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1. Reevaluation of Cloudina? from the Taylor Formation, Antarctica

   Selly, T; Schiffbauer, J (April 2024, Geological Society of America Abstracts with Programs)

   Cloudina? was initially documented in the Taylor Formation in Antarctica by Yochelson and Stump in 1977. In their publication, they presented views of specimens in thin-section derived from an oolitic limestone breccia. Notably, one thin section contained a presumed trilobite fragment, leading the authors to attribute the materials to the early Cambrian. The remaining fossil materials were characterized as tubes exhibiting varying quality of preservation, likely influenced by recrystallization. The thin sections revealed a fossil structure consisting of a thicker outer layer adjacent to a thinner, darker layer, followed by the inner cavity of the tube. While one specimen was reported to have two layers, it lacked other identifying features, such as the characteristic nested structure typical of Cloudina. The authors acknowledged the dissimilarity of their specimens to those reported from Namibia by Germs but noted similarities to Cloudina borrelloi from the San Juan Province, Argentina described by Yochelson and Herrera in 1974. This led the authors to tentatively identify their Antarctic specimens as Cloudina?, though subsequent reports expressed skepticism about placing the Argentinian materials within the Cloudina genus, suggesting a more plausible association with Salterella or Acuticloudina. Since the initial discovery and report by Yochelson and Stump, however, Ediacaran paleontologists have included Antarctica in the geographic distribution of Cloudina. Because these late Ediacaran tubicolus organisms, including all plausible designations of Cloudina, are currently being considered by the International Commission on Stratigraphy as an index fossil for delineating the terminal Ediacaran stage, this long-overdue reexamination of these materials now becomes both timely and important for gaining a clearer picture of the cosmopolitan nature of this genus. This presentation marks the first comprehensive reassessment of the Antarctic Cloudina? since its initial evaluation. We aim to reevaluate these materials using modern microanalysis and high-resolution photography to shed light on their taxonomy and evaluate their role in the broader context of late Ediacaran to early Cambrian tubular fossils. 

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2. Reassessing the diversity, affinity, and construction of terminal Ediacaran tubiform fossils from the La Ciénega Formation, Sonora, Mexico

   https://doi.org/10.1017/jpa.2023.56  

   Schiffbauer, James D; Wong, Clara; Davis, Cassidy; Selly, Tara; Nelson, Lyle L; Pruss, Sara B (March 2024, Journal of Paleontology)

   Abstract The terminal Ediacaran Period is signaled worldwide by the first appearance of skeletonizing tubular metazoan fossils, e.g.,CloudinaGerms, 1972 andSinotubulitesChen, Chen, and Qian, 1981. Although recent efforts have focused on evaluating the taxic composition and preservation of such assemblages from the southwestern United States, comparable forms reported in the 1980s from Mexico remain to be re-examined. Here, we reassess the latest Ediacaran skeletal materials from the La Ciénega Formation of the Caborca region in Sonora, Mexico, using a combination of analytical methods: optical microscopy of extracted fossils, thin-section petrography, scanning electron microscopy and energy dispersive X-ray spectroscopy, and X-ray tomographic microscopy. From our examination, we conclude that the La Ciénega hosts a polytaxic assemblage of latest Ediacaran tubular organisms that have been preserved through two taphonomic pathways: coarse silicification and calcareous recrystallization preserving finer details. Further, these fossils show signs that their shells might not have been inflexible or completely mineralized in vivo, and that they might also record tentatively interpreted predation traces in the form of drill holes or puncture marks. This work, along with ongoing efforts around the world, helps to provide a framework for biostratigraphic correlation and possible subdivision of the Ediacaran Period, and further shapes our view of metazoan evolution and ecology in the interval directly preceding the Cambrian explosion. 

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3. Rebuilding Earth’s first skeletal animals: the original morphology of Corumbella (Ediacaran, Brazil)

   https://doi.org/10.1098/rsos.250206  

   Becker-Kerber, Bruno; Ortega-Hernández, Javier; Schiffbauer, James D; Lerosey-Aubril, Rudy; Warren, Lucas Verissimo; Simões, Marcello Guimarães; del_Mouro, Lucas; Rodella, Cristiane Barbieri; Basei, Miguel_Angelo Stipp; Archilha, Nathaly Lopes (May 2025, Royal Society Open Science)

