Advanced search
Publication Cover
Historical Biology
An International Journal of Paleobiology
Volume 21, 2009 - Issue 1-2
Submit an article Journal homepage
1,765
Views
9
CrossRef citations to date
0
Altmetric
Original Articles

The rise of bilaterians

Gary Freeman Section of Integrative Biology, University of Texas, 1 University Station, C0930, Austin, TX, 78712, USACorrespondence[email protected]
Pages 99-114 | Received 02 Jun 2009, Accepted 28 Aug 2009, Published online: 15 Oct 2009

References

  • Babcock , LE , Grunow , AM , Sadowski , GR and Leslie , SA . 2005 . Corumbella an Ediacaran-grade organism from the Late Neoproterozoic of Brazil . Palaeogeo Palaeoclim Palaeoecol , 220 : 7 – 18 .
  • Bamforth , EL , Narbonne , GM and Anderson , MM . 2008 . Growth and ecology of a multibranched Ediacaran rangeomorph from the Mistaken Point assemblage, Newfoundland . J Paleontol , 82 : 763 – 777 .
  • Barford , GH , Albarede , F , Knoll , AH , Xiao , S , Telouk , P , Frei , R and Baker , J . 2002 . New Lu–Hf and Pb–Pb age constraints on the earliest animal fossils . Earth Planet Sci Lett , 201 : 203 – 212 .
  • Beklemishev , WN . 1969 . “ Principles of comparative anatomy of invertebrates ” . In Promorphology , Vol. 1 , Chicago (IL) : University of Chicago Press .
  • Bemus , AP . 1988 . Sedimentological context of a deep-water Ediacaran fauna (Mistaken Point, Avalon Zone of eastern Newfoundland) New York State . Mus Bull , 463 : 8 – 9 . abstract
  • Bengston S, Budd G. 2004. Comment on ‘small bilaterian fossils from 40–55 million years before the Cambrian’. Science. 306:1291. Available from: http://www.sciencemag.org/cgi/content/full/306/5700/1291a
  • Bengston , S and Rasmussen , B . 2009 . New and ancient trace makers . Science , 323 : 346 – 347 .
  • Bengston , S and Zhao , Y . 1992 . Predatorial borings in late Precambrian mineralized exoskeletons . Science , 257 : 367 – 369 .
  • Bowring , S , Myrow , P , Landing , E and Ramerzani , J . Geochronological constraints on terminal Neoproterozoic events and the rise of metazoans . NASA Astrobiological Institute (NIA General Meetings) . pp. 113 – 114 . abstract)
  • Bowring , S , Myrow , P , Landing , E , Ramerzani , J and Grotzinger , J . 2003b . Geochronological constraints on terminal Neoproterozoic events and the rise of metazoans . Geophys Res Abst , 5 : 13219
  • Boynton , HE and Ford , DT . 1979 . Pseudovendia charnwoodensis – a new Precambrian arthropod of Charnwood Forest, Leicestershire . Mercian Geol , 7 : 175 – 177 .
  • Brasier , MD and Antcliffe , JB . 2009 . Evolutionary relationships within the Avolonian Ediacara biota: new insights from laser analysis . J Geol Soc Lond , 166 : 363 – 384 .
  • Chen , DF , Dong , WQ , Zhu , BQ and Chen , XP . 2004 . Pb–Pb ages of Neoproterozoic Doushantuo phosphorites in South China: constraints on early metazoan evolution and glaciation events . Precamb Res , 132 : 123 – 132 .
  • Chen , J-Y , Bottjer , DJ , Oliveri , P , Dornbos , SQ , Gao , F , Ruffins , S , Chi , H , Li , C-W and Davidson , EH . 2004a . Small bilaterian fossils from 40–55 million years before the Cambrian . Science , 305 : 218 – 222 .
