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110. Lipid taphonomy in the Proterozoic and the effect of microbial mats on biomarker preservation.

Author

Pawlowska, Maria M., Butterfield, Nicholas J., and Brocks, Jochen J.

Subjects
*TAPHONOMY, *PHANEROZOIC Eon, *MICROBIAL mats, *PLANKTON, *MICROBIAL lipids, *MICROBIAL ecology, ENVIRONMENTAL aspects
Abstract

The pre-Ediacaran biomarker record has several characteristic features that distinguish it from its Phanerozoic counterpart, including high concentrations of unresolved complex mixture (UCM), low concentrations or absence of eukaryotic steranes, and a conspicuous carbon isotopic enrichment of n-alkyl lipids relative to bulk sedimentary carbon. We propose that these derive from a common, non-actualistic taphonomy based on the pervasive presence of microbial mats prior to the "Cambrian substrate revolution." Such mats would have formed a significant mechanical and biochemical barrier to in-falling plankton, leaving a biomarker record dominated by benthic microbial lipids, most of which would have originated from the lower, heterotrophically reworked layers of the mat. Most Proterozoic biomarker assemblages studied in this work derive from shallow-water sediments, where cyanobacteria-dominated upper mats represent a focused source of corrosive molecular oxygen. This "mat-seal effect" was broken with the onset of bioturbation in the Ediacaran and early Cambrian, at which point the primary source of fossil biomarkers switched from the benthos to the plankton. [ABSTRACT FROM AUTHOR]

Published
2013
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111. Fossil Prokaryotes and Protists

Author

Butterfield, Nicholas J.

Subjects
Fossil Prokaryotes and Protists (Book) -- Book reviews, Books -- Book reviews, Earth sciences
Published
1994

113. Diverse organic-walled fossils, including `possible dinoflagellates,' from the early...

Author

Butterfield, Nicholas J. and Rainbird, Robert H.

Subjects
*GEOLOGY, *FOSSILS
Abstract

Presents information on geology, while looking at organic-walled fossils preserved from early Neoproterzoic Wynniatt Formation in arctic, Canada. Citing of 13 additional acritarchs; Features exhibited by three of the acritarchs; Examination of the Wynniatt fossils; Information on the Wynniatt Formation.

Published
1998
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115. New window on Proterozoic life

Author

Knoll, Andrew H. and Butterfield, Nicholas J.

Subjects
Australia -- Natural history, Paleontology -- Proterozoic, Geology, Stratigraphic -- Proterozoic, Environmental issues, Science and technology, Zoology and wildlife conservation
Published
1989

116. Sediment Effects on the Preservation of Burgess Shale–Type Compression Fossils

Author

Wilson, Lucy A. and Butterfield, Nicholas J.

Subjects
sub-04
Abstract

Experimental burial of polychaete (Nereis) and crustacean (Crangon) carcasses in kaolinite, calcite, quartz, and montmorillonite demonstrates a marked effect of sediment mineralogy on the stabilization of nonbiomineralized integuments, the first step in producing carbonaceous compression fossils and Burgess Shale–type (BST) preservation. The greatest positive effect was with Nereis buried in kaolinite, and the greatest negative effect was with Nereis buried in montmorillonite, a morphological trend paralleled by levels of preserved protein. Similar but more attenuated effects were observed with Crangon. The complex interplay of original histology and sediment mineralogy controls system pH, oxygen content, and major ion concentrations, all of which are likely to feed back on the preservation potential of particular substrates in particular environments. The particular susceptibility of Nereis to both diagenetically enhanced preservation and diagenetically enhanced decomposition most likely derives from the relative lability of its collagenous cuticle vs. the inherently more recalcitrant cuticle of Crangon. We propose a mechanism of secondary, sediment-induced taphonomic tanning to account for instances of enhanced preservation. In light of the marked effects of sediment mineralogy on fossilization, the Cambrian to Early Ordovician taphonomic window for BST preservation is potentially related to a coincident interval of glauconite-prone seas.

117. A new view on Nematothallus: coralline red algae from the Silurian of Gotland.

Author

SMITH, MARTIN R. and BUTTERFIELD, NICHOLAS J.