   The evolutionary onset of animal biomineralization in the late Ediacaran (ca555–538 Ma) is marked by the global appearance of enigmatic tubular fossils with unresolved phylogenetic relationships. Among these,Corumbella wernerifrom the Tamengo Formation (Corumbá Group, Brazil) has been variously interpreted as affiliated with cnidarians or bilaterians. Using synchrotron imaging and machine learning, we analysed new specimens ofC. wernerito reconstruct their original skeletal organization. Our findings reveal thatCorumbella’s tubes were originally conico-cylindrical. Large individuals ofCorumbella, including less compacted specimens, and compression experiments with modern annelid tubes all indicate that previous reconstructions of a quadrate outline and midline features were misled by taphonomic artefacts. We also show that the wall ofCorumbellais composed of a single layer of ring-shaped elements. Unlike the fourfold symmetry of scyphozoans or the complex cataphract-like structures of Cambrian bilaterians (e.g. halkieriids, tommotiids and wiwaxiids),Corumbelladisplays structural similarities with other late Ediacaran corumbellomorphs, such asCostatubus. These taxa exhibit a distinctive barrel-on-barrel tube construction, with modular elements stacked on each other rather than nested. Our findings redefineCorumbella’s morphology and phylogenetic affinities, contributing to a broader understanding of early biomineralizing metazoans and their ecological roles in the Ediacaran biosphere. 

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4. Discovery of bilaterian-type through-guts in cloudinomorphs from the terminal Ediacaran Period

   https://doi.org/10.1038/s41467-019-13882-z  

   Schiffbauer, James D.; Selly, Tara; Jacquet, Sarah M.; Merz, Rachel A.; Nelson, Lyle L.; Strange, Michael A.; Cai, Yaoping; Smith, Emily F. (January 2020, Nature Communications)

   Abstract The fossil record of the terminal Ediacaran Period is typified by the iconic index fossilCloudinaand its relatives. These tube-dwellers are presumed to be primitive metazoans, but resolving their phylogenetic identity has remained a point of contention. The root of the problem is a lack of diagnostic features; that is, phylogenetic interpretations have largely centered on the only available source of information—their external tubes. Here, using tomographic analyses of fossils from the Wood Canyon Formation (Nevada, USA), we report evidence of recognizable soft tissues within their external tubes. Although alternative interpretations are plausible, these internal cylindrical structures may be most appropriately interpreted as digestive tracts, which would be, to date, the earliest-known occurrence of such features in the fossil record. If this interpretation is correct, their nature as one-way through-guts not only provides evidence for establishing these fossils as definitive bilaterians but also has implications for the long-debated phylogenetic position of the broader cloudinomorphs. 

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5. MORPHOLOGY AND PRESERVATION OF GAOJIASHANIA , AN ENIGMATIC TUBULAR FOSSIL FROM THE UPPER EDIACARAN DUNFEE MEMBER, DEEP SPRING FORMATION, NEVADA, USA

   https://doi.org/10.2110/palo.2024.007  

   Rivas, Ashley; Myrow, Paul M; Smith, Emily F; Nelson, Lyle L; Briggs, Derek EG; Tarhan, Lidya G (December 2024, Palaios)

   Abstract The upper Ediacaran stratigraphic record hosts fossil assemblages of Earth’s earliest communities of complex, macroscopic, multicellular life. Tubular fossils are a common and diverse, though frequently undercharacterized, component of many of these assemblages. Gaojiashania cyclus is an enigmatic tubular fossil and candidate index fossil found in upper Ediacaran strata globally and is best known from the Gaojiashan Lagerstätte of South China. Here we describe a recently discovered assemblage of Gaojiashania fossils from the Ediacaran Dunfee Member of the Deep Spring Formation of Nevada, USA. Both body and trace fossil affinities have been proposed for Gaojiashania; we present morphological and biostratinomic evidence for a body fossil affinity for the Dunfee specimens. Additionally, previous studies have highlighted that Ediacaran tubular fossils are characterized by a wide range of preservational modes, including association with pyrite, apatite, or clay minerals and preservation as carbonaceous compressions. Petrographic, SEM, and EDS data indicate that the Dunfee Gaojiashania specimens are preserved as ‘Ediacara-style’ external, internal and composite molds, in siltstone and sandstone with a clay mineral-rich matrix of both aluminosilicates and non-aluminous Mg- and Fe-rich silicate minerals that we interpret as authigenic clays. Authigenic clay-mediated fossilization of unmineralized tissues, including moldic preservation in heterolithic siliciclastic strata, as indicated by the Dunfee Gaojiashania, may be linked to the prevalence of both silica-rich and ferruginous seawater conditions prior to both the radiation of silica-biomineralizing organisms and the rise of ocean and atmospheric oxygen to modern levels. In this light, clay authigenesis may have played a critical role in facilitating multiple modes of Ediacaran and Cambrian exceptional fossilization, thus shaping the stratigraphic distribution of a range of Ediacara macrofossil taxa. 

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