  • Chen , J-Y , Bottjer , DJ , Davidson , EH , Dornbos , SQ , Gao , X , Yang , Y-H , Li , C-W , Li , G , Wang , X-Q Xian , D-C . 2006 . Phosphatized polar lobe-forming embryos from the Precambrian of Southwestern China . Science , 312 : 1644 – 1646 .
  • Chen J-Y, Oliveri P, Davidson E, Bottjer D. 2004b. Response to comment on ‘small bilaterian fossils from 40–55 million years before the Cambrian’. Science. 306, 1291. Available from: http://www.sciencemag.org.cgi/content/full/306/5700/1291b
  • Chen , J-Y , Oliveri , P , Li , C-W , Zhou , G-Q , Gao , G-Q , Hagadorn , JW , Peterson , KJ and Davidson , EH . 2000 . Precambrian animal diversity: Putative phosphatized embryos from the Doushantuo Formation of China . Proc Nat Acad Sci USA , 97 : 4457 – 4462 .
  • Chen , J-Y , Oliveri , P , Gao , F , Dornbos , SQ , Li , C-W , Bottjer , DJ and Davidson , EH . 2002 . Precambrian animal life: probable developmental and adult cindarian forms from Southwest China . Develop Biol , 248 : 182 – 196 .
  • Chen , Z , Bengtson , S , Zhou , CM , Hua , H and Yue , Z . 2008 . Tube structure and original composition of Sinotubulites shelly fossils from the late Neoproterozoic in southern Shaanxi, China . Lethaia , 41 : 37 – 45 .
  • Clapham , ME , Narbonne , GM , Gehling , JG , Greentree , C and Anderson , MM . 2004 . Thectardis avalonensis: a new Ediacaran fossil from the Mistaken Point Biota, Newfoundland . J Paleontol , 78 : 1031 – 1036 .
  • Compston , W , Wright , AE and Toghill , P . 2002 . Dating the Late Precambrian vocanicity of England and Wales . J Geol Soc Lond , 159 : 323 – 339 .
  • Condon , D , Zhu , M , Bowring , S , Wang , W , Yang , A and Jin , Y . 2005 . U–Pb ages from the Neoproterozoic Doushantuo Formation, China . Science , 308 : 95 – 98 .
  • Dornbos , SQ , Bottjer , DJ , Chen , J-Y , Gao , F , Oliveri , P and Li , C-W . 2006 . Environmental controls on the taphonomy of phosphatized animals and animal embryos from the Neoproterozoic Doushantuo formation, Southwest, China . Palaios , 21 : 3 – 14 .
  • Droser , ML and Gehling , JG . 2008 . Synchronous aggregate growth in an abundant new Ediacaran tubular organism . Science , 319 : 1660 – 1662 .
  • Dunn , CW , Hejonl , A , Matus , DQ , Pang , K , Browne , WA , Smith , SA , Seaver , E , Rouse , GW , Obst , M Edgecombe , GD . 2008 . Broad phylogenetic sampling improves resolution of the animal tree of life . Nature , 452 : 745 – 749 .
  • Dzik , J and Ivantsov , AY . 1999 . An asymmetric segmented organism from the Vendian of Russia and the status of the Dipleurozoa . Hist Biol , 13 : 255 – 268 .
  • Dzik , J and Ivantsov , AY . 2002 . Internal anatomy of new Precambrian Dickinsoniid Dipleurozoan from northern Russia . N Jb Paläont Mh , 2002 : 385 – 398 .
  • Fedonkin , MA . 1990a . “ Non-skeletal fauna of the Vendian: promorphological analysis ” . In The Vendian system. Vol. 1. Paleontology , 7 – 70 . Berlin : Springer-Verlag .
  • Fedonkin , MA . 1990b . “ Systematic description of Vendian metazoa ” . In The Vendian system. Vol. 1. Paleontology , 71 – 120 . Berlin : Springer-Verlag .
