We investigated the halogen (Cl, F, Br, and I) chemistry of serpentinites that record progressive dehydration during subduction from shallow oceanic environments via increased pressure and temperature conditions to complete breakdown of antigorite. The aim is to evaluate the relevance of serpentinites for halogen recycling in subduction zones and for deep mantle recharge of these elements. The halogen compositions of the analyzed samples indicate input from seawater and sedimentary sources during initial serpentinization of either subducting lithospheric mantle during slab bending or forearc mantle by uprising slab fluids. During the first dehydration stage (antigorite+brucite\u2192olivine+H2O), fluids with high Br/Cl and I/Cl ratios are re...
Subduction at convergent plate boundaries provides a mechanism for recycling fluid-mobile elements f...
Fluid-mobile element (FME) systematics in serpentinites are key to unravel the environments of mantl...
Fluid-mobile element (FME) systematics in serpentinites are key to unravel the environments of mantl...
We investigated the halogen (Cl, F, Br, and I) chemistry of serpentinites that record progressive de...
We investigated the halogen (Cl, F, Br, and I) chemistry of serpentinites that record progressive de...
Serpentinized oceanic mantle lithosphere is considered an important carrier of water and fluid-mobil...
Serpentinites are important components of the oceanic lithosphere and are viewed as major water sour...
The key role of serpentinites in the global cycles of volatiles, halogens and fluid-mobile elements ...
The key role of serpentinites in the global cycles of volatiles, halogens and fluid-mobile elements ...
Ophiolitic serpentinites and secondary peridotites formed by serpentinite dehydration were investiga...
Halogens (Cl, F, I, Br) are enriched in surface reservoirs compared to the mantle. The subduction of...
International audienceThe abundances of F, Cl and S in arc magmas are systematically higher than in ...
Serpentinites form by hydration of ultramafic lithologies in a range of seafloor and shallow subduct...
Subduction at convergent plate boundaries provides a mechanism for recycling fluid-mobile elements f...
Fluid-mobile element (FME) systematics in serpentinites are key to unravel the environments of mantl...
Fluid-mobile element (FME) systematics in serpentinites are key to unravel the environments of mantl...
We investigated the halogen (Cl, F, Br, and I) chemistry of serpentinites that record progressive de...
We investigated the halogen (Cl, F, Br, and I) chemistry of serpentinites that record progressive de...
Serpentinized oceanic mantle lithosphere is considered an important carrier of water and fluid-mobil...
Serpentinites are important components of the oceanic lithosphere and are viewed as major water sour...
The key role of serpentinites in the global cycles of volatiles, halogens and fluid-mobile elements ...
The key role of serpentinites in the global cycles of volatiles, halogens and fluid-mobile elements ...
Ophiolitic serpentinites and secondary peridotites formed by serpentinite dehydration were investiga...
Halogens (Cl, F, I, Br) are enriched in surface reservoirs compared to the mantle. The subduction of...
International audienceThe abundances of F, Cl and S in arc magmas are systematically higher than in ...
Serpentinites form by hydration of ultramafic lithologies in a range of seafloor and shallow subduct...
Subduction at convergent plate boundaries provides a mechanism for recycling fluid-mobile elements f...
Fluid-mobile element (FME) systematics in serpentinites are key to unravel the environments of mantl...
Fluid-mobile element (FME) systematics in serpentinites are key to unravel the environments of mantl...