$DOLO
Beneath Greenland's vast ice sheet lies one of Earth's $XVG
most ancient geological treasures: a bedrock archive stretching back more than 3.8 billion years, rich in critical and strategic minerals that are increasingly vital to modern technology and the global energy transition.$XVG
This immense island, part of the ancient North Atlantic Craton, preserves some of the planet's oldest continental crust, shaped by billions of years of tectonic processes, volcanic activity, and rifting. Embedded within these rocks are significant concentrations of rare earth elements (REEs) such as neodymium and dysprosium—key components in permanent magnets for electric vehicle motors, wind turbine generators, and consumer electronics like smartphones.
Beyond REEs, Greenland hosts a diverse array of valuable deposits, including:
- Gold, platinum-group metals, and zinc
- Iron ore in ancient banded iron formations
- Lithium, tantalum, and niobium in pegmatites
- Diamonds in kimberlite pipes
- Uranium (though mining has faced restrictions due to environmental and regulatory concerns)
Southern Greenland stands out particularly, with the Gardar Province featuring unique alkaline intrusions and carbonatite complexes that naturally enrich these elements. Sites like Kvanefjeld (Kuannersuit) and Tanbreez are among the world's largest known REE deposits, while carbonatites such as Sarfartôq and others contribute to the island's potential for high-grade concentrations of critical minerals.
These resources are not merely prospective; extensive geological mapping by organizations like the Geological Survey of Denmark and Greenland (GEUS) has identified and quantified many of them, with some projects advancing toward exploitation. Greenland contains 25 of the EU's 34 designated critical raw materials, positioning it as a potential non-Chinese source amid rising global demand for low-carbon technologies.