Subjects
*CORALLINE algae, *SILURIAN Period, *SANDSTONE, *PHYLOGENY, *RED algae, *ECOLOGY
Abstract

The thalloid carbonaceous fossil Nematothallus Lang, 1937, has been widely interpreted as an early Palaeozoic land-plant, despite the absence of a convincing modern analogue. Exceptionally well-preserved nematophyte cuticle from the Late Silurian Burgsvik Sandstone Formation, Gotland provides additional insight into the organism's anatomy, phylogenetic affiliations and ecology. Because this material exhibits additional characters not present in the type material we assign it to Nematothallopsis gotlandii gen. et sp. nov. The organism was constituted of a close-packed layer of palisade-like filaments covered by a cuticle that bears a characteristic pseudocellular pattern on its inner surface. Apertures in this cuticle are often encircled by a ring of multicellular filaments, which are sometimes associated with spheroidal, spore-like entities. In the light of the conspicuous similarity of the palisade layers to the pseudoparenchymatous tissue of coralline red algae, and of the filament-fringed apertures to their reproductive conceptacles, we reconstruct the Nematothallopsis organism as an extinct rhodophyte and re-evaluate the putative terrestrial habit of cuticular nematophytes in general. [ABSTRACT FROM AUTHOR]

Published
2013
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119. Strontium Isotopic Variations of Neoproterozoic Seawater: Implications for Crustal Evolution

Author

Knoll, Andrew, Swett, Keene, Butterfield, Nicholas J., Jacobsen, Stein B., and Asmerom, Yemane

Abstract

We report high precision Sr isotopic data on carbonates from the Neoproterozoic Shaler Group, Victoria Island, Northwest Territories, Canada. Lithostratigraphic correlations with the relatively well-dated Mackenzie Mountains Supergroup constrain Shaler deposition to approximately 770-880 Ma, a range corroborated by 723 +/- 3 Ma lavas that disconformably overlie Shaler carbonates and by Late Riphean microfossils within the section. Samples with low Rb-87/Sr-86 ratios (< 0.01) were selected for Sr isotopic analysis. delta-O-18, Mn, Ca, Mg, and Sr data were used to recognize altered samples. The altered samples are characterized by high Mn/Sr (greater-than-or-equal-to 2) and variable delta-O-18; most are dolomites. The data indicate that between ca. 790-850 Ma the Sr-87/Sr-86 ratio of seawater varued between 0.70676 and 0.70561. The samples show smooth and systematic variation, with the lowest Sr-87/Sr-86 value of 0.70561 at ca. 830 Ma. The low Sr-87/Sr-86 ratio of carbonates from the lower parts of our section is similar to a value reported for one sample from the Adrar of Mauritania (almost-equal-to 900 Ma), West African Craton. Isotopic ratios from the upper part of the Shaler section are identical to values from the lower part of the Neoproterozoic Akademikerbreen Group, Spitsbergen. Although a paucity of absolute age determinations hinders attempts at the precise correlation of Neoproterozoic successions, it is possible to draw a broad outline of the Sr isotopic composition of seawater for this period. Indeed, the Sr isotope data themselves provide a stratigraphic tool of considerable potential. Data from this study and the literature are used to construct a curve of the Sr-87/Sr-86 ratio of Neoproterozoic seawater. The new data reported in this study substantially improve the isotopic record of Sr in seawater for the period 790-850 Ma. The Sr isotope composition of seawater reflects primarily the balance between continental Sr input through river input and mantle input via hydrothermal circulation of seawater through mid-ocean ridges. Coupling of Nd and Sr isotopic systems allows us to model changes in seafloor spreading rates (or hydrothermal flux) and continental erosion. The Sr hydrothermal flux and the erosion rate (relative to present-day value) are modeled for the period 500-900 Ma. The results indicate that the hydrothermal flux reached a maximum value at ca. 830 Ma. In contrast, a large peak in erosion rate is indicated at ca. 570 Ma. The peaks in hydrothermal flux and erosion rate are most likely related to developments in the Pan-African and related orogenic events, whose initial development is characterized by production of juvenile crust during supercontinental break up and rifting. The time ca. 570 Ma is characterized by continent-continent collision and production of recycled crust. Sr isotope data from Proterozoic carbonates offer a valuable resource for understanding large-scale crust dynamics., Earth and Planetary Sciences, Organismic and Evolutionary Biology

