2N - diploid phase characteristics; N - haploid phase characteristics (time control age-window is: 0-800Ma) | Granddaughter taxa | ||||
Heterococcoliths | |||||
Isochrysidales 2N: Mostly placolith heterococcoliths with R-unit dominant. Non-motile N: non-calcifying, motile, with vestigial haptonema. | |||||
Coccolithales 2N: Mostly placolith heterococcoliths with V-unit forming the distal shield; R-unit the proximal shield. Non-motile N: Form holococcoliths formed of single block, or non-calcifying | |||||
Zygodiscales 2N: Heterococcoliths with V-units forming upper/outer cycle of imbricated elements and R-units forming basal plate and central mass of irregular elements. Usually motile N: Form holococcoliths formed of single block | |||||
Syracosphaerales 2N: Coccoliths with radial lath cycle of T-units, and disjunct, often complex, axial structure, coccospheres often polymorphic, usually motile N: Form holococcoliths, highly variable | |||||
Coccolith families inc sed 2N: Various heterococcolith groups not obviously related to the well-defined orders N: mostly unknown | Alisphaeraceae Papposphaeraceae Umbellosphaeraceae narrow rimmed placoliths Coccolith genera inc sed Unidentified heterococcoliths | ||||
Mesozoic Survivors Mesozoic taxa which occur in low abundances in the early Palaeogene. | |||||
Holococcoliths & Nannoliths | |||||
Holococcoliths Haploid life-cycle stages, with liths formed of numerous rhombohedral microcrystals | tubeless convex bridged flat-topped septate open-tube fossil holococcoliths Unidentified extant holococcolith | ||||
Braarudosphaerales 2N(?) cell covered by pentaliths (plates formed of 5 segments with lamellar sub-structure) formed extracellularly N: cell motile, covered by scales | |||||
Discoasterales Radially symmetrical nannoliths formed from one to several separate cycles of elements that radiate from a common centre or axis. | |||||
Nannolith families inc sed Haptophytes forming calcareous structures not obviously homologous with heterococcoliths, holococcoliths, or discoasteralids | Ceratolithaceae Ericiolacaea Lapideacassaceae Lithostromationaceae Nannolith genera inc sed Rhomboasteraceae |
Taxonomy:
Distinguishing features:
Parent taxon (images):
This taxon: Extant coccolithophores and Cenozoic calcareous nannofossils - Mesozoic nannofossils are in a separate module
Farinacci & Howe catalog pages: Coccolithophores [no catalog entry yet]
Search data:
Lith size: 0->0µm; |
Geological Range:
Last occurrence (top): at top of (100% up, 0Ma, in "Holocene" stage). Data source: Total of ranges of the species in this database
First occurrence (base): within (-Ma, base in "Holocene" stage). Data source: Total of ranges of species in this database
Plot of occurrence data:
Bown, P. R. & Young, J. R. (1998a). Introduction - calcareous nannoplankton biology. In, Bown, P. R. (ed.) Calcareous Nannofossil Biostratigraphy. British Micropalaeontological Society Publication Series . 1-15. gs Young, J. R., Didymus, J. M., Bown, P. R., Prins, B. & Mann, S. (1992). Crystal assembly and phylogenetic evolution in heterococcoliths. Nature. 356: 516-518. gs Young, J. R. et al. (1997). Guidelines for coccolith and calcareous nannofossil terminology. Palaeontology. 40: 875-912. gs Young, J. R., Davis, S. A., Bown, P. R. & Mann, S. (1999). Coccolith ultrastructure and biomineralisation. Journal of Structural Biology. 126: 195-215. gs Young, J. R., Geisen, M., Cros, L., Kleijne, A., Probert, I. & Ostergaard, J. B. (2003). A guide to extant coccolithophore taxonomy. Journal of Nannoplankton Research. S1: 1-132. gs Young, J. R., Geisen, M. & Probert, I. (2005). A review of selected aspects of coccolithophore biology with implications for palaeobiodiversity estimation. Micropaleontology. 51(4): 267-288. gsReferences:
Cenozoic and Modern Coccolithophores compiled by Jeremy R. Young, Paul R. Bown, Jacqueline A. Lees viewed: 14-10-2024
Short stable page link: https://mikrotax.org/Nannotax3/index.php?id=315 Go to Archive.is to create a permanent copy of this page - citation notes |
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Comments (2)
How many nannofossil genus and species in the Cenozoic?
Hi
On nannotax we document 180 genera and 1232 species in the Cenozoic ... but of course some of those may be artificial, others have not been described, and there are some papers we have not synthesised yet.
Jeremy