URANIUM SERIES AND BERYLLIUM ISOTOPE EVIDENCE FOR AN EXTENDED HISTORYOF SUBDUCTION MODIFICATION OF THE MANTLE BELOW NICARAGUA

U-series nuclides, beryllium, and lead isotopes have been measured on historic lavas from eight volcanoes in Nicaragua. Low-Ti samples from northern Nicaragua have (Th-230)/(Th-232) ratios from 2.23 to 2.56 and are enriched in U-238 and U-234 over Th-230 by 1-16%. Those from sout hern Nicaragua have (Th-230)/(Th-232) approximate to 2.1 and have (U-2 38)/(Th-230) = 1.0-0.9. High-Ti samples have intermediate (Th-230)/(Th -232) ratios and are strongly enriched in Th-230. Lead isotopic data f or all samples plot in the mantle array with Pb-206/(204)pb = 18.50-18 .63. Th isotopic ratios for all samples imply source U/Th ratios that are significantly higher than those implied by lead isotopic ratios. A ll historic samples have (Po-210)/(Th-230) and thus (Ra-226)/(Th-230) > 1, suggesting that lavas erupt less than 8,000 y after generation. T horium isotopic ratios for all volcanic samples correlate well with Be -10/Be-9 and B/Be as well as with Sr-87/Sr-86 and Ba/La ratios from th e literature. (U-238)/(Th-230) ratios do not correlate well with any o f these ratios but rather anti-correlate with Th concentrations and pu blished La/Yb ratios. These observations, and inferences therefrom, le ad to the following preferred, although not completely unique, interpr etations. Comparison of thorium, beryllium, and strontium isotopic rat ios of the Cocos plate sediments at DSDP 495 with the low-Ti volcanic regression trends shows that the subducted component transferred to th e mantle has isotopic compositions similar to the bulk sediments. B/Be and Ba/La ratios of the volcanic samples are well correlated with the isotopes, but the inferred ratios in the subduction component are at least 10 and 5 times higher, respectively, than values in the bulk sed iment. These relationships suggest that the subduction component combi nes the element-transport properties of both a melt and a hydrous flui d. The (Th-230)/(Th-232) and Sr-87/Sr-86 ratios corresponding to a Be- 10/Be-9 ratio of zero are about 2.0 and 0.704, significantly higher th an expected in the postulated MORB source for the lavas. We attribute these characteristics to subduction related addition of strontium, ura nium, plus or minus thorium, and related tracers to the mantle prior t o about 4.5 Ma, such that the Be-10 signal of this event has decayed a way. The observed good correlations are generated primarily by additio n of Be-10, U > Th, B and Ba between 4.5 Ma. and ca. 200-300 ka. The m ost recent event occurred since 200-300 ka and perhaps more recently t han 8 ka. It transported only a fraction of the total slab-derived flu x of Be-10, B, Ba, and probably thorium stored within the mantle, but added U > Th and may have raised the partition coefficient of uranium over thorium. The magnitude of the uranium excess thus relates to the extent of partial melting of the mantle source during this event. The U-series and beryllium isotope systematics of the high-Ti lavas are co nsistent with their derivation from the mantle residue after extractio n of low-Ti melts.