Advanced Cambrian hydroid fossils (Cnidaria: Hydrozoa) extend the medusozoan evolutionary history
Data files
Aug 23, 2021 version files 2.59 GB
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Bicaularia_ZSM20041540.tif
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Diphasia_digitalis_MBM230897.tif
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Diphasia_palmata_MBM002314.tif
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Diphasia_scalariformis_MBM186185.tif
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Palaeodiphasia_simplex_(NIGP80253)_9.jpg
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Palaeodiphasia_simplex_(NIGP80253).zip
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Palaeodiphasia_simplex_(NIGP80256).zip
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Siberiograptus_polycladus_(NIGP80258).zip
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Siberiograptus_polycladus_(NIGP80259).zip
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Siberiograptus_polycladus_(NIGP80260).zip
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Siberiograptus_simplex_(NIGP80251).zip
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Siberiograptus_simplex_(NIGP80252).zip
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Siberiograptus_simplex_(NIGP80254).zip
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Siberiograptus_simplex_(NIGP80255).zip
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Siberiograptus_simplex_(NIGP80257).zip
Abstract
Primitive cnidarians are crucial for elucidating the early evolution of metazoan body plans and life histories in the late Neoproterozoic and Palaeozoic. The highest complexity of both evolutionary aspects within cnidarians is found in extant hydrozoans. Many colonial hydrozoans coated with chitinous exoskeletons have the potential to form fossils; however, only a few fossils possibly representing hydroids have been reported, which still require scrutiny. Here, we present an exceptionally well-preserved hydroid found in the Upper Cambrian Fengshan Formation in northern China. It was originally interpreted as a problematic graptolite with an uncertain systematic position. Based on three characteristic morphological traits shared with extant hydroids (with paired hydrothecae, regular hydrocaulus internodes and special intrathecal origin pattern of hydrocladium), we propose this fossil hydroid as a new genus, Palaeodiphasia gen. nov., affiliated with the advanced monophyletic hydrozoan clade Macrocolonia typically showing loss of the medusa stage. More Macrocolonia fossils reviewed here indicate that this life strategy of medusa loss has been achieved already as early as the Middle Devonian. The early stratigraphical appearance of such advanced hydroid contrasts with previous molecular hypotheses regarding the timing of medusozoan evolution, and may be indicative for understanding the Ediacaran cnidarian radiation.
Methods
Photomicrographs of the fossils and three extant Diphasia species were taken using cameras connected to stereomicroscopes with the software Leica Application Suite. All images have not been processed.
Usage notes
See details in the research paper.