Meeting The Mandate For Biofuels Implications For Land Use Food And Fuel Prices

Meeting the Mandate for Biofuels

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Page : 58 pages

File Size : 14,24 MB

Release : 2011

Category : Biomass energy

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Biofuel production is being promoted through various policies such as mandates and tax credits. This paper uses a dynamic, spatial, multi-market equilibrium model, Biofuel and Environmental Policy Analysis Model (BEPAM), to estimate the effects of these policies on cropland allocation, food and fuel prices, and the mix of biofuels from corn and cellulosic feedstocks over the 2007-2022 period. We find that the biofuel mandate will increase corn price by 24%, reduce the price of gasoline by 8% in 2022, and increase social welfare by $122 B (0.7%) relative to Business As Usual scenario. The provision of volumetric tax credits that accompany the mandate significantly changes the mix of biofuels produced in favor of cellulosic biofuels and reduces the share of corn ethanol in the cumulative volume of biofuels produced from 50% to 10%. The tax credits reduce the adverse impact of the mandate alone on crop prices and decrease the price of biofuels. However, they impose a welfare cost of $79 B compared to the mandate alone. These results are found to be sensitive to the rate of growth of crop productivity, the costs of production of bioenergy crops, and the availability of marginal land for producing bioenergy crops.



Meeting the mandate for biofuels : implications for land use, food and fuel prices

Author : Xiaoguang Chen

Publisher :

Page : 58 pages

File Size : 30,5 MB

Release : 2011

Category : Economics

ISBN :

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Abstract: Biofuel production is being promoted through various policies such as mandates and tax credits. This paper uses a dynamic, spatial, multi-market equilibrium model, Biofuel and Environmental Policy Analysis Model (BEPAM), to estimate the effects of these policies on cropland allocation, food and fuel prices, and the mix of biofuels from corn and cellulosic feedstocks over the 2007-2022 period. We find that the biofuel mandate will increase corn price by 24%, reduce the price of gasoline by 8% in 2022, and increase social welfare by $122 B (0.7%) relative to Business As Usual scenario. The provision of volumetric tax credits that accompany the mandate significantly changes the mix of biofuels produced in favor of cellulosic biofuels and reduces the share of corn ethanol in the cumulative volume of biofuels produced from 50% to 10%. The tax credits reduce the adverse impact of the mandate alone on crop prices and decrease the price of biofuels. However, they impose a welfare cost of $79 B compared to the mandate alone. These results are found to be sensitive to the rate of growth of crop productivity, the costs of production of bioenergy crops, and the availability of marginal land for producing bioenergy crops





A Dynamic Analysis of U.S. Biofuels Policy Impact on Land Use, Greenhouse Gas Emissions and Social Welfare

Author : Xiaoguang Chen

Publisher :

Page : pages

File Size : 10,11 MB

Release : 2010

Category :

ISBN :

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Biofuels have been promoted to achieve energy security and as a solution to reducing greenhouse gas (GHG) emissions from the transportation sector. This dissertation presents a framework to examine the extent to which biofuel policies reduce gasoline consumption and GHG emissions and their implications for land allocation among food and fuel crops, food and fuel prices and social welfare. It first develops a stylized model of the food and fuel sectors linked by a limited land availability to produce food and fuel crops. It then analyzes the mechanisms through which biofuel mandates and subsidies affect consumer choices and differ from a carbon tax policy. A dynamic, multi-market equilibrium model, Biofuel and Environmental Policy Analysis Model (BEPAM), is developed to estimate the welfare costs of these policies and to explore the mix of biofuels from corn and various cellulosic feedstocks that are economically viable over the 2007-2022 period under alternative policies. It distinguishes biofuels produced from corn and several cellulosic feedstocks including crop residues (corn stover and wheat straw) and bioenergy crops (miscanthus and switchgrass). A crop productivity model MISCANMOD is used to simulate the yields of miscanthus and switchgrass. The biofuel policies considered here include the biofuel mandate under the Renewable Fuel Standard (RFS), various biofuel subsidies and import tariffs. The effects of these policies are compared to those of a carbon tax policy that is directly targeted to reduce GHG emissions. The stylized model shows that a carbon tax can reduce gasoline consumption and lower GHG emissions, and is likely to increase biofuel consumption with a higher elasticity of substitution between gasoline and biofuels and an elastic supply of gasoline. A biofuel mandate would reduce gasoline consumption, but the effects on GHG emissions depend on parameters in the fuel sector, such as the demand elasticity of miles, the elasticity of substitution between gasoline and biofuels and the supply elasticity of gasoline. A biofuel mandate accompanied with subsidies would create incentives to increase the consumption of the blended fuel by lowering its price. Gasoline consumption and GHG emissions would increase under the mandate and subsidy relative to a mandate alone. The numerical simulation is used to analyze the impacts of biofuel mandate and subsidies relative to a carbon tax. We find a biofuel mandate alone leads to a welfare gain of 0.1% while reducing GHG emissions by 1% relative to a carbon tax of $30 per ton of CO2e (Carbon dioxide equivalent). However, it would increase corn and soybean prices in 2022 by 19% and 20% relative to the carbon tax. The provision of biofuel subsidies that accompany the mandate under the RFS significantly changes the mix of bofuels in favor of cellulosic biofuels produced from high yielding perennial grasses and reduces the adverse impact of RFS alone on food prices. Biofuel mandates and subsidies also reduce GHG emissions by 3% relative to the carbon tax but at a welfare cost of $106 B relative to the tax. To meet the cellulosic biofuel mandates, a mix of feedstocks (corn stover, wheat straw, switchgrass and miscanthus) is used, where the mix differs over time, with biofuels from miscanthus meeting about 90% of the cellulosic ethanol produced between 2007- 2022. Corn stover comes primarily from the plain states while wheat straw is collected mainly in the central and northern plains and western mountain states. Production of miscanthus is more concentrated in the Great Plains and in the Midwest and along lower reaches of the Mississippi river. Switchgrass, though not as competitive as miscanthus in terms of yields and costs of production in most parts of the country, is still produced in a significant amount in northern and central Texas and Wisconsin where miscanthus yields are relatively low. We then analyze the implications of imposing import tariffs on biofuels for social welfare and GHG emissions in an open economy considering trade in biofuels. When biofuel mandates and subsidies are in place, the imposition of import tariffs would significantly reduce the imports of sugarcane ethanol by 28% relative to biofuel mandates and subsidies. It also results in a higher GHG intensity of the blended fuel and marginally increases GHG emissions but raises social welfare by 0.01% relative to biofuel mandates and subsidies.



