Fossil Gallery

Home > Fossil Gallery > Waptia

Waptia fieldensis

A shrimp-like arthropod with a long abdomen

Reconstruction of Waptia fieldensis.

Get Adobe Flash player

Reconstruction of Waptia fieldensis.

© Marianne Collins

Media 1 of 8 for Waptia fieldensis 2D Model
Media 2 of 8 for Waptia fieldensis Drawing
Media 3 of 8 for Waptia fieldensis Photo
Media 4 of 8 for Waptia fieldensis Photo
Media 5 of 8 for Waptia fieldensis Photo
Media 6 of 8 for Waptia fieldensis Photo
Media 7 of 8 for Waptia fieldensis Photo
Media 8 of 8 for Waptia fieldensis Photo

Taxonomy

Kingdom:

Animalia

Phylum:

Arthropoda

Class:

Unranked clade (stem group arthropods)

Affinity:

It has been suggested that Waptia is closely related to Canadaspis and Perspicaris (Briggs and Fortey, 1989), with the group being allied to the crustaceans (Briggs, 1983; Wills et al., 1998; Briggs et al., 2008). However, some researchers argue instead that Waptia is at most a stem-lineage crustacean (Bergström and Hou, 2005), or perhaps even in the stem lineage to the arthropods (Hou and Bergström, 1997; Walossek and Müller, 1998).

Species name:

Waptia fieldensis

Described by:

Walcott

Description date:

1912

Etymology:

Waptia – from Wapta Mountain (2,778 m), just north of Fossil Ridge, in British Columbia, Canada, named after the Stoney First Nation Nakoda word “Wapta” meaning “running water.”

fieldensis – from Field, the mountain peak (2,643 m) and small town near Fossil Ridge, British Columbia, Canada. The name was given by William Cornelius Van Horne (General Manager of the Canadian Pacific Railway), to honor Cyrus West Field a promoter of the first telegraph cable across the Atlantic Ocean.

Type Specimens:

Syntypes –USNM57681 andUSNM57682 (W. fieldensis) in the National Museum of Natural History, Smithsonian Institution, Washington, DC, USA

Other species:

Burgess Shale and vicinity: none.

Other deposits: Waptia cf. fieldensis from the Spence Shale Member of the Langston Formation, Utah (Briggs et al. 2008).

Back to top

Age

Period:

Middle Cambrian, Bathyuriscus-Elrathina Zone (approximately 505 million years ago).

Back to top

Localities

Principal localities:

The Walcott and Raymond Quarries on Fossil Ridge

Back to top

History of Research

Brief history of research:

Waptia was first described by Walcott (1912), who designated Waptia fieldensis as the type species of the type genus. Various authors have since commented on its affinities (e.g. Briggs, 1983; Briggs et al., 1994; Hou and Bergström, 1997; Walossek and Müller, 1998; Wills et al., 1998; Hou and Bergström, 2005). However, no detailed work on its morphology has since been completed. Despite this, specimens of Waptia cf. fieldensis have been described from the Spence Shale in Utah (Briggs et al., 2008), and Waptia has been compared to Pauloterminus spinodorsalis from the Sirius Passet biota in North Greenland (Taylor, 2002). Waptia-like specimens from southwest China (Li, 1975; Hou and Bergström, 1991) were at one point assigned to Waptia (Chen, 2004), but a re-examination of the specimens showed they were different enough to be assigned to their own genus, Chuandianella (Liu and Shu, 2004, 2008; Hou et al., 2009).

Back to top

Description

Morphology:

Waptia bears a bivalved head shield consisting of two roughly oval valves that narrow anteriorly and fold along a median line that functions as a hinge. Beneath this carapace, the head bears a pair of long, slender antennae and a pair of small eyes on stalks. Details of other head appendages cannot be seen due to compaction against the head and carapace. The body trunk is long and slender and bears ten pairs of appendages. The first four pairs of appendage are segmented walking limbs with terminal spines and setae on their back margin, and the next six pairs of appendages are segmented branches lined with setae (hair-like bristles) and bearing blade-shaped filaments. Behind these appendages there is an abdomen consisting of five elongated segments. The abdomen terminates in a forked tail that consists of two oval blades. The trace of a straight gut is apparent in some specimens, stretching from the head to the base of the forked tail.

Abundance:

Waptia is common in the Burgess Shale, with over 1,400 specimens collected from the Walcott Quarry (Conway Morris, 1986; Caron and Jackson, 2008) and 70 specimens collected from the Raymond Quarry.