Published
1991
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120. A Bangiophyte Red Alga from the Proterozoic of Arctic Canada

Author

Knoll, Andrew, Butterfield, Nicholas J., and Swett, Keene

Abstract

Silicified peritidal carbonate rocks of the 1250- to 750-million-year-old Hunting Formation, Somerset Island, arctic Canada, contain fossils of well-preserved bangiophyte red algae. Morphological details, especially the presence of multiseriate filaments composed of radially arranged wedge-shaped cells derived by longitudinal divisions from disc-shaped cells in uniseriate filaments, indicate that the fossils are related to extant species in the genus Bangia. Such taxonomic resolution distinguishes these fossils from other pre-Edicaran eukaryotes and contributes to growing evidence that multicellular algae diversified well before the Ediacaran radiation of large animals., Organismic and Evolutionary Biology

Published
1990
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121. Exceptional Preservation of Fossils in an Upper Proterozoic Shale

Author

Swett, Keene, Butterfield, Nicholas J., and Knoll, Andrew

Abstract

Late Proterozoic organisms must have been diverse and widely distributed, but in general their fossil record is both taxonomically and environmentally limited. Exceptional preservation of Proterozoic fossils is not unknown, but it is usually associated with silicified carbonates from restricted peritidal or playa lake environments. We report here an exceptionally well preserved and distinctive assemblage of Lake Proterozoic fossils from subtidal marine shales. In additional to the sphaeromorphic acritarchs and cyanobacterial sheaths routinely preserved in Proterozoic rocks, this assemblage includes multicellular algae ('seaweeds'), a diverse assortment of morphologically complex protistan vesicles, and probable heterotrophic bacteria. Thus, it provides one of the clearest and most taxonomically varied views of Proterozoic life yet reported., Organismic and Evolutionary Biology

Published
1988
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123. Palynological insights into the Mid Jurassic dinoflagellate radiation

Author

Wiggan, Nickolas James, Butterfield, Nicholas, and Riding, James

Subjects
561, dinoflagellates, radiation, Mid Jurassic, phytoplankton, evolution, Bajocian
Abstract

Dinoflagellates are a diverse group of flagellated eukaryotes, the majority of which are marine plankton, and are one of the most important groups of primary producers in the world’s oceans. The dinoflagellate fossil record is based on their zygotic resting cysts; this record indicates that the Bajocian of the Mid Jurassic (~170–168 Ma) represents a critical interval in dinoflagellate evolutionary history, marked by a rapid increase in the diversity of cysts from the family Gonyaulacaceae. From the Bajocian onwards, the Gonyaulacaceae have remained one of the most diverse and abundant groups of dinoflagellate cysts in the fossil record. Even so, Bajocian dinoflagellate cysts themselves have received relatively little study, leaving the patterns of this radiation unresolved. In this thesis, I examine the Bajocian diversification of gonyaulacacean dinoflagellate cysts in northwest Europe via quantitative palynological analysis, and relate this into a broader stratigraphic and palaeoenvironmental context. The dinoflagellate cyst record of the three key study areas demonstrates an increase in gonyaulacacean dinoflagellate cyst diversity through the Bajocian, irrespective of differing palaeoenvironmental settings. However, palynological and sedimentological data record systematic changes in lithostratigraphic composition and/or depositional environment which reflect changes in sea level. The integration of these data with biostratigraphic records indicates that the pattern of the radiation in Europe was strongly influenced by sea level, with the increase in gonyaulacacean diversity mirroring a major second-order transgression. On a finer scale, the main pulses of first appearances correlate with third-order transgressive episodes. A rise in sea level, coupled with changes in the tectonic configuration of ocean gateways, appears to have controlled the pattern of diversification in Europe. These palaeoceanographic changes may have enhanced water-mass transfer between Europe, the northwest Tethys Ocean, and the Hispanic Corridor, which promoted the floral interchange of dinoflagellates. Comparison to global data demonstrates that gonyaulacacean dinoflagellate cysts increased in diversity on a global scale through the Mid Jurassic. Whilst sea level rise and associated large-scale palaeoenvironmental shifts appear to have controlled the pattern of dinoflagellate cyst appearances in several regions (e.g. eastern Canada, Israel), there is no direct correlation between dinoflagellate cyst diversity and sea level rise on a global scale. Within dinoflagellate cyst assemblages from Europe, the spatial and temporal distribution of key taxa can be related to differing palaeoenvironmental settings of the basins studied; but certain patterns may reflect wider palaeoenvironmental drivers. Carbon isotope records generated for this thesis, and their correlation to other European sections, demonstrate that the Early Bajocian in Europe was marked by a positive shift in δ13C. Previous work has linked this carbon cycle perturbation to a phase of enhanced continental weathering and associated run-off. In several European basins, the Early Bajocian was marked by an acme of the genus Dissiliodinium; this genus may have bloomed in response to elevated nutrient levels. Intriguingly, a similar pattern is seen within dinoflagellate cyst assemblages from Australia, indicating this interval of palaeoenvironmental change may have had a global extent.