Handbook of Bioenergy Economics and Policy: Volume II

Author : Madhu Khanna

Publisher : Springer

Page : 442 pages

File Size : 10,87 MB

Release : 2017-05-22

Category : Business & Economics

ISBN : 1493969064

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Book Description

In its second volume, this book aims to link the academic research with development in the real world and provide a historical and institutional background that can enrich more formal research. The first section will include an assessment of the evolution and the state of the nascent second-generation biofuel as well as a perspective on the evolution of corn ethanol and sugarcane ethanol in Brazil. It will also include a historical and institutional background on the biofuel industry in Brazil that has global lessons, and later, provide a technical overview of major analytical tools used to assess the economic, land use and greenhouse gas implications of biofuel policies at a regional and global level. Additionally, the book analyzes the various drivers for land use change both at a micro-economic level and at a macro-economic level. It presents studies that apply regional and global economic models to examine the effects of biofuel policies in the US, EU and Brazil on regional and global land use, on food and fuel prices and greenhouse gas emissions. These papers illustrate the use of partial and general equilibrium modeling approaches to simulate the effects of various biofuel policies, and includes studies showing the effects of risk aversion, time preferences and liquidity constraints on farmers decision to grow energy crops for biofuel production. By presenting the tools of lifecycle analysis for assessing the direct greenhouse gas intensity of biofuels, this handbook investigates the types of indirect or market mediated effects that can offset or strengthen these direct effects. It will include tools to assess the direct and indirect effects of biofuel production on greenhouse gas emissions in the US and Brazil, and ultimately provide a comprehensive background to understand the state of biofuel in the present and how to analyze their implication.



Handbook of Bioenergy Economics and Policy

Author : Madhu Khanna

Publisher : Springer Science & Business Media

Page : 435 pages

File Size : 13,68 MB

Release : 2009-12-02

Category : Business & Economics

ISBN : 1441903690

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Book Description

Concerns about energy security, uncertainty about oil prices, declining oil reserves, and global climate change are fueling a shift towards bioenergy as a renewable alternative to fossil fuels. Public policies and private investments around the globe are aiming to increase local capacity to produce biofuels. A key constraint to the expansion of biofuel production is the limited amount of land available to meet the needs for fuel, feed, and food in the coming decades. Large-scale biofuel production raises concerns about food versus fuel tradeoffs, about demands for natural resources such as water, and about potential impacts on environmental quality. The book is organized into five parts. The introductory part provides a context for the emerging economic and policy challenges related to bioenergy and the motivations for biofuels as an energy source. The second part of the handbook includes chapters that examine the implications of expanded production of first generation biofuels for the allocation of land between food and fuel and for food/feed prices and trade in biofuels as well as the potential for technology improvements to mitigate the food vs. fuel competition for land. Chapters in the third part examine the infrastructural and logistical challenges posed by large scale biofuel production and the factors that will influence the location of biorefineries and the mix of feedstocks they use. The fourth part includes chapters that examine the environmental implications of biofuels, their implications for the design of policies and the unintended environmental consequences of existing biofuel policies. The final part presents economic analysis of the market, social welfare, and distributional effects of biofuel policies.



