New anomalocaridid appendages from the Burgess Shale, Canada

53 4 July 721 738 10.1111/j.1475-4983.2010.00955.x

DALEY, A. C., BUDD, G. E. 2010. New anomalocaridid appendages from the Burgess Shale, Canada. Palaeontology53, 4, 721–738.

Allison C. Daley and Graham E. Budd The complex history of description of the anomalocaridids has partly been caused by the fragmentary nature of these fossils. Frontal appendages and mouth parts are more readily preserved than whole-body assemblages, so the earliest work on these animals examined these structures in isolation. After several decades of research, these disarticulated elements were assembled together to reconstruct the anomalocaridid body plan, and a total of three Burgess Shale genera, Anomalocaris, Laggania and Hurdia, were described in full. Here we present new frontal appendage material of additional anomalocaridid taxa from the 'Middle' Cambrian (Series 3) Burgess Shale Formation in Canada, showing that the diversity of anomalocaridids in this locality is even higher than previously thought. Material includes Amplectobelua stephenensis sp. nov., the first known occurrence of this genus outside of China; Caryosyntrips serratus gen. et sp. nov., which is similar to the Anomalocaris appendage but has a straighter outline and a different arrangement of spines; and an appendage that may be either the Laggania appendage or a third morph of the Hurdia appendage. The new anomalocaridid material is contemporaneous with the previously described taxa Anomalocaris, Laggania, and Hurdia, and the differences in morphology between the frontal appendages may reflect different feeding strategies. The stratigraphically lowest locality, S7 on Mount Stephen, yields material from all anomalocaridid taxa, but the assemblages in the younger quarries on Fossil Ridge are dominated by Anomalocaris and Hurdia only.
  • BERGSTRÖM, J. 1986. Opabinia and Anomalocaris, Unique Cambrian Arthropods. Lethaia, 19, 241–246.
  • BERGSTRÖM, J. 1987. The Cambrian Opabinia and Anomalocaris. Lethaia, 20, 187–188.
  • BRIGGS, D. E. G. 1979. Anomalocaris, the largest known Cambrian arthropod. Palaeontology, 22, 631–663.
  • BRIGGS, D. E. G. and MOUNT, J. D. 1982. The Occurrence of the Giant Arthropod Anomalocaris in the Lower Cambrian of Southern-California, and the Overall Distribution of the Genus. Journal of Paleontology, 56, 1112–1118.
  • BRIGGS, D. E. G. and ROBISON, R. A. 1984. Exceptionally preserved nontrilobite arthropods and Anomalocaris from the Middle Cambrian of Utah. University of Kansas Paleontological Contributions, 111, 1–23.
  • BRIGGS, D. E. G., LIEBERMAN, B. S., HENDRICKS, J. R., HALGEDAHL, S. L. and JARRARD, R. D. 2008. Middle Cambrian arthropods from Utah. Journal of Paleontology, 82, 238–254.
  • BRUTON, D. L. 1981. The arthropod Sidneyia inexpectans, Middle Cambrian, Burgess Shale, British Columbia. Philosophical Transactions of the Royal Society of London B, 295, 619–653.
  • BUDD, G. E. 1993. A Cambrian Gilled Lobopod from Greenland. Nature, 364, 709–711.
  • BUDD, G. E. 1996. The morphology of Opabinia regalis and the reconstruction of the arthropod stem-group. Lethaia, 29, 1–14.
  • BUDD, G. E. 1999. The morphology and phylogenetic significance of Kerygmachela kierkegaardi Budd (Buen Formation, Lower Cambrian, N Greenland). Transactions of the Royal Society of Edinburgh-Earth Sciences, 89, 249–290.
  • BUDD, G. E. 2002. A palaeontological solution to the arthropod head problem. Nature, 417, 271–275.
  • BUDD, G. E. 2008. Head structures in upper stem-group euarthropods. Palaeontology, 51, 561–573.
  • BUTTERFIELD, N. J. and NICHOLAS, C. J. 1996. Burgess Shale-type preservation of both non-mineralizing and ‘shelly’ Cambrian organisms from the Mackenzie Mountains, northwestern Canada. Journal of Paleontology, 70, 893–899.
