Globigerinoidesella fistulosa (Schubert, 1910)

Poole, Christopher R. & Wade, Bridget S., 2019, Systematic taxonomy of the Trilobatus sacculifer plexus and descendant Globigerinoidesella fistulosa (planktonic foraminifera), Journal of Systematic Palaeontology 17 (23), pp. 1989-2030 : 1991

publication ID

https://doi.org/ 10.1080/14772019.2019.1578831

DOI

https://doi.org/10.5281/zenodo.10932435

persistent identifier

https://treatment.plazi.org/id/072AAD72-233A-AE73-388F-FD08FAF3F2F3

treatment provided by

Felipe

scientific name

Globigerinoidesella fistulosa
status

 

Globigerinoidesella fistulosa View in CoL

Similar to the T. sacculifer plexus, G. fistulosa has also undergone taxonomic change following Spezzaferri et al. (2015). Globigerinoidesella fistulosa had previously been termed Globigerinoides fistulosus under the traditional concept of Globigerinoides . However, Spezzaferri et al. (2015) re-introduced the genus Globigerinoidesella El-Naggar, 1971 , to separate forms with extended projections from Trilobatus .

Globigerinoidesella fistulosa View in CoL is a short-ranging morphospecies (mid-Pliocene to early Pleistocene). The restricted biostratigraphical range of G. fistulosa View in CoL makes it a useful zone fossil in tropical assemblages worldwide, and its last appearance is used to define the base of Zone PT1 ( Wade et al. 2011). Its ancestral stock is the T. sacculifer View in CoL plexus and it is inferred to have arisen gradually from T. sacculifer View in CoL (e.g. Parker 1967; Kennett & Srinivasan 1983; Chaisson & Pearson 1997). Globigerinoidesella fistulosa View in CoL sensu stricto is characterized by its ornate, digitate morphology, often with numerous protuberances on a single chamber. It is therefore easy to identify and distinguish from other taxa, including its ancestor T. sacculifer View in CoL . Trilobatus sacculifer View in CoL regularly possesses an extended final chamber, but is typically not digitate. Trilobatus sacculifer View in CoL sensu stricto is indeed strikingly disparate from G. fistulosa View in CoL sensu stricto; the latter possesses one or more elongated projections from at least one of the final chambers. However, there exists a complete morphological intergradation between the T. sacculifer View in CoL plexus and G. fistulosa View in CoL sensu stricto, impeding objective delimitation and thus constraining its first (and last) stratigraphical occurrences. The presence of such intermediate or ‘transitional’ forms with progressively more developed protuberances towards the rise of G. fistulosa View in CoL sensu stricto has been observed by Chaisson & Pearson (1997) from Ocean Drilling Program ( ODP) Site 925 (Ceara Rise, western equatorial Atlantic Ocean).

Transitional forms are most common during the stratigraphical range of G. fistulosa View in CoL sensu stricto, which also co-exists with all morphospecies of the T. sacculifer View in CoL plexus. In other words, G. fistulosa View in CoL does not replace T. sacculifer View in CoL , but co-exists with it until the last stratigraphical occurrence of G. fistulosa View in CoL in the early Pleistocene. Following the last occurrence of G. fistulosa View in CoL , all morphospecies of the T. sacculifer View in CoL plexus persist to the present day. However, it is demonstrated here that transitional forms with incipient protuberances also range to the Recent. It is unsatisfactory for these forms to be termed G. fistulosa View in CoL , as then all biostratigraphical utility is lost. They are typically regarded as extreme morphological variants of T. sacculifer View in CoL . In this study, we use the occurrence of such transitional forms in Pleistocene to Recent cores from the GLOW cruise ( Kroon & Scientific Participants 2010) to form a morphological basis for delimiting the gradual transition between T. sacculifer View in CoL and G. fistulosa View in CoL in the mid-Pliocene to early Pleistocene. This delimitation is used to refine the morphological concept of G. fistulosa View in CoL in a systematic taxonomic appraisal presented herein.

GLOW

Lowveld National Botanical Garden

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