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Detailed Reference Information |
Chan, L.H., Leeman, W.P. and You, C.F. (1999). Lithium isotopic composition of Central American Volcanic Arc lavas: implications for modification of subare mantle by slab-derived fluids. Chemical Geology 160(4): 255-280. |
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Li contents and isotopic compositions were determined for a suite of well-characterized basaltic lavas from the Central American Volcanic Are (CAVA). Variable Li/Y (0.2-0.5), Li/Sc (0.1-0.4), and delta(6)Li values (+ 2.6 to - 7.7 parts per thousand) attest to significant compositional heterogeneity in the subarc mantle. Within specific are segments, these parameters correlate strongly with each other and with a number of other constituents (e.g., K, Rb; Ba, B/La, Be-10/Be-9, Sr-87/Sr-86; U/Ce and Th-230/Th-232, among others); these correlations are particularly strong for Nicaragua samples. Coupling of this particular set of constituents is best explained in terms of addition of 'subduction components' to the subarc mantle. Moreover, their selective enrichment with respect to relatively fluid-immobile incompatible elements signifies the dominance of fluid vs. silicate melt transport of slab components to the subarc mantle. Several interesting nuances are revealed by the Li data. First, although Li and B are strongly correlated in both Costa Rica and Nicaragua, there are systematic along-strike variations in Li/B that are consistent with these elements having different 'fluid release patterns' from subducted slab segments. For example, Li/B is highest in Costa Rica where auxiliary evidence indicates higher subduction zone temperatures; apparently B is preferentially depleted and Li retained in the slab under warmer conditions. The same relations are reflected in Li/Be-10 and other subduction tracer systematics, all of which point to larger subduction contributions below Nicaragua. Yet, even Nicaragua lavas vary widely in levels of subduction enrichment. High-Ti basalts from Nejapa are the least enriched and have the highest delta(6)Li (1.4 to 2.6 parts per thousand); these values are greater than in fresh MORE (ca. - 4 parts per thousand) and are not easily explained by additions of subducted Li because most oceanic crustal rocks and marine sediments have lower delta(6)Li than MORE (with typical values between - 8 and - 20 parts per thousand). Thus, it appears the Nejapa data may be representative of isotopically Light mantle domains. Relatively light delta(6)Li values in an undepleted spinel Iherzolite ($11.3 parts per thousand) from Zabargad Is. (Red Sea) and in primitive backarc basalts (- 1.6 to - 0.5 parts per thousand) from Lau Basin support this conclusion. Considering representative fluid and mantle endmember compositions, the CAVA data are consistent with limited (up to a few percent) additions of slab-derived fluids to a heterogeneous mantle containing variably depleted and enriched domains to form the respective magma sources. In our view, the subarc mantle is heterogeneous on a small scale, but some are sectors clearly received greater slab inputs than others. (C) 1999 Elsevier Science B.V. All rights reserved. |
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BACKGROUND DATA FILES |
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Abstract |
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Table 1A |
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Table 1B |
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Table 2 |
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Table 3 |
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Table 4 |
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Table 5 |
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Samples & Methods |
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Keywords
central american volcanic arc, lithium isotopes, arc lavas, subarc mantle, subducted components, high-field-strength, b-be systematics, subduction zones, trace-elements, oceanic-crust, red-sea, hydrothermal fluids, boron geochemistry, melt extraction, pore waters |
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Publisher
Elsevier Science P.O. Box 211 1000 AE Amsterdam The Netherlands (+31) 20 485 3757 (+31) 20 485 3432 nlinfo-f@elsevier.com |
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