Intravital damage to the body of Dickinsonia (Metazoa of the late Ediacaran)

Abstract. Several specimens of Dickinsonia cf. D. menneri, originating from a single burial event at the Lyamtsa locality of the late Ediacaran (Vendian) in the southeastern White Sea area, Russia, represent deviations from normal morphology: a reduction in the total length of the body; the loss of portions of the body; various deformations of the transverse elements, called isomers; and splitting of the longitudinal axis with the formation of two posterior ends. It is assumed that these deformations were formed as a result of non-lethal damage, which occurred long before the burial event, and the response of Dickinsonia to them. The progress of the regeneration process at the damaged areas, and especially its deviations, indicates that the growth zone was located at the posterior end of the Dickinsonia body. The cause of non-lethal damage to Dickinsonia could not be established, but the local distribution of deformed specimens preserved in the same burial event alongside cyanobacterial colonies, and the presence of weak deformations, expressed only in shortening of the length of some isomers, lead to the conclusion that damage resulted from short episodes of physicochemical impact, rather than occasional attacks by a hypothetical macrophage.

[1]  Mary L. Droser,et al.  Discovery of the oldest bilaterian from the Ediacaran of South Australia , 2020, Proceedings of the National Academy of Sciences.

[2]  R. Bicknell,et al.  Exploring abnormal Cambrian-aged trilobites in the Smithsonian collection , 2020, PeerJ.

[3]  P. Vickers-Rich,et al.  Conical Thecae of Precambrian Macroorganisms , 2019, Paleontological Journal.

[4]  A. Ivantsov,et al.  Morphology of integuments of the Precambrian animals, Proarticulata , 2019 .

[5]  D. Kisailus,et al.  Stretched, mangled, and torn: Responses of the Ediacaran fossil Dickinsonia to variable forces , 2019, Geology.

[6]  A. Ivantsov,et al.  Traces of Locomotion of Ediacaran Macroorganisms , 2019, Geosciences.

[7]  A. Ivantsov,et al.  Cephalonega, A New Generic Name, and the System of Vendian Proarticulata , 2019, Paleontological Journal.

[8]  M. Droser,et al.  Slime travelers: Early evidence of animal mobility and feeding in an organic mat world , 2019, Geobiology.

[9]  J. Brocks,et al.  Simple sediment rheology explains the Ediacara biota preservation , 2019, Nature Ecology & Evolution.

[10]  P. Wilby,et al.  Modularity and Overcompensatory Growth in Ediacaran Rangeomorphs Demonstrate Early Adaptations for Coping with Environmental Pressures , 2018, Current Biology.

[11]  M. Droser,et al.  Ediacaran scavenging as a prelude to predation. , 2018, Emerging topics in life sciences.

[12]  J. Hope,et al.  Ancient steroids establish the Ediacaran fossil Dickinsonia as one of the earliest animals , 2018, Science.

[13]  P. Donoghue,et al.  Ediacaran developmental biology , 2017, Biological reviews of the Cambridge Philosophical Society.

[14]  J. Hope,et al.  Molecular fossils from organically preserved Ediacara biota reveal cyanobacterial origin for Beltanelliformis , 2018, Nature Ecology & Evolution.

[15]  A. Liu,et al.  Quantitative study of developmental biology confirms Dickinsonia as a metazoan , 2017, Proceedings of the Royal Society B: Biological Sciences.

[16]  A. Ivantsov,et al.  Dickinsonia costata — the first evidence of neoteny in Ediacaran organisms , 2017 .

[17]  M. Droser,et al.  Highly regulated growth and development of the Ediacara macrofossil Dickinsonia costata , 2017, PloS one.

[18]  D. Jacobs,et al.  Ancestral state reconstruction of ontogeny supports a bilaterian affinity for Dickinsonia , 2015, Evolution & development.

[19]  M. Droser,et al.  Dickinsonia liftoff: Evidence of current derived morphologies , 2015 .

[20]  V. Gritsenko,et al.  Revision of the problematic Vendian macrofossil Beltanelliformis (=Beltanelloides, Nemiana) , 2014, Paleontological Journal.

[21]  M. Zakrevskaya Paleoecological reconstruction of the Ediacaran benthic macroscopic communities of the White Sea (Russia) , 2014 .

[22]  M. Droser,et al.  Scratch Traces of Large Ediacara Bilaterian Animals , 2014 .

[23]  M. Clapham,et al.  Population structure of the oldest known macroscopic communities from Mistaken Point, Newfoundland , 2013, Paleobiology.

