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What CO2 well gases tell us about the origin of noble gases in the mantle and their relationship to the atmosphere
- Publication Year :
- 2008
-
Abstract
- Study of commercially produced volcanic CO2 gas associated with the Colorado Plateau, USA, has revealed substantial new information about the noble gas isotopic composition and elemental abundance pattern of the mantle. Combined with published data from mid-ocean ridge basalts, it is now clear that the convecting mantle has a maximum 20Ne/22Ne isotopic composition, indistinguishable from that attributed to solar wind-implanted (SWI) neon in meteorites. This is distinct from the higher 20Ne/22Ne isotopic value expected for solar nebula gases. The non-radiogenic xenon isotopic composition of the well gases shows that 20 per cent of the mantle Xe is ‘solar-like’ in origin, but cannot resolve the small isotopic difference between the trapped meteorite ‘Q’-component and solar Xe. The mantle primordial 20Ne/132Xe is approximately 1400 and is comparable with the upper end of that observed in meteorites. Previous work using the terrestrial 129I–129Xe mass balance demands that almost 99 per cent of the Xe (and therefore other noble gases) has been lost from the accreting solids and that Pu–I closure age models have shown this to have occurred in the first ca 100 Ma of the Earth's history. The highest concentrations of Q-Xe and solar wind-implanted (SWI)-Ne measured in meteorites allow for this loss and these high-abundance samples have a Ne/Xe ratio range compatible with the ‘recycled-air-corrected’ terrestrial mantle. These observations do not support models in which the terrestrial mantle acquired its volatiles from the primary capture of solar nebula gases and, in turn, strongly suggest that the primary terrestrial atmosphere, before isotopic fractionation, is most probably derived from degassed trapped volatiles in accreting material. By contrast, the non-radiogenic argon, krypton and 80 per cent of the xenon in the convecting mantle have the same isotopic composition and elemental abundance pattern as that found in seawater with a small sedimentary Kr and Xe admix. Thes
Details
- Database :
- OAIster
- Notes :
- Ballentine, Chris and Holland, Greg (2008) What CO2 well gases tell us about the origin of noble gases in the mantle and their relationship to the atmosphere. Philosophical Transactions of the Royal Society A: Mathematical, Physical & Engineering Sciences, 366 (1883). pp. 4183-4203. ISSN 1471-2962
- Publication Type :
- Electronic Resource
- Accession number :
- edsoai.on1098283566
- Document Type :
- Electronic Resource