  • Fedonkin , MA . 2002 . Andiva ivantsovi gen. et. sp. n. and related carapace-bearing Ediacaran fossils from the Vendian of the Winter Coast, White Sea Russia . Ital J Zool , 69 : 175 – 181 .
  • Fedonkin , MA , Gehling , JG , Grey , K , Narbonne , GM and Vickers-Rich , P . 2007a . The rise of animals , Baltimore (MD) : Johns Hopkins University Press .
  • Fedonkin , MA and Ivantsov , AY . 2007b . Ventrogyrus, a possible siphonophore-like trilobozoan coelenterate from the Vendian sequence (late Neoproterozoic), northern Russia. The Rise and Fall of the Ediacaran Biota . Geol Soc Lond Spec Publ , 286 : 187 – 194 .
  • Fedonkin , MA , Simonetta , A and Ivantsov , AY . 2007c . New data on Kimberella, the Vendian mollusk-like organism (White Sea region, Russia): Palaeoecological and evolutionary implications. The Rise and Fall of the Ediacaran Biota . Geol Soc Lond Spec Publ , 286 : 157 – 179 .
  • Freeman , G and Lundelius , J . 1992 . Evolutionary implications of the mode of D quadrant specification in coelomates with spiral cleavage . J Evol Biol , 5 : 205 – 247 .
  • Gaucher , C and Sprechmann , P . 1999 . Upper Vendian skeletal fauna of the Arroyo del Soldado Group, Uruguay . Beringeria , 23 : 55 – 91 .
  • Gehling , JG . 1987 . Earliest known echinoderm – a new Ediacaran fossil from the Pound Subgroup of South Australia . Alcheringa , 11 : 337 – 345 .
  • Gehling , JG . 1988 . A cnidarian of actinian-grade from the Ediacaran Pound Subgroup, South Australia . Alcheringa , 12 : 299 – 314 .
  • Gehling , JG and Narbonne , GM . 2007 . Spindle-shaped Ediacaran fossils from the mistaken point assemblage, Avalon Zone, Newfoundland . Can J Earth Sci , 44 : 367 – 387 .
  • Gehling , JG and Rigby , JK . 1996 . Long-expected sponges from the Neoproterozoic Ediacara Fauna, Pound Subgroup, South Australia . J Paleontol , 70 : 185 – 195 .
  • Gehling , JG , Narbonne , GM and Anderson , MM . 2000 . The first named body fossil, Aspidella terranovica Billings 1872 . Palaeont , 43 : 427 – 456 .
  • Gehling , JG , Droser , ML , Jensen , S and Runnegar , BN . 2005 . “ Ediacara organisms: relating form to function ” . In Evolving form and function: fossils and development , 43 – 66 . New Haven (CT) : Peabody Museum of Natural History, Yale University .
  • Germs , GJB . 1973 . A reinterpretation of Rangea schneiderhoehni and the discovery of a related new fossil from the Nama group, South West Africa . Lethaia , 6 : 1 – 10 .
  • Geyer , G and Uchman , A . 1995 . “ Ichnofossil assemblages from the Nama group (Neoproterozoic-Lower Cambrian) in Namibia and the Proterozoic-Cambrian boundary problem revisited. Morocco ’95 ” . In The Lower-Middle Cambrian standard of western Gondwana , Beringeria Special Issue Vol. 2 , 175 – 202 .
  • Glaessner , MF . 1969 . Trace fossils from Precambrian and basal Cambrian . Lethaia , 2 : 368 – 393 .
  • Glaessner , MF . 1977 . Re-examination of Archaeichinum, a fossil from the Nama Group . Ann S Afr Mus , 74 : 335 – 342 .
  • Glaessner , MF . 1979 . An echiurid worm from the late Precambrian . Lethaia , 12 : 121 – 124 .
  • Glaessner , MF . 1980 . Parvancornia – an arthropod from the Late Precambrian (Ediacaran) of South Australia . Ann Naturhist Mus Wien , 83 : 83 – 90 .
