• PDF / 1,444,686 Bytes
• 19 Pages / 595.276 x 790.866 pts Page_size
• 56 Downloads / 152 Views

DOWNLOAD

REPORT

ORIGINAL PAPER

Experimental constraints on the origins of primitive potassic lavas from the Trans-Mexican Volcanic Belt Stephanie L. Weaver • Paul J. Wallace A. Dana Johnston

•

Received: 25 September 2012 / Accepted: 27 June 2013 / Published online: 22 August 2013 Ó Springer-Verlag Berlin Heidelberg 2013

Abstract Primitive magmas in the Trans-Mexican Volcanic Belt (TMVB) span a wide geochemical range that includes calc-alkaline basalt and basaltic andesite, potassic shoshonites, and intraplate alkaline basalts, indicating that the subarc mantle wedge is chemically heterogeneous. The aim of this study is to experimentally constrain the origins of potassic lavas that have erupted along the volcanic front in the TMVB. We used a piston-cylinder apparatus to determine the P–T–H2O near-liquidus phase relations for two primitive potassic lavas: a hornblende trachybasalt (shoshonite) from Cerro La Pilita in the central TMVB and a high-K calc-alkaline basalt from Ayutla in the western TMVB. Experiments were conducted at mantle pressures (0.8–2.5 GPa) and temperatures (1,100–1,400 °C) with 1.5–6 wt% H2O. Results show that both samples were last equilibrated with an olivine ? clinopyroxene assemblage at upper mantle pressures. Integrating our results with trace element characteristics, we conclude that the potassic magmas formed by a complex, multistage process in which melts from the hottest part of the mantle wedge either reequilibrated with clinopyroxene-rich veins in the shallow upper mantle or caused melting of such veins by advective heating. We combine our results with previous experiments Communicated by G. Moore.

Electronic supplementary material The online version of this article (doi:10.1007/s00410-013-0921-2) contains supplementary material, which is available to authorized users. S. L. Weaver (&)  P. J. Wallace  A. D. Johnston Department of Geological Sciences, University of Oregon, Eugene, OR 97403, USA e-mail: [email protected] S. L. Weaver ExxonMobil Exploration Company, Houston, TX 77060, USA

on TMVB lavas to provide an along-arc perspective of melt equilibration depths in the mantle wedge. The results suggest that although melts may initially form deep in the wedge, they commonly reequilibrate with heterogeneous mantle at shallower depths. Primitive, medium-K basaltic andesites in the TMVB form by reequilibration with harzburgite, which we infer to be a common lithology in the upper mantle, whereas some potassic magmas like the ones studied here form through reequilibration with or melting of veins of olivine ? clinopyroxene ± phlogopite. Though somewhat rare at the volcanic front relative to the more abundant medium-K volcanic rocks, the potassic magmas are an important lava type for revealing mantle chemical heterogeneities. Keywords Subduction zone  Basalt  Shoshonite  Experimental phase equilibria  Mantle melting

Introduction The variability of SiO2, alkalies, volatiles (H2O, CO2), and incompatible trace elements in primitive arc lavas worldwide indicates heterogeneities in bot

Recommend Documents

The Experimental Origins of Quantum Mechanics

164 36 480KB

Effectiveness of natural protected areas for preventing land use and land cover changes of the Transmexican Volcanic Bel

170 8 646KB

Ultramafic lavas

149 2 13KB

Late Neoproterozoic Island-Arc Volcanic Associations in the Accretion Belt at the Southwestern Margin of the Siberian Cr

142 79 3MB

From the Measurement Problem to the Primitive Ontology Programme

179 66 9MB

Lithological Mapping in the Eastern Part of the Central Iranian Volcanic Belt Using Combined ASTER and IRS data

140 60 2MB

Ore-forming processes in the Khetri Copper Belt, western India: constraints from trace element chemistry of pyrite and C

161 73 31MB

Reflecting on the Origins of Fiberoptic Communication

160 72 278KB

Political Risk on the Belt and Road

182 54 3MB

The origins of continents

193 72 4MB

The Power of Origins

184 23 4MB

The Effect of Constraints on Plastic Deformation

368 19 62KB