Diamonds as the key to unravel the origin of Earth's water

ERC (European Research Council)HORIZON-ERCID: 101041620
EC Contribution
€14,998
Consortium Size
1 orgs
Start Year
2023
Summary

The origin Earth's water is still an unsolved mystery in Earth Sciences. Yet, answering this question is paramount in order to validate planetary accretion models and determine the conditions for life-sustainable planets to form. Comparing Earth's original deuterium-to-hydrogen ratio (D/H) with those of Solar system objects such as meteorites, comets and the solar nebula can constrain on the provenance of water. However, while D/H is precisely determined for extra-terrestrial objects, the exact value for Earth is not known, due to the fact that Earth's primordial D/H got lost since its formation following surface and mantle geological processes. In fact, current estimates from mantle-derived lavas are challenged by the ability of these samples to retain pristine values, indicating the need for a pristine reservoir that remained unaffected over geological time to be found. Diamonds from the Earth's mantle may be key as they contain trace amounts of hydrogen and are inert and robust time capsules able to survive over several billion years. The overarching goal of this project is to determine Earth's primordial D/H by investigating the hydrogen content and isotopic composition of a unique set of worldwide, natural diamonds dating 3.5 to 0.09 billion years ago using newly-developed, high-precision and high-efficiency isotope ratio mass spectrometry. The isotopic data will be complemented by atomistic state-of-the-art ab initio simulations to understand the atomic and diffusion behaviour of hydrogen in natural diamonds. The new results will be fundamental to pinpoint Earth's water origin with long-term implications for understanding planet habitability. In a time where international space agencies are actively searching for potentially habitable planets and extra-terrestrial life, the new knowledge will be fundamental to understanding the geological and biological evolution of planets in our Solar System and beyond.

Consortium (1)

Project Results (9)

Source: CORDIS, the EU research results database.

Publications (8)
Infrared spectroscopy of natural <i>Type Ib</i> diamond: insights into the formation of <i>Y</i>-centers and the early aggregation of nitrogen
American Mineralogist· 2025DOI
Maxwell C. Day, Michael C. Jollands, Francesca Innocenzi, Davide Novella, Fabrizio Nestola, Martha G. Pamato
The first-formed hydrogen and nitrogen defects in natural diamond
Diamond and Related Materials· 2025DOI
Maxwell C. Day, Etienne Balan, Razvan Caracas, Michael C. Jollands, Francesca Innocenzi, Davide Novella, Fabrizio Nestola, Martha G. Pamato
<i>RamanCrystalHunter</i>: a new program and database for processing, analysis, and identification of Raman spectra
American Mineralogist· 2024DOI
F. Nestola, Q. Zhang, M.C. Day, S. Lorenzon, M.G. Pamato, I. Rocchetti, C. Bendazzoli, D. Novella, C. Mazzoli, R. Sassi, D.G. Pearson, E.M. Smith, M. Scott, A. Barbaro, F.E. Brenker, L. Santello, S. Molinari, K. Qu, Y. Wang, R. Škoda, M. Alvaro, M. Gilio, M. Murri, A.V. Kasatkin
Fluor-rossmanite, □(Al<sub>2</sub>Li)Al<sub>6</sub>(Si<sub>6</sub>O<sub>18</sub>)(BO<sub>3</sub>)<sub>3</sub>(OH)<sub>3</sub>F, a new tourmaline supergroup mineral from Malkhan pegmatite field, Western Siberia, Russia
Mineralogical Magazine· 2024DOI
Anatoly V. Kasatkin, Fabrizio Nestola, Maxwell C. Day, Liudmila A. Gorelova, Radek Škoda, Oleg S. Vereshchagin, Atali A. Agakhanov, Dmitriy I. Belakovskiy, Martha G. Pamato, Jan Cempírek, Mikhail Yu. Anosov
Forms and fluxes of carbon: Surface to deep
Treatise on Geochemistry· 2024DOI
Alberto Vitale Brovarone, Kevin Wong, Donato Giovannelli, Benoit de Pins, Fabrice Gaillard, Malcolm Massuyeau, Fabrizio Nestola, Martha Giovanna Pamato, Isabelle Daniel
Diamond and Related Materials
Diamond and Related Materials· 2023DOI
Day, Maxwell C.; Jollands, Michael C.; Novella, Davide; Nestola, Fabrizio; Dovesi, Roberto; Pamato, Martha G.
Imperfections in natural diamond: the key to understanding diamond genesis and the mantle
La Rivista del Nuovo Cimento· 2023DOI
Day, Maxwell C.; Pamato, Martha G.; Novella, Davide; Nestola, Fabrizio
Petrology and geochemistry of Canadian diamonds: An up-to-date review
Earth-Science Reviews· 2023DOI
Andrea Curtolo, Davide Novella, Alla Logvinova, Nikolay V. Sobolev, Rondi M. Davies, Maxwell C. Day, Martha G. Pamato, Fabrizio Nestola
Other Results (1)
Periodic Reporting for period 1 - INHERIT (Diamonds as the key to unravel the origin of Earth's water)