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Biofuels and Climate Change Mitigation : A CGE Analysis Incorporating Land-use Change (2011)

Timilsina, Govinda R. ; Mevel, Simon ; Timilsina, Govinda R.

Washington, D.C., : The World Bank,

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UID:

almafu_9958246476402883

Format: 1 online resource (29 pages)

Series Statement: Policy research working papers.

Content: The question of whether biofuels help mitigate climate change has attracted much debate in the literature. Using a global computable general equilibrium model that explicitly represents land-use change impacts due to the expansion of biofuels, this study attempts to shed some light on this question. The study shows that if biofuel mandates and targets currently announced by more than 40 countries around the world are implemented by 2020 using crop feedstocks, and if both forests and pasture lands are used to meet the new land demands for biofuel expansion, this would cause a net increase of greenhouse gas emissions released to the atmosphere until 2043, since the cumulative greenhouse gas emissions released through land-use change would exceed the reduction of emissions due to replacement of gasoline and diesel until then. However, if the use of forest lands is avoided by channeling only pasture lands to meet the demand for new lands, a net increase of cumulative greenhouse gas emissions would occur but would cease by 2021, only a year after the assumed full implementation of the mandates and targets. The study also shows, contrary to common perceptions, that the rate of deforestation does not increase with the rate of biofuel expansion; instead, the marginal rate of deforestation and corresponding land-use emissions decrease even if the production of biofuels increases.

Language: English

DOI: 10.1596/1813-9450-5672

URL: Volltext (Deutschlandweit zugänglich)

URL: Volltext (kostenfrei)

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2

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The impacts of biofuel targets on land-use change and food supply : A global CGE assessment (2010)

Timilsina, Govinda R. ; Beghin, John C. ; Mevel, Simon ; [et al.]

Washington, D.C., : The World Bank,

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UID:

almafu_9958246190902883

Format: 1 online resource (71 pages)

Series Statement: Policy research working papers.

Content: This study analyzes the long-term impacts of large-scale expansion of biofuels on land-use change, food supply and prices, and the overall economy in various countries or regions using a global computable general equilibrium model, augmented by a land-use module and detailed representation of biofuel sectors. The study finds that an expansion of global biofuel production to meet currently articulated or even higher national targets in various countries for biofuel use would reduce gross domestic product at the global level; however, the gross domestic product impacts are mixed across countries or regions. The expansion of biofuels would cause significant land re-allocation with notable decreases in forest and pasture lands in a few countries. The results also suggest that the expansion of biofuels would cause a reduction in food supply. Although the magnitude of the impact on food supply at the global level is not as large as perceived earlier, it would be significant in developing countries like India and those in Sub-Saharan Africa. Agricultural commodities such as sugar, corn, and oil seeds, which serve as the main biofuel feedstocks, would experience significant increases in their prices in 2020 compared with the prices at baseline due to the expansion of biofuels to meet the existing targets.

Language: English

DOI: 10.1596/1813-9450-5513

URL: Volltext (Deutschlandweit zugänglich)

URL: Volltext (kostenfrei)

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3

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World Oil Price and Biofuels : A General Equilibrium Analysis (2011)

Timilsina, Govinda R. ; Mevel, Simon ; Shrestha, Ashish ; [et al.]

Washington, D.C., : The World Bank,

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UID:

almafu_9958246476302883

Format: 1 online resource (29 pages)

Series Statement: Policy research working papers.

Content: The price of oil could play a significant role in influencing the expansion of biofuels. However, this issue has not been fully investigated yet in the literature. Using a global computable general equilibrium model, this study analyzes the impact of oil price on biofuel expansion, and subsequently, on food supply. The study shows that a 65 percent increase in oil price in 2020 from the 2009 level would increase the global biofuel penetration to 5.4 percent in 2020 from 2.4 percent in 2009. A doubling of oil price in 2020 from its baseline level, or a 230 percent increase from the 2009 level, would increase the global biofuel penetration in 2020 to 12.6 percent. The penetration of biofuels is highly sensitive to the substitution possibility between biofuels and their fossil fuel counterparts. The study also shows that aggregate agricultural output drops due to an oil price increase, but the drop is small in major biofuel producing countries as the expansion of biofuels would partially offset the negative impacts of the oil price increase on agricultural outputs. An increase in oil price would reduce global food supply through direct impacts as well as through diversion of food commodities and cropland toward the production of biofuels.

Language: English

DOI: 10.1596/1813-9450-5673

URL: Volltext (Deutschlandweit zugänglich)

URL: Volltext (kostenfrei)

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4

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Under What Conditions Does a Carbon Tax on Fossil Fuels Stimulate Biofuels? (2011)

Timilsina, Govinda R. [Verfasser] ; Timilsina, Govinda R. ; Mevel, Simon ; [et al.]

