Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action

Uncontrolled mine site leakage poses massive indirect environmental pollution, particularly when harmful substances, like arsenic, infiltrate water bodies, affecting humans. Arsenic contamination, recognized as a severe environmental catastrophe, exemplifies the water quality footprint from a Morocc...

Full description

Saved in:

Bibliographic Details
Main Authors:	Anna C. Schomberg, Wolf von Tümpling, Ellen Kynast
Format:	Article
Language:	English
Published:	Elsevier 2025-06-01
Series:	Water Resources and Industry
Subjects:	Water quality footprint Virtual dilution Supply chain management Supply chain legislation Due diligence Arsenic contamination
Online Access:	http://www.sciencedirect.com/science/article/pii/S2212371725000010
Tags:	Add Tag No Tags, Be the first to tag this record!

_version_	1832591817122512896
author	Anna C. Schomberg Wolf von Tümpling Ellen Kynast
author_facet	Anna C. Schomberg Wolf von Tümpling Ellen Kynast
author_sort	Anna C. Schomberg
collection	DOAJ
description	Uncontrolled mine site leakage poses massive indirect environmental pollution, particularly when harmful substances, like arsenic, infiltrate water bodies, affecting humans. Arsenic contamination, recognized as a severe environmental catastrophe, exemplifies the water quality footprint from a Moroccan cobalt mine supplying electric car construction. Applying the water quality footprint method, we determined that 30–615 m3 of virtual dilution water per electric car would be needed to reduce arsenic pollution below natural background levels in a scenario that assumes that 49 % of the cobalt from the respective mine enters the production of battery materials aligning with recent global cobalt demand and use figures. In such a scenario, this single mine's water quality footprint would constitute up to 0.15 % of Morocco's annual water availability, concerning all electric cars produced annually with cobalt from this mine, and would take up half the annual capacity of one seawater desalination plant. While the databasis ouf our analysis is limited and uncertainties are high, our findings underscore the need to avoid problem shifting so that climate-friendly technologies can develop their potential, prompt reflection on due diligence in supply chains under German and upcoming European legislation and highlight the shared responsibility of industry, society and politics.
format	Article
id	doaj-art-0ac2268e93c44c129e77840e61a37a43
institution	Kabale University
issn	2212-3717
language	English
publishDate	2025-06-01
publisher	Elsevier
record_format	Article
series	Water Resources and Industry
spelling	doaj-art-0ac2268e93c44c129e77840e61a37a432025-01-22T05:41:49ZengElsevierWater Resources and Industry2212-37172025-06-0133100277Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands actionAnna C. Schomberg0Wolf von Tümpling1Ellen Kynast2Sustainable Technology Design, Kassel Institute for Sustainability, University of Kassel, Kassel, Germany; Corresponding author.Helmholtz Centre for Environmental Research (UFZ), Central Laboratory for Water Analytics and Chemometrics, GermanyCenter for Environmental Systems Research, Kassel Institute for Sustainability, University of Kassel, Kassel, GermanyUncontrolled mine site leakage poses massive indirect environmental pollution, particularly when harmful substances, like arsenic, infiltrate water bodies, affecting humans. Arsenic contamination, recognized as a severe environmental catastrophe, exemplifies the water quality footprint from a Moroccan cobalt mine supplying electric car construction. Applying the water quality footprint method, we determined that 30–615 m3 of virtual dilution water per electric car would be needed to reduce arsenic pollution below natural background levels in a scenario that assumes that 49 % of the cobalt from the respective mine enters the production of battery materials aligning with recent global cobalt demand and use figures. In such a scenario, this single mine's water quality footprint would constitute up to 0.15 % of Morocco's annual water availability, concerning all electric cars produced annually with cobalt from this mine, and would take up half the annual capacity of one seawater desalination plant. While the databasis ouf our analysis is limited and uncertainties are high, our findings underscore the need to avoid problem shifting so that climate-friendly technologies can develop their potential, prompt reflection on due diligence in supply chains under German and upcoming European legislation and highlight the shared responsibility of industry, society and politics.http://www.sciencedirect.com/science/article/pii/S2212371725000010Water quality footprintVirtual dilutionSupply chain managementSupply chain legislationDue diligenceArsenic contamination
spellingShingle	Anna C. Schomberg Wolf von Tümpling Ellen Kynast Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action Water Resources and Industry Water quality footprint Virtual dilution Supply chain management Supply chain legislation Due diligence Arsenic contamination
title	Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action
title_full	Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action
title_fullStr	Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action
title_full_unstemmed	Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action
title_short	Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action
title_sort	arsenic leakage crisis in supply chain of battery storage materials water quality footprint of cobalt mining demands action
topic	Water quality footprint Virtual dilution Supply chain management Supply chain legislation Due diligence Arsenic contamination
url	http://www.sciencedirect.com/science/article/pii/S2212371725000010
work_keys_str_mv	AT annacschomberg arsenicleakagecrisisinsupplychainofbatterystoragematerialswaterqualityfootprintofcobaltminingdemandsaction AT wolfvontumpling arsenicleakagecrisisinsupplychainofbatterystoragematerialswaterqualityfootprintofcobaltminingdemandsaction AT ellenkynast arsenicleakagecrisisinsupplychainofbatterystoragematerialswaterqualityfootprintofcobaltminingdemandsaction

Arsenic leakage crisis in supply chain of battery storage materials: Water quality footprint of cobalt mining demands action

Similar Items