Quantitative study of developmental biology confirms Dickinsonia as a metazoan

Quantitative study of developmental biology confirms Dickinsonia as a metazoan

The late Ediacaran soft-bodied macroorganism Dickinsonia (age range approx. 560–550 Ma) has often been interpreted as an early animal, and is increasingly invoked in debate on the evolutionary assembly of eumetazoan body plans. However, conclusive positive evidence in support of such a phylogenetic...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Vol. 284; no. 1862; p. 20171348
Main Authors: Hoekzema, Renee S., Brasier, Martin D., Dunn, Frances S., Liu, Alexander G.
Format: Journal Article
Language:English
Published: England The Royal Society 13-09-2017
The Royal Society Publishing
Edition:Royal Society (Great Britain)
Subjects:
Animals
Bilaterian
Biological Evolution
Development
Developmental Biology
Ediacaran
Fossils
Invertebrates - anatomy & histology
Invertebrates - classification
Iterative methods
Metamerism
Metazoan Evolution
Ontogeny
Palaeobiology
Phylogeny
bilaterian
metazoan evolution
development
ontogeny
Ediacaran
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Summary:The late Ediacaran soft-bodied macroorganism Dickinsonia (age range approx. 560–550 Ma) has often been interpreted as an early animal, and is increasingly invoked in debate on the evolutionary assembly of eumetazoan body plans. However, conclusive positive evidence in support of such a phylogenetic affinity has not been forthcoming. Here we subject a collection of Dickinsonia specimens interpreted to represent multiple ontogenetic stages to a novel, quantitative method for studying growth and development in organisms with an iterative body plan. Our study demonstrates that Dickinsonia grew via pre-terminal ‘deltoidal’ insertion and inflation of constructional units, followed by a later inflation-dominated phase of growth. This growth model is contrary to the widely held assumption that Dickinsonia grew via terminal addition of units at the end of the organism bearing the smallest units. When considered alongside morphological and behavioural attributes, our developmental data phylogenetically constrain Dickinsonia to the Metazoa, specifically the Eumetazoa plus Placozoa total group. Our findings have implications for the use of Dickinsonia in developmental debates surrounding the metazoan acquisition of axis specification and metamerism.
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Deceased 16 December 2014.
Electronic supplementary material is available online at https://dx.doi.org/10.6084/m9.figshare.c.3858322.
ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.2017.1348