  • Glaessner , MF and Wade , M . 1966 . The Late Precambrian fossils from Ediacara, South Australia . Palaeontology , 9 : 599 – 628 .
  • Grazhdankin , DV . 2000 . The Ediacaran genus Inaria: a taphonomic morphodynamic analysis . N Jahrb Geol Palåont Abhand , 216 : 1 – 34 .
  • Grazhdankin , D . 2004 . Patterns of distribution in the Ediacaran biotas: facies versus biogeography and evolution . Paleobiology , 30 : 203 – 221 .
  • Grotzinger , JP , Bowering , SA , Saylor , BZ and Kaufman , AJ . 1995 . Biostratigraphic and geochronologic constraints on early animal evolution . Science , 270 : 598 – 604 .
  • Grotzinger , JP , Watters , WA and Knoll , AH . 2000 . Calcified metazoans in thrombolite-stromatolite reefs of the terminal Proterozoic Nama group, Namibia . Paleobiology , 26 : 334 – 359 .
  • Hagadorn , JW and Waggoner , B . 2000 . Ediacaran fossils from the Southwestern Great Basin, United States . J Paleontol , 74 : 349 – 359 .
  • Hofmann , HJ , O'Brien , SJ and King , AF . 2008 . Ediacaran biota on Bonavista Peninsula, Newfoundland, Canada . J Paleontol , 82 : 1 – 36 .
  • Hua , H , Zhang , L-Y , Zhang , Z-F and Wang , J-P . 2000 . Fossil evidence of latest Neoproterozoic Gaojiashan biota and their characteristics . Acta Palaeontol Sinica , 39 : 511 – 515 .
  • Hua , H , Chen , Z , Yuan , X , Zhang , L and Xiao , S . 2005 . Skeletogenesis and asexual reproduction in the earliest biomineralizing animal Cloudina . Geology , 33 : 277 – 280 .
  • Ivantsov , AY . 1999 . A new Dickinsonid from the Upper Vendian of the White Sea Winter Coast (Russia Arkhangelsk Region) . Paleontol J , 33 : 211 – 221 .
  • Ivantsov , AY . 2001 . Vendia and other Precambrian ‘Arthropods’ . Paleontol J , 35 : 335 – 343 .
  • Ivantsov , AY . 2004 . New Proarticulata from the Vendian of the Arkhangel'sk region . Paleontol J , 38 : 247 – 253 .
  • Ivantsov , AY . 2007 . Small Vendian transversely articulated fossils . Paleontol J , 41 : 113 – 122 .
  • Ivantsov , AY and Fedonkin , MA . 2002 . Conulariid-like fossils from the Vendian of Russia: a metazoan clade across the Proterozoic/Palaeozoic boundary . Palaentol , 45 : 1219 – 1229 .
  • Ivantsov , AY and Malakhovskaya , YE . 2002 . Giant traces of Vendian animals . Doklady Akad Nauk , 385 : 382 – 387 . (in Russian)
  • Ivantsov , AY , Malakhovskaya , YE and Serezhnikova , EA . 2004 . Some problematic fossils from the Vendian of the southeastern White Sea region . Paleontol J , 38 : 1 – 9 .
  • Jenkins , RLF . 1985 . The enigmatic Ediacaran (late Precambrian) genus Rangea and related forms . Paleobiology , 11 : 336 – 355 .
  • Jenkins , RLF . 1992 . “ Functional and ecological aspects of Ediacaran assemblages ” . In Origin and early evolution of Metazoa , 131 – 176 . New York : Plenum Press .
  • Jenkins , RJF . 1995 . The problems and potential of using animal fossils and trace fossils in terminal Proterozoic biostratigraphy . Precamb Res , 73 : 51 – 69 .
  • Jenkins , RJF and Gehling , JG . 1978 . A review of frond like fossils of the Ediacaran assemblage . Rec S Aust Mus , 17 : 347 – 359 .