  • CARON, J. B. 2005. Taphonomy and community analysis of the Middle Cambrian Greater Phyllopod Bed, Burgess Shale. Unpublished Ph.D. Thesis, University of Toronto, Toronto, 316 pp.
  • CHEN, J. and ZHOU, G. 1997. Biology of the Chengjiang Fauna. 11–106. In CHEN, J., CHENG, Y. and ITEN, H. V. (eds). The Cambrian Explosion and the fossil record, Vol. 10. Bulletin of the National Museum of Natural Science, Taichung, Taiwan, China, 320 pp.
  • CHEN, J., RAMSKÖLD, L. and ZHOU, G. Q. 1994. Evidence for Monophyly and Arthropod Affinity of Cambrian Giant Predators. Science, 264, 1304–1308.
  • CHEN, J., WALOSZEK, D. and MAAS, A. 2004. A new ‘great-appendage’ arthropod from the Lower Cambrian of China and homology of chelicerate chelicerae and raptorial antero-ventral appendages. Lethaia, 37, 3–20.
  • CHLUPÁČ, I. and KORDULE, V. 2002. Arthropods of Burgess Shale type from the Middle Cambrian of Bohemia (Czech Republic). Bulletin of the Czech Geological Survey, 77, 167–182.
  • COLLINS, D. 1996. The ‘evolution’ of Anomalocaris and its classification in the arthropod class Dinocarida (nov) and order Radiodonta (nov). Journal of Paleontology, 70, 280–293.
  • COLLINS, D. and STEWART, W. D. 1991. The Burges Shale and its environmental setting, Fossil Ridge, Yoho National Park. 105–117. In SMITH, P. L. (ed.). A Field Guide to the Palaeontology of Southwestern Canada. University of British Columbia, Victoria, 256 pp.
  • CONWAY MORRIS, S. 1978. Laggania cambria Walcott – Composite Fossil. Journal of Paleontology, 52, 126–131.
  • COTTON, T. J. and BRADDY, S. J. 2004. The phylogeny of arachnomorph arthropods and the origin of the Chelicerata. Transactions of the Royal Society of Edinburgh-Earth Sciences, 94, 169–193.
  • DALEY, A. C., BUDD, G. E., CARON, J. B., EDGECOMBE, G. D. and COLLINS, D. 2009. The Burgess Shale Anomalocaridid Hurdia and Its Significance for Early Euarthropod Evolution. Science, 323, 1597–1600.
  • DEWEL, R. A. and DEWEL, W. C. 1998. The place of tardigrades in arthropod evolution. 109–123. In FORTEY, R. A. and THOMAS, R. H. (eds). Arthropod relationships. Systematics Association Special Volume 55. Chapman and Hall Ltd, London, 383 pp.
  • DZIK, J. and LENDZION, K. 1988. The Oldest Arthropods of the East European Platform. Lethaia, 21, 29–38.
  • FLETCHER, T. P. and COLLINS, D. H. 1998. The Middle Cambrian Burgess Shale and its relationship to the Stephen Formation in the southern Canadian Rocky Mountains. Canadian Journal of Earth Sciences, 35, 413–436.
  • FLETCHER, T. P. and COLLINS, D. H. 2003. The Burgess Shale and associated Cambrian formations west of the Fossil Gully Fault Zone on Mount Stephen, British Columbia. Canadian Journal of Earth Sciences, 40, 1823–1838.
  • GOTELLI, N. J. and ENTSMINGER, G. L. 2009. EcoSim: null models software for ecology. Version 7. Acquired Intelligence Inc. & Kesey-Bear. Jericho, VT 05465. http://garyentsminger.com/ecosim.htm.
  • HAMMER, Ø., HARPER, D. A. T. and RYAN, P. D. 2001. PAST: paleontological Statistics Software Package for Education and Data Analysis. Palaeontologia Electronica, 4, 9.
  • HOU, X. and BERGSTRÖM, J. 1997. Arthropods of the Lower Cambrian Chengjiang fauna, southwest China. Fossils and Strata, 45, 1–116.
  • HOU, X., BERGSTRÖM, J. and AHLBERG, P. 1995. Anomalocaris and Other Large Animals in the Lower Cambrian Chengjiang Fauna of Southwest China. Gff, 117, 163–183.
