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Petrogenesis and geodynamic process of Hemler, Vlinder, and Il’ichev seamount lavas in NW Pacific

08.27.24 | Science China Press

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Isotopic compositions of Hemler, Vlinder, and Il’ichev seamount lavas and the preferred geodynamic model for their generation.
(a) Ages of Hemler, Vlinder, Pako, Ioah, and Il’ichev seamount lavas in the Magellan seamount area and the predicted ages of the Ratotonga (white dashed outline) and Samoa (yellow solid outline) hotspot tracks (after Finlayson et al., 2018). Pb-Nd isotopic compositions of (b) Hemler, (c) Vlinder, (d) Pako and Ioah, and (e) Il’ichev seamount lavas. (f) In the mid-Cretaceous, as the Pacific plate passed over the Rarotonga plume, direct melting of the Rarotonga plume formed the Magellan seamount tr Credit: ©Science China Press

This study was led by Drs. Xun Wei and Xue-Fa Shi from the First Institute of Oceanography, Ministry of Natural Resources, China. The researchers presented 40 Ar- 39 Ar age, geochemical, and Sr-Nd-Pb-Hf isotopic data of lavas from Hemler, Vlinder, and Il’ichev seamounts in the West Pacific, to elucidate their petrogenesis and geodynamic process.

Oceanic intraplate volcanoes with linear age progressions are usually accepted to be derived from melting of an upwelling mantle plume. Many seamount groups, however, show complex age-distance relationship that are difficult to explain using the classic “mantle plume hypothesis”, and thus their origins are controversial. New 40 Ar- 39 Ar age data of lavas from Hemler, Vlinder, and Il’ichev seamounts in the West Pacific do not lie on the old tracks of Macdonald, Arago, Rarotonga, and Samoa hotspots. They, however, have similar Sr-Nd-Pb-Hf isotopic compositions to Rarotonga and Samoa plumes. The researchers proposed that in the mid-Cretaceous, when the Pacific plate passed over Rarotonga hotspot, melting of Rarotonga plume formed the Vlinder (main-shield stage), Pako, and Ioah seamounts. The Rarotonga (and possibly Samoa) plume materials would have been dispersed into the surrounding asthenosphere by mantle convection. These diffuse plume materials would undergo decompression melting beneath lithosphere fractures that are widely distributed in the Magellan area, generating non-hotspot related Hemler, pre- and post-shield Vlinder, and Il’ichev lavas.

This study indicates that hotspot volcanic rejuvenation along pre-existing fracture zones that caused melting of diffuse plume materials beneath the mid-Cretaceous lithosphere, and preferential channeling of magmas through pre-existing structural weaknesses or volcanic conduits together control the complex age-spatial-geochemical relationships of seamounts with plume-like compositional signatures in the West Pacific.

See the article:

Wei X, Zhang Y, Shi X, Zhang H. 2024. Geochronological and geochemical constraints on the petrogenesis and geodynamic process of Hemler, Vlinder, and Il’ichev seamount lavas in NW Pacific. Science China Earth Sciences, 67(6): 1856–1871, https://doi.org/10.1007/s11430-024-1327-0

Science China Earth Sciences

10.1007/s11430-024-1327-0

Keywords

Physical Sciences

Article Information

Journal
Science China Earth Sciences
DOI
10.1007/s11430-024-1327-0

Contact Information

Bei Yan
Science China Press
yanbei@scichina.com

How to Cite This Article

APA:
Science China Press. (2024, August 27). Petrogenesis and geodynamic process of Hemler, Vlinder, and Il’ichev seamount lavas in NW Pacific. Brightsurf News. https://www.brightsurf.com/news/19NEGYR1/petrogenesis-and-geodynamic-process-of-hemler-vlinder-and-ilichev-seamount-lavas-in-nw-pacific.html
MLA:
"Petrogenesis and geodynamic process of Hemler, Vlinder, and Il’ichev seamount lavas in NW Pacific." Brightsurf News, Aug. 27 2024, https://www.brightsurf.com/news/19NEGYR1/petrogenesis-and-geodynamic-process-of-hemler-vlinder-and-ilichev-seamount-lavas-in-nw-pacific.html.