Greenalite: Cryptic Mineral of Ancient Ferruginous Oceans

Janet R. Muhling; Latisha A. Brengman; Jena E. Johnson

doi:10.2138/gselements.21.3.184

Greenalite: Cryptic Mineral of Ancient Ferruginous Oceans

Janet R. Muhling, Latisha A. Brengman, Jena E. Johnson

Earth & Environmental Sciences-Duluth

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

The origin of greenalite in iron-rich Precambrian sedimentary rocks, and its significance in tracking Earth’s oxygenation, is the subject of vigorous debate. While known as a common mineral of the ~1.88 Ga granular iron formations (GIFs) of the Lake Superior district, North America, greenalite was poorly documented in ferruginous cherts and banded IFs (BIFs) deposited prior to the Great Oxidation Event (GOE) at ~2.4 Ga. The advent of nanoscale electron microscopy revealed greenalite nanoparticles “hidden in plain sight,” previously overlooked in well-preserved, pre-GOE BIFs and ferruginous cherts due to their minute size. Here, we document the occurrence of primary greenalite in ancient anoxic and ferruginous sediments and its decline from the rock record as Earth’s surface and oceans became oxygenated.

Original language	English (US)
Pages (from-to)	184-190
Number of pages	7
Journal	Elements
Volume	21
Issue number	3
DOIs	https://doi.org/10.2138/gselements.21.3.184
State	Published - Jun 2025

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© 2025 Mineralogical Society of America. All rights reserved.

Keywords

atmospheric oxygenation
banded iron formation
ferruginous chert
granular iron formation
mud microfabrics
primary precipitates

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10.2138/gselements.21.3.184

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title = "Greenalite: Cryptic Mineral of Ancient Ferruginous Oceans",

abstract = "The origin of greenalite in iron-rich Precambrian sedimentary rocks, and its significance in tracking Earth{\textquoteright}s oxygenation, is the subject of vigorous debate. While known as a common mineral of the \textasciitilde{}1.88 Ga granular iron formations (GIFs) of the Lake Superior district, North America, greenalite was poorly documented in ferruginous cherts and banded IFs (BIFs) deposited prior to the Great Oxidation Event (GOE) at \textasciitilde{}2.4 Ga. The advent of nanoscale electron microscopy revealed greenalite nanoparticles “hidden in plain sight,” previously overlooked in well-preserved, pre-GOE BIFs and ferruginous cherts due to their minute size. Here, we document the occurrence of primary greenalite in ancient anoxic and ferruginous sediments and its decline from the rock record as Earth{\textquoteright}s surface and oceans became oxygenated.",

keywords = "atmospheric oxygenation, banded iron formation, ferruginous chert, granular iron formation, mud microfabrics, primary precipitates",

author = "Muhling, \{Janet R.\} and Brengman, \{Latisha A.\} and Johnson, \{Jena E.\}",

year = "2025",

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T2 - Cryptic Mineral of Ancient Ferruginous Oceans

AU - Muhling, Janet R.

AU - Brengman, Latisha A.

AU - Johnson, Jena E.

PY - 2025/6

Y1 - 2025/6

N2 - The origin of greenalite in iron-rich Precambrian sedimentary rocks, and its significance in tracking Earth’s oxygenation, is the subject of vigorous debate. While known as a common mineral of the ~1.88 Ga granular iron formations (GIFs) of the Lake Superior district, North America, greenalite was poorly documented in ferruginous cherts and banded IFs (BIFs) deposited prior to the Great Oxidation Event (GOE) at ~2.4 Ga. The advent of nanoscale electron microscopy revealed greenalite nanoparticles “hidden in plain sight,” previously overlooked in well-preserved, pre-GOE BIFs and ferruginous cherts due to their minute size. Here, we document the occurrence of primary greenalite in ancient anoxic and ferruginous sediments and its decline from the rock record as Earth’s surface and oceans became oxygenated.

AB - The origin of greenalite in iron-rich Precambrian sedimentary rocks, and its significance in tracking Earth’s oxygenation, is the subject of vigorous debate. While known as a common mineral of the ~1.88 Ga granular iron formations (GIFs) of the Lake Superior district, North America, greenalite was poorly documented in ferruginous cherts and banded IFs (BIFs) deposited prior to the Great Oxidation Event (GOE) at ~2.4 Ga. The advent of nanoscale electron microscopy revealed greenalite nanoparticles “hidden in plain sight,” previously overlooked in well-preserved, pre-GOE BIFs and ferruginous cherts due to their minute size. Here, we document the occurrence of primary greenalite in ancient anoxic and ferruginous sediments and its decline from the rock record as Earth’s surface and oceans became oxygenated.

KW - atmospheric oxygenation

KW - banded iron formation

KW - ferruginous chert

KW - granular iron formation

KW - mud microfabrics

KW - primary precipitates

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Greenalite: Cryptic Mineral of Ancient Ferruginous Oceans

Abstract

Bibliographical note

Keywords

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