Distribution of melt along the East Pacific Rise from 9°30′ to 10°N from an amplitude variation with angle of incidence (AVA) technique

Marjanović, M.; Carton, H. D.; Carbotte, S. M.; Nedimović, M. R.; Canales, J. P.

doi:10.1093/gji/ggv251

Cited by 14 publications

(59 citation statements)

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“…Elsewhere, the signal of low‐velocity anomaly is weak (<200 m/s) and in places, it is contrasting with the results from previous studies on melt distribution (Marjanović et al, ; Xu et al, ). For instance, while the AML segment extending between 9°40 and 42′N was characterized as a highly molten region, with bright reflection and shear velocities dropping to zero (Xu et al, ), the 2‐D waveform inversion shows only slight change in velocity (<100 m/s).…”

Section: Discussioncontrasting

confidence: 74%

“…In addition to the upper crustal variations in velocities, we also image a subhorizontal, low‐velocity zone at ~1,500 m below the seafloor, visible north of 9°43′N that we attribute to the presence of the AML, a heat source for the onset and maintenance of hydrothermal activity (Figures b, , and S10). The strongest low‐velocity signal is observed around 9°50′N (about 500 m/s lower than the surrounding), where the AML is defined as mostly molten, with prominent patches of highly molten regions (Marjanović et al, ). It is also the area of hydrothermal discharge (Baker et al, ; Fornari et al, ), supporting the idea that permeability and thermal regime are equally important in determining the distribution of vent sites (Canales et al, ; Singh et al, ).…”

Section: Discussionmentioning

confidence: 73%

“…The blue stars indicate locations of the vents extracted from earlier studies (e.g., Haymon et al, ). The yellow, orange, and red rectangles represent interpretation of melt distribution along the EPR from Marjanović et al () where yellow represents solidified to mushy, orange mostly molten, and red highly molten portions of the AML segments defined by Carbotte et al (). The red and blue rectangles at the bottom show signal from ephemeral, oxidation‐reduction potential (ORP) and broadly dispersing nephelometric turbidity units (NTU), respectively, from Baker et al ().…”

Section: Resultsmentioning

confidence: 99%

“…An illustration of processes taking place at the EPR compiling results on the hydrothermal circulation (this study), presence of the AML, its magmatic segmentation (Carbotte et al, ), and melt distribution (Marjanović et al, ). The blue and red regions with arrows superimposed indicate the presence of downgoing and upgoing pathways of a hydrothermal cell (as in Figure 8c), present within the upper crust.…”

Section: Discussionmentioning

confidence: 99%

“…The analysis of the along‐axis data indicated the presence of a fine‐scale AML segmentation linked to the seafloor morphology (Carbotte et al, , ). In addition, it has been shown that some of the AML segments are highly molten (Marjanović et al, ; Xu et al, ). To further explore and characterize zero‐age upper crust along the EPR, we apply elastic 2‐D wave‐equation based techniques (wave equation tomography and waveform inversion) to redatumed axis‐centered seismic profile spanning the region between ~9°16′ and 9°56′N.…”

Section: Introductionmentioning

confidence: 99%

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Seismic Signatures of Hydrothermal Pathways Along the East Pacific Rise Between 9°16′ and 9°56′N

et al. 2017

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We apply wave equation‐based techniques to 2‐D seismic data to characterize the nature of zero‐age upper crust at the East Pacific Rise from 9°16′ to 9°56′N. The final velocity model reveals a number of low‐velocity anomalies, complex in shape, extending down to ~1 km below the seafloor. We attribute them to the presence of hydrothermal flow. Depending on their spatial correlation with the previously identified tectonic discontinuities in bathymetry and presence of venting, we classify them as downgoing and upgoing pathways, respectively. This distinction is not always clear; within the third‐order discontinuities at 9°20′ and 9°37′N, both pathways may be present. The region north of 9°44′N, known for its magmatic robustness and volcanic activity, is represented by five low‐velocity perturbations. Three of these anomalies are spatially correlated with the fourth‐order discontinuities and attributed to the presence of the on‐axis recharge zones. The remaining two anomalies underlie two vent clusters, marked as hydrothermally active sites after the last documented eruption event. These velocity anomalies can be thus identified as the up‐flow pathways or at least their remnants. By comparing our results to the available interdisciplinary data sets, we show that the interaction between the tectono‐magmatic and hydrothermal processes is not straightforward due to different timescales at which they operate. However, for developing, maintaining, and driving vigorous, high‐temperature hydrothermal flow, the high crustal permeability and high thermal regime must coexist in time and space.

