Felsic plutonic rocks from IODP Hole 1256D, Eastern Pacific: Implications for the nature of the axial melt lens at fast-spreading mid-ocean ridges

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Chao Zhang
  • Juergen Koepke
  • Lydéric France
  • Marguerite Godard

Organisationseinheiten

Externe Organisationen

  • Géosciences Montpellier
  • Université de Lorraine (UL)
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Details

OriginalspracheEnglisch
Seiten (von - bis)1535-1566
Seitenumfang32
FachzeitschriftJournal of Petrology
Jahrgang58
Ausgabenummer8
PublikationsstatusVeröffentlicht - Aug. 2017

Abstract

Although the axial melt lens (AML) beneath fast-spreading mid-ocean ridges has been detected by seismic reflection for decades, its nature and role in the accretion of lower oceanic crust and the evolution and eruption of mid-ocean ridge basalts (MORB) are still poorly constrained. Plutonic rocks consisting of quartz-bearing gabbros, diorites and tonalites, which might represent the upper part of a fossilized AML, have for the first time been recovered from an intact fast-spreading oceanic crust section by Integrated Ocean Drilling Program (IODP) Hole 1256D. Whole-rock major elements show a wide and continuous compositional range (e.g. Mg# 24-70) and apparent enrichments in Ti and Fe at intermediate MgO contents (4-6 wt %). Trace element characteristics are coherent for the different lithology groups defined by petrography and mineral modes; that is, gabbro, clinopyroxene-rich diorite, amphibole-rich or oxide-rich diorite and tonalite. The gabbros and diorites are consistent with modeled products of MORB fractional crystallization, composed of mixed melt and cumulate in varying ratios. Modeled trace elements (especially with respect to Eu) support a model in which the tonalites originated from low-degree partial melting of the sheeted dikes overlying the AML, rather than extreme fractional crystallization. Enrichments in rare earth elements (REE) in clinopyroxenes from the gabbroic and dioritic intrusive rocks suggest strong assimilation of REE-rich tonalitic components by evolved MORB magmas. Hydrothermal alteration was pervasive during cooling of the plutonic system, which can be traced by petrography, mineral compositions and bulk-rock geochemistry. The upper part of AML, largely composed of lowdensity and high-viscosity felsic magmas, may serve as a barrier to eruptible MORB melts in the lower part of AML.

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Felsic plutonic rocks from IODP Hole 1256D, Eastern Pacific: Implications for the nature of the axial melt lens at fast-spreading mid-ocean ridges. / Zhang, Chao; Koepke, Juergen; France, Lydéric et al.
in: Journal of Petrology, Jahrgang 58, Nr. 8, 08.2017, S. 1535-1566.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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title = "Felsic plutonic rocks from IODP Hole 1256D, Eastern Pacific: Implications for the nature of the axial melt lens at fast-spreading mid-ocean ridges",
abstract = "Although the axial melt lens (AML) beneath fast-spreading mid-ocean ridges has been detected by seismic reflection for decades, its nature and role in the accretion of lower oceanic crust and the evolution and eruption of mid-ocean ridge basalts (MORB) are still poorly constrained. Plutonic rocks consisting of quartz-bearing gabbros, diorites and tonalites, which might represent the upper part of a fossilized AML, have for the first time been recovered from an intact fast-spreading oceanic crust section by Integrated Ocean Drilling Program (IODP) Hole 1256D. Whole-rock major elements show a wide and continuous compositional range (e.g. Mg# 24-70) and apparent enrichments in Ti and Fe at intermediate MgO contents (4-6 wt %). Trace element characteristics are coherent for the different lithology groups defined by petrography and mineral modes; that is, gabbro, clinopyroxene-rich diorite, amphibole-rich or oxide-rich diorite and tonalite. The gabbros and diorites are consistent with modeled products of MORB fractional crystallization, composed of mixed melt and cumulate in varying ratios. Modeled trace elements (especially with respect to Eu) support a model in which the tonalites originated from low-degree partial melting of the sheeted dikes overlying the AML, rather than extreme fractional crystallization. Enrichments in rare earth elements (REE) in clinopyroxenes from the gabbroic and dioritic intrusive rocks suggest strong assimilation of REE-rich tonalitic components by evolved MORB magmas. Hydrothermal alteration was pervasive during cooling of the plutonic system, which can be traced by petrography, mineral compositions and bulk-rock geochemistry. The upper part of AML, largely composed of lowdensity and high-viscosity felsic magmas, may serve as a barrier to eruptible MORB melts in the lower part of AML.",
keywords = "Axial melt lens, East Pacific Rise, Fractional crystallization, Hole 1256D, IODP, Mid-ocean ridge, Partial melting",
author = "Chao Zhang and Juergen Koepke and Lyd{\'e}ric France and Marguerite Godard",
note = "Funding information: We gratefully acknowledge the shipboard crew and Scientific Party of IODP Expeditions 312 and 335 for their assistance in data collection. The samples used in this study were provided by the Integrated Ocean Drilling Program. We thank Felix Genske and an anonymous reviewer for critical and insightful comments. We also thank Prof. Marjorie Wilson for editorial handling and polishing the language. This research was funded by the DFG (Deutsche Forschungsgemeinschaft) project KO 1723/17",
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TY - JOUR

