Ay. Borisova et al., Petrogenesis of olivine-phyric basalts from the Aphanasey Nikitin Rise: Evidence for contamination by cratonic lower continental crust, J PETROLOGY, 42(2), 2001, pp. 277-319
In this work we investigate the olivine-phyric basalt suite of the Aphanase
y Nikitin Rise, an intraplate volcanic structure formed during the Late Cre
taceous in the Indian Ocean. nle parental melt of the basalt suite has a hy
persthene-normative tholeiitic composition with low H2O content (0.3-0.5 Wt
%) and high SiO2/Al2O3 (3.5). nle basalt suite is characterized by Nb, Ta,
Th and U depletion, and uniquely low Pb-206/Pb-204 and Nd-143/Nd-144 among
the Cretaceous tholeiitic basalts of the Indian Ocean. Our modelling demon
strates that fractional crystallization of depleted mantle-derived melt and
lower continental crust assimilation is a suitable model for the genesis o
f the parental magma of this suite. The continental crustal material involv
ed is characterized by long-term Rb, U and Th depletion and probably remain
ed isolated for >10(9) years in cratonic Gondwanan lithosphere. On a broade
r scale, two geochemical groups can be distinguished among tholeiites forme
d in the Indian Ocean basin during the period 115-75 Ma, from the Aphanasey
Nikitin Rise, the southern Kerguelen and Naturaliste plateaux and the Brok
en Ridge. Both groups have a compositional range from hypersthene-normative
basalt to basaltic andesite and are characterized by Nb-Ta depletion, extr
emely low epsilon (Nd t) (-2 to - 13) and high Pb-207/Pb-204 (15.525-15.750
). The first group with high La/Th (15-19) is characterized by low Pb-206/P
b-204 (16.9-17.2) and Sr-87/Sr-86 (up to 0.706), Whereas the second group w
ith low La/Th (5-9) has higher Pb-206/Pb-204 (17.7-18.1) and Sr-87/Sr-86 (u
p to 0.713). The tholeiite composition is likely to be controlled by contam
ination of the parental tholeiitic melts by continental crust derived from
cratonic Gondwanan lithosphere. This conclusion, combined with other eviden
ce for ancient crustal material in the Indian and Atlantic Oceans, indicate
s the impact of continental crust in the oceanic lithosphere.