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Section: Discussioncontrasting

confidence: 74%

Section: Discussionmentioning

confidence: 73%

Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Seismic Signatures of Hydrothermal Pathways Along the East Pacific Rise Between 9°16′ and 9°56′N

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Constraints on melt content of off‐axis magma lenses at the East Pacific Rise from analysis of 3‐D seismic amplitude variation with angle of incidence

et al. 2017

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We use 3‐D multichannel seismic data to form partial angle P wave stacks and apply amplitude variation with angle (AVA) crossplotting to assess melt content and melt distribution within two large midcrustal off‐axis magma lenses (OAMLs) found along the East Pacific Rise from 9°37.5′N to 9°57′N. The signal envelope of the partial angle stacks suggests that both OAMLs are partially molten with higher average melt content and more uniform melt distribution in the southern OAML than in the northern OAML. For AVA crossplotting, the OAMLs are subdivided into seven ~1 km2 analysis windows. The AVA crossplotting results indicate that the OAMLs contain a smaller amount of melt than the axial magma lens (AML). For both OAMLs, a higher melt fraction is detected within analysis windows located close to the ridge axis than within the most distant windows. The highest average melt concentration is interpreted for the central sections of the OAMLs. The overall low OAML melt content could be indicative of melt lost due to recent off‐axis eruptions, drainage to the AML, or limited mantle melt supply. Based on the results of this and earlier bathymetric, morphological, geochemical, and geophysical investigations, we propose that the melt‐poor OAML state is largely the result of limited melt supply from the underlying mantle source reservoir with smaller contribution attributed to melt leakage to the AML. We hypothesize that the investigated OAMLs have a longer period of melt replenishment, lower eruption recurrence rates, and lower eruption volumes than the AML, though some could be single intrusion events.

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The significance of plagioclase textures in mid-ocean ridge basalt (Gakkel Ridge, Arctic Ocean)

Bennett

Lissenberg

Cashman

2019

Contrib Mineral Petrol

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Textures and compositions of minerals can be used to infer the physiochemical conditions present within magmatic systems. Given that plagioclase is an abundant phase in many magmatic systems, understanding the link between texture and process is vital. Here, we present a database of textural and compositional data for > 1800 plagioclase crystals in mid-ocean ridge basalt from the Gakkel Ridge (Arctic Ocean) to investigate the physiochemical conditions and processes that govern the formation of plagioclase textures and compositions. The Gakkel basalts have high modal crystal contents (up to 50%). The crystal cargo is complex, with both individual plagioclase and glomerocrysts showing large variations in crystal habit, zoning and resorption. The most common types of zoning are reverse and patchy; we attribute patchy zoning to infilling following either skeletal growth or resorption. Resorption is abundant, with multiple resorption events commonly present in a single crystal, and results from both magmatic recharge and decompression. Periods of strong undercooling, distinct to quench crystallisation, are indicated by matured skeletal crystals and thin normally zoned melt inclusion-rich bands following resorption. Individual samples often contain diverse textural and compositional plagioclase groups. Furthermore, most plagioclase is not in equilibrium with its host melt. Finally, the porous open structures of some glomerocrysts suggest that they represent pieces of entrained disaggregated mush. We interpret this to indicate that the crystal cargo is not generally phenocrystic in origin. Instead, plagioclase crystals that formed in different parts of a mush-dominated plumbing system were entrained into ascending melts. The textures of individual crystals are a function of their respective histories of (under)cooling, magma mixing and decompression. The morphologies of melt inclusion trapped in the plagioclase crystals are associated with specific host crystal textures, suggesting a link between plagioclase crystallisation processes and melt inclusion entrapment. The database of plagioclase presented herein may serve as a template for the interpretation of plagioclase textures in magmatic systems elsewhere. Electronic supplementary material The online version of this article (10.1007/s00410-019-1587-1) contains supplementary material, which is available to authorized users.

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Distribution of melt along the East Pacific Rise from 9°30′ to 10°N from an amplitude variation with angle of incidence (AVA) technique

Cited by 14 publications

References 91 publications

Seismic Signatures of Hydrothermal Pathways Along the East Pacific Rise Between 9°16′ and 9°56′N

Seismic Signatures of Hydrothermal Pathways Along the East Pacific Rise Between 9°16′ and 9°56′N

Constraints on melt content of off‐axis magma lenses at the East Pacific Rise from analysis of 3‐D seismic amplitude variation with angle of incidence

The significance of plagioclase textures in mid-ocean ridge basalt (Gakkel Ridge, Arctic Ocean)

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