MWth) will be installed at Celbi’s Figueira da Foz pulp mill and the second boiler (35 MWth) at Caima’s pulp mill near the city of Constância. Both power plants will mainly use biomass, like eucalyptus bark and forest residues, as fuel to produce together approximately 40 MWe electricity to the national grid. Both boilers utilize bubbling fluidized bed technology. Metso Corporation - June 26, 2007.

    Canada's New Government is investing more than $416,000 in three southern Alberta projects to help the emerging biofuels industry. The communities of Lethbridge, Drumheller and Coalhurst will benefit from the projects. Through the Biofuels Opportunities for Producers Initiative (BOPI), the three firms will receive funding to prepare feasibility studies and business plans to study the suitability of biofuels production according to location and needs in the industry. MarketWire - June 26, 2007.

    U.S. Energy Secretary Samuel Bodman is expected to announce today that Michigan State and other universities have been selected to share $375 million in federal funding to develop new bioenergy centers for research on cellulosic ethanol and biomass plants. More info soon. Detroit Free Press - June 26, 2007.

    A Kerala based NGO has won an Ashden Award for installing biogas plants in the state to convert organic waste into a clean and renewable source of energy at the household level. Former US vice president Al Gore gave away the award - cash prize of 30,000 pounds - to Biotech chief A. Saji at a ceremony in London on Friday. New Kerala - June 25, 2007.

    AltraBiofuels, a California-based producer of renewable biofuels, announced that it has secured an additional US$165.5 million of debt financing for the construction and completion of two plants located in Coshocton, Ohio and Cloverdale, Indiana. The Coshocton plant's capacity is anticipated to reach 60million gallons/year while the Cloverdale plant is expected to reach 100 million gallons/year. Business Wire - June 23, 2007.

    Brazil and the Dominican Republic have inked a biofuel cooperation agreement aimed at alleviating poverty and creating economic opportunity. The agreement initially focuses on the production of biodiesel in the Dominican Republic. Dominican Today - June 21, 2007.

    Malaysian company Ecofuture Bhd makes renewable products from palm oil residues such as empty fruit bunches and fibers (more here). It expects the revenue contribution of these products to grow by 10% this year, due to growing overseas demand, says executive chairman Jang Lim Kuang. 95% of the group's export earnings come from these products which include natural oil palm fibre strands and biodegradable mulching and soil erosion geotextile mats. Bernama - June 20, 2007.

    Argent Energy, a British producer of waste-oil based biodiesel, announced its intention to seek a listing on London's AIM via a placing of new and existing ordinary shares with institutional investors. Argent plans to use the proceeds to construct the first phase of its proposed 150,000 tonnes (170 million litres) plant at Ellesmere Port, near Chester, and to develop further plans for a 75,000 tonnes (85 million litres) plant in New Zealand. Argent Energy - June 20, 2007.


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Friday, July 06, 2007

Researchers make discovery in mechanics of phototropism - could improve crop biomass yields

In a paper published in the Journal of Biological Chemistry, scientists at the University of Missouri-Columbia report molecular-level discoveries [*abstract] about the mechanisms of phototropism, the directional growth of plants toward or away from light.

Phototropism is initiated when photoreceptors in a plant sense directional blue light. Understanding phototropism is important because it could lead to crop improvement, says Mannie Liscum, professor in the Division of Biological Sciences in MU's College of Arts and Science and Christopher S. Bond Life Sciences Center.
By understanding how phototropism works at a molecular level, we can work toward engineering plants that produce more biomass or have increased drought tolerance, among other things. For example, we could use this information to optimize plants' ability to capture light for photosynthesis, which would result in more energy capture and thus growth, or potentially agronomically useful biomass. - Mannie Liscum, professor of Biological Sciences, University of Missouri-Columbia
Liscum and doctoral student Ullas Pedmale studied the regulation of phototropic signaling in Arabidopsis thaliana, a weedy flowering plant commonly used as a model in laboratory studies. Focusing on non-phototropic hypocotyls 3 (NPH3), a protein known to be essential for phototropic responses, they examined its phosphorylation, the addition or removal of a phosphate group to the protein molecule. Using a series of pharmacological treatments and immunoblot assays, the team discovered that NPH3 was a phosphorylated protein - a protein with a phosphate group attached - in seedlings grown in the darkness. When the seedlings were exposed to light, they became dephosphorylated, or lost their phosphate group:
:: :: :: :: :: :: :: :: ::

