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Absolute magnetization of the seafloor at a basalt-hosted hydrothermal site: Insights from a deep-sea submersible survey (2015)

Szitkar, Florent ; Dyment, Jérôme ; Fouquet, Yves ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Geophysical Research Letters, 42 (4). pp. 1046-1052.

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Publication Date: 2017-11-22

Description: The analysis of high-resolution vector magnetic data acquired by deep-sea submersibles (DSSs) requires the development of specific approaches adapted to their uneven tracks. We present a method that takes advantage of (1) the varying altitude of the DSS above the seafloor and (2) high-resolution multibeam bathymetric data acquired separately, at higher altitude, by an Autonomous Underwater Vehicle, to estimate the absolute magnetization intensity and the magnetic polarity of the shallow subseafloor along the DSS path. We apply this method to data collected by DSS Nautile on a small active basalt-hosted hydrothermal site. The site is associated with a lack of magnetization, in agreement with previous findings at the same kind of sites: the contrast between nonmagnetic sulfide deposits/stockwork zone and strongly magnetized basalt is sufficient to explain the magnetic signal observed at such a low altitude. Both normal and reversed polarities are observed in the lava flows surrounding the site, suggesting complex history of accumulating volcanic flows.

Type: Article , PeerReviewed

Format: text

DOI: 10.1002/2014GL062791

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Dyking at EPR 16°N hypermagmatic ridge segment: Insights from near-seafloor magnetics (2016)

Szitkar, Florent ; Dyment, Jerome ; Le Saout, Morgane ; [et al.]

Elsevier

In: Earth and Planetary Science Letters, 453 . pp. 288-297.

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Publication Date: 2019-02-01

Description: Highlights • New inversion method resolves high-resolution magnetic anomaly along uneven routes. • Linear magnetic lows depict multiple shallow dyke swarms. • These dyke swarms confirm the hypermagmatic activity of the segment. Abstract High-resolution, near-seafloor magnetic data have been acquired over the 16°N hypermagmatic segment of the East-Pacific Rise using an Autonomous Underwater Vehicle. This survey proves to be ideal to test the relative efficiency of various inversion methods applied to data acquired at a more or less constant altitude above the seafloor. Unlike other methods, a recently published Bayesian inversion preserves the short wavelengths and allows for the resolution of a high-resolution reduced-to-the-pole magnetic anomaly. This anomaly unveils the presence of several laterally adjacent dykes associated with individually separated Axial Summit Troughs. The observation of such anomalies, and therefore of shallow dykes, confirms the hypermagmatic character of the segment in a location where complex magma chambers have been imaged in seismic reflection studies. Variable intensity of the magnetic anomalies reflects the depth of the dyke swarms and, ultimately, the timing and style of eruptive events, helping to constrain the spreading axis evolution.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.epsl.2016.08.020

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High-resolution magnetic signature of active hydrothermal systems in the back-arc spreading region of the southern Mariana Trough (2015)

Fujii, Masakazu ; Okino, Kyoko ; Honsho, Chie ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Journal of Geophysical Research: Solid Earth, 120 (5). pp. 2821-2837.

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Publication Date: 2017-05-02

Description: High-resolution vector magnetic measurements were performed on five hydrothermal vent fields of the back-arc spreading region of the southern Mariana Trough using Shinkai 6500, a deep-sea manned submersible. A new 3-D forward scheme was applied that exploits the surrounding bathymetry and varying altitudes of the submersible to estimate absolute crustal magnetization. The results revealed that magnetic-anomaly-derived absolute magnetizations show a reasonable correlation with natural remanent magnetizations of rock samples collected from the seafloor of the same region. The distribution of magnetic-anomaly-derived absolute magnetization suggests that all five andesite-hosted hydrothermal fields are associated with a lack of magnetization, as is generally observed at basalt-hosted hydrothermal sites. Furthermore, both the Pika and Urashima sites were found to have their own distinct low-magnetization zones, which could not be distinguished in magnetic anomaly data collected at higher altitudes by autonomous underwater vehicle due to their limited extension. The spatial extent of the resulting low magnetization is approximately 10 times wider at off-axis sites than at on-axis sites, possibly reflecting larger accumulations of nonmagnetic sulfides, stockwork zones, and/or alteration zones at the off-axis sites.

Type: Article , PeerReviewed

Format: text

DOI: 10.1002/2014JB011714

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