Transport and Storage of Potassium in the Earth’s Upper Mantle and Transition Zone: an Experimental Study to 23 GPa in Simplified and Natural Bulk Compositions

doi:10.1093/petrology/41.4.583

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Journal of Petrology Volume 41 Number 4 Pages 583-603 2000
© Oxford University Press 2000

Transport and Storage of Potassium in the Earth’s Upper Mantle and Transition Zone: an Experimental Study to 23 GPa in Simplified and Natural Bulk Compositions

JÜRGEN KONZETT^,* and YINGWEI FEI

GEOPHYSICAL LABORATORY AND CENTER FOR HIGH-PRESSURE RESEARCH, CARNEGIE INSTITUTION OF WASHINGTON, 5251 BROAD BRANCH ROAD NW, WASHINGTON DC, 20015-1305, USA

We have investigated the stability and composition of potassiumamphibole and its high-pressure breakdown product phase X insynthetic peralkaline and subalkaline KNCMASH (K₂O–Na₂O–CaO–MgO–Al₂O₃–SiO₂–H₂O)and natural KLB-1 peridotite bulk compositions between 10 and23 GPa at 800–1800°C. In the KNCMASH system, potassiumamphibole reaches its upper pressure stability limit at 13–15GPa at $<=$ 1400°C. In the natural KLB-1 bulk composition, potassiumamphibole breaks down between 12 and 13 GPa at 1200°C. PhaseX is a hydrous potassium–magnesium silicate with variablestoichiometry, a general formula K_2–xMg₂Si₂O₇H_x with x= 0–1, and a maximum possible H₂O content of 3·5wt %. Electron microprobe analytical totals suggest H₂O contentsof $~$ 1–2 wt % and a decrease in H₂O contents with increasingpressure. In both KNCMASH and KLB-1 systems, phase X coexistswith Mg₂SiO₄ + garnet + high-Ca clinopyroxene + low-Ca clinopyroxene± fluid. Phase X breaks down between 20 and 23 GPa at1500–1700°C to form K-hollandite + ${gamma}$ -Mg₂SiO₄ + majorite+ Ca-perovskite + fluid. The upper temperature stability limitof phase X was located in the subalkaline KNCMASH system between1400 and 1600°C at 14 GPa and at >1700°C at 20 GPa,the latter being at least 200°C above an average currentmantle adiabat. Thus, phase X could store and transport bothwater and potassium not only in subduction zone settings, butalso in convecting mantle down to the transition zone–lower-mantleboundary. Phase X would also be an eminently suitable host forRb, Cs, Ba or Pb.

KEY WORDS: experimental study; high pressure; phase X; potassium

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