The platinum group element (PGE) composition of a suite of anhydrous s
pinel peridotite xenoliths from five different localities in eastern C
hina were determined in order to evaluate the geochemical behaviour of
these elements during mantle processes. The samples are composed of h
arzburgites of granoblastic textures, and lherzolites mainly of protog
ranular and porphyroclastic textures. The total PGE contents vary from
16.20 to 50.7 ppb. Ruthenium, Ir and Pd are correlated with CaO and a
re interpreted to define a partial melting trend. The positive correla
tion between Cu and Pd supports this interpretation. However, with the
exception of Au, all peridotitic xenoliths display a downward concave
PGE pattern, indicating Pt enrichment. This pattern is very different
from the flat or negatively sloped PGE pattern observed commonly for
mantle xenoliths and peridotitic massifs. The Pt enrichment is ascribe
d to percolating basaltic magma which is precipitating only small amou
nts of sulphides. As Pt is less strongly chalcophilic than Pd, it may
fractionate from the sulphides which host the Pd, and form Pt-alloys.
This process also explains the Au enrichment and the Pt-Au correlation
, as Au is also less strongly chalcophilic than Pd. The strong Ir depl
etion in the protogranular samples is ascribed to Ir retention in the
deep mantle due to the high metal/silicate distribution coefficient of
Ir at fO(2) = I W-1. (C) 1998 Elsevier Science B.V. All rights reserv
ed.