These results suggest that the absorption of light by phot1, the dominant receptor controlling phototropism, leads to NPH3's loss of a phosphate group, allowing further progression of phototropic signaling.

"We found that exposure to directional blue light stimulated NPH3's dephosphorylation," Liscum said. "NPH3 exists as a phosphorylated protein in darkness and is rapidly dephosphorylated by a yet unidentified protein phosphatase in response to phot1 photoactivation by blue light."

Liscum and Pedmale now plan to study which amino acids on NPH3 are reversibly phosporylated and how NPH3 is involved in regulating other processes within plants.

The photosynthetic efficiency of crops, partly guided by their photoropic mechanisms, is currently below 0.4 per cent. The theoretical maximum efficiency however is around 4 per cent. Scientists and biotechnologists think it may be possible in the future to directly intervene in this complex natural mechanism, to improve the efficiency of the process and thus enhance plant growth by an order of magnitude.


Video: Blue-light-induced Phototropism. This short movie shows the phototropic response of dark-grown Arabidopsis seedlings. 60 hours after germination, blue light was provided from the left side for around 5 hours. The movies show the amount of phototropic curvature over a 5 hour period (Images were captured every 10 min and are played back at 6 frames per sec.) Source: Plants in Motion, tropisms.


References:
Ullas V. Pedmale and Emmanuel Liscum, "Regulation of Phototropic Signaling in Arabidopsis via Phosphorylation State Changes in the Phototropin 1-interacting Protein NPH3", J. Biol. Chem., Vol. 282, Issue 27, 19992-20001, July 6, 2007, doi:10.1074/jbc.M702551200

University of Missouri-Columbia: "MU Researchers Make Discovery in Molecular Mechanics of Phototropism" - July 5, 2007.

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Promises and challenges of biofuels for the poor - Highlights from the International Conference on Biofuels (Day 2, part 1)

The second day of the International Conference on Biofuels addressed the issue of how developing countries can participate and benefit from the biofuel revolution. There are many potential risks, from increased food insecurity and competition for land and water, to environmental impacts such as deforestation, soil depletion and biodiversity loss. But if implemented in a sustainable manner and guided by strong policies, biofuel production also offers an unprecedented opportunity for the vast rural populations of the South to get out of poverty, increase incomes and food security, and finally get access to modern energy.

Leading experts in the field debated the issues: Louis Michel, European Commissioner for Development and Humanitarian Aid, Alexander Müller, Assistant Director General of the FAO and Joachim von Braun, Director General of the International Food Policy Research Institute (IFPRI). Ministers from Senegal and the Dominican Republic shared views on biofuels risks and opportunities in their countries. And Simon Trace of the NGO Practical Action looked at some very concrete fields in which biofuels make sense for the poor and where their development should be discouraged.

In this piece, we focus on von Braun's contribution, as the IFPRI - the leading non-governmental food research institute - recently published a major report on the matter, titled "The Promises and Challenges of Biofuels for the Poor in Developing Countries" [*.pdf, 1.8MB], on which he drew profusely.

The issue of 'food versus fuel' is key to the debate, but misunderstood by many and often represented wrongly. From the start, von Braun made the crucial point, reiterated by many at the conference, that:
It is now well understood that food insecurity is a result not simply of a lack of food availability, but poverty. Food-insecure people do not have the income to buy the food that is available. If increased production of biofuels can raise the incomes of small farmers and rural laborers in developing countries, it may in fact improve food security.
Technical potential
Von Braun began by noting that the growing potential of biofuels appears to create a substantial opportunity for the world's farmers. But the key question is whether small-scale farmers and poor people in developing countries can really take advantage of this opportunity.