Washington, D.C : The World Bank

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UID:

b3kat_BV048265116

Format: 1 Online-Ressource (41 p)

Content: A carbon tax is an efficient economic instrument to reduce emissions of carbon dioxide released from fossil fuel burning. Its impacts on production of renewable energy depend on how it is designed-particularly in the context of the penetration of biofuels into the energy supply mix for road transportation. Using a multi-sector, multi-country computable general equilibrium model, this study shows first that a carbon tax with the entire tax revenue recycled to households through a lump-sum transfer does not stimulate biofuel production significantly, even at relatively high tax rates. This reflects the high cost of carbon dioxide abatement through biofuels substitution, relative to other energy substitution alternatives; in addition, the carbon tax will have negative economy-wide consequences that reduce total demand for all fuels. A combined carbon tax and biofuel subsidy policy, where part of the carbon tax revenue is used to finance a biofuel subsidy, would significantly stimulate market penetration of biofuels. Although the carbon tax and biofuel subsidy policy would cause higher loss in global economic output compared with the carbon tax with lump sum revenue redistribution, the incremental output loss is relatively small

Additional Edition: Timilsina, Govinda R Under What Conditions Does a Carbon Tax on Fossil Fuels Stimulate Biofuels?

Language: English

DOI: 10.1596/1813-9450-5678

URL: Volltext (kostenfrei)

URL: Volltext (Deutschlandweit zugänglich)

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5

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Under What Conditions Does a Carbon Tax on Fossil Fuels Stimulate Biofuels? / (2011)

Timilsina, Govinda R. ; Csordas, Stefan ; Mevel, Simon ; [et al.]

Washington, D.C., : The World Bank,

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UID:

almafu_9958246475802883

Format: 1 online resource (41 pages)

Series Statement: Policy research working papers.

Content: A carbon tax is an efficient economic instrument to reduce emissions of carbon dioxide released from fossil fuel burning. Its impacts on production of renewable energy depend on how it is designed-particularly in the context of the penetration of biofuels into the energy supply mix for road transportation. Using a multi-sector, multi-country computable general equilibrium model, this study shows first that a carbon tax with the entire tax revenue recycled to households through a lump-sum transfer does not stimulate biofuel production significantly, even at relatively high tax rates. This reflects the high cost of carbon dioxide abatement through biofuels substitution, relative to other energy substitution alternatives; in addition, the carbon tax will have negative economy-wide consequences that reduce total demand for all fuels. A combined carbon tax and biofuel subsidy policy, where part of the carbon tax revenue is used to finance a biofuel subsidy, would significantly stimulate market penetration of biofuels. Although the carbon tax and biofuel subsidy policy would cause higher loss in global economic output compared with the carbon tax with lump sum revenue redistribution, the incremental output loss is relatively small.

Language: English

DOI: 10.1596/1813-9450-5678

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FU Berlin

Charité

6

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Balancing Productivity and Trade Objectives in a Competing Environment : Should India Commercialize GM Rice with or without China? (2009)

Gruere, Guillaume P. ; Mevel, Simon ; Bouet, Antoine

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UID:

gbv_101785887X

Format: Online-Ressource

Content: India is considering approving genetically modified (GM) rice, but it fears losing rice exports to sensitive countries with import regulations on GM food, and may wait for China to lead the way. Using a multiregion, computable general equilibrium (CGE) model, we simulate the economic effects of introducing GM rice in India with or without China in the presence of labeling and import approval regulations of GM food in GM sensitive importing countries. We find that the welfare gains with GM rice in India would largely exceed any potential export loss, and that the segregation of non-GM rice could help reduce these minor losses. We also find no significant first mover advantage for India or China on GM rice. The opportunity cost of segregation of non-GM rice is much larger for sensitive importers than for India, which suggests that these importers would have the incentive to pay for the cost of segregation.

Language: English

URL: Volltext (kostenfrei)

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Stabi Berlin

7

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World Oil Price and Biofuels : A General Equilibrium Analysis (2011)

Timilsina, Govinda R. ; Mevel, Simon ; Shrestha, Ashish ; [et al.]

Washington, D.C., : The World Bank,

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Details

UID:

edocfu_9958246476302883

Format: 1 online resource (29 pages)

Series Statement: Policy research working papers.

Content: The price of oil could play a significant role in influencing the expansion of biofuels. However, this issue has not been fully investigated yet in the literature. Using a global computable general equilibrium model, this study analyzes the impact of oil price on biofuel expansion, and subsequently, on food supply. The study shows that a 65 percent increase in oil price in 2020 from the 2009 level would increase the global biofuel penetration to 5.4 percent in 2020 from 2.4 percent in 2009. A doubling of oil price in 2020 from its baseline level, or a 230 percent increase from the 2009 level, would increase the global biofuel penetration in 2020 to 12.6 percent. The penetration of biofuels is highly sensitive to the substitution possibility between biofuels and their fossil fuel counterparts. The study also shows that aggregate agricultural output drops due to an oil price increase, but the drop is small in major biofuel producing countries as the expansion of biofuels would partially offset the negative impacts of the oil price increase on agricultural outputs. An increase in oil price would reduce global food supply through direct impacts as well as through diversion of food commodities and cropland toward the production of biofuels.

