Jump to content

Archaeospheniscus lopdelli

From Wikipedia, the free encyclopedia

Archaeospheniscus lopdelli
Temporal range: Late Eocene–Late Oligocene
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Sphenisciformes
Family: Spheniscidae
Genus: Archaeospheniscus
Species:
A. lopdelli
Binomial name
Archaeospheniscus lopdelli
Marples, 1952

Archaeospheniscus lopdelli was the largest species of the extinct penguin genus Archaeospheniscus, standing about 90–120 cm (35–47 in) high, or somewhat less than the extant emperor penguin. It is only known from bones of a single individual (Otago Museum C.47.21) which was found in the Late Oligocene Kokoamu Greensand Formation (27-28 MYA) at Duntroon, New Zealand. Bones apparently belonging to this species are now also known from the Late Eocene La Meseta Formation (34-37 MYA) on Seymour Island, Antarctica (Tambussi et al., 2006).

As the bird is not very well distinguished except in size from its contemporary congener Archaeospheniscus lowei and the size range, an estimated 85–120 cm, is in the upper range of the variation found in modern penguins, it is probable that A. lopdelli is a synonym of A. lowelli. As the recent finds in Antarctica suggest, this is far from certain, however, and there remains much to be learned about the systematics and biogeography of the two larger Archaeospheniscus species.

The species' binomen honors J. C. Lopdell, who assisted Marples in recovering the fossils of this bird and others found in the Duntroon excavations.

References

[edit]
  • Marples, Brian J. (1952): "Early Tertiary Penguins of New Zealand". New Zealand Geol. Surv., Paleont. Bull. 20: 1-66.
  • Simpson, George Gaylord (1971): "A review of the Pre-Pleistocene Penguins of New Zealand". Bulletin of the American Museum of Natural History 144: 319–378. PDF fulltext
  • Tambussi, C. P.; Acosta Hospitaleche, C. I.; Reguero, M. A. & Marenssi, S. A. (2006): "Late Eocene Penguins from West Antarctica: Systematics and Biostratigraphy". Geological Society, London, Special Publication 258: 145–161.