According to the researcher, energy crops could provide farmers with an important source of demand for their products. About 80 developing countries, for instance, grow and process sugarcane, a high-yielding crop in terms of photosynthesis efficiency that can also be used to produce ethanol. With international sugar prices moving generally downward until recently, partly owing to protectionist sugar policies in some OECD countries, sugarcane production for ethanol has become a more attractive option for developing-country farmers. Other energy crops include maize, soybeans, rapeseed, and oil palm, and many developing countries already grow or could grow these and other potential energy crops.

A modern biofuels industry could also provide developing-country farmers with a use for crop residues like stalks and leaves, which can be converted into ethanol or electricity. Emerging new technologies that convert cellulose to energy might lead to a much higher valuation of "residues," and may in fact make "residues" history in agriculture.

In some cases farmers can grow energy crops on degraded or marginal land not suitable for food production. An oil-bearing crop like Jatropha curcas, for example, produces a seed that can be converted into non-polluting biodiesel. The crop is of special interest because it grows in infertile soil, even in drought conditions, and animals do not graze on it. India has 60 million hectares of waste land, of which it is estimated that half might be used for Jatropha cultivation. The cost of producing biodiesel from Jatropha is just Rs. 20–25 (US$0.43–US$0.54) per liter. The Energy and Resources Institute (TERI) of India announced in February 2006 that it is undertaking a 10-year project, in conjunction with BP, to cultivate 8,000 hectares of wasteland with Jatropha and install the equipment necessary to produce 9 million liters of biodiesel a year. The project will include a complete analysis of the social and environmental impacts of the approach.

Employment opportunities for the poor
Because biofuel production is as labor intensive as agriculture, it may be a boon to rural areas with abundant labor. In Brazil, one study showed that in 1997 the ethanol sector employed about 1 million people. Thirty-five percent of these jobs were temporary harvesting jobs employing many poor migrant laborers from the Northeast, but 65 percent were permanent. Moreover, the number of jobs in manufacturing and other sectors in Brazil created indirectly by the ethanol sector was estimated at 300,000. Many of the jobs created are unskilled, and this situation offers an opportunity for increased income to poor rural people. And according to von Braun, small farmers are not left out: some 60,000 small farmers produce about 30 percent of the sugarcane in Brazil.

'Food versus fuel': a misunderstood and complex issue
Will crop production for biofuels compete with and drive out food production, thereby increasing food insecurity as is often claimed? Not necessarily. Von Braun thinks that energy crop production does not need to lead to increased food insecurity, on the contrary:
:: :: :: :: :: :: :: :: :: :: :: ::

First, new ways of combining food production with energy production have been developed. Food crop residues like rice and wheat straw, maize husks, and sugarcane bagasse (a fibrous residue) can be converted into biogas, ethanol, and electricity. In other cases energy crops can be targeted to more marginal lands, while food crops can be grown on more favorable lands. In addition, farmers can rotate food and energy crops. Brazilian farmers are increasingly growing sugarcane in rotation with tomatoes, soya, peanuts, and other food crops. Finally, research can—and must—help enhance overall crop productivity, and this is a prime task for the Consultative Group on International Agricultural Research (CGIAR). (See Box 2 for scenarios of future food and fuel production.)

Second, it is now well understood that food insecurity is a result not simply of a lack of food availability, but poverty. Food-insecure people do not have the income to buy the food that is available. If increased production of biofuels can raise the incomes of small farmers and rural laborers in developing countries, it may in fact improve food security. Still, risks for food security remain, particularly if the biofuel sector is not well managed and if oil price instabilities drive food price instability. Destabilizing oil price fluctuations that translate into food price fluctuations may actually be more worrisome than long-term price effects, as the poor have little capacity to adjust in the short run. Opening up trade opportunities for biofuels can dampen price fluctuations. Thus the effects of biofuel expansion on food security depend heavily on policies related to technology and trade.

