Title of article
Interactions between rhyolitic and basaltic melts unraveled by chaotic mixing experiments
Author/Authors
Morgavi، نويسنده , , Daniele and Perugini، نويسنده , , Diego and De Campos، نويسنده , , Cristina P. and Ertl-Ingrisch، نويسنده , , Werner and Lavallée، نويسنده , , Yan and Morgan، نويسنده , , Lisa and Dingwell، نويسنده , , Donald B.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
14
From page
199
To page
212
Abstract
Magma mixing may operate at any stage in the evolution of a magmatic system. The development of mixing is strongly controlled by fluid dynamics and its understanding requires a comprehensive physico-chemical approach in order to identify and interpret its occurrence in nature. Here, we experimentally study the physical and chemical interplays during the mixing of basaltic and rhyolitic natural melts from the Snake River Plains, USA. In particular, we present the results of the first high-temperature mixing experiments performed under controlled chaotic dynamic conditions, providing a new methodological approach to constrain the complexities of the mixing process between natural silicate melts.
xing process is initially governed by the dynamics of stretching and folding of the melts, producing alternating flow bands. These bands increase the contact area between the end-members, which subsequently enhance chemical exchanges and thus contribute to the generation of regions with variable degrees of hybridization. We quantified the mobility of major and trace elements across contact areas, and analyzed the concentration variance decay induced by chemical diffusion. The analysis shows that elements diffuse with different efficiencies as the chemical gradient evolves and therefore, the achievement of hybrid compositions contrasts between elements. The approach introduced in this study can, in principle, be applied to mixing trends observed in nature in order to estimate the time-scales and degree of magma mixing evidenced across volcanic rocks/deposits.
Keywords
Element mobility , chemical diffusion , EXPERIMENTS , Hybrid melts , Concentration variance
Journal title
Chemical Geology
Serial Year
2013
Journal title
Chemical Geology
Record number
2261639
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