Zanetta‐Colombo, Nicolás C., Manzano, Carlos A., Brombierstäudl, Dagmar, Fleming, Zoë L., Gayo, Eugenia M., Rubinos, David A., Jerez, Óscar, Valdés, Jorge, Prieto, Manuel, and Nüsser, Marcus
The Atacama Desert's naturally elevated metal(loid)s pose a unique challenge for assessing the environmental impact of mining, particularly for indigenous communities residing in these areas. This study investigates how copper mining influences the dispersion of these elements in the wind‐transportable fraction (<75 μm) of surface sediments across an 80 km radius. We employed a multi‐pronged approach, utilizing spatial modeling to map element distributions, exponential decay analysis to quantify concentration decline with distance, regime shift modeling to identify dispersion pattern variations, and pollution assessment to evaluate impact. Our results reveal significant mining‐driven increases in surface concentrations of copper (Cu), molybdenum (Mo), and arsenic (As). Notably, within the first 20 km, concentrations peaked at 1,016 mg kg⁻1 for Cu, 31 mg kg⁻1 for Mo, and a remarkable 165 mg kg⁻1 for As. Cu and Mo displayed significant dispersion, extending up to 50 km from the source. However, As exhibited the most extensive reach, traveling up to 70 km downwind, highlighting the far‐reaching ecological footprint of mining operations. Mineralogical analyses corroborated these findings, identifying mining‐related minerals in surface sediments far beyond the immediate mining area. Although pollution indices based on the proposed Local Geochemical Background reveal significant contamination across the study area, establishing accurate pre‐industrial baseline values is essential for a more reliable assessment. This study challenges the concept of "natural pollution" by demonstrating that human activities exacerbate baseline metal(loid)s levels. Expanding monitoring protocols is imperative to comprehensively assess the combined effects of multiple emission sources, including mining and natural processes, in safeguarding environmental and human health for future generations. Plain Language Summary: The Atacama Desert, already notorious for its hyper‐arid conditions, faces an added challenge: high natural metal levels are amplified by mining emissions. This raises environmental justice concerns, especially for nearby communities, including indigenous populations. By analyzing sediment chemistry and applying spatial mapping, we tracked how mining disperses contaminated dust across a vast 80‐km radius. Our findings overturn the assumption that desert pollution stems solely from natural causes. Mining significantly boosts copper, molybdenum, and arsenic in surface sediment. The situation is most alarming within the first 20 km downwind, where arsenic, known for its toxicity, can reach over 11 times natural estimates. Furthermore, arsenic‐laced dust travels up to 70 km away, highlighting the far‐reaching environmental impact of mining. The presence of mining‐related minerals in the sediment confirms the spread of metal through dust dispersion. While our study reveals significant contamination, pinpointing the exact extent requires more precise data on natural metal levels. In conclusion, this research emphasizes how mining can worsen pollution in already metal‐rich environments, disproportionately impacting nearby communities. It underscores the importance of environmental justice. We recommend expanding environmental monitoring to encompass all pollution sources, both mining and natural processes, to safeguard humans and the environment for future generations. Key Points: Atacama mining disturbs natural metal patterns, elevating surface levels of copper, molybdenum, and arsenicMining dust spreads 70+ km in Atacama, posing health risks to nearby communitiesThe study refutes the notion that arsenic in Atacama is only due to natural processes [ABSTRACT FROM AUTHOR]