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Journal of the Geological Society

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1 Journal of the Geological Society
The Weng'an Biota (Doushantuo Formation): an Ediacaran window on soft-bodied and multicellular microorganisms by John A. Cunningham, Kelly Vargas, Zongjun Yin, Stefan Bengtson, and Philip C. J. Donoghue Journal of the Geological Society Volume 174(5): September 1, 2017 © 2017 The Author(s)‏

2 The location and geological setting of the Weng'an Biota.
The location and geological setting of the Weng'an Biota. (a) Map of China showing the location of Weng'an. (b) Geological map of the Weng'an area. (c) Stratigraphic column of the Beidoushan section in the Weng'an area indicating Units 1 – 4 of the Doushantuo Formation, the occurrence of the Weng'an Biota and the radiometric age constraints discussed in the text. Modified from Yin et al. (2015). John A. Cunningham et al. Journal of the Geological Society 2017;174: © 2017 The Author(s)‏

3 Scanning electron microscope images of fossils from the Weng'an biota.
Scanning electron microscope images of fossils from the Weng'an biota. (a–f) Tianzhushania specimens at various stages of division from a single cell (a) to many hundreds of cells (f) Swedish Museum of Natural History (SMNH) X 6449–SMNH X (g) Helicoforamina SMNH X (h) Spiralicellula (from Tang et al. 2008). (i) Caveasphaera SMNH X (j) Archaeophycus, a putative red alga SMNH X (k) Mengeosphaera, an acritarch SMNH X (l) Eocyathispongia, a putative sponge, Nanjing Institute of Palaeontology and Geology (NIGPAS) (from Yin et al. 2015). Scale bar: (a) 320 µm, (b) 265 µm, (c) 265 µm, (d) 200 µm, (e) 245 µm, (f) 280 µm, (g) 395 µm, (h) 380 µm, (i) 250 µm, (j) 255 µm, (k) 130 µm, (l) 415 µm. John A. Cunningham et al. Journal of the Geological Society 2017;174: © 2017 The Author(s)‏

4 Synchrotron radiation X-ray tomographic microscopy (SRXTM; a–h) and light microscopy (i–k) images of Weng'an fossils. Synchrotron radiation X-ray tomographic microscopy (SRXTM; a–h) and light microscopy (i–k) images of Weng'an fossils. (a, b) a possible alga SMNH X 6459, comparable with Paramecia. (c, d) a peanut-shaped fossil SMNH X (e, f) Sinocyclocyclicus SMNH X (g, h) Ramitubus SMNH X (i–k) Light microscopy images of putative algae from Weng'an. Scale bar: (a, b) 270 µm, (c, d) 280 µm, (e, f) 180 µm, (g, h) 175 µm, (i, j) 140 µm, (k) 115 µm. John A. Cunningham et al. Journal of the Geological Society 2017;174: © 2017 The Author(s)‏

5 Schematic representation of eukaryote phylogeny, modified after Rensing (2016), showing the distribution of characters relevant to the interpretation of the embryo-like fossil Tianzhushania. Schematic representation of eukaryote phylogeny, modified after Rensing (2016), showing the distribution of characters relevant to the interpretation of the embryo-like fossil Tianzhushania. Here multicellularity includes both aggregative multicellularity (e.g. slime moulds) and clonal multicellularity (animals, plants, fungi, various algae), as well as both facultative (e.g. choanoflagellates) and obligate multicellularity. John A. Cunningham et al. Journal of the Geological Society 2017;174: © 2017 The Author(s)‏

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