  • Jenkins , RLF and Nedin , C . 2007 . The provenance and palaeobiology of a new multi-vaned chambered frondose organism from the Ediacaran (Later Neoproterozic) of South Australia. The rise and fall of the Ediacaran biota . Geol Soc Lond Spec Publ , 286 : 195 – 222 .
  • Jensen , S . 2003 . The Proterozoic and Earliest Cambrian trace fossil record; patterns, problems and perspectives . Integr Comp Biol , 43 : 219 – 228 .
  • Jensen , S , Saylor , BZ , Gehling , JG and Germs , GJB . 2000 . Complex trace fossils from the terminal Proterozoic of Namibia . Geology , 28 : 143 – 146 .
  • Jensen , S , Droser , ML and Gehling , JG . 2005 . Trace fossil preservation and the early evolution of animals . Palaeogeo Palaeoclim Palaeoecol , 220 : 19 – 29 .
  • Jensen , S , Droser , ML and Gehling , JG . 2006 . “ A critical look at the Ediacaran trace fossil record ” . In Neoproterozoic Geobiology and Paleobiology , 115 – 157 . New York : Springer-Verlag .
  • LaFlamme , M , Narbonne , GM and Anderson , MM . 2004 . Morphometric analysis of the Ediacaran frond Charniodiscus from the Mistaken Point Formation, Newfoundland . J Paleontol , 78 : 827 – 837 .
  • Leonov , MV . 2007 . Comparative taphonomy of Vendian genera Beltanelloides and Nemiana: taxonomy and lifestyle. The rise and fall of the Ediacaran Biota . Geol Soc Lond Spec Publ , 286 : 259 – 267 .
  • Li , C-W , Chen , J-Y and Hua , T-E . 1998 . Precambrian sponges with cellular structures . Science , 279 : 879 – 882 .
  • Lin , J-P , Gon , SM III , Gehling , JG , Babcock , LE , Zhao , Y-L , Zhang , X-L , Hu , S-X , Yuan , J-L , Yu , MY and Peng , J . 2006 . A Parvancornia-like arthropod from the Cambrian of South China . Hist Biol , 18 : 33 – 45 .
  • Liu , P , Xiao , S , Yin , C , Zhou , C , Gao , L and Tang , F . 2008 . Systematic description and phylogenetic affinity of tubular microfossils from the Ediacaran Doushantuo formation at Weng'an, South China . Palaeontol , 2008 : 339 – 366 .
  • Love , GD , Grosjean , E , Stalvies , C , Fike , DA , Grotzinger , JP , Bradley , AS , Kelly , AE , Bhatia , M , Meredith , W Snape , CE . 2009 . Fossil steroids record the appearance of Demospongiae during the Cryogenian period . Nature , 457 : 718 – 721 .
  • Martin , MW , Grazhdankin , DV , Bowring , SA , Evans , DAD , Fedonkin , MA and Kirschvink , JL . 2000 . Age of Neoproterozoic bilaterian body and trace fossils, White Sea, Russia: implications for metazoan evolution . Science , 288 : 841 – 845 .
  • Narbonne , GM . 1994 . New Ediacaran fossils from the Mackenzie Mountains northwestern Canada . J Paleontol , 68 : 411 – 416 .
  • Narbonne , GM . 2004 . Modular construction of Early Ediacaran complex life forms . Science , 305 : 1141 – 1144 .
  • Narbonne , GM . 2005 . The Ediacaran biota: Neoproterozoic origin of animals and their ecosystems . Ann Rev Earth Planet Sci , 33 : 421 – 442 .
  • Narbonne , GM and Aitken , JD . 1990 . Ediacaran fossils from the Sekwi Brook Area Mackenzie Mountains, Northwestern Canada . Palaeontology , 33 : 945 – 980 .
