An empirical estimate of the land footprint of nickel from laterite mining in Indonesia

•Direct land use/land cover change for laterite mining in Indonesia was measured from visual interpretation of Landsat imagery.•Mine classification involved a human analyst-based approach.•A land use footprint estimate was obtained by coupling with nickel ore production.•The resulting footprint is u...

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Bibliographic Details
Published in:The extractive industries and society 2024-03, Vol.17, p.101421, Article 101421
Main Authors: Heijlen, Wouter, Duhayon, Chris
Format: Article
Language:English
Subjects:
Indonesia
land footprint
land transformation factor
laterite mining
Nickel
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Summary:•Direct land use/land cover change for laterite mining in Indonesia was measured from visual interpretation of Landsat imagery.•Mine classification involved a human analyst-based approach.•A land use footprint estimate was obtained by coupling with nickel ore production.•The resulting footprint is up to 20 times larger than current estimates. Nickel is one of the main industrial metals and an essential element for the energy transition towards renewable sources. The metal is increasingly sourced from surficial laterite-type deposits, especially in Indonesia where large investments have been made in its mining and processing infrastructure. The direct land use and land cover (dLUC) change associated with this kind of mine development is not accurately known, although this parameter plays an important role as a master variable in modelling of various environmental effects such as impacts on biodiversity, water quality and greenhouse gas emissions. We have measured the growth of the total land occupied by the booming Indonesian nickel industry over the last two decades and have linked the obtained dLUC change to the country's declared ore production. Our methodology is based on simple visual interpretation of mine areas using Google Earth Pro, allowing for easy verification. The analysis indicates a land transformation factor of 0.7 ± 0.1 m2 per ton of nickel ore, which is up to 20 times larger than previous estimates. Our revision of this factor might be of importance in discussions about the socio-ecological impact of nickel mining in Indonesia and for management policies designed to mitigate its consequences.
ISSN:2214-790X
DOI:10.1016/j.exis.2024.101421