Skip to main content

Lund University Publications

LUND UNIVERSITY LIBRARIES

Palaeozoic 'conodont pearls' and other phosphatic micro-spherules

Lindskog, Anders LU ; Eriksson, Mats E. LU ; Bergström, Stig M. ; Terfelt, Fredrik LU and Marone, Federica (2017) In Lethaia 50(1). p.26-40
Abstract

Sub-millimetre-sized phosphatic spherules are often found in acetic acid-insoluble residues produced for microfossil extraction. As they are typically associated with conodont elements and have a similar chemical composition, they are informally known as 'conodont pearls'. Still, the origin of these micro-spherules has been controversial, and authors have disagreed regarding their mode of formation, or if they are biogenic or not. In this study, an assortment of micro-spherules from several localities and stratigraphical levels were analysed using multiple methods, in an effort to shed light on the origin of these enigmatic objects: ocular investigation with a stereomicroscope, chemical analyses employing energy-dispersive mass... (More)

Sub-millimetre-sized phosphatic spherules are often found in acetic acid-insoluble residues produced for microfossil extraction. As they are typically associated with conodont elements and have a similar chemical composition, they are informally known as 'conodont pearls'. Still, the origin of these micro-spherules has been controversial, and authors have disagreed regarding their mode of formation, or if they are biogenic or not. In this study, an assortment of micro-spherules from several localities and stratigraphical levels were analysed using multiple methods, in an effort to shed light on the origin of these enigmatic objects: ocular investigation with a stereomicroscope, chemical analyses employing energy-dispersive mass spectrometry, imaging through scanning electron microscope, and synchrotron radiation X-ray tomographic microscopy. Collectively, the techniques employed allow for near-complete characterization and description of the study specimens. At least five different groups, or morphotypes, of spherules can be discerned, which differ both in morphological and chemical details. Most specimens are notably spherical and display concentric layers of growth. Several of the specimens have a central nucleus, sometimes with one or more objects located closely together. Internal details and chemistry suggest that the phosphatic spherules probably are of different origin. Thus, the term 'conodont pearl' encompasses confusingly similar objects deriving from different organisms and/or processes, and only careful analysis can reveal their individual origin. The only organisms unequivocally associated with (in situ) phosphatic micro-spherules are ceramoporid bryozoans, and the conodonts Cordylodus and Westergaardodina, but the possible function and significance of these objects remain enigmatic.

(Less)
Please use this url to cite or link to this publication:
author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Affinity, Chemistry, Conodont pearls, Morphology, Phosphatic micro-spherules
in
Lethaia
volume
50
issue
1
pages
26 - 40
publisher
Taylor & Francis
external identifiers
  • wos:000390394700003
  • scopus:84962424363
ISSN
0024-1164
DOI
10.1111/let.12172
language
English
LU publication?
yes
id
48fe00de-3f6f-4451-9b08-3cc4a446d345
date added to LUP
2016-09-22 08:48:57
date last changed
2024-01-04 12:55:53
@article{48fe00de-3f6f-4451-9b08-3cc4a446d345,
  abstract     = {{<p>Sub-millimetre-sized phosphatic spherules are often found in acetic acid-insoluble residues produced for microfossil extraction. As they are typically associated with conodont elements and have a similar chemical composition, they are informally known as 'conodont pearls'. Still, the origin of these micro-spherules has been controversial, and authors have disagreed regarding their mode of formation, or if they are biogenic or not. In this study, an assortment of micro-spherules from several localities and stratigraphical levels were analysed using multiple methods, in an effort to shed light on the origin of these enigmatic objects: ocular investigation with a stereomicroscope, chemical analyses employing energy-dispersive mass spectrometry, imaging through scanning electron microscope, and synchrotron radiation X-ray tomographic microscopy. Collectively, the techniques employed allow for near-complete characterization and description of the study specimens. At least five different groups, or morphotypes, of spherules can be discerned, which differ both in morphological and chemical details. Most specimens are notably spherical and display concentric layers of growth. Several of the specimens have a central nucleus, sometimes with one or more objects located closely together. Internal details and chemistry suggest that the phosphatic spherules probably are of different origin. Thus, the term 'conodont pearl' encompasses confusingly similar objects deriving from different organisms and/or processes, and only careful analysis can reveal their individual origin. The only organisms unequivocally associated with (in situ) phosphatic micro-spherules are ceramoporid bryozoans, and the conodonts Cordylodus and Westergaardodina, but the possible function and significance of these objects remain enigmatic.</p>}},
  author       = {{Lindskog, Anders and Eriksson, Mats E. and Bergström, Stig M. and Terfelt, Fredrik and Marone, Federica}},
  issn         = {{0024-1164}},
  keywords     = {{Affinity; Chemistry; Conodont pearls; Morphology; Phosphatic micro-spherules}},
  language     = {{eng}},
  number       = {{1}},
  pages        = {{26--40}},
  publisher    = {{Taylor & Francis}},
  series       = {{Lethaia}},
  title        = {{Palaeozoic 'conodont pearls' and other phosphatic micro-spherules}},
  url          = {{https://lup.lub.lu.se/search/files/75719186/Lindskog_et_al_2017_Lethaia.pdf}},
  doi          = {{10.1111/let.12172}},
  volume       = {{50}},
  year         = {{2017}},
}