Published
2017
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124. LESS FAT, MORE LUCK.

Author

Butterfield, Nicholas

Subjects
*LOW-fat cooking, *COOKING
Abstract

Presents suggestions for low-fat cookery from Anita Hirsch and food writer Judith Benn Hurley, provided in response to a reader's question. Potato and peas; Cajun cakes.

Published
1987

125. Book Reviews.

Author

Butterfield, Nicholas

Subjects
ARTHROPODS of the Lower Cambrian Chengjiang Fauna, Southwest China (Book)
Abstract

Reviews the book `Arthropods of the Lower Cambrian Chengjiang Fauna, Southwest China,' by Hou X. and J. Bergstrom.

Published
1998

126. Reviews.

Author

Butterfield, Nicholas J.

Subjects
UPPER Cambrian Rehbachiella & the Phylogeny of Branchiopoda & Crustacea (Book)
Abstract

Reviews the book `The Upper Cambrian Rehbachiella and the Phylogeny of Branchiopoda and Crustacea,' by D. Walossek.

Published
1994

127. Spatial analyses of Ediacaran communities at Mistaken Point

Author

Nicholas J. Butterfield, Emily G. Mitchell, Mitchell, Emily [0000-0001-6517-2231], Butterfield, Nicholas [0000-0002-3046-7520], and Apollo - University of Cambridge Repository

Subjects
0106 biological sciences, 3104 Evolutionary Biology, sub-04, 3705 Geology, 010502 geochemistry & geophysics, 010603 evolutionary biology, 01 natural sciences, Hiemalora, Taxonomic rank, Thectardis, Charniodiscus, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Ecology, biology, 3103 Ecology, Paleontology, Pectinifrons, 37 Earth Sciences, Ivesheadiomorphs, biology.organism_classification, Bradgatia, Geography, Taxon, Evolutionary biology, General Agricultural and Biological Sciences, 31 Biological Sciences
Abstract

Bedding-plane assemblages of Ediacaran fossils from Mistaken Point, Newfoundland, are among the oldest known records of complex multicellular life on Earth (dated to ~565 Ma). The in situ preservation of these sessile but otherwise deeply enigmatic organisms means that statistical analyses of specimen positions can be used to illuminate their underlying ecological dynamics, including the interactions between taxa.Fossil assemblages on Mistaken Point D and E surfaces were mapped to millimeter accuracy using differentiated GPS. Spatial correlations between 10 well-defined taxa (Bradgatia, Charniid,Charniodiscus,Fractofusus, Ivesheadiomorphs, Lobate Discs,Pectinifrons,Plumeropriscum,Hiemalora, andThectardis) were identified using Bayesian network inference (BNI), and then described and analyzed using spatial point-process analysis. BNI found that the E-surface community had a complex web of interactions and associations between taxa, with all but one taxon (Thectardis) interacting with at least one other. The unique spatial distribution ofThectardissupports previous, morphology-based arguments for its fundamentally distinct nature. BNI revealed that the D-surface community showed no interspecific interactions or associations, a pattern consistent with a homogeneous environment.On the E surface, all six of the abundant taxonomic groups (Fractofusus,Bradgatia, Charniid,Charniodiscus,Thectardis, andPlumeropriscum) were found to have a unique set of interactions with other taxa, reflecting a broad range of underlying ecological responses. Four instances of habitat associations were detected between taxa, of which two (Charniodiscus–PlumeropriscumandPlumeropriscum–Fractofusus) led to weak competition for resources. One case of preemptive competition between Charniid and Lobate Discs was detected. There were no instances of interspecific facilitation. Ivesheadiomorph interactions mirror those ofFractofususandCharniodiscus, identifying them as a form-taxonomic grouping of degradationally homogenized taphomorphs. The absence of increased fossil abundance in proximity to these taphomorphs argues against scavenging or saprophytic behaviors dominating the E-surface community.