  • Narbonne , GM , Saylor , BZ and Grotzinger , JP . 1997 . The youngest ediacaran fossils from southern Africa . J Paleontol , 71 : 953 – 967 .
  • Narbonne , GM , Laflamme , M , Greentree , C and Trusler , P . 2009 . Reconstructing a lost world: Ediacaran rangeomorphs from Spaniard's Bay, Newfoundland . J Paleontol , 83 : 503 – 523 .
  • Pflug , HD . 1972 . Zur Fauna der Nama-Schichten in Sudwest-Afrika III. Erinettomorpha, Bau und Systematik. Sonder-Abdruk . Palaeontographica , 139A : 134 – 170 . Beitrage zur Naturgeschichte Der Vorzeit
  • Preiss , WV . 2000 . The Adelaide Geosyncline of South Australia and its significance in Neoproterozoic continental reconstruction . Precamb Res , 100 : 21 – 63 .
  • Runnegar , B . 1982 . Oxygen requirements, biology and phylogenetic significance of the Late Precambrian worm Dickisonia, and the evolution of the burrowing habit . Alcheringa , 6 : 223 – 239 .
  • Runnegar , BN . 1992 . “ Evolution of the earliest animals ” . In Major events in the history of life , 65 – 93 . Boston (MA) : Jones and Bartlet .
  • Shen , B , Dong , L , Xiao , S and Kowalewski , M . 2008 . The Avolon explosion: evolution of Ediacara morphospace . Science , 319 : 81 – 84 .
  • Slack , JM . 1991 . From egg to embryo , 2nd ed , Cambridge : Cambridge University Press .
  • Sun , WG . 1986 . Late Precambrian pennatulids (sea pens) from the eastern Yangtze Gorge, China: Paracharnia gen. nov . Precamb Res , 31 : 361 – 375 .
  • Tang , F , Yin , C , Bengtson , S , Liu , Y , Wang , Z , Liu , P and Gao , L . 2006 . A new discovery of macroscopic fossils from the Ediacaran Doushantuo Formation in the Yangtze Gorges area . Chin Sci Bull , 51 : 1487 – 1493 .
  • Tangri , SK , Bhargava , ON and Pande , AC . 2003 . Late-Precambrian-Early Cambrian trace fossils from the Tethyan Himalaya, Bhutan and their bearing on the Precambrian–Cambrian boundary . J Geol Soc India , 62 : 708 – 716 .
  • Vickers-Rich , P . 2007 . “ The Nama of Southern Africa ” . In The rise of animals , 69 – 87 . Baltimore (MD) : Johns Hopkins University Press .
  • Wade , M . 1969 . Medusae from uppermost Precambrian or Cambrian sandstones, central Australia . Palaeontology , 12 : 351 – 365 .
  • Wade , M . 1972 . Hydrozoa and Scyphozoa and other medusoids from the Precambrian Ediacaran fauna, South Australia . Palaeontology , 15 : 197 – 255 .
  • Wood , RA , Grotzinger , JP and Dickson , JAD . 2002 . Proterozoic modular biomineralized metazoan from the Nama group . Science , 296 : 2383 – 2386 .
  • Xiao , S and Laflamme , M . 2009 . On the eve of animal radiation: phylogeny, ecology and evolution of the Ediacaran biota . Trends Ecol Evol , 24 : 31 – 40 .
  • Xiao , S , Yuan , X , Steiner , M and Knoll , AH . 2002 . Macroscopic carbonaceous compressions in a terminal Proterozoic shale: a systematic reassessment of the Miaohe biota, South China . J Paleontol , 76 : 347 – 374 .
  • Zhang , S , Jiang , G , Zhang , J , Song , B , Kennedy , MJ and Christie-Blick , N . 2005 . U–Pb sensitive high-resolution ion microprobe ages from the Doushantuo Formation of south China: constraints on late Neoproterozoic glaciations . Geology , 33 : 473 – 476 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.