Downgrading recent estimates of land available for biofuel production

Steffen Fritz; Linda See; Marijn Van Der Velde; Rachel A. Nalepa; Christoph Perger; Christian Schill; Ian McCallum; Dmitry Schepaschenko; Florian Kraxner; Ximing Cai; Xiao Zhang; Simone Ortner; Rubul Hazarika; Anna Cipriani; Carlos Di Bella; Ahmed H. Rabia; Alfredo Garcia; Mar'Yana Vakolyuk; Kuleswar Singha; Maria E. Beget; Stefan Erasmi; Franziska Albrecht; Brian Shaw; Michael Obersteiner

doi:10.1021/es303141h

Downgrading recent estimates of land available for biofuel production

Steffen Fritz
, Linda See
, Marijn Van Der Velde
, Rachel A. Nalepa
, Christoph Perger
, Christian Schill
, Ian McCallum
, Dmitry Schepaschenko
, Florian Kraxner
, Ximing Cai
, Xiao Zhang
, Simone Ortner
, Rubul Hazarika
, Anna Cipriani
, Carlos Di Bella
, Ahmed H. Rabia
, Alfredo Garcia
, Mar'Yana Vakolyuk
, Kuleswar Singha
, Maria E. Beget

Stefan Erasmi, Franziska Albrecht, Brian Shaw, Michael Obersteiner

Research output: Contribution to journal › Article › peer-review

Abstract

Recent estimates of additional land available for bioenergy production range from 320 to 1411 million ha. These estimates were generated from four scenarios regarding the types of land suitable for bioenergy production using coarse-resolution inputs of soil productivity, slope, climate, and land cover. In this paper, these maps of land availability were assessed using high-resolution satellite imagery. Samples from these maps were selected and crowdsourcing of Google Earth images was used to determine the type of land cover and the degree of human impact. Based on this sample, a set of rules was formulated to downward adjust the original estimates for each of the four scenarios that were previously used to generate the maps of land availability for bioenergy production. The adjusted land availability estimates range from 56 to 1035 million ha depending upon the scenario and the ruleset used when the sample is corrected for bias. Large forest areas not intended for biofuel production purposes were present in all scenarios. However, these numbers should not be considered as definitive estimates but should be used to highlight the uncertainty in attempting to quantify land availability for biofuel production when using coarse-resolution inputs with implications for further policy development.

Original language	English (US)
Pages (from-to)	1688-1694
Number of pages	7
Journal	Environmental Science and Technology
Volume	47
Issue number	3
DOIs	https://doi.org/10.1021/es303141h
State	Published - Feb 5 2013

ASJC Scopus subject areas

General Chemistry
Environmental Chemistry

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10.1021/es303141h

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Fritz, S., See, L., Van Der Velde, M., Nalepa, R. A., Perger, C., Schill, C., McCallum, I., Schepaschenko, D., Kraxner, F., Cai, X., Zhang, X., Ortner, S., Hazarika, R., Cipriani, A., Di Bella, C., Rabia, A. H., Garcia, A., Vakolyuk, MY., Singha, K., ... Obersteiner, M. (2013). Downgrading recent estimates of land available for biofuel production. Environmental Science and Technology, 47(3), 1688-1694. https://doi.org/10.1021/es303141h

Fritz, S, See, L, Van Der Velde, M, Nalepa, RA, Perger, C, Schill, C, McCallum, I, Schepaschenko, D, Kraxner, F, Cai, X, Zhang, X, Ortner, S, Hazarika, R, Cipriani, A, Di Bella, C, Rabia, AH, Garcia, A, Vakolyuk, MY, Singha, K, Beget, ME, Erasmi, S, Albrecht, F, Shaw, B & Obersteiner, M 2013, 'Downgrading recent estimates of land available for biofuel production', Environmental Science and Technology, vol. 47, no. 3, pp. 1688-1694. https://doi.org/10.1021/es303141h

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title = "Downgrading recent estimates of land available for biofuel production",

abstract = "Recent estimates of additional land available for bioenergy production range from 320 to 1411 million ha. These estimates were generated from four scenarios regarding the types of land suitable for bioenergy production using coarse-resolution inputs of soil productivity, slope, climate, and land cover. In this paper, these maps of land availability were assessed using high-resolution satellite imagery. Samples from these maps were selected and crowdsourcing of Google Earth images was used to determine the type of land cover and the degree of human impact. Based on this sample, a set of rules was formulated to downward adjust the original estimates for each of the four scenarios that were previously used to generate the maps of land availability for bioenergy production. The adjusted land availability estimates range from 56 to 1035 million ha depending upon the scenario and the ruleset used when the sample is corrected for bias. Large forest areas not intended for biofuel production purposes were present in all scenarios. However, these numbers should not be considered as definitive estimates but should be used to highlight the uncertainty in attempting to quantify land availability for biofuel production when using coarse-resolution inputs with implications for further policy development.",

author = "Steffen Fritz and Linda See and \{Van Der Velde\}, Marijn and Nalepa, \{Rachel A.\} and Christoph Perger and Christian Schill and Ian McCallum and Dmitry Schepaschenko and Florian Kraxner and Ximing Cai and Xiao Zhang and Simone Ortner and Rubul Hazarika and Anna Cipriani and \{Di Bella\}, Carlos and Rabia, \{Ahmed H.\} and Alfredo Garcia and Mar'Yana Vakolyuk and Kuleswar Singha and Beget, \{Maria E.\} and Stefan Erasmi and Franziska Albrecht and Brian Shaw and Michael Obersteiner",

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AU - Schill, Christian

AU - McCallum, Ian

AU - Schepaschenko, Dmitry

AU - Kraxner, Florian

AU - Cai, Ximing

AU - Zhang, Xiao

AU - Ortner, Simone

AU - Hazarika, Rubul

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AU - Di Bella, Carlos

AU - Rabia, Ahmed H.

AU - Garcia, Alfredo

AU - Vakolyuk, Mar'Yana

AU - Singha, Kuleswar

AU - Beget, Maria E.

AU - Erasmi, Stefan

AU - Albrecht, Franziska

AU - Shaw, Brian

AU - Obersteiner, Michael

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AB - Recent estimates of additional land available for bioenergy production range from 320 to 1411 million ha. These estimates were generated from four scenarios regarding the types of land suitable for bioenergy production using coarse-resolution inputs of soil productivity, slope, climate, and land cover. In this paper, these maps of land availability were assessed using high-resolution satellite imagery. Samples from these maps were selected and crowdsourcing of Google Earth images was used to determine the type of land cover and the degree of human impact. Based on this sample, a set of rules was formulated to downward adjust the original estimates for each of the four scenarios that were previously used to generate the maps of land availability for bioenergy production. The adjusted land availability estimates range from 56 to 1035 million ha depending upon the scenario and the ruleset used when the sample is corrected for bias. Large forest areas not intended for biofuel production purposes were present in all scenarios. However, these numbers should not be considered as definitive estimates but should be used to highlight the uncertainty in attempting to quantify land availability for biofuel production when using coarse-resolution inputs with implications for further policy development.

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Downgrading recent estimates of land available for biofuel production

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