Language: English

DOI: 10.1596/1813-9450-5673

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FU Berlin

8

Online Resource

World Oil Price and Biofuels : A General Equilibrium Analysis (2011)

Timilsina, Govinda R. ; Mevel, Simon ; Shrestha, Ashish ; [et al.]

Washington, D.C., : The World Bank,

add to watchlist on the watchlist

Details

UID:

edoccha_9958246476302883

Format: 1 online resource (29 pages)

Series Statement: Policy research working papers.

Content: The price of oil could play a significant role in influencing the expansion of biofuels. However, this issue has not been fully investigated yet in the literature. Using a global computable general equilibrium model, this study analyzes the impact of oil price on biofuel expansion, and subsequently, on food supply. The study shows that a 65 percent increase in oil price in 2020 from the 2009 level would increase the global biofuel penetration to 5.4 percent in 2020 from 2.4 percent in 2009. A doubling of oil price in 2020 from its baseline level, or a 230 percent increase from the 2009 level, would increase the global biofuel penetration in 2020 to 12.6 percent. The penetration of biofuels is highly sensitive to the substitution possibility between biofuels and their fossil fuel counterparts. The study also shows that aggregate agricultural output drops due to an oil price increase, but the drop is small in major biofuel producing countries as the expansion of biofuels would partially offset the negative impacts of the oil price increase on agricultural outputs. An increase in oil price would reduce global food supply through direct impacts as well as through diversion of food commodities and cropland toward the production of biofuels.

Language: English

DOI: 10.1596/1813-9450-5673

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Charité

9

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EU-Afrika-Handelsbeziehungen am Scheideweg : Afrikas Einheit stärken (2020)

Luke, David [VerfasserIn] ; Mevel, Simon [VerfasserIn] ; Desta, Melaku Geboye [VerfasserIn]

Bonn : Stiftung für Entwicklung und Frieden (sef:)

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UID:

gbv_173888760X

Format: 1 Online-Ressource (circa 4 Seiten) , Illustrationen

Series Statement: Global governance spotlight 2020, 03

Content: In Global Governance Spotlight 3|2020 rufen David Luke, Simon Mevel und Melaku Geboye Desta zu einer neuen Ausrichtung der Handelspolitik zwischen der EU und Afrika auf. Die gegenwärtig hochgradig asymmetrischen Handelsverflechtungen seien unhaltbar und schädlich für den innerafrikanischen Handel. Ziel des Handels mit der EU sollte eine Stärkung der wirtschaftlichen Integration Afrikas sein. Um das zu erreichen, müsse die EU der Verwirklichung der Panafrikanischen Freihandelszone Vorrang einräumen und den Abschluss weiterer bilateraler Freihandelsabkommen mit einzelnen afrikanischen Staaten und Regionen zurückstellen.

Language: German

Keywords: Graue Literatur

URL: kostenfrei

Author information: Desta, Melaku Geboye

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Informationszentrum DGAP

10

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Biofuels and Climate Change Mitigation : A CGE Analysis Incorporating Land-use Change (2011)

Timilsina, Govinda R. ; Mevel, Simon ; Timilsina, Govinda R.

Washington, D.C., : The World Bank,

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Details

UID:

edoccha_9958246476402883

Format: 1 online resource (29 pages)

Series Statement: Policy research working papers.

Content: The question of whether biofuels help mitigate climate change has attracted much debate in the literature. Using a global computable general equilibrium model that explicitly represents land-use change impacts due to the expansion of biofuels, this study attempts to shed some light on this question. The study shows that if biofuel mandates and targets currently announced by more than 40 countries around the world are implemented by 2020 using crop feedstocks, and if both forests and pasture lands are used to meet the new land demands for biofuel expansion, this would cause a net increase of greenhouse gas emissions released to the atmosphere until 2043, since the cumulative greenhouse gas emissions released through land-use change would exceed the reduction of emissions due to replacement of gasoline and diesel until then. However, if the use of forest lands is avoided by channeling only pasture lands to meet the demand for new lands, a net increase of cumulative greenhouse gas emissions would occur but would cease by 2021, only a year after the assumed full implementation of the mandates and targets. The study also shows, contrary to common perceptions, that the rate of deforestation does not increase with the rate of biofuel expansion; instead, the marginal rate of deforestation and corresponding land-use emissions decrease even if the production of biofuels increases.

Language: English

DOI: 10.1596/1813-9450-5672

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Charité

Kooperativer Bibliotheksverbund

Berlin Brandenburg