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T2 - Implications for the nature of the axial melt lens at fast-spreading mid-ocean ridges

AU - Zhang, Chao

AU - Koepke, Juergen

AU - France, Lydéric

AU - Godard, Marguerite

N1 - Funding information: We gratefully acknowledge the shipboard crew and Scientific Party of IODP Expeditions 312 and 335 for their assistance in data collection. The samples used in this study were provided by the Integrated Ocean Drilling Program. We thank Felix Genske and an anonymous reviewer for critical and insightful comments. We also thank Prof. Marjorie Wilson for editorial handling and polishing the language. This research was funded by the DFG (Deutsche Forschungsgemeinschaft) project KO 1723/17

PY - 2017/8

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N2 - Although the axial melt lens (AML) beneath fast-spreading mid-ocean ridges has been detected by seismic reflection for decades, its nature and role in the accretion of lower oceanic crust and the evolution and eruption of mid-ocean ridge basalts (MORB) are still poorly constrained. Plutonic rocks consisting of quartz-bearing gabbros, diorites and tonalites, which might represent the upper part of a fossilized AML, have for the first time been recovered from an intact fast-spreading oceanic crust section by Integrated Ocean Drilling Program (IODP) Hole 1256D. Whole-rock major elements show a wide and continuous compositional range (e.g. Mg# 24-70) and apparent enrichments in Ti and Fe at intermediate MgO contents (4-6 wt %). Trace element characteristics are coherent for the different lithology groups defined by petrography and mineral modes; that is, gabbro, clinopyroxene-rich diorite, amphibole-rich or oxide-rich diorite and tonalite. The gabbros and diorites are consistent with modeled products of MORB fractional crystallization, composed of mixed melt and cumulate in varying ratios. Modeled trace elements (especially with respect to Eu) support a model in which the tonalites originated from low-degree partial melting of the sheeted dikes overlying the AML, rather than extreme fractional crystallization. Enrichments in rare earth elements (REE) in clinopyroxenes from the gabbroic and dioritic intrusive rocks suggest strong assimilation of REE-rich tonalitic components by evolved MORB magmas. Hydrothermal alteration was pervasive during cooling of the plutonic system, which can be traced by petrography, mineral compositions and bulk-rock geochemistry. The upper part of AML, largely composed of lowdensity and high-viscosity felsic magmas, may serve as a barrier to eruptible MORB melts in the lower part of AML.

AB - Although the axial melt lens (AML) beneath fast-spreading mid-ocean ridges has been detected by seismic reflection for decades, its nature and role in the accretion of lower oceanic crust and the evolution and eruption of mid-ocean ridge basalts (MORB) are still poorly constrained. Plutonic rocks consisting of quartz-bearing gabbros, diorites and tonalites, which might represent the upper part of a fossilized AML, have for the first time been recovered from an intact fast-spreading oceanic crust section by Integrated Ocean Drilling Program (IODP) Hole 1256D. Whole-rock major elements show a wide and continuous compositional range (e.g. Mg# 24-70) and apparent enrichments in Ti and Fe at intermediate MgO contents (4-6 wt %). Trace element characteristics are coherent for the different lithology groups defined by petrography and mineral modes; that is, gabbro, clinopyroxene-rich diorite, amphibole-rich or oxide-rich diorite and tonalite. The gabbros and diorites are consistent with modeled products of MORB fractional crystallization, composed of mixed melt and cumulate in varying ratios. Modeled trace elements (especially with respect to Eu) support a model in which the tonalites originated from low-degree partial melting of the sheeted dikes overlying the AML, rather than extreme fractional crystallization. Enrichments in rare earth elements (REE) in clinopyroxenes from the gabbroic and dioritic intrusive rocks suggest strong assimilation of REE-rich tonalitic components by evolved MORB magmas. Hydrothermal alteration was pervasive during cooling of the plutonic system, which can be traced by petrography, mineral compositions and bulk-rock geochemistry. The upper part of AML, largely composed of lowdensity and high-viscosity felsic magmas, may serve as a barrier to eruptible MORB melts in the lower part of AML.

KW - Axial melt lens

KW - East Pacific Rise

KW - Fractional crystallization

KW - Hole 1256D

KW - IODP

KW - Mid-ocean ridge

KW - Partial melting

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