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Detalhes Referência

Tipo
Artigos em Revista

Tipo de Documento
Artigo Completo

Título
Evidence of a distal axis inactive high-temperature hydrothermal field on the ultraslow spreading Southwest Indian Ridge: Insights from mineralogy and geochemistry studies

Participantes na publicação
Shili Liao (Author)
Chunhui Tao (Author)
Ágata Alveirinho Dias (Author)
Instituto Dom Luiz (IDL), Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749–016, Lisboa, Portugal
Institute for Science and Environment, University of Saint Joseph, Macau
Dep. Geologia
Xianming Deng (Author)
Siyi Hu (Author)
Jin Liang (Author)
Weifang Yang (Author)
Xianhui Yang (Author)

Resumo
The development of hydrothermal activities on mid-ocean ridges is primarily influenced by magmatic and tectonic activities close to the ridge axis. On slow and ultraslow spreading ridges featured by limited magma supply, prolonged hydrothermal activity can also occur in non-transform offsets (NTO), where sustained ultramafic-related hydrothermal circulation happens due to prolonged hydrothermal processes associated with the expose of ultramafic rocks. In contrast, basalt-hosted hydrothermal fields are barely developed in NTOs, especially in off-axis area, due to insufficient magma supply. In this study, we reported the occurrence of a distal axis (∼9.5 km) basalt-hosted hydrothermal field (50.63°E) on the NTO of segment 27 of the ultraslow spreading Southwest Indian ridge. The hydrothermal products are characterized by layered crusts mainly composed of oxides, such as limonite and goethite, rich in Fe and depleted in Si. These crusts contain high contents of trace elements derived from seawater, such as P, As, Mo, U, and Sb and show REE pattens with negative Eu and mostly positive Ce anomalies. However, the high Cu content (1.82 ± 0.89 wt%, N = 27), low absorption ratio of Cu (18.39 ± 12.71%, N = 9), and residual chalcopyrite altered by goethite suggest prior high-temperature hydrothermal activity. Lead isotopic composition with basaltic rocks signatures that distinct from those of low-temperature crusts of seawater origin also support this conclusion. The Fe-rich crusts appears to be the result of high-temperature sulfides altered by late-stage low-temperature diffuse flow. This field is currently the furthest known distal axis basalt-hosted hydrothermal field located in NTOs of ultraslow spreading ridges. The hydrothermal circulation is likely due to a combination of off-axis normal fault and gabbro diking. Our results emphasize the occurrence of distal axis basalt-hosted high-temperature hydrothermal activities on NTOs of ultraslow spreading ridges, and may lead to an increased estimation of hydrothermal heat and chemical influx to the ocean.

Data de Publicação
2023-11

Suporte
Marine Geology

Identificadores da Publicação
ISSN - 0025-3227

Editora
Elsevier BV

Volume
465

Página Inicial
107158

Identificadores do Documento
DOI - https://doi.org/10.1016/j.margeo.2023.107158
URL - http://dx.doi.org/10.1016/j.margeo.2023.107158


Exportar referência

APA
Shili Liao, Chunhui Tao, Ágata Alveirinho Dias, Xianming Deng, Siyi Hu, Jin Liang, Weifang Yang, Xianhui Yang, (2023). Evidence of a distal axis inactive high-temperature hydrothermal field on the ultraslow spreading Southwest Indian Ridge: Insights from mineralogy and geochemistry studies. Marine Geology, 465, ISSN 0025-3227. eISSN . http://dx.doi.org/10.1016/j.margeo.2023.107158

IEEE
Shili Liao, Chunhui Tao, Ágata Alveirinho Dias, Xianming Deng, Siyi Hu, Jin Liang, Weifang Yang, Xianhui Yang, "Evidence of a distal axis inactive high-temperature hydrothermal field on the ultraslow spreading Southwest Indian Ridge: Insights from mineralogy and geochemistry studies" in Marine Geology, vol. 465, 2023. 10.1016/j.margeo.2023.107158

BIBTEX
@article{59544, author = {Shili Liao and Chunhui Tao and Ágata Alveirinho Dias and Xianming Deng and Siyi Hu and Jin Liang and Weifang Yang and Xianhui Yang}, title = {Evidence of a distal axis inactive high-temperature hydrothermal field on the ultraslow spreading Southwest Indian Ridge: Insights from mineralogy and geochemistry studies}, journal = {Marine Geology}, year = 2023, volume = 465 }