M. Wadhwa et al., PETROGENESIS OF SHERGOTTITE METEORITES INFERRED FROM MINOR AND TRACE-ELEMENT MICRODISTRIBUTIONS, Geochimica et cosmochimica acta, 58(19), 1994, pp. 4213-4229
As an extension of our previous work on the lherzolitic shergottites (
ALHA77005 and LEW88516), ion microprobe measurements of REEs and other
selected trace and minor elements were made in individual minerals of
the basaltic shergottites (Shergotty, Zagami, and EETA79001). Whole r
ock REE abundances in these achondrites are dominated by whitlockite,
which is usually present only in trace amounts. One of the most signif
icant features is the extensive zoning of trace and minor elements in
pyroxenes. This zonation, which provides information on the crystalliz
ation histories of these meteorites, is of primary magmatic origin, an
d not the result of secondary processes such as diffusive reequilibrat
ion and/or metasomatic infiltration Coherent trends in element-element
plots for low-Ca pyroxenes indicate that each shergottite formed esse
ntially by progressive (closed-system) fractional crystallization. The
calculated REE patterns of the parent melts of all shergottites are L
REE-depleted and parallel to their whole rock REE patterns (also indic
ative of closed-system fractional crystallization). On the basis of ob
servations reported in this study, as well as previously determined pe
trologic and geochemical (including isotopic) characteristics, we pres
ent a model that suggests possible relationships among all five known
shergottites.