Comprehensive geochemical analyses for mantle materials

Highly unradiogenic lead isotope ratios from the Horoman peridotite in Japan


    Basalts at mid-ocean ridges are generated by partial melting of the Earth’s upper mantle. As a result of this process, the upper mantle has become depleted over time in elements that are preferentially removed by melting. Although mid-ocean-ridge basalts have traditionally been thought to reflect the chemical composition of such depleted mantle, recent work has revealed the existence of domains in the upper mantle that are apparently not sampled by the basalts. Here we present the lead (Pb), neodymium (Nd) and hafnium (Hf) isotope compositions of peridotites from the Horoman orogenic massif in Japan, which is considered to represent the residues of melting of the upper mantle. These peridotites exhibit the lowest Pb isotope ratios reported from any known mantle material, along with high Nd and Hf isotope ratios. These data suggest that chemical depletion of the peridotites occurred around a thousand million years ago, and that they represent ancient mantle domains that have escaped convective stirring and homogenization. We suggest that such domains—if abundant in the mantle—may constitute a hitherto unrecognized reservoir with highly unradiogenic lead. (1, Dec., 2008)

    Malaviarachchi, S.P.K., Makishima, A., Tanimoto, M., Kuritani, T., Nakamura, E., Highly unradiogenic lead isotope ratios from the Horoman peridotite in Japan, Nature Geoscience., 1, 859-863, 2008. Abstract (Nature Online)

    Figure: Isotopic compositions of the studied peridotites showing highly unradiogenic Pb (a, b) together with high Nd (e) and Hf (f) isotope compositions displaying extreme mantle depletion and the lowest Pb isotope ratios ever found from any known mantle sample (b,c).