Distinguishing features:
Parent taxon (ntax_mesozoic): Mesozoic nannofossils - Cenozoic and extant taxa are in a separate module
This taxon: Placolith (or modified placolith) coccoliths showing little or no imbrication. Typically, V-units form distal shield, R-units form proximal shield.
Daughter taxa (time control age-window is: 0-800Ma) | Granddaughter taxa | ||||
Axopodorhabdaceae Regular placoliths; central-area, with cross-bars or perforated plate; often with tall, hollow spines. Distal shield elements non-imbricate V-units; proximal shield and inner cycle formed from R-units. Rim often appears beaded in LM | Podorhabdus Hemipodorhabdus Axopodorhabdus Tetrapodorhabdus Hexapodorhabdus Octocyclus Octopodorhabdus Dodekapodorhabdus Perissocyclus Teichorhabdus Cribrosphaerella Ethmorhabdus Nephrolithus Psyktosphaera Cribrocorona | ||||
Biscutaceae Regular placoliths; rim broad, central area relatively narrow, with variable central structures. The distal shield is formed from V-units and the proximal shield and tube cycle are formed from R-units. | Biscutum Discorhabdus Similiscutum Boletuvelum Chiastella Crucibiscutum Gaarderella Gephyrobiscutum Helicorhabdus Jimenezberrocosoia Seribiscutum Sollasites | ||||
Calyculaceae Elevated placoliths, tube tall and proximal shield reduced; central-area with variable proximal cover. The distal shield is formed from V-units and the proximal shield from R-units. Commonly observed in side view. | |||||
Cretarhabdaceae Regular placoliths; central-area spanned by elevated distal structure typically with cross bars and central spine. The distal shield usuallyappers to be weakly bicyclic in the SEM, with a narrow outer-cycle and broad inner-cycle; elements usually radial and non-imbricate. LM image is moderately birefringent. V/R structure unclear. | Mattiolia Wisea Speetonia Cruciellipsis Flabellites Grantarhabdus Helenea Cretarhabdus Retecapsa Pickelhaube Miravetesina | ||||
Mazaganellaceae Three-shielded placoliths; central-area wide, spanned by bars, grill, net or plate. The distal shield may be high and flaring, formed from non-imbricating elements, joined along radial sutures. LM image is generally dark, but birefringence increases when the distal shield is high. | |||||
Prediscosphaeraceae Regular placoliths; central area spanned by cross-bars supporting a tall, complexely-constructed spine. The distal shield and proximal shield constructed from 16 large non-imbricating elements (V-units); R-units form restricted cycle on proximal shield and inner tube cycle, giving bicyclic LM image with bright inner cycle. | |||||
Tubodiscaceae Elliptical placoliths composed of two narrow shields and a third, narrow, proximally-situated collar cycle that is variable in height. The central-area is broad and open; no central structures have yet been observed. The LM image is dark, although the collar cycle is brighter. |
Taxonomy:
These two orders were apparently proposed based on the Prediscosphaeraceae and Biscutaceae, we prefer to keep both families in the Podorhabdales. It is also unlcear from Aubry & Bord (2009) which publications they were proposed in.
Farinacci & Howe catalog pages: Podorhabdales *
Distinguishing features:
Parent taxon (ntax_mesozoic): Mesozoic nannofossils - Cenozoic and extant taxa are in a separate module
This taxon: Placolith (or modified placolith) coccoliths showing little or no imbrication. Typically, V-units form distal shield, R-units form proximal shield.
Morphology:
This order includes the Biscutaceae, Axopodorhabdaceae and other closely related forms. The rim constructions of the Cretarhabdaceae, Tubodiscaceae and Mazaganellaceae are not well understood, and these families are only tentatively assigned to this order.
Lith size: 0->0µm; |
Geological Range:
Last occurrence (top): at top of Paleocene Epoch (100% up, 56Ma, in Thanetian stage). Data source: Total of ranges of the species in this database
First occurrence (base): within Sinemurian Stage (192.90-199.46Ma, base in Sinemurian stage). Data source: Total of ranges of species in this database
Plot of occurrence data:
Bown, P. R. & Cooper, M. K. E. (1998). Jurassic. In, Bown, P. R. (ed.) Calcareous Nannofossil Biostratigraphy. British Micropalaeontological Society Publication Series . 34-85. gs O Bown, P. R. (1987a). Taxonomy, evolution, and biostratigraphy of Late Triassic-Early Jurassic calcareous nannofossils. Special Papers in Palaeontology. 38: 1-118. gs Bown, P. R., Rutledge, D. C., Crux, J. A. & Gallagher, L. T. (1998). Lower Cretaceous. In, Bown, P. R. (ed.) Calcareous Nannofossil Biostratigraphy. British Micropalaeontological Society Publication Series . 86-131. gs O Rood, A. P., Hay, W. W. & Barnard, T. (1971). Electron Microscope Studies of Oxford Clay Coccoliths. Eclogae Geologicae Helvetiae. 64: 245-272. gs O Young, J. R. & Bown, P. R. (1997). Proposals for a revised classification system for calcareous nannoplankton. Journal of Nannoplankton Research. 19(1): 15-47. gs References:
Podorhabdales 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=10918 Go to Archive.is to create a permanent copy of this page - citation notes |
This policy contains information about your privacy. By posting, you are declaring that you understand this policy:
This policy is subject to change at any time and without notice.
These terms and conditions contain rules about posting comments. By submitting a comment, you are declaring that you agree with these rules:
Failure to comply with these rules may result in being banned from submitting further comments.
These terms and conditions are subject to change at any time and without notice.
Comments