  • HOU, X., BERGSTRÖM, J. and JIE, Y. 2006. Distinguishing anomalocaridids from arthropods and priapulids. Geological Journal, 41, 259–269.
  • KÜHL, G., BRIGGS, D. E. G. and RUST, J. 2009. A Great-Appendage Arthropod with a Radial Mouth from the Lower Devonian Hunsruck Slate, Germany. Science, 323, 771–773.
  • LIEBERMAN, B. S. 2003. A new soft-bodied fauna: the Pioche Formation of Nevada. Journal of Paleontology, 77, 674–690.
  • MAAS, A., WALOSZEK, D., CHEN, J. Y., BRAUN, A., WANG, X. Q. and HUANG, D. Y. 2004. Phylogeny and life habits of early arthropods – Predation in the Early Cambrian Sea. Progress in Natural Science, 14, 158–166.
  • MADSEN, F. J. 1957. On Walcott’s supposed Cambrian holothurians. Journal of Paleontology, 31, 281–282.
  • MASIAK, M. and ZYLINSKA, A. 1994. Burgess Shale-type fossils in Cambrian sandstones of the Holy Cross Mountains. Acta Palaeontologica Polonica, 39, 329–340.
  • NEDIN, C. 1999. Anomalocaris predation on nonmineralized and mineralized trilobites. Geology, 27, 987–990.
  • RESSER, C. E. 1929. New Lower and Middle Cambrian Crustacea. Proceedings of the United States National Museum, 76, 1–18.
  • RIGBY, J. K. and COLLINS, D. 2004. Sponges of the Middle Cambrian Burgess Shale and Stephen Formations, British Columbia. Royal Ontario Museum Contributions in Science, 1, 1–155.
  • SCHOLTZ, G. and EDGECOMBE, G. D. 2005. Heads, Hox and the phylogenetic position of trilobites. 139–165. In KOENEMANN, S. and JENNER, R. (eds). Crustacea and arthropod relationships. CRC, Boca Raton, 440 pp.
  • SCHOLTZ, G. and EDGECOMBE, G. D. 2006. The evolution of arthropod heads: reconciling morphological, developmental and palaeontological evidence. Development Genes and Evolution, 216, 395–415.
  • VAN ROY, P. and TETLIE, O. E. 2006. A spinose appendage fragment of a problematic arthropod from the Early Ordovician of Morocco. Acta Palaeontologica Polonica, 52, 239–246.
  • VANNIER, J., CARON, J. B., YUAN, J. L., BRIGGS, D. E. G., COLLINS, D., ZHAO, Y. L. and ZHU, M. Y. 2007. Tuzoia: morphology and lifestyle of a large bivalved arthropod of the Cambrian Seas. Journal of Paleontology, 81, 445–471.
  • WALCOTT, C. D. 1911. Middle Cambrian Holothurians and Medusae. Smithsonian Miscellaneous Collections, 57, 41–68.
  • WALCOTT, C. D. 1912. Middle Cambrian Branchiopoda, Malacostraca, Trilobita and Merostomata. Smithsonian Miscellaneous Collections, 57, 145–228.
  • WHITEAVES, J. F. 1892. Description of a new genus and species of Phyllocarid Crustacea from the Middle Cambrian of Mount Stephen, B.C. Canadian Record of Science, 5, 205–208.
  • WHITTINGTON, H. B. and BRIGGS, D. E. G. 1985. The Largest Cambrian Animal, Anomalocaris, Burgess Shale, British-Columbia. Philosophical Transactions of the Royal Society of London Series B-Biological Sciences, 309, 569–609.
  • WILLS, M. A., BRIGGS, D. E. G., FORTEY, R. A., WILKINSON, M. and SNEATH, P. H. A. 1998. An arthropod phylogeny based on fossil and recent taxa. 33–106. In EDGECOMBE, G. D. (ed.). Arthropod fossils and phylogeny. Columbia University Press, New York, 347 pp.
  • ZHANG, X. L., SHU, D. G., LI, Y. and HAN, J. 2001. New sites of Chengjiang fossils: crucial windrows on the Cambrian explosion. Journal of the Geological Society, 158, 211–218.
Wiley Online Library