Original paper

Detection of small amounts of N2 in CO2-rich high-density fluid inclusions from mantle xenoliths

Berkesi, Márta; Káldos, Réka; Park, Munjae; Szabó, Csaba; Váczi, Tamás; Török, Kálmán; Németh, Bianca; Czuppon, György

European Journal of Mineralogy Volume 29 Number 3 (2017), p. 423 - 431

published: Jun 1, 2017

DOI: 10.1127/ejm/2017/0029-2615

BibTeX file

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Fluid inclusions (FIs) (n = 34) in spinel lherzolite xenoliths derived from the subcontinental lithospheric mantle from Jeju Island (S. Korea), the Rio Grande Rift (New-Mexico, USA) and Mt. Quincan (Australia) were analysed using confocal Raman spectroscopy. Despite the significant geographical distances, the studied rocks and their FIs show similar petrographic features. We show evidence for the presence of small amounts of nitrogen in extreme high density (≥ 1 g/cm3) FIs from the deep lithospheric mantle using Raman spectroscopy with a spectral resolution between 0.6 and 0.7 cm1. The only nitrogen-bearing species found in the inclusions was N2. The N2 Raman signal appeared as two adjacent, partially overlapping bands. The band at higher Raman shift is identical with the nitrogen-in-air (N2 air) band. The band at lower Raman shift is therefore nitrogen within the FIs (N2 fluid). The relative amounts of CO2 and N2 within the FIs were calculated using the integrated band areas. In the studied ultramafic xenoliths, N2 concentrations varied between 0.2 and 1.8 mol%, with one exceptionally high concentration of 3.1 mol%. We believe that microthermometric measurements and/or Raman spectroscopy with an inferior spectral resolution may leave N2 undetected in CO2 rich upper mantle FIs. Based on our observations, we propose that N2 may be a minor but common component in subcontinental lithospheric upper-mantle fluids.


upper mantlenitrogenraman spectroscopyfluid inclusion