Published
2018
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128. Oxygen minimum zones in the early Cambrian ocean

Author

Romain Guilbaud, Jochen J. Brocks, Nicholas J. Butterfield, Benjamin J. Nettersheim, Simon W. Poulton, Ben J. Slater, Thomas H. P. Harvey, Butterfield, Nicholas [0000-0002-3046-7520], and Apollo - University of Cambridge Repository

Subjects
Earth science, Baltic basin, chemistry.chemical_element, 37 Earth Sciences, Geology, Geokemi, Oxygen minimum zone, Oxygen, Anoxic waters, 3703 Geochemistry, Geochemistry, Productivity (ecology), chemistry, Geochemistry and Petrology, Environmental Chemistry, Geologi
Abstract

The relationship between the evolution of early animal 26 communities and oceanic oxygen levels remains unclear. In particular, uncertainty persists in reconstructions of redox conditions during the pivotal early Cambrian (541-510 million years ago, Ma), where conflicting datasets from deeper marine settings suggest either ocean anoxia or fully oxygenated conditions. By coupling geochemical palaeoredox proxies with a record of organic-walled fossils from exceptionally well-defined successions of the early Cambrian Baltic Basin, we provide evidence for the early establishment of modern-type oxygen minimum zones (OMZs). Both inner- and outer shelf environments were pervasively oxygenated, whereas mid-depth settings were characterized by spatially oscillating anoxia. As such, conflicting redox signatures recovered from individual sites most likely derive from sampling bias, whereby anoxic conditions represent mid-shelf environments with higher productivity. This picture of a spatially restricted anoxic wedge contrasts with prevailing models of globally stratified oceans, offering a more nuanced and realistic account of the Proterozoic-Phanerozoic ocean transition.

Published
2018

129. A Laurentian record of the earliest fossil eukaryotes

Author

Mark L. Skidmore, David W. Mogk, Zachary R. Adam, Nicholas J. Butterfield, Butterfield, Nicholas [0000-0002-3046-7520], and Apollo - University of Cambridge Repository

Subjects
010506 paleontology, Library science, sub-04, Geology, Environmental ethics, 37 Earth Sciences, 3705 Geology, 3709 Physical Geography and Environmental Geoscience, 010502 geochemistry & geophysics, 14 Life Below Water, 01 natural sciences, Graduate research, 0105 earth and related environmental sciences
Abstract

The oldest evidence of eukaryotes in the fossil record comes from a recurrent assemblage of morphologically differentiated late Paleoproterozoic to early Mesoproterozoic microfossils. Although widely distributed, the principal constituents of this Tappania-Dictyosphaera-Valeria assemblage have not hitherto been recognized on Laurentia. We have recovered all three taxa from a shallow-water shale succession in the early Mesoproterozoic Greyson Formation (Belt Supergroup, Montana, USA). An exceptionally preserved population of Tappania substantially expands the morphological range of this developmentally complex organism, suggesting phylogenetic placement within, or immediately adjacent to, crown-group eukaryotes. Correspondence with Tappania-bearing biotas from China, India, Australia, and Siberia demonstrates an open-ocean connection to the intracratonic Belt Basin and, along with broadly co-occurring macrofossils Grypania and Horodyskia, supports the recognition of a globally expressed biozone. The Greyson Formation, along with contiguous strata in Glacier National Park, is unique in preserving all currently confirmed taxa of early eukaryotic and macroscopic fossils.

