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Eoandromeda
Ctenophore Relationships and Their Placement As the Sister Group to All Other Animals
Geobiological Events in the Ediacaran Period
“Modern-Type Plate Tectonics”?
Lifestyle of the Octoradiate Eoandromeda in the Ediacaran
Can Molecular Clocks and the Fossil Record Be Reconciled?
Of Time and Taphonomy: Preservation in the Ediacaran
Ediacara Biota’
The Early History of the Metazoa—A Paleontologist's Viewpoint
The Origin of Animals: Can Molecular Clocks and the Fossil Record Be Reconciled?
Ediacara Biota'
The Ediacaran Period
The Weng'an Biota (Doushantuo Formation): an Ediacaran Window on Soft-Bodied and Multicellular Microorganisms
Of Time and Taphonomy: Preservation in The
Morphological and Behavioural Evolution Through
Affirming Life Aquatic for the Ediacara Biota in China and Australia
'Savannah' Hypothesis for Early Bilaterian Evolution
Experimental Preservation of Muscle Tissue in Quartz Sand and Kaolinite
Palaeoecology of Ediacaran Communities from the Flinders
Top View
Important Copyright Citation of Article
Metacommunity Analyses Show Increase in Ecological Specialisation 2 Throughout the Ediacaran 3
Early Fossil Record of Euarthropoda and the Cambrian Explosion
(South Australia): Assessment of Paleoenvironmental Proxies and the Timing of ‘Ferruginization’
This Article Appeared in a Journal Published by Elsevier. the Attached
The Search for Life Unit.Pdf
Can Molecular Clocks and the Fossil Record Be Reconciled?
Ediacaran Biozones Identified with Network Analysis Provide Evidence
The Ediacaran Aspidella-Type Impressions in the Jinxian Successions of Liaoning Province, Northeastern China
Early Fossil Record of Euarthropoda and the Cambrian Explosion
Unit 4: Ctenophora: General Characteristic And
Eoandromeda and the Origin of Ctenophora
Ediacara Biota’
Three-Dimensional Microct Analysis of the Ediacara Fossil Pteridinium
The Ctenophore Genome and the Evolutionary Origins of Neural Systems
Savannah' Hypothesis for Early Bilaterian Evolution
New Data from the Ediacaran of South Australia A
The Ediacaran-Cambrian Transition: Sedimentary Facies Versus Extinction La Transición Ediacárico-Cámbrica: Facies Sedimentarias Versus Extinción
Ediacaran Developmental Biology
Rheotaxis in the Ediacaran Epibenthic Organism Parvancorina from South Australia Received: 15 November 2016 John R
Doushantuo Formation): an Ediacaran Window on Soft-Bodied and Multicellular Microorganisms
Palaeontological Association Annual Meeting 2020