Maximum size:

80 mm

Back to top

Ecology

Life habits:

Nektobenthic, mobile

Feeding strategies:

Deposit feeder

Ecological Interpretations:

Waptia lived on or near the sea floor and scavenged for food. It used its two types of appendages to both walk on the sea floor and to swim through the water column. The first four pairs of segmented walking limbs would have been used for balancing and moving around on the sea floor, and the animal could have propelled itself through the water column by waving the bladed filaments of the posterior six appendages. The tail flaps would have helped stabilize and steer Waptia while swimming. The bladed filament may also have had a use in gas exchange. The eyes and antennae were presumably used to sense the environment, and the head appendages would pick up food particles in the sediment and bring them to the mouth.

Back to top

References

Bibliography:

BERGSTRÖM, J. AND X. HOU. 2005.Early Palaeozoic non-lamellipedian arthropods, p. 73-93. In S. Koenemann and R. A. Jenner (eds.), Crustaceans and Arthropod Relationships, Festschrift for Fredrick R. Schram. Taylor and Francis, Boca Raton, London, New York, Singapore.

BRIGGS, D. E. G. 1983. Affinities and early evolution of the Crustacea: The evidence of the Cambrian fossils, p. 1-22. In F. R. Schram (ed.), Crustacean Issues, Volume 1, Crustacean Phylogeny. Balkema, Rotterdam.

BRIGGS, D. E. G. AND R. A. FORTEY. 1989. The early radiation and relationships of the major arthropod groups. Science, 246: 241-243.

BRIGGS, D. E. G., D. H. ERWIN AND F. J. COLLIER. 1994. The fossils of the Burgess Shale. Smithsonian Institution Press, Washington D. C.

BRIGGS, D. E. G., B. S. LIEBERMAN, J. R. HENDRICKS, S. L. HALGEDAHL AND R. D. JARRARD. 2008. Middle Cambrian arthropods from Utah. Journal of Paleontology, 82(2): 238-254.

CARON, J.-B. AND D. A. JACKSON. 2008. Paleoecology of the Greater Phyllopod Bed community, Burgess Shale. Palaeogeography, Palaeoclimatology, Palaeoecology, 258: 222-256.

CHEN, J. 2004. The dawn of the animal world. Jiangsu Science and Technology Press. Nanjing.

CONWAY MORRIS, S. 1986. The community structure of the Middle Cambrian phyllopod bed (Burgess Shale). Palaeontology, 29: 423-467.

HOU, X. AND J. BERGTRÖM. 1991. The arthropods of the Lower Cambrian Chengjiang fauna, with relationships and evolutionary significance, 179-187. In A. Simonetta and S. Conway Morris (eds.), The early evolution of the Metazoa and the significance of problematic taxa. Cambridge University Press, Cambridge.

HOU, X. AND J. BERGTRÖM. 1997. Arthropods of the Lower Cambrian Chengjiang fauna, southwest China. Fossils and Strata, 45:1-116.

HOU, X., D. J. SIVETER, R. J. ALDRIDGE AND D. J. SIVETER. 2009. A new arthropod in chain-like associations from the Chengjiang lagerstätte (Lower Cambrian), Yunnan, China. Palaeontology, 52: 951-961.

LI, Y. 1975. On the Cambrian ostracods with new material from Sichuan, Yunnan and Shaanxi, China. Professional Papers on Stratigraphy & Palaeontology, 2: 37-72.

LI, H. AND D. SHU. 2004. New information on Chuandianella from the Lower Cambrian Chengjiang Fauna, Yunnan, China. Journal of Northwest University, 34: 453-456.

TAYLOR, R. S. 2002. A new bivalved arthropod from the Early Cambrian Sirius Passet fauna, North Greenland. Palaeontology, 45: 97-123.

WALCOTT, C. 1912. Cambrian Geology and Paleontology II. Middle Cambrian Branchiopoda, Malacostraca, Trilobita and Merostomata. Smithsonian Miscellaneous Collections, 57(6): 145-228.

WALOSSEK, D. AND K. J. MÜLLER. 1998. Early arthropod phylogeny in light of the Cambrian “Orsten” fossils, p. 185-231. In G. D. Edgecombe (ed.), Arthropod Fossils and Phylogeny. Columbian University Press, New York.

WILLS, M. A., D. E. G. BRIGGS, R. A. FORTEY, M. WILKINSON AND P. H. A. SNEATH. 1998. An arthropod phylogeny based on fossil and recent taxa, p. 33-105. In G. D. Edgecombe (ed.), Arthropod fossils and phylogeny. Columbia University Press, New York.

Other links:

http://paleobiology.si.edu/burgess/waptia.html

Back to top