Consequences of varied slab age and thermal structure on enrichment processes in the sub-arc mantle of the northern Cascadia subduction system
Abstract
The 15-km-wide Late Cenozoic Garibaldi volcanic belt (GVB) of the northern Cascadia Subduction System is intimately associated with aseismic subduction of extremely young (≤22 Ma) and presumably 'hot' oceanic lithosphere beneath northwestern Washington and southwestern British Columbia. Age of the subducted plate beneath the volcanic front decreases northward by about 7 m.y. relative, suggesting that the thermal structure of the subducted oceanic crust changes along the convergent margin. GVB basalts exhibit significant arc-parallel variations in major-element, trace-element, and Sr isotopic compositions that correlate with inferred age of the underlying subducted oceanic crust. Phase relations and trace-element characteristics of the basalts imply that magma generation within the northern Cascadia sub-arc mantle involves progressively lower degrees of melting under increasingly higher temperatures and pressures, as the underlying slab becomes younger, hotter, and probably drier northward. Similar high-field-strength-element (HFSE) and rare-earth-element (REE) characteristics of mantle sources beneath the Garibaldi belt argue strongly that no systematic distribution of mantle source heterogeneities exists along the volcanic front. Along-strike variations in concentrations of fluid-mobile and immobile elements are therefore interpreted to reflect arc-parallel variations in both (1) the nature and magnitude of slab-derived fluxes and (2) varied degrees of partial melting within metasomatized source regions in the mantle wedge. Elevated B, Ba, K, Pb and (Sr/P) N in GVB lavas, together with large-ion-lithophile element (LILE)/HFSE and Nb/Ta variations, suggest that the subduction component was dominantly a residual fluid derived from strongly dehydrated and altered basalt crust and sediment in a downgoing Juan de Fuca plate.
- Publication:
-
Journal of Volcanology and Geothermal Research
- Pub Date:
- January 2005
- DOI:
- 10.1016/j.jvolgeores.2004.07.017
- Bibcode:
- 2005JVGR..140..107G