Published
2017
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130. Oxygen, animals and aquatic bioturbation: An updated account

Author

Nicholas J. Butterfield, Butterfield, Nicholas [0000-0002-3046-7520], and Apollo - University of Cambridge Repository

Subjects
0106 biological sciences, 010504 meteorology & atmospheric sciences, chemistry.chemical_element, Biology, 01 natural sciences, Oxygen, Water Movements, Animals, Ecosystem, Ecology, Evolution, Behavior and Systematics, Skeleton, Swimming, 0105 earth and related environmental sciences, General Environmental Science, Fossil Record, Evolution, Chemical, Ecology, Multicellular animals, 010604 marine biology & hydrobiology, Great Oxygenation Event, Muscles, Evolutionary radiation, Biological Evolution, Carnivory, chemistry, Cambrian explosion, General Earth and Planetary Sciences, Bioturbation
Abstract

The modern biosphere owes its idiosyncratic expression to the activities of oxygen metabolizing organisms, especially animals and eukaryotes (Butterfield, 2011). And with a permanently oxygenated atmosphere established during the ~2.4 Ga Great Oxidation Event (GOE), the stage was set for their early evolutionary debut. Curiously, however, eukaryotic organisms do not appear in the fossil record for another ~800 million years, and animals for another billion years beyond that (Butterfield, 2015a). Since oxygen availability determines the activity of aerobic organisms, there is a longstanding view that, although free oxygen was certainly present through these extended intervals, it remained persistently below levels necessary to support multicellular animals (Nursall, 1959) – or if not animals per se, at least organ-grade bilaterians (Planavsky et al., 2014) – or if not bilaterians per se, at least the large carnivorous bilaterians capable of driving a major evolutionary radiation like the Cambrian explosion (Sperling et al., 2013). Such ‘permissive environment’ causality provides an intuitively satisfying explanation for the delayed arrival of Phanerozoic-style ecosystems, and is supported empirically by geochemical evidence for the expanding oxygenation of mid-late Neoproterozoic oceans (Och & Shields-Zhou, 2012; Cole et al. 2016; Hardisty et al. 2017).

Published
2017

131. A cryptic record of Burgess Shale-type diversity from the early Cambrian of Baltica

Author

Thomas H. P. Harvey, Nicholas J. Butterfield, Romain Guilbaud, Ben J. Slater, Butterfield, Nicholas [0000-0002-3046-7520], and Apollo - University of Cambridge Repository

Subjects
010506 paleontology, priapulids, sub-04, Burgess Shale, 010502 geochemistry & geophysics, 01 natural sciences, Chaeta, Paleontology, Wiwaxia, Burgess Shale type preservation, Baltica, 14. Life underwater, annelids, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, small carbonaceous fossils, biology, Palaeoscolecid, Geovetenskap och miljövetenskap, Burgess Shale-type preservation, biology.organism_classification, Taxon, Laurentia, Earth and Related Environmental Sciences, Cambrian explosion
Abstract

Palaeontology published by John Wiley & Sons Ltd on behalf of The Palaeontological Association.Exceptionally preserved ‘Burgess Shale-type’ fossil assemblages from the Cambrian of Laurentia, South China and Australia record a diverse array of non-biomineralizing organisms. During this time, the palaeocontinent Baltica was geographically isolated from these regions, and is conspicuously lacking in terms of comparable accessible early Cambrian Lagerstätten. Here we report a diverse assemblage of small carbonaceous fossils (SCFs) from the early Cambrian (Stage 4) File Haidar Formation of southeast Sweden and surrounding areas of the Baltoscandian Basin, including exceptionally preserved remains of Burgess Shale-type metazoans and other organisms. Recovered SCFs include taxonomically resolvable ecdysozoan elements (priapulid and palaeoscolecid worms), lophotrochozoan elements (annelid chaetae and wiwaxiid sclerites), as well as ‘protoconodonts’, denticulate feeding structures, and a background of filamentous and spheroidal microbes. The annelids, wiwaxiids and priapulids are the first recorded from the Cambrian of Baltica. The File Haidar SCF assemblage is broadly comparable to those recovered from Cambrian basins in Laurentia and South China, though differences at lower taxonomic levels point to possible environmental or palaeogeographical controls on taxon ranges. These data reveal a fundamentally expanded picture of early Cambrian diversity on Baltica, and provide key insights into high-latitude Cambrian faunas and patterns of SCF preservation. We establish three new taxa based on large populations of distinctive SCFs: $\textit{Baltiscalida njorda}$ gen. et sp. nov. (a priapulid), $\textit{Baltichaeta jormunganda}$ gen. et sp. nov. (an annelid) and $\textit{Baltinema rana}$ gen. et sp. nov. (a filamentous problematicum).

