Noble gas systematics of the Réunion mantle plume source and the origin of primordial noble gases in Earth's mantle

Details Noble gas systematics of the Réunion mantle plume source and the origin of primordial noble gases in Earth's mantle Noble gas systematics of the Réunion mantle plume source and the origin of primordial noble gases in Earth's mantle

Jun 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002e%26psl.200..297t&link_type=abstract

Earth and Planetary Science Letters, Volume 200, Issue 3-4, p. 297-313.

Other

22

Scientific paper

New noble gas data of ultramafic xenoliths from Réunion Island, Indian Ocean, further constrain the characteristics of primordial and radiogenic noble gases in Earth's mantle plume reservoirs. The mantle source excess of nucleogenic 21Ne is significantly higher than for the Hawaiian and Icelandic plume reservoirs, similar to excess of radiogenic 4He. 40Ar/36Ar of the Réunion mantle source can be constrained to range between 8000 and 12000, significant 129Xe and fission Xe excess are present. Regarding the relative contribution of primordial and radiogenic rare gas nuclides, the Réunion mantle source is intermediate between Loihi- and MORB-type reservoirs. This confirms the compositional diversity of plume sources recognized in other radioisotope systematics. Another major result of this study is the identification of the same basic primordial component previously found for the Hawaiian and Icelandic mantle plumes and the MORB reservoir. It is a hybrid of solar-type He and Ne, and `atmosphere-like' or `planetary' Ar, Kr, Xe (Science 288 (2000) 1036). 20Ne/22Ne ratios extend to maximum values close to 12.5 (Ne-B), which is the typical signature of solar neon implanted as solar corpuscular radiation. This suggests that Earth's solar-type noble gas inventory was acquired by small (less than km-sized) precursor planetesimals that were irradiated by an active early sun in the accretion disk after nebular gas dissipation, or, alternatively, that planetesimals incorporated constituents irradiated in transparent regions of the solar nebula. Previously, such an early irradiation scenario was suggested for carbonaceous chondrites which follow common volatile depletion trends in the sequence CI-CM-CV-Earth. In turn, CV chondrites closely match Earth's mantle composition in 20Ne/22Ne, 36Ar/22Ne and 36Ar/38Ar. This indicates that mantle Ar could well be a planetary component inherited from precursor planetesimals. However, a corresponding conclusion for mantle Kr and Xe is less convincing yet, but this may be just due to the lack of appropriate `meteoritic' building blocks matching terrestrial composition. Alternatively, heavy noble gases in Earth's mantle could be due to admixing of severely fractionated air, but this effect must have affected all mantle sources to a very similar extent, e.g. by global subduction before the last homogenization of the mantle reservoirs.

Affiliated with

Also associated with

No associations

Rating

Noble gas systematics of the Réunion mantle plume source and the origin of primordial noble gases in Earth's mantle does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.

If you have personal experience with Noble gas systematics of the Réunion mantle plume source and the origin of primordial noble gases in Earth's mantle, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Noble gas systematics of the Réunion mantle plume source and the origin of primordial noble gases in Earth's mantle will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFWR-SCP-O-1893737