Lead isotopes and the sources of the Columbia River Basalt Group

Abstract

A detailed study of 208Pb/204Pb, 207Pb/204Pb, and 206Pb/204Pb ratios suggests that the number of Pb isotopic reservoirs required for the Columbia River Basalt Group (CRBG) (as currently defined) must be increased from the presently accepted four to at least six. The identities of the six reservoirs are two of mid‐ocean ridge basalt (MORB) slightly contaminated with sediment (Rl and R2, Rl being “Cascades” Pb); one a probable plume component (R3); two of unspecified mantle material but probably of Rl type, contaminated with local crustal Pb (R4 and R5); and the sixth a complex enriched reservoir of 2150 Ma age (R6). Rl is an end‐member for all CRBG, except the Saddle Mountains Basalts. R2 is a second end‐member for the Picture Gorge Basalt and appears to be unique to it. Both Rl and R2 are related to the Juan de Fuca subduction zone and the back arc spreading associated with it. R3 is the principal source for most of the Wanapum Basalt, as well as for most of the chemically evolved portions of the Grande Ronde Basalt. Volumetric and tectonic considerations require that one source of the CRBG be a plume or, at least, a nonlocal crustal or uppermost mantle source, and R3 is the ideal candidate for that role. R4 is the second source for the Imnaha Basalt, and R5 is the source for the 206Pb rich varieties of the Grande Ronde Basalt. R4 and R5 are identified with contamination by local Phanerozoic crust because of their similarity to local crustal Pb and because the rocks which contain them also have Cu contents correlated with their Pb isotopic compositions. R6 is the parent for Pb in all the Saddle Mountain Basalts. This last source appears to have been homogeneous 2150 m.y. ago but has since split into a number of separate, discrete pockets, each with its own characteristic Pb isotopic signature. Some of these appear in individual Saddle Mountain Basalt flows, while other sources have mixed with R4 to produce individual Saddle Mountain Basalt flows of the Ice Harbor set. R6 is similar in all its isotopic properties to the Precambrian basement that is exposed to the immediate north of the Columbia River Basalt Group. The overall model for Columbia River Basalt Group genesis is termed “plume reinforced back arc magmatism”.