Involvement of Slab-Derived Fluid in the Generation of Cenozoic Basalts in Northeast China Inferred From Machine Learning

Yong Zhao; Yigang Zhang; Ming Geng; Jilian Jiang; Xinyu Zou

doi:10.1029/2019GL082322

Involvement of Slab-Derived Fluid in the Generation of Cenozoic Basalts in Northeast China Inferred From Machine Learning

Yong Zhao^*, Yigang Zhang, Ming Geng, Jilian Jiang, Xinyu Zou

^*Corresponding author for this work

Science Institute

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

The origin and involvement of fluid in the generation of Cenozoic basalts in Northeast China are still under debate. Here we apply the machine learning methods of random forest and deep neural network to train models using data sets of global island arc and ocean island basalts. The trained models predict that most Cenozoic basalts in Northeast China are influenced by fluid and that the fluid activity decreases from east to west. The boundary defined by fluid activity coincides with the westernmost edge of the present-day stagnant Pacific slab determined by seismic tomography and with the geochemical boundary defined by magnesium isotopes. These observations support the view that the fluid involved in the generation of the basalts is controlled by the stagnant Pacific slab instead of driven by the plume induced by the sinking Izanagi Plate.

Original language	English
Pages (from-to)	5234-5242
Number of pages	9
Journal	Geophysical Research Letters
Volume	46
Issue number	10
DOIs	https://doi.org/10.1029/2019GL082322
Publication status	Published - 28 May 2019

Bibliographical note

Funding Information:
The present work is supported by the Strategic Priority Research Program (B) of Chinese Academy of Sciences, grant XDB 18000000. The original data used are from GEOROC (http://georoc. mpch‐mainz.gwdg.de/georoc/) database. The data sets used in this study are provided in the supporting information. Constructive reviews by the two anonymous reviewers and the processing of our manuscript by the Editor, Prof. Harihar Rajaram, are greatly appreciated.

Funding Information:
The present work is supported by the Strategic Priority Research Program (B) of Chinese Academy of Sciences, grant XDB 18000000. The original data used are from GEOROC (http://georoc.mpch-mainz.gwdg.de/georoc/) database. The data sets used in this study are provided in the supporting information. Constructive reviews by the two anonymous reviewers and the processing of our manuscript by the Editor, Prof. Harihar Rajaram, are greatly appreciated.

Publisher Copyright:
©2019. American Geophysical Union. All Rights Reserved.

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10.1029/2019GL082322

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title = "Involvement of Slab-Derived Fluid in the Generation of Cenozoic Basalts in Northeast China Inferred From Machine Learning",

abstract = "The origin and involvement of fluid in the generation of Cenozoic basalts in Northeast China are still under debate. Here we apply the machine learning methods of random forest and deep neural network to train models using data sets of global island arc and ocean island basalts. The trained models predict that most Cenozoic basalts in Northeast China are influenced by fluid and that the fluid activity decreases from east to west. The boundary defined by fluid activity coincides with the westernmost edge of the present-day stagnant Pacific slab determined by seismic tomography and with the geochemical boundary defined by magnesium isotopes. These observations support the view that the fluid involved in the generation of the basalts is controlled by the stagnant Pacific slab instead of driven by the plume induced by the sinking Izanagi Plate.",

author = "Yong Zhao and Yigang Zhang and Ming Geng and Jilian Jiang and Xinyu Zou",

note = "Funding Information: The present work is supported by the Strategic Priority Research Program (B) of Chinese Academy of Sciences, grant XDB 18000000. The original data used are from GEOROC (http://georoc. mpch‐mainz.gwdg.de/georoc/) database. The data sets used in this study are provided in the supporting information. Constructive reviews by the two anonymous reviewers and the processing of our manuscript by the Editor, Prof. Harihar Rajaram, are greatly appreciated. Funding Information: The present work is supported by the Strategic Priority Research Program (B) of Chinese Academy of Sciences, grant XDB 18000000. The original data used are from GEOROC (http://georoc.mpch-mainz.gwdg.de/georoc/) database. The data sets used in this study are provided in the supporting information. Constructive reviews by the two anonymous reviewers and the processing of our manuscript by the Editor, Prof. Harihar Rajaram, are greatly appreciated. Publisher Copyright: {\textcopyright}2019. American Geophysical Union. All Rights Reserved.",

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N2 - The origin and involvement of fluid in the generation of Cenozoic basalts in Northeast China are still under debate. Here we apply the machine learning methods of random forest and deep neural network to train models using data sets of global island arc and ocean island basalts. The trained models predict that most Cenozoic basalts in Northeast China are influenced by fluid and that the fluid activity decreases from east to west. The boundary defined by fluid activity coincides with the westernmost edge of the present-day stagnant Pacific slab determined by seismic tomography and with the geochemical boundary defined by magnesium isotopes. These observations support the view that the fluid involved in the generation of the basalts is controlled by the stagnant Pacific slab instead of driven by the plume induced by the sinking Izanagi Plate.

AB - The origin and involvement of fluid in the generation of Cenozoic basalts in Northeast China are still under debate. Here we apply the machine learning methods of random forest and deep neural network to train models using data sets of global island arc and ocean island basalts. The trained models predict that most Cenozoic basalts in Northeast China are influenced by fluid and that the fluid activity decreases from east to west. The boundary defined by fluid activity coincides with the westernmost edge of the present-day stagnant Pacific slab determined by seismic tomography and with the geochemical boundary defined by magnesium isotopes. These observations support the view that the fluid involved in the generation of the basalts is controlled by the stagnant Pacific slab instead of driven by the plume induced by the sinking Izanagi Plate.

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Involvement of Slab-Derived Fluid in the Generation of Cenozoic Basalts in Northeast China Inferred From Machine Learning

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