The timing for the onset of plate tectonics is a key step in understanding the evolution of our planet. It is fundamental to resolving questions on the origin of life, the evolution and oxygenation of our atmosphere, past climates, mass extinctions, the thermal evolution of Earth, the interactions between the surficial and deep Earth, and the development of continents. The MILESTONE project brings new insights into when plate tectonics started and how continents formed and evolved through time.
Zircon lies at the core of Earth evolution studies, and yet our knowledge has remained restricted to the geochemical information that can be extracted from this mineral with current techniques. MILESTONE moves the debate to a different scale analytically, to the scale of tiny (i.e. <20 µm in size) mineral inclusions encapsulated within zircons. The integrated analysis of Sr and Pb isotopes of mineral inclusions, along with the trace elements, U-Pb, Hf and O isotopes analysis of their host zircons, for thousands of zircons of different ages and provenance, will provide new and different information to that available from the 'zircon only' record.
The overall objectives of MILESTONE are to:
i) Probe the inferred transition from intraplate- to subduction-related magmatism associated with the onset of plate tectonics;
ii) Date this transition and its duration precisely in different places;
iii) Develop a global model of continental crust evolution from the Hadean (i.e. >4 Ga) to the Present, in which the Earth has progressively, or more suddenly, become a habitable planet.