The role of peridotite and pyroxenite melts in the origin of the Karap&amp;#305;nar basalts, Cappadocia Volcanic Province, Central Anatolia

Korkmaz, Gülin Gençoğlu; Kurt, H.; Asan, Kş.; Petrelli, M.; Leybourne, M.

doi:10.3190/jgeosci.362

Cited by 2 publications

References 81 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

The Neogene–Quaternary volcanism of the Carpathian–Pannonian region: from initial plate tectonic models to quantitative petrogenetic explanations

Harangi,

Seghedi,

Lukács

2024

View full text Add to dashboard Cite

A wide range of volcanic rocks formed in the Carpathian-Pannonian region during the last 20 Myr, closely associated with the tectonic evolution of the area: (1) high-SiO 2 rhyolites and rhyodacites; (2) calc-alkaline-type volcanic suites (basalt-andesite-dacite-rhyolite and adakitic rocks); (3) potassic-ultrapotassic volcanic rocks (shoshonites, latites, leucitites, lamproites); (4) alkali sodic volcanic rocks (basalts, trachyandesites and trachytes). During the 18.1-14.4 Ma silicic ignimbrite flare-up volcanism, explosive eruptions produced large volume of tephras, which covered extended areas of Europe. Calc-alkaline-type volcanism took place in syn-extensional and post-collisional settings. There is no classic volcanic arc in the CPR and therefore, the term “back-arc basin” should be used for the Pannonian Basin only in a structural geology sense. Alkali basalt volcanism occurred mostly in the peripheral areas of the Pannonian Basin primarily due to edge-driven convective upwelling of heterogeneous asthenospheric mantle. The youngest eruptions took place 100-30 ka ago, mostly in the geodynamically still active southeast Carpathians. After 50 years of intense research, there are still many open questions to be solved. Interdisciplinary understanding of the results of different disciplines is crucial to better constrain the evolution of this tectonically complex area, to reveal its geoenergy, and to assess potential natural hazards.

show abstract

The Neogene–Quaternary volcanism of the Carpathian–Pannonian region: from initial plate tectonic models to quantitative petrogenetic explanations

Harangi,

Seghedi,

Lukács

2024

View full text Add to dashboard Cite

show abstract

Complex Magma Chamber Dynamics and Volcanic Activity in the Karapınar Volcanic Field: Insights from Mineral and Whole-Rock Chemistry – A Review

Gencoglu Korkmaz,

Kurt

2024

A Comprehensive Study of Volcanic Phenomena [Working Title]

View full text Add to dashboard Cite

The thermal and material conditions of magma chambers influence magma mobilization processes and temporal dynamics, which are crucial for assessing volcanic hazards. Crystals preserve historical magma reservoir information, facilitating alignment with computational simulations. The Karapınar Volcanic Field (KPVF) in Central Anatolia, part of the Cappadocia Volcanic Province, serves as an ideal natural laboratory for studying monogenetic volcanism, characterized by scoria cones along a fault line, maars, and lava flows. Basaltic, basaltic andesitic, and andesitic lavas, along with their pyroclastics, are widespread in this region. The basaltic and basaltic andesitic lava flows incorporate various enclaves, such as magma mixing enclaves, cumulate enclaves, and xenocrysts. They also contain several ocelli, embayed-quartz xenocrysts, and densely sieved plagioclase megacrysts. Meke and Yılan maars exemplify intriguing maar volcanism, with basaltic andesitic lavas containing numerous enclaves. Interestingly, these mafic rocks contain zircon grains (generally found in felsic magmas). The presence of different types of enclaves, mineral textural properties, and zircon-bearing mafic rocks indicate complex magma chamber dynamics in the area. Moreover, whole-rock and mineral chemistry from KPVF reveal complex magmatic histories, emphasizing the presence of multiple feeding and plumbing systems that potentially trigger volcanic activity. Temporally and spatially, mineral chemistry analyses can provide high-resolution insights into the volcano-tectonic history of the region.

show abstract

The role of peridotite and pyroxenite melts in the origin of the Karapınar basalts, Cappadocia Volcanic Province, Central Anatolia

Cited by 2 publications

References 81 publications

The Neogene–Quaternary volcanism of the Carpathian–Pannonian region: from initial plate tectonic models to quantitative petrogenetic explanations

The Neogene–Quaternary volcanism of the Carpathian–Pannonian region: from initial plate tectonic models to quantitative petrogenetic explanations

Complex Magma Chamber Dynamics and Volcanic Activity in the Karapınar Volcanic Field: Insights from Mineral and Whole-Rock Chemistry – A Review

Contact Info

Product

Resources

About