Challenges in Creating a pro-poor biofuels industry
The high demand for energy and the apparent enormous potential of biofuels are no guarantee that small farmers and poor people in developing countries will receive the benefits. Creating an industry that helps the neediest people improve their lives and livelihoods will require careful management at all levels. This management includes taking the necessary steps to develop a global market and trade regime with transparent standards for biofuels.

The high demand for energy and the apparent enormous potential of biofuels are no guarantee that small farmers and poor people in developing countries will receive the benefits. Creating an industry that helps the neediest people improve their lives and livelihoods will require careful management at all levels. This management includes taking the necessary steps to develop a global market and trade regime with transparent standards for biofuels.

One of the arguments in favor of biofuels is their potential to serve as an environmentally sustainable source of energy. That added social benefit might even justify some level of subsidy and regulation, given that these external benefits are not internalized by the markets. But several environmental aspects of biofuels require attention.

First, biofuels must be produced in a way that results in an output of energy greater than the amount of energy used to produce them—that is, they should have a highly positive energy balance. Maize ethanol, of which the United States is currently the largest producer, has been controversial because until recently it had a negative energy balance. In 2002, however, the U.S. Department of Agriculture stated that maize ethanol had achieved an energy output-input ratio of 1.34:1, thanks to more efficient cultivation and processing practices. Brazil's large ethanol industry based on sugarcane is well established as a net energy producer.

Second, biofuel production must be managed in a way that substantially reduces greenhouse gases compared with petroleum. Maize ethanol produced in the United States may reduce emissions by 10 to 30 percent compared with petroleum, whereas ethanol produced from sugar or cellulose could reduce them by 90 percent or even more. Farmers can contribute to greenhouse gas reductions by adopting cultivation practices that use less petroleum-based fertilizer and fuel and that sequester more carbon in the soil. The greatest potential for reducing greenhouse gases lies in successfully converting cellulosic and lignocellulosic feedstocks—derived from, for instance, trees, grasses, crop residues, and municipal waste—into ethanol. These feedstocks are, however, more difficult to process than starch or sugar crops. A major R&D effort is needed to develop cellulosic ethanol, which could contribute to a much greater expansion in biofuels without adverse consequences.

There are other challenges as well. Like any innovation, increased production of energy crops has the potential to exacerbate socioeconomic inequalities by concentrating benefits on the well-off. It can lead to deforestation, a loss of biodiversity, and excessive use of fertilizers and pesticides, thereby degrading the land and water that poor people depend on. Policymakers must take care to ensure that biofuel production is managed and regulated in a way that avoids these pitfalls. These risks are speculative at present. With improved access to finance and sound policies for support of cooperation and for contract security, most innovations in agriculture can be scale neutral. Under the assumptions of an aggressive biofuel growth scenario—which is not, it must be noted, a prediction—significant price increases for some food crops could emerge in the long run (135 percent for cassava, 76 percent for oilseeds, and 41 percent for maize by 2020) unless new technologies are developed that increase efficiency and productivity in crop production and biofuel processing (see Box 2). Without technologies to improve productivity, the prices changes would adversely affect poor, net-food-purchasing households and would probably exceed the possible income gains by many small farm households.

In addition, in many low-income developing countries, farmers are unaware of the opportunities presented by biofuel production and thus risk missing out on the potential benefits. Public-private partnerships could help raise awareness of these opportunities among farmers in low-income countries.

To develop a biofuels sector that is sustainable and pro-poor, actors at the international, national, and local levels have crucial roles to play. International institutions must help transfer knowledge and technology on developing an efficient and sustainable biofuels industry to poor countries. The international community must also create a level playing field for trade in biofuels. By subsidizing their domestic agriculture and their biofuels industries, the OECD countries are raising the price of grains and feedstock in their own countries and are distorting the opportunities for biofuel production and trade in developing countries. At the national level, policymakers must take steps to create a well-functioning market for biofuels, to promote investment in associated areas like flexible-fuel vehicles and fueling stations, and to regulate land use in line with socioeconomic and environmental goals. They must also provide farmers who wish to grow energy crops with the same kinds of support needed for other forms of agriculture, such as research and extension services, credit, and infrastructure. Finally, local institutions must participate in designing and managing projects to develop biofuels so that poor people and small farmers can gain benefits as both biofuel producers and consumers.

