Wen-Chun Ge

What is he best known for?

The fields of study he is best known for:

• Igneous rock
• Basalt
• Geochemistry

Wen-Chun Ge mostly deals with Geochemistry, Petrology, Zircon, Geochronology and Igneous rock. His work carried out in the field of Geochemistry brings together such families of science as Subduction and Pluton. Wen-Chun Ge interconnects Massif, Syenogranite and Diorite in the investigation of issues within Petrology.

His study in Geochronology is interdisciplinary in nature, drawing from both Cretaceous and Volcanic rock. Wen-Chun Ge has researched Igneous rock in several fields, including Felsic and Magma. His work in Petrogenesis covers topics such as Partial melting which are related to areas like Gondwana.

His most cited work include:

• Geochronology of the Phanerozoic granitoids in northeastern China (857 citations)
• Highly fractionated I-type granites in NE China (I): geochronology and petrogenesis (424 citations)
• Geochronology of the Mesozoic volcanic rocks in the Great Xing'an Range, northeastern China: Implications for subduction-induced delamination (295 citations)

What are the main themes of his work throughout his whole career to date?

His primary areas of study are Geochemistry, Zircon, Petrogenesis, Partial melting and Petrology. Geochemistry is closely attributed to Subduction in his work. The various areas that Wen-Chun Ge examines in his Zircon study include Felsic, Mafic, Igneous rock, Permian and Craton.

The Petrogenesis study combines topics in areas such as Fractional crystallization, Trace element, Magmatism and Pluton. The concepts of his Partial melting study are interwoven with issues in Andesites, Continental crust, Mantle wedge and Peridotite. Wen-Chun Ge combines subjects such as Diorite, Syenogranite, Gabbro and Oceanic crust with his study of Petrology.

He most often published in these fields:

• Geochemistry (100.00%)
• Zircon (81.94%)
• Petrogenesis (50.00%)

What were the highlights of his more recent work (between 2018-2021)?

• Geochemistry (100.00%)
• Zircon (81.94%)
• Subduction (33.33%)

In recent papers he was focusing on the following fields of study:

His primary scientific interests are in Geochemistry, Zircon, Subduction, Partial melting and Petrogenesis. His work on Geochemistry deals in particular with Volcanic rock, Felsic, Continental crust, Mantle and Crust. His Zircon research incorporates themes from Lithosphere and Mafic.

His Subduction research includes elements of Permian and Mesozoic. His study looks at the intersection of Partial melting and topics like Oceanic crust with Petrology and Igneous differentiation. His Petrogenesis research focuses on Geochronology and how it relates to Craton.

Between 2018 and 2021, his most popular works were:

• Early Cretaceous adakitic lavas and A-type rhyolites in the Songliao Basin, NE China: Implications for the mechanism of lithospheric extension (20 citations)
• Geodynamic evolution of flat‐slab subduction of Paleo‐Pacific Plate: constraints from Jurassic adakitic lavas in the Hailar Basin, NE China (16 citations)
• Final Closure of the Paleo-Asian Ocean and Onset of Subduction of Paleo-Pacific Ocean: Constraints From Early Mesozoic Magmatism in Central Southern Jilin Province, NE China (14 citations)

In his most recent research, the most cited papers focused on:

• Igneous rock
• Basalt
• Paleontology

His primary areas of study are Paleontology, Zircon, Geochemistry, Subduction and China. His research integrates issues of Partial melting, Mantle and Lithosphere in his study of Zircon. His Partial melting research is multidisciplinary, relying on both Metamorphism, Closure temperature, Protolith, Transition zone and Peridotite.

His biological study spans a wide range of topics, including Andesites and Crust. His Lithosphere study incorporates themes from Permian, Magma, Mafic and Continental arc. In his study, Magmatism is strongly linked to Igneous rock, which falls under the umbrella field of Petrogenesis.

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