Add to ORKGThe imbalance between the chemical composition of the silicate Earth and that of chondrites has arisen several geochemical paradoxes, which are used to model planetary accretion and better understand how Earth was formed and evolved through time. Some of the key constraints on early differentiation processes assume that our proto-Earth had a bulk homogeneous subchondritic composition in the elements niobium and tantalum (Munker et al., 2003) and that no secular variation in their relative abundance occurred since accretion. Here, we provide new evidence that mantle domains variably enriched in niobiom/tantalum, even approaching the chonsdritic composition, exist and have been periodically sampled since early Archean times by magmas formed a...
International audienceThe 146 Sm-142 Nd short-lived decay system (half-life of 103 Ma) is a powerful...
Calculations of the energetics of terrestrial accretion indicate that the Earth was extensively molt...
The distribution of Nb and Ta among the continental crust, the depleted mantle and subducted slabs a...
International audienceThe bulk silicate Earth (BSE), and all its sampleable reservoirs, have a subch...
New high-precision niobium (Nb) and tantalum (Ta) concentration data are presented for early Archaea...
International audienceAs the Earth accreted, metallic materials segregated from silicates to form th...
The origin of the observed niobium deficit in the bulk silicate Earth (BSE) compared to chondritic m...
The 142Nd/ 144 Nd ratio of the Earth is greater than the solar ratio as inferred from chondritic met...
Geochemical models describing the behaviour of niobium during Earth's growth rely on the general par...
The first part of this study deals with the distribution of Nb and Ta at microscopic scale in mantle...
As the Earth's metallic core segregated from the silicate mantle, some of the moderately siderophile...
Recent geochemical evidence based on the ^(146)Sm–^(142)Nd system and Hadean zircons shows that the ...
International audienceThe 146 Sm-142 Nd short-lived decay system (half-life of 103 Ma) is a powerful...
Calculations of the energetics of terrestrial accretion indicate that the Earth was extensively molt...
The distribution of Nb and Ta among the continental crust, the depleted mantle and subducted slabs a...
International audienceThe bulk silicate Earth (BSE), and all its sampleable reservoirs, have a subch...
New high-precision niobium (Nb) and tantalum (Ta) concentration data are presented for early Archaea...
International audienceAs the Earth accreted, metallic materials segregated from silicates to form th...
The origin of the observed niobium deficit in the bulk silicate Earth (BSE) compared to chondritic m...
The 142Nd/ 144 Nd ratio of the Earth is greater than the solar ratio as inferred from chondritic met...
Geochemical models describing the behaviour of niobium during Earth's growth rely on the general par...
The first part of this study deals with the distribution of Nb and Ta at microscopic scale in mantle...
As the Earth's metallic core segregated from the silicate mantle, some of the moderately siderophile...
Recent geochemical evidence based on the ^(146)Sm–^(142)Nd system and Hadean zircons shows that the ...
International audienceThe 146 Sm-142 Nd short-lived decay system (half-life of 103 Ma) is a powerful...
Calculations of the energetics of terrestrial accretion indicate that the Earth was extensively molt...
The distribution of Nb and Ta among the continental crust, the depleted mantle and subducted slabs a...