Land Use and Greenhouse Gas Implications of Biofuels

Author : Xiaoguang Chen

Publisher :

Page : 0 pages

File Size : 29,82 MB

Release : 2015

Category :

ISBN :

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Book Description

This paper examines the changes in land use in the U.S. likely to be induced by biofuel and climate policies and the implications of these policies for GHG emissions over the 2007-2022 period. The policies considered here include a modified Renewable Fuel Standard (RFS) by itself as well as combined with a cellulosic biofuel tax credit or a carbon price policy. We use a dynamic, spatial, multi-market equilibrium model, Biofuel and Environmental Policy Analysis Model (BEPAM), to endogenously determine the effects of these policies on cropland allocation, food and fuel prices, and the mix of first- and second-generation biofuels. We find that the RFS could be met by diverting 6% of cropland for biofuel production and would result in corn prices increasing by 16% in 2002 relative to the business-as-usual baseline. The reduction in GHG emissions in the U.S. due to the RFS is about 2%; these domestic GHG savings can be severely eroded by emissions due to indirect land use changes and the increase in gasoline consumption in the rest of the world. Supplementing the RFS with a carbon price policy or a cellulosic biofuel tax credit induces a switch away from corn ethanol to cellulosic biofuels and achieves the mandated level of biofuel production with a smaller adverse impact on crop prices. These supplementary policies enhance the GHG savings achieved by the RFS alone, although through different mechanisms; greater production of cellulosic biofuels with the tax credit but larger reduction in fossil fuel consumption with a carbon tax.



The State of Food and Agriculture 2008

Author : Food and Agriculture Organization of the United Nations

Publisher : Food & Agriculture Org.

Page : 144 pages

File Size : 23,2 MB

Release : 2008

Category : Business & Economics

ISBN : 9789251059807

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Book Description

The State of Food and Agriculture 2008 explores the implications of the rapid recent growth in production of biofuels based on agricultural commodities -- Back cover.



The Impacts of Biofuels on the Economy, Environment, and Poverty

Author : Govinda R. Timilsina

Publisher : Springer

Page : 159 pages

File Size : 28,71 MB

Release : 2014-05-20

Category : Business & Economics

ISBN : 149390518X

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Book Description

Interest in biofuels began with oil shocks in the 1970’s, but the more rapid development and consumption of biofuel industry in recent years has been primarily driven by mandates, subsidies, climate change concerns, emissions targets and energy security. From 2004 to 2006, fuel ethanol grew by 26% and biodiesel grew by 172%. As biofuel production continues to expand, investments in capacity expansion and research and development have been made. The 2008 food crisis emphasized the need to re-examine biofuel consequences. Biofuels remain an important renewable energy resource to substitute for fossil fuels, particularly in the transportation sector, yet biofuels’ success is still uncertain. The future of biofuels in the energy supply mix relies on mitigating potential and improving the environmental gains. This book brings together leading authorities on biofuel from the World Bank to examine all of the impacts of biofuel (economic, social, environmental) within a unified framework and in a global perspective, making it of interest to academics in agricultural and environmental economics as well as industry and policy-makers.



The Impact of Biofuel Mandates on Land Use

Author : Suhail Ahmad (S.M.)

Publisher :

Page : 65 pages

File Size : 46,61 MB

Release : 2011

Category :

ISBN :

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Book Description

The use of biofuels in domestic transportation sector in the United States and European Union is attributed mainly to the binding mandates, Renewable Fuel Standard in the US and European Directive on the Promotion of Renewable Energy in the EU. The mandates have triggered production of first generation technologies that have been around for centuries and use food crops like corn or sugarcane as inputs and the second generation technologies that are still being developed but rely on cellulose or waste material. This raises important questions, what are the implications of policy mandates and biofuel production on land use change, global food crop prices and fuel blend technology as the binding mandates will rely mainly on first generation fuel technologies for the foreseeable future. Most analysis of policy mandates and biofuel production technologies leave out the land use change impact assessment. To investigate the questions I focus on how the mandates in the US and EU interact with land use. I use a computable general equilibrium framework, the MIT Emissions Prediction and Policy Analysis (EPPA) model, which captures full economy-wide impacts of policy mandates and land use. I have developed a mechanism to integrate the first and second generation technologies, the transportation sector, and land use for policy impact analysis. I simulated the policy mandates through a permit trading system which is constrained by the blend wall technology of the underlying vehicle transportation fleet. I find that the global biofuel crop land requirement over 2005 to 2030 time frame is 44 percent higher with the mandates. The land requirement is met primarily by the reallocation of non-biofuel crop land and partially by pasture, natural grass and harvested forest lands. The long term food crop prices increase by less than 1% per year with mandates as land productivity improvements dampen the impact of biofuel production on prices. In the case of global biofuel free-trade Brazil becomes the largest producer which reduces the deforestation in Brazil by 7 percent. I also find that fuel blend-wall acts as an implicit constraint on the domestic biofuel use as it limits the total vehicle fuel consumption.