This Article Appeared in a Journal Published by Elsevier. the Attached

This Article Appeared in a Journal Published by Elsevier. the Attached

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Authors requiring further information regarding Elsevier’s archiving and manuscript policies are encouraged to visit: http://www.elsevier.com/copyright Author's personal copy Review On the eve of animal radiation: phylogeny, ecology and evolution of the Ediacara biota Shuhai Xiao1 and Marc Laflamme1,2 1 Department of Geosciences, Virginia Polytechnic Institute and State University, Blacksburg, VA 24061, USA 2 Department of Geological Sciences and Geological Engineering, Queen’s University, Kingston, ON K7L 3N6, Canada Ediacara fossils document an important evolutionary many Ediacara fossils remain phylogenetically unresolved episode just before the Cambrian explosion and hold even at the kingdom level. critical information about the early evolution of macro- scopic and complex multicellular life. They also Glossary represent an enduring controversy in paleontology. Alternate symmetry: alternate arrangement of segments or tubes or frondlets How are the Ediacara fossils related to living animals? in the two halves of an Ediacara fossil along a midline. Also known as How did they live? Do they share any evolutionary ‘‘symmetry of glide reflection.’’ Examples include rangeomorphs, ernietto- patterns with other life forms? Recent developments morphs and vendomorphs. Autecology: branch of ecology that specializes in the study of individual indicate that Ediacara fossils epitomize a phylogeneti- organisms or populations and how they interact with the environment in which cally diverse biosphere, probably including animals, pro- they live. tists, algae, fungi and others. Their simple ecology is Bilaterian animals: bilaterally symmetric metazoans, including most familiar animals except sponges, cnidarians and ctenophores. dominated by epibenthic osmotrophs, deposit feeders Bodyplan: the blueprint for which important structures of an organism are laid and grazers, but few if any predators. Their evolution out. Symmetry is an important aspect of bodyplan. Members of a clade at high started with an early morphospace expansion followed taxonomic levels typically share a bodyplan, but some bodyplans (e.g. Ediacara fronds) might have evolved convergently. by taxonomic diversification within confined morpho- Crown group: monophyletic group that includes all living members of a clade space, and concluded by extinction of many taxa at the and their last common ancestor. Diploblastic animals: animals (e.g. jellyfishes and corals) with only two primary Ediacaran–Cambrian boundary. germ layers, the endoderm and the ectoderm, during embryogenesis. Ediacara fossils: macroscopic and morphologically complex fossils similar to The Ediacara biota: a retrospect those found in the Ediacara Member of the Flinders Ranges in South Australia. The newly named Ediacaran Period (635–541 million years They are geographically worldwide and phylogenetically diverse. Most are found in 575–541 Ma rocks of the late Ediacaran Period. ago; Ma) [1] is the youngest geological time interval in the Ediacaran Period (635–541: Ma): the youngest geological period of the Precambrian. It follows the 635 Ma Marinoan snowball Neoproterozoic Era. It follows the Cryogenian Period of the Neoproterozoic Earth event and precedes the Cambrian Period that is Era and precedes the Cambrian Period of the Paleozoic Era. Endobenthic: living within sediments. marked by the radiation of bilaterian animals, appearance Epibenthic: living at or just above the water–sediment interface. of complex animal traces and dominance of biomineraliz- Frondose Ediacara fossils: Ediacara fronds consist of two or more leaf-like petalodia typically attached to a stem which is often anchored to the substrate ing animals. Within the Ediacaran Period, we see the by a holdfast. Previous classification placed all Ediacara fronds in the Phylum appearance and global dominance of the Ediacara biota, Petalonamae [57], but recent analysis suggests that the frond bodyplan a distinct group of complex macroscopic organisms that represents a convergent response among unrelated benthic taxa to gather nutrients from the water column [25,41,42]. Ediacara fronds are common in flourished on the eve of the Cambrian radiation of animals Newfoundland, England, Russia, Ukraine, Australia and Namibia. [2]. Morphospace: a representation of form, shape and structure of a group of taxa. Members of the Ediacara biota were traditionally inter- Typically, morphological characters are coded