Evidence for iron-rich sulfate melt during magnetite(-apatite) mineralization at El Laco, Chile

被引：27

作者：

Bain, Wyatt M. ^{[1
]}

Steele-MacInnis, Matthew ^{[1
]}

Tornos, Fernando ^{[2
,3
]}

Hanchar, John M. ^{[3
]}

Creaser, Emily C. ^{[1
]}

Pietruszka, Dorota K. ^{[3
]}

机构：

[1] Univ Alberta, Dept Earth & Atmospher Sci, Edmonton, AB T6G 2E3, Canada

[2] CSIC UCM, Inst Geociencias IGEO, Dr Severo Ochoa 7, Madrid 28040, Spain

[3] Mem Univ Newfoundland, Dept Earth Sci, St John, NF A1B 3X5, Canada

来源：

GEOLOGY | 2021年 / 49卷 / 09期

基金：

加拿大自然科学与工程研究理事会;

关键词：

FLUID INCLUSIONS; KIRUNA-TYPE; NORTHERN CHILE; ORIGIN; VOLCANO; ISOTOPE; SYSTEM; ORE; CARBONATE; EVOLUTION;

D O I：

10.1130/G48861.1

中图分类号：

P5 [地质学];

学科分类号：

0709 ; 081803 ;

摘要：

The origins of Kiruna-type magnetite(-apatite) [Mt(-Ap)] deposits are contentious, with existing models ranging from purely hydrothermal to orthomagmatic end members. Here, we evaluate the compositions of fluids that formed the classic yet enigmatic Mt(-Ap) deposit at El Laco, northern Chile. We report evidence that ore-stage minerals crystallized from an Fe-rich (6-17 wt% Fe) sulfate melt. We suggest that a major component of the liquid was derived from assimilation of evaporite-bearing sedimentary rocks during emplacement of andesitic magma at depth. Hence, we argue that assimilation of evaporite-bearing sedimentary strata played a key role in the formation of El Laco and likely Mt(-Ap) deposits elsewhere.

引用

页码：1044 / 1048

页数：5

共 37 条

[1] Genetic model of the El Laco magnetite-apatite deposits by extrusion of iron-rich melt
Tobias Keller
Fernando Tornos
John M. Hanchar
Dorota K. Pietruszka
Arianna Soldati
Donald B. Dingwell
Jenny Suckale
Nature Communications, 13
[2] Genetic model of the El Laco magnetite-apatite deposits by extrusion of iron-rich melt
Keller, Tobias
Tornos, Fernando
Hanchar, John M.
Pietruszka, Dorota K.
Soldati, Arianna
Dingwell, Donald B.
Suckale, Jenny
NATURE COMMUNICATIONS, 2022, 13 (01)
[3] Iron-rich melts, magmatic magnetite, and superheated hydrothermal systems: The El Laco deposit, Chile
Tornos, Fernando
Velasco, Francisco
Hanchar, John M.
GEOLOGY, 2016, 44 (06) : 427 - 430
[4] The Geochemistry of Magnetite and Apatite from the El Laco Iron Oxide-Apatite Deposit, Chile: Implications for Ore Genesis
La Cruz, Nikita L.
Ovalle, J. Tomas
Simon, Adam C.
Konecke, Brian A.
Barra, Fernando
Reich, Martin
Leisen, Mathieu
Childress, Tristan M.
ECONOMIC GEOLOGY, 2020, 115 (07) : 1461 - 1491
[5] Magnetite spherules in pyroclastic iron ore at El Laco, Chile
Nystrom, Jan Olov
Henriquez, Fernando
Naranjo, Jose A.
Naslund, H. Richard
AMERICAN MINERALOGIST, 2016, 101 (3-4) : 587 - 595
[6] Mineral chemistry of magnetite from magnetite-apatite mineralization and their host rocks: examples from Kiruna, Sweden, and El Laco, Chile
Broughm, Shannon G.
Hanchar, John M.
Tornos, Fernando
Westhues, Anne
Attersley, Samuel
MINERALIUM DEPOSITA, 2017, 52 (08) : 1223 - 1244
[7] Mineral chemistry of magnetite from magnetite-apatite mineralization and their host rocks: examples from Kiruna, Sweden, and El Laco, Chile
Shannon G. Broughm
John M. Hanchar
Fernando Tornos
Anne Westhues
Samuel Attersley
Mineralium Deposita, 2017, 52 : 1223 - 1244
[8] The relationship of destinezite to the acid sulfate alteration at the El Laco magnetite deposit, Chile
Velasco, Francisco
De La Pinta, Noelia
Tornos, Fernando
Briezewski, Thomas
Larranãga, Aitor
American Mineralogist, 2020, 105 (06): : 860 - 872
[9] Immiscible iron- and silica-rich melts and magnetite geochemistry at the El Laco volcano (northern Chile): Evidence for a magmatic origin for the magnetite deposits
Velasco, Francisco
Tornos, Fernando
Hanchar, John M.
ORE GEOLOGY REVIEWS, 2016, 79 : 346 - 366
[10] The relationship of destinezite to the acid sulfate alteration at the El Laco magnetite deposit, Chile
Velasco, Francisco
De la Pinta, Noelia
Tornos, Fernando
Briezewski, Thomas
Larranaga, Aitor
AMERICAN MINERALOGIST, 2020, 105 (06) : 860 - 872

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