气候变化领域集成服务门户(CCPortal): Effects of aseismic ridge subduction on the geochemistry of frontal arc magmas

CCPortal

DOI	10.1016/j.epsl.2019.115984
	Effects of aseismic ridge subduction on the geochemistry of frontal arc magmas
	Chiaradia M.; Müntener O.; Beate B.
发表日期	2020
ISSN	0012821X
卷号	531
英文摘要	Aseismic ridges are variably broad linear topographic features built by submarine volcanic activity that are thicker and more buoyant than the surrounding oceanic crust. Together with oceanic plateaus they constitute a non-trivial ∼30% of the oceanic floor. As such, aseismic ridge subduction significantly affects subduction dynamics as well as deformation of the overriding plate. Indeed, it is considered to exert major controls on volcanic activity, the generation of juvenile Earth's crust and the formation of porphyry Cu-Au deposits. Previous studies claimed that magma chemistry changes associated with aseismic ridge subduction are mainly due to source processes, such as melting of the subducting ridge, melting of the edges of the oceanic plate following slab tear, or subduction erosion of the continental margin with subsequent partial melting of the scraped and subducted continental material. Here we explore the role of the subducted aseismic Carnegie ridge on modulating frontal arc magma chemistry in the Ecuadorian-southernmost Colombian frontal arc. We show symmetric changes of several geochemical indices (Th, Nd, Sm, Nb, Th/La, Ba/Th) and evolutionary paths (Na2O-SiO2 correlations) in frontal volcanic arc rocks with respect to the equatorial latitude, which coincides with the projection of the crest of the subducting Carnegie ridge at the frontal arc. We explore the systematic along-arc changes of these geochemical indices through geochemical modelling using a Monte Carlo approach, and conclude that the trends are controlled to a significant extent by intracrustal processes. In particular we argue that magmatic systems associated with the central part of the Ecuadorian volcanic arc evolve through fractionation, partial melting of crustal rocks and mixing, at average greater depths than those in the northern and southern sides. We speculate about possible links between the systematic along-arc geochemical changes and the subduction of the Carnegie ridge. Our findings highlight a new facet of the controls that are exerted by the overriding plate on the geochemical variability of arc magmas. © 2019 Elsevier B.V.
关键词	adakite-like Carnegie ridge Ecuador frontal arc geochemistry modelling
英文关键词	Barium compounds; Binary alloys; Copper alloys; Copper deposits; Gold alloys; Gold deposits; Lanthanum compounds; Melting; Models; Silica; Sodium compounds; Structural geology; Thorium compounds; Volcanic rocks; Volcanoes; Adakites; Carnegie ridge; Continental materials; Ecuador; Frontal arc; Geochemical modelling; Geochemical variability; Monte Carlo approach; Geochemistry; adakite; continental margin; geochemistry; magmatic differentiation; partial melting; subduction; submarine ridge; submarine volcano; Carnegie Ridge; Pacific Ocean
语种	英语
来源期刊	Earth and Planetary Science Letters
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/202543
作者单位	Department of Earth Sciences, University of Geneva, Rue des Maraîchers 13, Geneva, 1205, Switzerland; Institute of Earth Sciences, University of Lausanne, Lausanne, 1015, Switzerland; Department of Geology, Escuela Politécnica Nacional, Quito, Ecuador
推荐引用方式 GB/T 7714	Chiaradia M.,Müntener O.,Beate B.. Effects of aseismic ridge subduction on the geochemistry of frontal arc magmas[J],2020,531.
APA	Chiaradia M.,Müntener O.,&Beate B..(2020).Effects of aseismic ridge subduction on the geochemistry of frontal arc magmas.Earth and Planetary Science Letters,531.
MLA	Chiaradia M.,et al."Effects of aseismic ridge subduction on the geochemistry of frontal arc magmas".Earth and Planetary Science Letters 531(2020).