Hexactinellid sponges are often considered to be the most ancient metazoans. Lipid biomarkers from 23 species were studied for information on their phylogenetic properties, particularly their disputed relation to the two other sponge classes (Demospongiae, Calcarea). The most prominent lipid compounds in the Hexactinellida comprise C28 to C32 polyenoic fatty acids. Their structures parallel the unique patterns found in demosponge membrane fatty acids (‘demospongic acids’) and strongly support a close phylogenetic association of the Demospongiae and the Hexactinellida. Both taxa also show unusual mid-chain methylated fatty acids (C15–C25) and irregular C25- and C40-isoprenoid hydrocarbons, tracers for specific eubacteria and Archaea, respectively. These biomarkers indicate a similar, highly conservative symbiont community, although some shift in the abundance of the associated microbiota was observed. The lack of these features in calcareous sponges further contradicts the still common view that Calcarea and Demospongiae are more closely related to each other than either is to the Hexactinellida.
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Springer-Verlag
Date Issued
2002
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Extent
8 p.
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Identifier
2709448
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Hexactinellid sponges are often considered to be the most ancient metazoans. Lipid biomarkers from 23 species were studied for information on their phylogenetic properties, particularly their disputed relation to the two other sponge classes (Demospongiae, Calcarea). The most prominent lipid compounds in the Hexactinellida comprise C28 to C32 polyenoic fatty acids. Their structures parallel the unique patterns found in demosponge membrane fatty acids (‘demospongic acids’) and strongly support a close phylogenetic association of the Demospongiae and the Hexactinellida. Both taxa also show unusual mid-chain methylated fatty acids (C15–C25) and irregular C25- and C40-isoprenoid hydrocarbons, tracers for specific eubacteria and Archaea, respectively. These biomarkers indicate a similar, highly conservative symbiont community, although some shift in the abundance of the associated microbiota was observed. The lack of these features in calcareous sponges further contradicts the still common view that Calcarea and Demospongiae are more closely related to each other than either is to the Hexactinellida.
This manuscript is a version of an article with the original publication available at http://www.springerlink.com and may be cited as: Thiel, Volker, Martin Blumenberg, Jens Hefter, Thomas Pape, Shirley Pomponi, John Reed, Joachim Reitner, Gert Wörheide and Walter Michaelis (2002) A Chemical View of the Most Ancient Metazoa – Biomarker Chemotaxonomy of Hexactinellid Sponges, Naturwissenschaften 89:60–66 DOI: 10.1007/s00114-001-0284-9
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution #1490.
Date Backup
2002
Date Text
2002
DOI
10.1007/s00114-001-0284-9
Date Issued (EDTF)
2002
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FAU
FAU
admin_unit="FAU01", ingest_id="ing7571", creator="creator:SPATEL", creation_date="2010-09-16 12:32:43", modified_by="super:FAUDIG", modification_date="2014-02-10 10:19:55"
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FADT2709448
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single unit
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Thiel, Volker
creator
Physical Description
8 p.
Title Plain
A chemical view of the most ancient metazoa – biomarker chemotaxonomy of hexactinellid sponges
Origin Information
Springer-Verlag
2002
single unit
Title
A chemical view of the most ancient metazoa – biomarker chemotaxonomy of hexactinellid sponges
Other Title Info
A chemical view of the most ancient metazoa – biomarker chemotaxonomy of hexactinellid sponges