Scanning electron microscopy and synchrotron radiation x-ray tomographic microscopy of 330 million year old charcoalified seed fern fertile organs
Scanning electron microscopy and synchrotron radiation x-ray tomographic microscopy of 330 million year old charcoalified seed fern fertile organs
Abundant charcoalified seed fern (pteridosperm) pollen organs and ovules have been recovered from Late Viséan (Mississippian 330 Ma) limestones from Kingswood, Fife, Scotland. To overcome limitations of data collection from these tiny, sometimes unique, fossils, we have combined low vacuum scanning electron microscopy on uncoated specimens with backscatter detector and synchrotron radiation X-ray tomographic microscopy utilizing the Materials Science and TOMCAT beamlines at the Swiss Light Source of the Paul Scherrer Institut. In combination these techniques improve upon traditional cellulose acetate peel sectioning because they enable study of external morphology and internal anatomy in multiple planes of section on a single specimen that is retained intact. The pollen organ Melissiotheca shows a basal parenchymatous cushion bearing more than 100 sporangia on the distal face. Digital sections show the occurrence of pollen in some sporangia. The described ovule is new and has eight integumentary lobes that are covered in spirally arranged glandular hairs. Virtual longitudinal sections reveal the lobes are free above the pollen chamber. Results are applied in taxonomy and will subsequently contribute to our understanding of the former diversity and evolution of ovules, seeds, and pollen organs in the seed ferns, the first seed-bearing plants to conquer the land.
fossil, anatomy, cellulose acetate peel, carboniferous, pteridosperms, swiss light source
166-173
Scott, Andrew C.
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Galtier, Jean
882e438d-ba10-45a1-80cc-1403c8dbe2b6
Gostling, Neil J.
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Smith, Selena Y.
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Collinson, Margaret E.
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Stampanoni, Marco
bfedb3b0-01e8-4e1b-9163-41295b4ceeb1
Marone, Federica
47f29ced-bf96-48cc-827a-5143796050d1
Donoghue, Philip C.J.
5f3fdb63-0685-40b8-aa87-d71353474db2
Bengtson, Stefan
2ee29a4e-b6ed-478d-aff3-fce5f2993268
April 2009
Scott, Andrew C.
5045cc49-54a0-4bd9-b2ce-d29ec7a10a5a
Galtier, Jean
882e438d-ba10-45a1-80cc-1403c8dbe2b6
Gostling, Neil J.
4840aa40-cb6c-4112-a0b9-694a869523fc
Smith, Selena Y.
9225ae85-0f45-4d6b-879f-492289193d32
Collinson, Margaret E.
4558b0e7-a6c1-4b1c-a6e8-36e3e9f3c320
Stampanoni, Marco
bfedb3b0-01e8-4e1b-9163-41295b4ceeb1
Marone, Federica
47f29ced-bf96-48cc-827a-5143796050d1
Donoghue, Philip C.J.
5f3fdb63-0685-40b8-aa87-d71353474db2
Bengtson, Stefan
2ee29a4e-b6ed-478d-aff3-fce5f2993268
Scott, Andrew C., Galtier, Jean, Gostling, Neil J., Smith, Selena Y., Collinson, Margaret E., Stampanoni, Marco, Marone, Federica, Donoghue, Philip C.J. and Bengtson, Stefan
(2009)
Scanning electron microscopy and synchrotron radiation x-ray tomographic microscopy of 330 million year old charcoalified seed fern fertile organs.
Microscopy and Microanalysis, 15 (2), .
(doi:10.1017/S1431927609090126).
Abstract
Abundant charcoalified seed fern (pteridosperm) pollen organs and ovules have been recovered from Late Viséan (Mississippian 330 Ma) limestones from Kingswood, Fife, Scotland. To overcome limitations of data collection from these tiny, sometimes unique, fossils, we have combined low vacuum scanning electron microscopy on uncoated specimens with backscatter detector and synchrotron radiation X-ray tomographic microscopy utilizing the Materials Science and TOMCAT beamlines at the Swiss Light Source of the Paul Scherrer Institut. In combination these techniques improve upon traditional cellulose acetate peel sectioning because they enable study of external morphology and internal anatomy in multiple planes of section on a single specimen that is retained intact. The pollen organ Melissiotheca shows a basal parenchymatous cushion bearing more than 100 sporangia on the distal face. Digital sections show the occurrence of pollen in some sporangia. The described ovule is new and has eight integumentary lobes that are covered in spirally arranged glandular hairs. Virtual longitudinal sections reveal the lobes are free above the pollen chamber. Results are applied in taxonomy and will subsequently contribute to our understanding of the former diversity and evolution of ovules, seeds, and pollen organs in the seed ferns, the first seed-bearing plants to conquer the land.
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Accepted/In Press date: 5 December 2008
Published date: April 2009
Keywords:
fossil, anatomy, cellulose acetate peel, carboniferous, pteridosperms, swiss light source
Organisations:
Centre for Biological Sciences
Identifiers
Local EPrints ID: 385761
URI: http://eprints.soton.ac.uk/id/eprint/385761
ISSN: 1431-9276
PURE UUID: cc7a1828-de49-4024-8fbd-56d49a2a6f69
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Date deposited: 22 Jan 2016 10:06
Last modified: 15 Mar 2024 03:42
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Contributors
Author:
Andrew C. Scott
Author:
Jean Galtier
Author:
Selena Y. Smith
Author:
Margaret E. Collinson
Author:
Marco Stampanoni
Author:
Federica Marone
Author:
Philip C.J. Donoghue
Author:
Stefan Bengtson
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