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Magma chamber formation by dike accretion and crustal melting: 2D thermo-compositional model with emphasis on eruptions and implication for zircon recordsстатья
Статья опубликована в высокорейтинговом журнале
Статья опубликована в журнале из списка Web of Science и/или Scopus- Авторы: Melnik O.E., Utkin I.S., Bindeman I.N.
- Журнал: JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH
- Год издания: 2021
- DOI: 10.1029/2021jb023008
- Аннотация: We present a 2D thermo-elastic model of a magma body formation in a granitic crust by injection of rhyolitic or basaltic dikes and sills. Elastic analytical solutions enable computation of rock displacement in response to magma intrusion and evacuation during volcanic eruptions. Phase diagrams for magma and rocks govern melting/crystallization behavior and temperature evolution in 16 million computational cells. Calculated temperature histories are used to predict zircon crystallization/dissolution, their ages and isotopic ratios within individual batches of magma and rocks.Incremental dike injection naturally generates magma batches of melt that form kilometer-wide clusters appearing in different parts of the domain with diverse shapes, horizontal and vertical interconnectivity. The volume of eruptible melt strongly depends on magma influx rates Q, the width of the injection region W and eruptions. For example, rhyolitic dike injection with Q=0.125 m3/s with W=5 km during 100 ka generates ∼50 km3 of eruptible melt while no significant melt forms if W=10 km. Injection of basaltic dikes into the granitic crust generates comparable amounts of rhyolitic melt from dike-residual and country rocks. High injection intensities produce magma reservoirs capable of large eruptions, while repetitive eruptions lead to shrinkage of magma bodies.High heat input cause host rock zircons to loose a significant portion of their old cores. Magmatic zircons in the periphery form quickly due to rapid cooling of intruded dikes while in the central part crystals can grow during several hundreds of ka. The model predicts highly heterogeneous O and Hf isotopic ratios recorded in zircons.
- Добавил в систему: Мельник Олег Эдуардович