In response to concerns about energy supplies and prices, a number of countries have set standards or targets for biofuels use. The European Union has set a goal of 5.75 percent of motor fuel use from biofuels by 2010. The United States has mandated the use of 28.4 billion liters of biofuels for transportation by 2012. Brazil will require that all diesel contain 2 percent biodiesel by 2008 and 5 percent by 2013, and Thailand will require 10 percent ethanol in all gasoline starting in 2007. India mandates a 5 percent ethanol blend in nine states, and China is requiring a 10 percent ethanol blend in five provinces. Many other countries are taking similar steps.

As countries move to strengthen their energy security by increasing their use of biofuels, they should also work to ensure poor people's and small farmers' participation in the creation of a more sustainable global energy system. With sound technology and trade policies, win-win solutions—that is, positive outcomes for the poor as well as for energy efficiency—are possible with biofuels in developing countries.

References:
Joachim von Braun and R.K. Pachauri: The Promises and Challenges of Biofuels for the Poor in Developing Countries - [PDF 1.8M], November 2006. [Joachim von Braun is director general of IFPRI, and R. K. Pachauri is director general of The Energy and Resources Institute (TERI) in New Delhi, India].

Peter Hazell, and R. K. Pachauri (eds.) 2006, Bioenergy and Agriculture: Promises and Challenges [*.pdf], IFPRI, 2020 Vision Focus 14.


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How Brazil convinced the EU on biofuels - Lula's speech

The landmark International Conference on Biofuels has acknowledged some of Biopact's main thoughts: that biofuels offer unique opportunities for development and poverty alleviation in the South given the developing world's comparative advantages, that the EU must partner with poor countries to ensure that production occurs in as sustainable and socially equitable a way as possible, and that an international market for biofuel trade must be created on the basis of clearly defined social and environmental sustainability criteria.


The atmosphere at the conference was in tune with President Lula's enthusiasm on promoting green fuels in the South. For Brazil, the EU's openness towards the developing world and to biofuel trade comes as a consecration of years of efforts to get the message across.

On July 5, President Lula addressed the Conference's 300 invited politicians, policy makers, scientists, business people and NGOs from Europe, the Americas, Africa and Asia. The day before, he signed the first-ever Strategic Partnership between the EU and Brazil, at a summit hosted by Portugal, which took over the rotating presidency of the EU from Germany - a partnership in which biofuels and bioenergy play a key role too. In his speech to the Biofuels Conference, the president announced that Rio de Janeiro will host a major biofuels conference next year, to make the vision of a global biofuels revolution more tangible. Rio was chosen, symbolically, as it is here that the concept of 'sustainable development' was crafted at the landmark Earth Summit in 1992.

Fresh on the heels of the EU-Brazil summit and the Conference, Lula and his Foreign Minister Celso Amorim went to the European Parliament. There they will hold talks with EP President Hans-Gert Pöttering and leaders of the main political groups. Prior to the visit the EP's press team had an exclusive interview with the President in which he reiterated his views on world trade talks, biofuels and poverty. A statement by Pöttering on the meeting with Lula can be found here.

Brazil's presence in Brussels has resulted in the first markers for a 'biopact' of sorts. Now the real work begins of analysing, strategizing and implementing concrete projects, trade rules, and policy frameworks in such a way that biofuels indeed contribute to, in Lula's word's, a more peaceful, inclusive, just and prosperous world for all [entry ends here].
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Canadian government unveils $1.5 billion biofuels plan

Canada's Prime Minister Stephen Harper announced a substantial investment to boost Canada’s production of biofuels. Under ecoENERGY for Biofuels, the government will provide up to $1.5 billion (€1.05/US$1.429bn) in the form of incentives (subsidies) over nine years to producers of renewable alternatives to gasoline and diesel fuel.