[24]  A. Ivantsov,et al.  Trace fossils of precambrian metazoans “Vendobionta” and “Mollusks” , 2013, Stratigraphy and Geological Correlation.

[25]  A. Ivantsov,et al.  Feeding traces of proarticulata—the Vendian metazoa , 2011 .

[26]  J. Vinther,et al.  A placozoan affinity for Dickinsonia and the evolution of late Proterozoic metazoan feeding modes , 2010, Evolution & development.

[27]  S. Rozhnov Development of the trophic structure of Vendian and Early Paleozoic marine communities , 2009 .

[28]  S. Xiao,et al.  Osmotrophy in modular Ediacara organisms , 2009, Proceedings of the National Academy of Sciences.

[29]  J. Antcliffe,et al.  Dickinsonia from Ediacara: A new look at morphology and body construction , 2008 .

[30]  Adrian E. Raftery,et al.  Bayesian Regularization for Normal Mixture Estimation and Model-Based Clustering , 2007, J. Classif..

[31]  A. Ivantsov Small Vendian transversely Articulated fossils , 2007 .

[32]  J. Reitner,et al.  A Fresh Look at Dickinsonia: Removing It from Vendobionta , 2006 .

[33]  S. Jensen,et al.  Assemblage palaeoecology of the Ediacara biota: The unabridged edition? , 2006 .

[34]  J. Reitner,et al.  ディッキンソニア(Dickinsonia)の新たな検討:ベンドビオンタ(Vendobionta)からその除外 , 2006 .

[35]  G. Narbonne THE EDIACARA BIOTA: Neoproterozoic Origin of Animals and Their Ecosystems , 2005 .

[36]  Philip C. J. Donoghue,et al.  Evolving form and function: fossils and development , 2005 .

[37]  M. Laflamme,et al.  MORPHOMETRIC ANALYSIS OF THE EDIACARAN FROND CHARNIODISCUS FROM THE MISTAKEN POINT FORMATION, NEWFOUNDLAND , 2004 .

[38]  D. Grazhdankin Patterns of distribution in the Ediacaran biotas: facies versus biogeography and evolution , 2004, Paleobiology.

[39]  A. Seilacher,et al.  Ediacaran biota: The dawn of animal life in the shadow of giant protists , 2003 .

[40]  J. Dzik Anatomical Information Content in the Ediacaran Fossils and Their Possible Zoological Affinities1 , 2003, Integrative and comparative biology.

[41]  D. Grazhdankin Structure and Depositional Environment of the Vendian Complex in the Southeastern White Sea Area , 2003 .

[42]  A. Ivantsov,et al.  Giant traces of vendian animals , 2002 .

[43]  J. Gehling,et al.  The first named Ediacaran body fossil, Aspidella Terranovica , 2000 .

[44]  A. Seilacher Biomat-related lifestyles in the Precambrian , 1999 .

[45]  M. McMenamin,et al.  The Garden of Ediacara: Discovering the First Complex Life , 1998 .

[46]  L. Babcock Trilobite malformations and the fossil record of behavioral asymmetry , 1993, Journal of Paleontology.

[47]  A. Zhuravlev Were Ediacaran Vendobionta multicellulars? , 1993, Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen.

[48]  J. W. Valentine Dickinsonia as a polypoid organism , 1992, Paleobiology.

[49]  R. Jenkins Functional and Ecological Aspects of Ediacaran Assemblages , 1992 .

[50]  B. Sokolov,et al.  Systematic Description of Vendian Metazoa , 1990 .

[51]  A. Seilacher Vendozoa: Organismic construction in the Proterozoic biosphere , 1989 .

[52]  B. Runnegar Oxygen requirements, biology and phylogenetic significance of the late Precambrian worm Dickinsonia, and the evolution of the burrowing habit , 1982 .

[53]  B. M. Keller,et al.  New organic fossil finds in the Precambrian Valday series along the Syuz'ma River , 1977 .

[54]  Edward E. Ruppert,et al.  Invertebrate Zoology: A Functional Evolutionary Approach , 1974 .

[55]  M. Wade Dickinsonia: polychaete worms from the late Precambrian Ediacara fauna, South Australia , 1972 .

[56]  M. Glaessner,et al.  The Late Precambrian fossils from Ediacara, South Australia , 1966 .

[57]  M. Glaessner New fossils from the base of the Cambrian in South Australia. (Preliminary account) , 1958 .

[58]  C. Reg Early Cambrian jellyfishes of Ediacara, South Australia and Mount John, Kimberley District, Western Australia , 1949 .