for each taxon and multivariate statistical methods are used to represent the data in a two- or three- preted as evolutionary precursors to Cambrian animals, dimensional space. including cnidarians, annelids, arthropods and echino- Osmotrophic: acquiring nutrients through absorption or osmotic uptake of derms [3,4]. A more radical alternative to the traditional dissolved organic carbon across membranes. Stem group: paraphyletic group of extinct lineages that lie outside a crown interpretation was proposed in the late 20th century. This group but are more closely related to the crown group than to the crown’s hypothesis argues, on the basis of their peculiar preser- living sister group. vation and inferred functional morphology, that most Edia- Synecology: branch of ecology that focuses on the interactions (e.g. predation) between coexisting populations or species. cara fossils belong to the extinct kingdom Vendobionta, Taphonomy: the study of the degradation, burial, diagenesis and fossilization which is characterized by serially or fractally arranged of organisms. tubular elements and is phylogenetically distant from the Tiering: ecological division of ecospace by benthic organisms of different heights or burrowing depths. Metazoa [5]. The debate continues, and recently both Triploblastic: animals with three primary germ layers (endoderm, mesoderm sides have come up with new observations and have con- and ectoderm) during embryogenesis. Examples include all bilaterian animals. Vendobionta: the kingdom Vendobionta was established by Seilacher [5]. ceded that at least some Ediacara fossils represent Vendobionts are characterized by tubular structures (‘‘pneus’’) that are stitched animals, including bilaterian animals [6–8]. However, together like an air mattress. The pneus can be organized serially or fractally. Recently vendobionts have been interpreted as syncytial xenophyophore-like foraminifers [7]. Corresponding author: Xiao, S. ([email protected]). 0169-5347/$ – see front matter ß 2008 Elsevier Ltd. All rights reserved. doi:10.1016/j.tree.2008.07.015 Available online 25 October 2008 31 Author's personal copy Review Trends in Ecology and Evolution Vol.24 No.1 The phylogenetic uncertainty of Ediacara organisms not Emphasis is restricted to classical Ediacara fossils that only limits their role in testing hypotheses about the tempo are soft bodied, macroscopic and morphologically diverse. of early animal evolution but also compromises our ability to interpret their ecology using modern analogs. Fortu- The Ediacara biota in space and time nately, ecological inferences can be independently made on Ediacara fossils are mostly restricted between 575 and the basis of trace fossils, functional morphology and taph- 541 Ma (Figure 1; Box 1). Discoid fossils from the onomy. In the past decade, investigation of trace fossils >635 Ma Twitya Formation in northwestern Canada associated with Ediacara body fossils has shed important [12] are similar to some simple forms in the Ediacara biota, light on the autecology of several Ediacara taxa, whereas but the absence of co-occurring complex forms and their recent advances in the paleoecology of Ediacara organisms significantly older age suggest that the Twitya discs are [9] are of close relevance to the evolutionary radiation in possibly simple forerunners rather than parts (e.g. hold- the Ediacaran–Cambrian transition. fasts) of complex Ediacara fossils. A few Cambrian fossils The Ediacaran–Cambrian transition marks a rapid are interpreted as Ediacara survivors or as phyletic des- change in taxonomic diversity, morphological disparity cendants [13,14], but with rare exceptions [14] the most and ecosystem complexity of early animals. Does the early iconic members of the Ediacara biota – the rangeomorphs evolution of the Ediacara biota share similar patterns with and erniettomorphs (Box 2), for example – are unknown in the Cambrian radiation of animals? Only recently have the Cambrian. It has been proposed that the demise of the paleontologists begun to approach this question using Ediacara biota might be due to the closure of a unique quantitative methods and a growing database of Ediacara taphonomic window mediated by microbial activities fossils [10,11]. [4,15], and that the Ediacara biota continued to strive after Promising results from emerging research of the phylo- the Cambrian radiation but were simply not preserved. genic affinities, ecological diversity and evolutionary pat- However, the scarcity of Ediacara fossils in exceptionally terns of the Ediacara biota prompt

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