Fohsella peripheroronda


Classification: pf_cenozoic -> Globorotaliidae -> Fohsella -> Fohsella peripheroronda
Sister taxa: F. paralenguaensis, F. lenguaensis, F. robusta, F. lobata, F. fohsi, F. praefohsi, F. peripheroacuta, F. peripheroronda,

Taxonomy

Citation: Fohsella peripheroronda (Blow & Banner, 1966)
Rank: species
Basionym: Globorotalia (Turborotalia) peripheroronda Blow & Banner, 1966
Synonyms:
  • Globorotalia (Fohsella) peripheroronda
  • Globorotalia barisanensis LeRoy 1939 sensu Bolli, 1957; Jenkins, 1971 [according to Kennett & Srinivasan 1983]
Taxonomic discussion: Bolli 1957 and other early authors used the name barisanensis for this morphotype but Blow & Banner 1966 showed that the holotype of barisanensis was not rounded but rather was a typical G. fohsi - they therefore propsed the new name peripheroronda.

Catalog entries: Globorotalia (Turborotalia) peripheroronda

Type images:

Distinguishing features: Umbilico-convex, very low trochospiral, equatorial periphery slightly lobulate

NB These concise distinguishing features statements are used in the tables of daughter-taxa to act as quick summaries of the differences between e.g. species of one genus.
They are being edited as the site is developed and comments on them are especially welcome.

Description


Diagnostic characters: Umbilico-convex, very low trochospiral, equatorial periphery slightly lobulate

Aperture: Interiomarginal umbilical-extraumbilical low arch bordered by distinct lip [Aze 2011, based on Kennett & Srinivasan 1983]


Wall type: Non-spinose; Smooth [Aze 2011]

Test morphology: Test very low trochospiral, equatorial periphery slightly lobulate , axial periphery rounded with a tendency to become subangular, umbilical side more convex than the spiral; chambers ovate, five to six in the final whorl, increasing slowly in size as added; sutures on spiral and umbilical side strongly curved, slightly depressed; surface smooth with evenly scattered pores: umbilicus narrow; aperture interiomarginal, extraumbilical-umbilical, low arch bordered by a distinct lip. [Kennett & Srinivasan 1983]

Character matrix

test outline:Lobatechamber arrangement:Trochospiraledge view:Inequally biconvexaperture:Umbilical-extraumbilical
sp chamber shape:Crescenticcoiling axis:Lowperiphery:N/Aaperture border:Thick lip
umb chbr shape:Subtriangularumbilicus:Narrowperiph margin shape:Moderately roundedaccessory apertures:None
spiral sutures:Weakly depressedumb depth:Shallowwall texture:Smoothshell porosity:Macroperforate: >2.5µm
umbilical or test sutures:Weakly depressedfinal-whorl chambers:5.0-6.0 N.B. These characters are used for advanced search. N/A - not applicable

Biogeography and Palaeobiology


Geographic distribution: Like its ancestral form Gr. kugleri, Gr. peripheroronda had a much wider geographic distribution than the middle Middle Miocene end members of this lineage. Tropical to cool subtropical. [Kennett & Srinivasan 1983] Low latitudes [Aze et al. 2011, based on Kennett & Srinivasan (1983)]

Isotope paleobiology: Aze et al. 2011 ecogroup 3 - Open ocean thermocline. Based on light ∂13C and relatively heavy ∂18O. Sources cited by Aze et al. 2011 (appendix S3): Keller (1985); Hodell & Vayavananda (1993); Pearson et al. (2001b); Coxall et al. (2007)

Phylogenetic relations: This species was recorded by some earlier workers (Bolli, 1957a; Jenkins, 1971) under the name Gr. barisanensis LeRoy, Blow and Banner (1966) examined the holotype of Gr. barisanensis and found it to be a fully carinate form within the praefohsi-fohsi plexus. Thus, they proposed Gr. (Turborotalia) peripheroronda for forms with rounded periphery, which had previously been included within Gr. barisanensis.
Gr. (F.) peripheroronda
is distinguished from Gr. (F.) kugleri by its more compressed test, strongly recurved spiral sutures, and low-arched aperture. Olsson (1972) considered Gr. mayeri to be the ancestor of Gr. (F.) peripheroronda, whereas Jenkins (1960, 1971) and Blow (1969) suggested that Gr. (F.) peripheroronda was the ancestor of Gr. mayeri. Our studies (Srinivasan and Kennett, 1981a) of South Pacific DSDP sequences support the view of Fleisher (1974) and Stainforth et al. (1975) that Gr. (F.) kugleri was the direct ancestor of Gr. (F.) peripheroronda. [Kennett & Srinivasan 1983]