Last December, Canada’s New Government announced a new regulation requiring a five per cent average renewable content in gasoline by 2010. At that time, the government also signalled its intention to develop a similar requirement of two per cent renewable content for diesel and heating oil by 2012.
With the transportation sector accounting for more than a quarter of Canada’s greenhouse gas output, increasing the renewable content in our fuel is going to put a real dent in emissions. With leading-edge technology and abundant supplies of grains, oilseeds, and other feedstocks, Canada is uniquely positioned to become a global leader in the production of biofuels. - Stephen Harper, Canada's Prime Minister
Close to three billion litres of renewable fuels will be needed annually to meet the requirements of the new regulations. Canadian production in 2006 was only about 400 million litres, so the expansion will represent 'a tremendous economic opportunity' for the country’s 61,000 grain and oilseeds producers.

The 'ecoENERGY for Biofuels' program has four main pillars:

1. Increasing the retail availability of renewable fuels through regulation
Regulations under development by Environment Canada will require 5% renewable content based on the gasoline pool by 2010 and 2% renewable content in diesel and heating oil by 2012, upon successful demonstration of renewable diesel fuel use under the range of Canadian conditions. The announcement was made in December 2006 and Environment Canada issued a Notice of Intent in the Canada Gazette later that month.

These new regulations will require enough renewable fuel to reduce greenhouse gas (GHG) emissions by about 4 megatonnes per year, the GHG equivalent of taking almost one million vehicles from the road:
:: :: :: :: :: :: :: :: ::

2. Supporting the expansion of Canadian production of renewable fuels
On July 5, 2007, Prime Minister Stephen Harper announced the ecoENERGY for Biofuels Initiative, which will invest up to $1.5 billion over 9 years to boost Canada’s production of renewable fuels such as ethanol and biodiesel.

The initiative will provide operating incentives to producers of renewable alternatives to gasoline and diesel based on production levels and other factors. It will make investment in production facilities more attractive by partially offsetting the risk associated with fluctuating feedstock and fuel prices.

Budget 2007 also states that concurrent with the implementation of the operating incentive program to promote additional domestic production of renewable fuels, the current fuel excise tax exemptions for ethanol and biodiesel will be eliminated as of April 1, 2008.


3. Assisting farmers to seize new opportunities in this sector
On April 23, 2007, the Minister of Agriculture and Agri-Foods officially launched the ecoAGRICULTURE Biofuels Capital Initiative(ecoABC) a new $200 million initiative that will provide repayable contributions of up to $25 million per project to help farmers overcome the challenges of raising the capital necessary for the construction or expansion of biofuel production facilities.

In March 2007, the Minister of Agriculture and Agri-Foods announced a $10 million expansion to the Biofuels Opportunities for Producers Initiative, which helps agricultural producers develop sound business proposals, as well as undertake feasibility or other studies to expand biofuels production capacity.


4. Accelerating the commercialization of new technologies
Budget 2007 also makes $500 million, available over eight years to Sustainable Development Technology Canada (SDTC) to invest with the private sector in establishing large-scale facilities for the production of next-generation renewable fuels. Next-generation renewable fuels, produced from non-food feedstocks such as wheat straw, corn stover, wood residue and switchgrass, have the potential to generate even greater environmental benefits than traditional renewable fuels.

The measure complements research and development initiatives including the following:
Announcing the new funds,Prime Minister Harper concluded: "Good for the environment and good for farmers, our government’s investment in biofuels is a double win".

References:
Canadian Government: Government’s new biofuels plan a double win: Good for the environment and farmers - July 5, 2007

Canadian Government, Natural Resources: ecoENERGY for Biofuels.

Canadian Government: EcoAction: Biofuels.



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