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TitleA review of the areoligeracean dinoflagellate cyst Cyclonephelium and morphologically similar genera
 
AuthorFensome, R A; Williams, G L; Wood, S E L; Riding, J B
SourcePalynology vol. 43, issue 1, 2019 p. 1-71, https://doi.org/10.1080/01916122.2019.1596391 Open Access logo Open Access
Image
Year2019
Alt SeriesNatural Resources Canada, Contribution Series 20180002
PublisherInforma UK Limited
Documentserial
Lang.English
Mediapaper; on-line; digital
File formatpdf
Subjectspaleontology; stratigraphy; Nature and Environment; Science and Technology; systematic paleontology; micropaleontology; microfossils; biostratigraphy; fossil morphology; taxonomy; nomenclature; fossil descriptions; paleoenvironment; paleoecology; Neogene; Paleogene; Dinoflagellates; Areoligeraceae; Cyclonephelium; Aptea; Aptea cassis; Canningia; Canningia glomerata; Canninginopsis; Cassidium; Cauveridinium; Cerbia; Circulodinium; Circulodinium vectensis; Cyclonephelium; Doidyx; Pseudoceratium distinctum; Senoniasphaera; Senoniasphaera rotundata; Tenua; Trimuridinium; Ceratiaceae; Phanerozoic; Cenozoic; Tertiary; Mesozoic; Jurassic; Cretaceous
Illustrationspaleontological drawings; flow diagrams; photomicrographs; photographs; tables
ProgramGEM2: Geo-mapping for Energy and Minerals Mackenzie Corridor, Shield-to-Selwyn geo-transect, Mackenzie-Selwyn sub-activity
Released2019 05 28
AbstractA group of mainly Cretaceous areoligeracean dinoflagellate cyst genera, which we call the 'Cyclonephelium group', has proved difficult to classify. The group comprises Aptea, Canningia, Canninginopsis, Cassidium, Cauveridinium, Cerbia, Circulodinium, Cyclonephelium, Doidyx, Senoniasphaera and Tenua. As a group, they also converge morphologically with ceratiaceans. Cyclonephelium-group taxa show considerable morphological diversity and gradation. However, the most important criteria for discriminating dinoflagellate cyst-based genera - tabulation and archaeopyle type - are uniform among areoligeraceans and ceratiaceans and so are not useful in this case. Any subdivision of the Cyclonephelium group will break apparently natural continuities; nevertheless, any resolution must involve a hierarchy of morphological criteria. In developing a 'best-fit' hierarchy of morphological criteria for the Cyclonephelium group and its separation from ceratiaceans, we consider historical concepts, morphological variation, illustrations in the literature (especially of types) and taxonomic stability. We conclude that the most pragmatic distinguishing feature of ceratiaceans in contrast to the Cyclonephelium group (and areoligeraceans in general) is that the former possess a lateral horn or distinct prominence on the inner body or wall. The hierarchy we favour within the Cyclonephelium group (in decreasing importance) is: (i) wall structure; (ii) whether the ornament is linear or free standing; and (iii) the distribution of the ornament. As a consequence, we propose one new genus (Trimuridinium), one new species (Aptea cassis), two new names (Canningia glomerata for Senoniasphaera rotundata and Circulodinium vectensis for Pseudoceratium distinctum), 49 new combinations and one new status. We emend the descriptions/diagnoses of Aptea, Circulodinium, Cyclonephelium, Pseudoceratium, Senoniasphaera, Tenua and Tenua hystrix. Cyclonephelium-group taxa predominate in neritic marine palaeoenvironments, and their use in palaeoecological analyses should be improved by a more cohesive and consistent taxonomy. The group may have been the root stock for ceratiaceans in the Late Jurassic, the two families becoming more clearly separate from the Late Cretaceous onwards. Cyclonephelium-group areoligeraceans are sparse in the Paleogene and confirmed species are absent in the Neogene.
Summary(Plain Language Summary, not published)
Fossil dinoflagellate cysts (dinocysts) are invaluable tools in determining the ages of sedimentary rocks in the Mesozoic and Cenozoic, as well as palaeoenvironments. This information in turn allows for an accurate understanding of the geological history of sedimentary basins and the evolution of petroleum systems. For meaningful and accurate applied use of fossils it is critical to develop definitions of genera and species that are readily communicated and consistently applied (i.e. good taxonomy). The predominantly Cretaceous dinocysts that we call the Cyclonephelium group includes several genera and many species that have been variously (mis)applied over the years. The Western Arctic and Mackenzie GEM regions of interest have many well preserved members of this group, presenting an ideal opportunity to clarify their taxonomy and, in turn, enhance their applied usefulness in these and other regions.
GEOSCAN ID308113

 
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