Add to ORKGXenon (Xe) is an exceptional tracer for investigating the origin and fate of volatile elements on Earth. The initial isotopic composition of atmospheric Xe remains unknown, as do the mechanisms involved in its depletion and isotopic fractionation compared with other reservoirs in the solar system. Here we present high precision analyses of noble gases trapped in fluid inclusions of Archean quartz (Barberton, South Africa) that reveal the isotopic composition of the paleo-atmosphere at ≈3.3 Ga. The Archean atmospheric Xe is mass-dependently fractionated by 12.9±2.4 ‰ u^(−1) (± 2σ, s.d.) relative to the modern atmosphere. The lower than today ^(129)Xe excess requires a degassing rate of radiogenic Xe from the mantle higher than at present. Th...
International audienceThe noble gas isotope composition of the mantle can provide unique insights in...
To understand the scales and chronology of processes governing the evolution of terrestrial gas spec...
The noble gas isotope composition of the mantle can provide unique insights into the origin and evol...
International audienceXenon (Xe) is an exceptional tracer for investigating the origin and fate of v...
Determining the composition of the Archean atmosphere and oceans is vital to understanding the envir...
International audienceWe have analyzed ancient atmospheric gases trapped in fluid inclusions contain...
International audienceUnderstanding the composition of the Archean atmosphere is vital for unravelin...
(Figure Presented) Noble gases are chemically inert and, as such, act as unique tracers of physical ...
The origin of the Earth's atmosphere remains poorly understood. Its elemental and isotopic compositi...
International audienceThe exchange of volatile species—water, carbon dioxide, nitrogen and halogens—...
The relationships between the major terrestrial volatile reservoirs are explored by resolving the di...
International audienceNoble gases serve as unique tracers of the origin and evolution of Earth's vol...
International audienceNoble gas isotopes are powerful tracers of the origins of planetary volatiles,...
International audienceThe origin of terrestrial volatiles remains one of the most puzzling questions...
The Earth formed some 4.5 Ga from the accumulation of dust, rocks and gas. The composition of these ...
International audienceThe noble gas isotope composition of the mantle can provide unique insights in...
To understand the scales and chronology of processes governing the evolution of terrestrial gas spec...
The noble gas isotope composition of the mantle can provide unique insights into the origin and evol...
International audienceXenon (Xe) is an exceptional tracer for investigating the origin and fate of v...
Determining the composition of the Archean atmosphere and oceans is vital to understanding the envir...
International audienceWe have analyzed ancient atmospheric gases trapped in fluid inclusions contain...
International audienceUnderstanding the composition of the Archean atmosphere is vital for unravelin...
(Figure Presented) Noble gases are chemically inert and, as such, act as unique tracers of physical ...
The origin of the Earth's atmosphere remains poorly understood. Its elemental and isotopic compositi...
International audienceThe exchange of volatile species—water, carbon dioxide, nitrogen and halogens—...
The relationships between the major terrestrial volatile reservoirs are explored by resolving the di...
International audienceNoble gases serve as unique tracers of the origin and evolution of Earth's vol...
International audienceNoble gas isotopes are powerful tracers of the origins of planetary volatiles,...
International audienceThe origin of terrestrial volatiles remains one of the most puzzling questions...
The Earth formed some 4.5 Ga from the accumulation of dust, rocks and gas. The composition of these ...
International audienceThe noble gas isotope composition of the mantle can provide unique insights in...
To understand the scales and chronology of processes governing the evolution of terrestrial gas spec...
The noble gas isotope composition of the mantle can provide unique insights into the origin and evol...