Palaeogene glendonites from Denmark

Bo Pagh Schultz; Madeleine Vickers; J. Huggett; Henrik Madsen; C Heilmann-Clausen; H. Friis; Erwin Suess

doi:10.37570/bgsd-2020-68-03

Palaeogene glendonites from Denmark

Bo Pagh Schultz^*, Madeleine Vickers, J. Huggett, Henrik Madsen, C Heilmann-Clausen, H. Friis, Erwin Suess

^*Corresponding author for this work

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Abstract

Pristinely preserved mineral pseudomorphs called glendonites, up to 1.6 m long, from the Palaeogene strata of Denmark allow detailed crystallographic characterisation and add to the understanding of the transformation of the precursor mineral, ikaite (CaCO3·6H2O), to calcite, which constitutes the glendonite. We describe Danish pseudomorphs after ikaite from two localities and formations: the Early Eocene Fur Formation and the Late Oligocene Brejning Formation. This detailed study highlights that key aspects such as morphology and mode of occurrence of these ancient glendonites are identical to those of their parent mineral ikaite, when it grows in marine sediments. Systematic distortion of the angles in glendonite and marine sedimentary ikaite relative to the ideal ikaite symmetry may arise due to the incorporation of organic matter into the crystal structure, and we demonstrate the similarity between modern and ancient ikaite formation zones in the marine sedimentary realm with respect to organic matter.

Original language	English
Pages (from-to)	23-35
Journal	Bulletin of the Geological Society of Denmark
Volume	68
DOIs	https://doi.org/10.37570/bgsd-2020-68-03
Publication status	Published - 1 Apr 2020

Keywords

Glendonite
ikaite
morphology
distorted symmetry
Fur Formation
Brejning Formation

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bull68-23-35Final published version, 2.89 MBLicence: CC BY

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title = "Palaeogene glendonites from Denmark",

abstract = "Pristinely preserved mineral pseudomorphs called glendonites, up to 1.6 m long, from the Palaeogene strata of Denmark allow detailed crystallographic characterisation and add to the understanding of the transformation of the precursor mineral, ikaite (CaCO3·6H2O), to calcite, which constitutes the glendonite. We describe Danish pseudomorphs after ikaite from two localities and formations: the Early Eocene Fur Formation and the Late Oligocene Brejning Formation. This detailed study highlights that key aspects such as morphology and mode of occurrence of these ancient glendonites are identical to those of their parent mineral ikaite, when it grows in marine sediments. Systematic distortion of the angles in glendonite and marine sedimentary ikaite relative to the ideal ikaite symmetry may arise due to the incorporation of organic matter into the crystal structure, and we demonstrate the similarity between modern and ancient ikaite formation zones in the marine sedimentary realm with respect to organic matter.",

keywords = "Glendonite, ikaite, morphology, distorted symmetry, Fur Formation, Brejning Formation",

author = "Schultz, {Bo Pagh} and Madeleine Vickers and J. Huggett and Henrik Madsen and C Heilmann-Clausen and H. Friis and Erwin Suess",

year = "2020",

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doi = "10.37570/bgsd-2020-68-03",

language = "English",

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TY - JOUR

T1 - Palaeogene glendonites from Denmark

AU - Schultz, Bo Pagh

AU - Vickers, Madeleine

AU - Huggett, J.

AU - Madsen, Henrik

AU - Heilmann-Clausen, C

AU - Friis, H.

AU - Suess, Erwin

PY - 2020/4/1

Y1 - 2020/4/1

N2 - Pristinely preserved mineral pseudomorphs called glendonites, up to 1.6 m long, from the Palaeogene strata of Denmark allow detailed crystallographic characterisation and add to the understanding of the transformation of the precursor mineral, ikaite (CaCO3·6H2O), to calcite, which constitutes the glendonite. We describe Danish pseudomorphs after ikaite from two localities and formations: the Early Eocene Fur Formation and the Late Oligocene Brejning Formation. This detailed study highlights that key aspects such as morphology and mode of occurrence of these ancient glendonites are identical to those of their parent mineral ikaite, when it grows in marine sediments. Systematic distortion of the angles in glendonite and marine sedimentary ikaite relative to the ideal ikaite symmetry may arise due to the incorporation of organic matter into the crystal structure, and we demonstrate the similarity between modern and ancient ikaite formation zones in the marine sedimentary realm with respect to organic matter.

AB - Pristinely preserved mineral pseudomorphs called glendonites, up to 1.6 m long, from the Palaeogene strata of Denmark allow detailed crystallographic characterisation and add to the understanding of the transformation of the precursor mineral, ikaite (CaCO3·6H2O), to calcite, which constitutes the glendonite. We describe Danish pseudomorphs after ikaite from two localities and formations: the Early Eocene Fur Formation and the Late Oligocene Brejning Formation. This detailed study highlights that key aspects such as morphology and mode of occurrence of these ancient glendonites are identical to those of their parent mineral ikaite, when it grows in marine sediments. Systematic distortion of the angles in glendonite and marine sedimentary ikaite relative to the ideal ikaite symmetry may arise due to the incorporation of organic matter into the crystal structure, and we demonstrate the similarity between modern and ancient ikaite formation zones in the marine sedimentary realm with respect to organic matter.

KW - Glendonite

KW - ikaite

KW - morphology

KW - distorted symmetry

KW - Fur Formation

KW - Brejning Formation

U2 - 10.37570/bgsd-2020-68-03

DO - 10.37570/bgsd-2020-68-03

M3 - Article

SN - 2245-7070

VL - 68

SP - 23

EP - 35

JO - Bulletin of the Geological Society of Denmark

JF - Bulletin of the Geological Society of Denmark

ER -

Palaeogene glendonites from Denmark

Abstract

Keywords

UN SDGs

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