The effect of cassava-based bioethanol production on above-ground carbon stocks: a case study from Southern Mali

Laura Vang Rasmussen; Kjeld Rasmussen; Torben Birch-Thomsen; Søren Bech Pilgaard Kristensen; Oumar Traoré

doi:10.1016/j.enpol.2011.11.019

The effect of cassava-based bioethanol production on above-ground carbon stocks: a case study from Southern Mali

Laura Vang Rasmussen, Kjeld Rasmussen, Torben Birch-Thomsen, Søren Bech Pilgaard Kristensen, Oumar Traoré

Geology

9 Citations (Scopus)

Abstract

Increasing energy use and the need to mitigate climate change make production of liquid biofuels a high priority. Farmers respond worldwide to this increasing demand by converting forests and grassland into biofuel crops, but whether biofuels offer carbon savings depends on the carbon emissions that occur when land use is changed to biofuel crops. This paper reports the results of a study on cassava-based bioethanol production undertaken in the Sikasso region in Southern Mali. The paper outlines the estimated impacts on above-ground carbon stocks when land use is changed to increase cassava production. The results show that expansion of cassava production for bioethanol will most likely lead to the conversion of fallow areas to cassava. A land use change from fallow to cassava creates a reduction in the above-ground carbon stocks in the order of 4-13MgCha ^-1, depending on (a) the age of the fallow, (b) the allometric equation used and (c) whether all trees are removed or the larger, useful trees are preserved. This 'carbon debt' associated with the above-ground biomass loss would take 8-25 years to repay if fossil fuels are replaced with cassava-based bioethanol.

Original language	English
Journal	Energy Policy
Volume	41
Pages (from-to)	575-583
Number of pages	9
ISSN	0301-4215
DOIs	https://doi.org/10.1016/j.enpol.2011.11.019
Publication status	Published - Feb 2012

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10.1016/j.enpol.2011.11.019

Biofuel i Sahel - fordele og ulemper: Ved lektor Kjeld Rasmussen, post doc. Laura Vang Rasmussen og lektor Torben Birch-Thomsen
Torben Birch-Thomsen (Lecturer)
1 Apr 2014
Activity: Talk or presentation types › Lecture and oral contribution

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title = "The effect of cassava-based bioethanol production on above-ground carbon stocks: a case study from Southern Mali",

abstract = "Increasing energy use and the need to mitigate climate change make production of liquid biofuels a high priority. Farmers respond worldwide to this increasing demand by converting forests and grassland into biofuel crops, but whether biofuels offer carbon savings depends on the carbon emissions that occur when land use is changed to biofuel crops. This paper reports the results of a study on cassava-based bioethanol production undertaken in the Sikasso region in Southern Mali. The paper outlines the estimated impacts on above-ground carbon stocks when land use is changed to increase cassava production. The results show that expansion of cassava production for bioethanol will most likely lead to the conversion of fallow areas to cassava. A land use change from fallow to cassava creates a reduction in the above-ground carbon stocks in the order of 4-13MgCha -1, depending on (a) the age of the fallow, (b) the allometric equation used and (c) whether all trees are removed or the larger, useful trees are preserved. This 'carbon debt' associated with the above-ground biomass loss would take 8-25 years to repay if fossil fuels are replaced with cassava-based bioethanol.",

author = "Rasmussen, {Laura Vang} and Kjeld Rasmussen and Torben Birch-Thomsen and Kristensen, {S{\o}ren Bech Pilgaard} and Oumar Traor{\'e}",

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T2 - a case study from Southern Mali

AU - Rasmussen, Laura Vang

AU - Rasmussen, Kjeld

AU - Birch-Thomsen, Torben

AU - Kristensen, Søren Bech Pilgaard

AU - Traoré, Oumar

N1 - Modeling Transport (Energy) Demand and Policies

PY - 2012/2

Y1 - 2012/2

N2 - Increasing energy use and the need to mitigate climate change make production of liquid biofuels a high priority. Farmers respond worldwide to this increasing demand by converting forests and grassland into biofuel crops, but whether biofuels offer carbon savings depends on the carbon emissions that occur when land use is changed to biofuel crops. This paper reports the results of a study on cassava-based bioethanol production undertaken in the Sikasso region in Southern Mali. The paper outlines the estimated impacts on above-ground carbon stocks when land use is changed to increase cassava production. The results show that expansion of cassava production for bioethanol will most likely lead to the conversion of fallow areas to cassava. A land use change from fallow to cassava creates a reduction in the above-ground carbon stocks in the order of 4-13MgCha -1, depending on (a) the age of the fallow, (b) the allometric equation used and (c) whether all trees are removed or the larger, useful trees are preserved. This 'carbon debt' associated with the above-ground biomass loss would take 8-25 years to repay if fossil fuels are replaced with cassava-based bioethanol.

AB - Increasing energy use and the need to mitigate climate change make production of liquid biofuels a high priority. Farmers respond worldwide to this increasing demand by converting forests and grassland into biofuel crops, but whether biofuels offer carbon savings depends on the carbon emissions that occur when land use is changed to biofuel crops. This paper reports the results of a study on cassava-based bioethanol production undertaken in the Sikasso region in Southern Mali. The paper outlines the estimated impacts on above-ground carbon stocks when land use is changed to increase cassava production. The results show that expansion of cassava production for bioethanol will most likely lead to the conversion of fallow areas to cassava. A land use change from fallow to cassava creates a reduction in the above-ground carbon stocks in the order of 4-13MgCha -1, depending on (a) the age of the fallow, (b) the allometric equation used and (c) whether all trees are removed or the larger, useful trees are preserved. This 'carbon debt' associated with the above-ground biomass loss would take 8-25 years to repay if fossil fuels are replaced with cassava-based bioethanol.

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DO - 10.1016/j.enpol.2011.11.019

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EP - 583

JO - Energy Policy

JF - Energy Policy

ER -

The effect of cassava-based bioethanol production on above-ground carbon stocks: a case study from Southern Mali

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Biofuel i Sahel - fordele og ulemper: Ved lektor Kjeld Rasmussen, post doc. Laura Vang Rasmussen og lektor Torben Birch-Thomsen

Cite this