Updates in assessing soil organic carbon and their implications for evaluating land use change emissions

Lauren Benavidez-Brouk; Farzad Taheripour; Uris Baldos; Qianlai Zhuang; Shuo Chen

doi:10.1088/2515-7620/ae3d84

Updates in assessing soil organic carbon and their implications for evaluating land use change emissions

Lauren Benavidez-Brouk, Farzad Taheripour, Uris Baldos, Qianlai Zhuang Shuo Chen

Environmental Research Communications, Vol.8(2), p.25013

02/01/2026

: https://doi.org/10.1088/2515-7620/ae3d84

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104-ERC8 025013_pub1.21 MB

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https://doi.org/10.1088/2515-7620/ae3d84

Published (Version of record)

Environmental Sciences

Environmental Sciences & Ecology

Life Sciences & Biomedicine

land use change emissions

soil organic carbon

land cover and land use

biofuels

ASCENT

Alternative Energy Sources

Emissions from land use changes are relevant for environmental policy analysis. Since the late 1990s and early 2000s many of these analyses have examined induced land use changes (ILUC) from biofuel production and policy as well as their associated greenhouse gas (GHG) emissions. These studies have often used the Harmonized World Soil Data (HWSD) to evaluate the corresponding changes in soil organic carbon (SOC) as a part of their assessments. However, those modeling efforts that used this data set have not necessarily implemented its latest version, and therefore, their results may not represent the most recent available SOC data sources. As an example, the AEZ-EF model, which has been frequently used in assessing ILUC emissions, is using the oldest version of this data set. To improve the quality and accuracy of ILUC estimates, this paper creates a new global data set of SOC by combining the latest version of the HWSD (V.2.0) with newly available national soil maps for the USA and Australia. Using this new data set, we then calculate the average SOC for each land cover type (cropland, pasture, and forest) by country and by agro-ecological zones (AEZs). Furthermore, we revised AEZ-EF model to adopt the new SOC data by land types. Finally, the revised AEZ-EF model is used to assess ILUC emissions for a few biofuel pathways to demonstrate the extent to which the new SOC data may affect ILUC emissions. The results of this paper indicate that the newest version of the HWSD represents a lower level of SOC at the global scale compared to its older version. The results also show that the revised AEZ-EF model calculates relatively lower ILUC emissions for the examined pathways compared to its older version.

: Updates in assessing soil organic carbon and their implications for evaluating land use change emissions
: Lauren Benavidez-Brouk - Purdue Univ, Dept Agr Econ, W Lafayette, IN 47907 USA
Farzad Taheripour - Agricultural & Applied Economics Association
Uris Baldos - Purdue Univ, Dept Agr Econ, W Lafayette, IN 47907 USA
Qianlai Zhuang - Purdue University West Lafayette
Shuo Chen - Purdue Univ, Dept Earth Atmospher & Planetary Sci, W Lafayette, IN 47907 USA
: Environmental Research Communications, Vol.8(2), p.25013
: Aviation Sustainability Center (ASCENT); Alternative Jet Fuel
: IOP Publishing Ltd
: 13
: 13-C-AJFE-PU-058, Federal Aviation Administration (United States, Washington) - FAA
: 13-C-AJFE-PU-058 / FAA Center of Excellence for Alternative Jet Fuels and the Environment, project 104B through FAA US Federal Aviation Administration Office of Environment and Energy through ASCENT
: 99901364589601842
: English
: Journal article