Deciphering the fossil record of early bilaterian embryonic development in light of experimental taphonomy
Deciphering the fossil record of early bilaterian embryonic development in light of experimental taphonomy
Experimental analyses of decay in a tunicate deuterostome and three lophotrochozoans indicate that the controls on decay and preservation of embryos, identified previously based on echinoids, are more generally applicable. Four stages of decay are identified regardless of the environment of death and decay. Embryos decay rapidly in oxic and anoxic conditions, although the gross morphology of embryos is maintained for longer under anoxic conditions. Under anoxic reducing conditions, the gross morphology of the embryos is maintained for the longest period of time, compatible with the timescale required for bacterially mediated mineralization of soft tissues. All four stages of decay were encountered under all environmental conditions, matching the spectrum of preservational qualities encountered in all fossil embryo assemblages. The preservation potential of embryos of deuterostomes and lophotrochozoans is at odds with the lack of such embryos in the fossil record. Rather, the fossil record of embryos, as sparse as it is, is dominated by forms interpreted as ecdysozoans, cnidarians, and stem-metazoans. The dearth of deuterostome and lophotrochozoan embryos may be explained by the fact that ecdysozoans, at least, tend to deposit their eggs in the sediment rather than through broadcast spawning. However, fossil embryos remain very rare and the main controlling factor on their fossilization may be the unique conspiracy of environmental conditions at a couple of sites. The preponderance of fossilized embryos of direct developers should not be used in evidence against the existence of indirect development at this time in animal evolutionary history.
339-349
Gostling, Neil J.
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Thomas, Ceri-Wyn
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Greenwood, Jenny M.
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Dong, Xiping
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Bengtson, Stefan
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Raff, Elizabeth C.
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Raff, Rudolf A.
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Degnan, Bernard M.
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Stampanoni, Marco
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Donoghue, Philip C.J.
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May 2008
Gostling, Neil J.
4840aa40-cb6c-4112-a0b9-694a869523fc
Thomas, Ceri-Wyn
61404ee0-88ae-4fed-a73e-8b6044bacb96
Greenwood, Jenny M.
00df7dba-f7a5-4088-b44c-b34a2e44df68
Dong, Xiping
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Bengtson, Stefan
2ee29a4e-b6ed-478d-aff3-fce5f2993268
Raff, Elizabeth C.
694044a8-9f1d-4b9a-8019-f2654fd50a8f
Raff, Rudolf A.
7da787b4-a225-4450-8071-9c82329cc4f9
Degnan, Bernard M.
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Stampanoni, Marco
bfedb3b0-01e8-4e1b-9163-41295b4ceeb1
Donoghue, Philip C.J.
5f3fdb63-0685-40b8-aa87-d71353474db2
Gostling, Neil J., Thomas, Ceri-Wyn, Greenwood, Jenny M., Dong, Xiping, Bengtson, Stefan, Raff, Elizabeth C., Raff, Rudolf A., Degnan, Bernard M., Stampanoni, Marco and Donoghue, Philip C.J.
(2008)
Deciphering the fossil record of early bilaterian embryonic development in light of experimental taphonomy.
Evolution & Development, 10 (3), .
(doi:10.1111/j.1525-142X.2008.00242.x).
Abstract
Experimental analyses of decay in a tunicate deuterostome and three lophotrochozoans indicate that the controls on decay and preservation of embryos, identified previously based on echinoids, are more generally applicable. Four stages of decay are identified regardless of the environment of death and decay. Embryos decay rapidly in oxic and anoxic conditions, although the gross morphology of embryos is maintained for longer under anoxic conditions. Under anoxic reducing conditions, the gross morphology of the embryos is maintained for the longest period of time, compatible with the timescale required for bacterially mediated mineralization of soft tissues. All four stages of decay were encountered under all environmental conditions, matching the spectrum of preservational qualities encountered in all fossil embryo assemblages. The preservation potential of embryos of deuterostomes and lophotrochozoans is at odds with the lack of such embryos in the fossil record. Rather, the fossil record of embryos, as sparse as it is, is dominated by forms interpreted as ecdysozoans, cnidarians, and stem-metazoans. The dearth of deuterostome and lophotrochozoan embryos may be explained by the fact that ecdysozoans, at least, tend to deposit their eggs in the sediment rather than through broadcast spawning. However, fossil embryos remain very rare and the main controlling factor on their fossilization may be the unique conspiracy of environmental conditions at a couple of sites. The preponderance of fossilized embryos of direct developers should not be used in evidence against the existence of indirect development at this time in animal evolutionary history.
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e-pub ahead of print date: 4 May 2008
Published date: May 2008
Organisations:
Centre for Biological Sciences
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Local EPrints ID: 385762
URI: http://eprints.soton.ac.uk/id/eprint/385762
ISSN: 1520-541X
PURE UUID: e2816146-5e87-4545-9ead-1f0e1ded134c
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Date deposited: 22 Jan 2016 09:55
Last modified: 15 Mar 2024 03:42
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Author:
Ceri-Wyn Thomas
Author:
Jenny M. Greenwood
Author:
Xiping Dong
Author:
Stefan Bengtson
Author:
Elizabeth C. Raff
Author:
Rudolf A. Raff
Author:
Bernard M. Degnan
Author:
Marco Stampanoni
Author:
Philip C.J. Donoghue
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