Published
2017

132. Reconstructing the reproductive mode of an Ediacaran macro-organism

Author

Nicholas J. Butterfield, Emily G. Mitchell, Alexander G. Liu, Charlotte G. Kenchington, Jack J. Matthews, Mitchell, Emily [0000-0001-6517-2231], Kenchington, Charlotte [0000-0002-8201-8786], Liu, Alex [0000-0002-3985-982X], Butterfield, Nicholas [0000-0002-3046-7520], and Apollo - University of Cambridge Repository

Subjects
Aquatic Organisms, Multidisciplinary, Fossils, Newfoundland and Labrador, Ecology, palaeontology, Macrofossil, Morphology (biology), Asexual reproduction, Biology, Rangeomorph, biology.organism_classification, Propagule, Phylogenetics, Reproduction, Asexual, Biological dispersal, Phylogeny, Organism
Abstract

Enigmatic macrofossils of late Ediacaran age (580–541 million years ago) provide the oldest known record of diverse complex organisms on Earth, lying between the microbially dominated ecosystems of the Proterozoic and the Cambrian emergence of the modern biosphere. Among the oldest and most enigmatic of these macrofossils are the Rangeomorpha, a group characterized by modular, self-similar branching and a sessile benthic habit. Localized occurrences of large in situ fossilized rangeomorph populations allow fundamental aspects of their biology to be resolved using spatial point process techniques. Here we use such techniques to identify recurrent clustering patterns in the rangeomorph Fractofusus, revealing a complex life history of multigenerational, stolon-like asexual reproduction, interspersed with dispersal by waterborne propagules. Ecologically, such a habit would have allowed both for the rapid colonization of a localized area and for transport to new, previously uncolonized areas. The capacity of Fractofusus to derive adult morphology by two distinct reproductive modes documents the sophistication of its underlying developmental biology.

Published
2015
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133. The macro- And microfossil record of the Cambrian priapulid Ottoia

Author

Smith, MR, Harvey, THP, Butterfield, NJ, Butterfield, Nicholas [0000-0002-3046-7520], and Apollo - University of Cambridge Repository

Subjects
Burgess Shale, Small Carbonaceous Fossils, priapulid diversity, Selkirkia
Abstract

The stem-group priapulid Ottoia Walcott, 1911, is the most abundant worm in the mid-Cambrian Burgess Shale, but has not been unambiguously demonstrated elsewhere. High-resolution electron and optical microscopy of macroscopic Burgess Shale specimens reveals the detailed anatomy of its robust hooks, spines and pharyngeal teeth, establishing the presence of two species: Ottoia prolifica Walcott, 1911, and Ottoia tricuspida sp. nov. Direct comparison of these sclerotized elements with a suite of shale-hosted mid-to-late Cambrian microfossils extends the range of ottoiid priapulids throughout the middle to upper Cambrian strata of the Western Canada Sedimentary Basin. Ottoiid priapulids represented an important component of Cambrian ecosystems: they occur in a range of lithologies and thrived in shallow water as well as in the deep-water setting of the Burgess Shale. A wider survey of Burgess Shale macrofossils reveals specific characters that diagnose priapulid sclerites more generally, establishing the affinity of a wide range of Small Carbonaceous Fossils and demonstrating the prominent role of priapulids in Cambrian seas.

Published
2015

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