Most likely ancestor: Paragloborotalia kugleri - at confidence level 2 (out of 5). Data source: Kennett & Srinivasan 1983.
Likely descendants: Fohsella peripheroacuta; Globorotalia birnageae;

Biostratigraphic distribution

Geological Range:
Last occurrence (top): near top of M7 zone (94% up, 13.8Ma, in Serravallian stage). Data source: Wade et al. (2011), additional event; position within zone determined by linear interpolation from data in table 1 of Wade et al. (2011).
First occurrence (base): within N4b zone (22.20-23.50Ma, base in Chattian stage). Data source: Kennett & Srinivasan 1983

Plot of occurrence data:

Primary source for this page: Kennett & Srinivasan 1983, p.96

References:

Aze, T. et al. (2011). A phylogeny of Cenozoic macroperforate planktonic foraminifera from fossil data. Biological Reviews. 86: 900-927. gs

Blow, W. H. & Banner, F. T. (1966). The morphology, taxonomy and biostratigraphy of Globorotalia barisanensis LeRoy, Globorotalia fohsi Cushman and Ellisor, and related taxa. Micropaleontology. 12(3): 286-302. gs

Blow, W. H. (1969). Late middle Eocene to Recent planktonic foraminiferal biostratigraphy. In, Bronnimann, P. & Renz, H. H. (eds) Proceedings of the First International Conference on Planktonic Microfossils, Geneva, 1967. E J Brill, Leiden 380-381. gs

Bolli, H. M. (1957b). Planktonic foraminifera from the Oligocene-Miocene Cipero and Lengua formations of Trinidad, B.W.I. In, Loeblich, A. R. , Jr. , Tappan, H. , Beckmann, J. P. , Bolli, H. M. , Montanaro Gallitelli & E. Troelsen, J. C. (eds) Studies in Foraminifera. U.S. National Museum Bulletin. 215: 97-123. gs

Coxall, H. K., Wilson, P. A., Pearson, P. N. & Sexton, P. F. (2007). Iterative evolution of digitate planktonic foraminifera. Paleobiology. 33: 495-516. gs

Fox, L. R. & Wade, B. S. (2013). Systematic taxonomy of early–middle Miocene planktonic foraminifera from the equatorial Pacific Ocean: Integrated Ocean Drilling Program, Site U1338. Journal of Foraminiferal Research. 43: 374-405. gs

Hodell, D. A. & Vayavananda, A. (1993). Middle Miocene paleoceanography of the western equatorial Pacific (DSDP Site 289) and the evolution of Globorotalia (Fohsella). Marine Micropaleontology. 22: 279-310. gs

Jenkins, D. G. (1960). Planktonic foraminifera from the Lakes Entrance oil shaft, Victoria, Australia. Micropaleontology. 6: 345-371. gs

Jenkins, D. G. (1971). New Zealand Cenozoic Planktonic Foraminifera. New Zealand Geological Survey, Paleontological Bulletin. 42: 1-278. gs

Keller, G. (1985). Depth stratification of planktonic foraminifers in the Miocene Ocean. In, Kennett, J. P. (ed.) The Miocene Ocean: Paleoceanography and Biogeography. GSA Memoir. 163: 1-337. gs

Kennett, J. P. & Srinivasan, M. S. (1983). Neogene Planktonic Foraminifera. Hutchinson Ross Publishing Co., Stroudsburg, Pennsylvania. 1-265. gs

Norris, R. D. (1998). Planktonic foraminifer biostratigraphy: Eastern Equatorial Atlantic. Proceedings of the Ocean Drilling Program, Scientific Results. 159: 445-479. gs

Olsson, R. K. (1972). Growth Changes in the Globorotalia fohsi Lineage. Eclogae Geologicae Helvetiae. 65(1): 165-184. gs

Pearson, P. N. et al. (2001a). Warm tropical sea surface temperatures in the Late Cretaceous and Eocene epochs. Nature. 413: 481-487. gs

Postuma, J. A. (1971). Manual of planktonic foraminifera. Elsevier for Shell Group, The Hague. 1-406. gs

Wade, B. S., Pearson, P. N., Berggren, W. A. & Pälike, H. (2011). Review and revision of Cenozoic tropical planktonic foraminiferal biostratigraphy and calibration to the geomagnetic polarity and astronomical time scale. Earth-Science Reviews. 104: 111-142. gs


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Fohsella peripheroronda compiled by the pforams@mikrotax project team viewed: 12-11-2019

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