Small shelly fossils and carbon isotopes from the early Cambrian (Stages 3–4) Mural Formation of western Laurentia

Latest Early Cambrian continental slope deposition of the early Hatch Hill dysaerobic interval (new name, latest Early Cambrian—earliest Ordovician) is recorded by dark grey shales and turbidite limestones in the Bacchus slice at Ville Guay, Québec. Platform-derived microfaunas of the Bicella bicensis trilobite assemblage were transported into a dysoxic environment of the upper “Anse Maranda Formation,” and many organisms were buried alive. Phosphatization preserved a diverse skeletal fossil assemblage that includes four agnostid trilobites, echinoderm debris, and twenty small shelly fossil taxa. The latter include five helcionellids; Pelagiella Matthew, 1895b, classified herein as a gastropod; a bivalve (Fordilla Barrande, 1881); the brachiopod Linnarssonia taconica Walcott, 1887; two conodontomorphs; four hyoliths; and such phosphatic and calcareous problematica as Coleoloides Walcott, 1889, emend. Most small shelly fossil taxa, including Discinella micans Billings, 1872, range through much of the Olenellus Zone and Elliptocephala asaphoides assemblage interval. Trilobites allow a more resolved correlation into the uppermost Olenellus Zone. A comparable stratigraphy occurs in Cambrian—Ordovician slope facies of the Bacchus slice and the Giddings Brook slice in eastern New York. The “Anse Maranda Formation” correlates with the West Granville—Browns Pond—lower Hatch Hill formations in eastern New York and brackets two dysaerobic intervals (Browns Pond and early Hatch Hill). Sea-level change associated with the Hawke Bay regression between the Browns Pond and Hatch Hill onlap/dysaerobic intervals led to the longest period of oxygenated green shale and sandstone deposition on the east Laurentian slope in the late Early Cambrian-earliest Ordovician.

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The Placentian Series: appearance of the oldest skeletalized faunas in southeastern Newfoundland

Journal of Paleontology ◽

10.1017/s0022336000036465 ◽

1989 ◽

Vol 63 (6) ◽

pp. 739-769 ◽

Cited By ~ 99

Author(s):

Ed Landing ◽

Paul Myrow ◽

Alison P. Benus ◽

Guy M. Narbonne

Keyword(s):

Lower Cambrian ◽

Early Cambrian ◽

Island Formation ◽

Left Handed ◽

Small Shelly Fossils ◽

Body Fossil ◽

Offshore Muds ◽

Block Faulting ◽

Phosphate Deposits ◽

High Diversity

The lowest Cambrian of Avalon, or Placentian Series, is a relatively thick sequence (1,400 m) in southeastern Newfoundland. A newly proposed body fossil zonation supplements an existing trace fossil zonation of the lower part of the Placentian Series and includes strata to the top of the sub-trilobitic Lower Cambrian.The Sabellidites cambriensis Zone brackets the Precambrian–Cambrian boundary and comprises peritidal and wave-influenced subtidal facies deposited during deepening through the lower part of the Chapel Island Formation. Younger “Ladatheca” cylindrica Zone strata include the deepest facies of the Chapel Island Formation. The base of the overlying Watsonella crosbyi Zone (a post-Nemakit Daldyn and pre-Tommotian equivalent) is significantly diachronous because the diagnostic mollusks were preferentially preserved in pyritiferous offshore muds rather than in coeval nearshore muds. High diversity, upper Watsonella crosbyi Zone faunas (18 species) are limited to peritidal limestones of member 4 and are dominated by calcareous small shelly fossils. A thick interval (ca. 430 m) without body fossils and an important episode of block faulting that led to 750 m of differential erosion preceded deposition of the lower part of the Bonavista Group (=Sunnaginia imbricata Zone, an interval considered to be largely older than the Tommotian). Although much Early Cambrian time may be lost as a result of erosion at Random Formation–Bonavista Group unconformities, many Watsonella crosbyi Zone species reappear in the Sunnaginia imbricata Zone. Shoaling accompanied the immigration event defining the base of the Camenella baltica Zone, and an unconformity following regional offlap marks the top of the Placentian Series.Calcareous, and not phosphatic, composition is most common in earliest Cambrian shelly remains. Little evidence suggests that a global, Precambrian–Cambrian boundary interval “phosphogenic” event either resulted in deposition of local phosphate deposits in the Tethyan region or had a role in the appearance of mineralized skeletons.Twenty metazoans and problematica and an alga are illustrated from the Chapel Island Formation. Bemella? vonbitteri Landing n. sp. and Halkieria stonei Landing n. sp. are described. The monoplacophoran Archaeospira? avalonensis Landing n. sp. has right-and left-handed conchs comparable to those of Archaeospira (=Yangtzespira) from China. Anabarites is the senior generic synonym of Tiksitheca.

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Organic carbon isotopes of the Sinian and Early Cambrian black shales on Yangtze Platform, China

Science in China Series D Earth Sciences ◽

10.1007/bf02877787 ◽

1999 ◽

Vol 42 (6) ◽

pp. 595-603 ◽

Cited By ~ 13

Author(s):

Renwei Li ◽

Jialan Lu ◽

Shukun Zhang ◽

Jiajin Lei

Keyword(s):

Organic Carbon ◽

Carbon Isotopes ◽

Black Shales ◽

Early Cambrian ◽

Yangtze Platform ◽

Organic Carbon Isotopes

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Nd isotope composition of early Cambrian discrete basins

Geological Magazine ◽

10.1017/s0016756801006252 ◽

2002 ◽

Vol 139 (2) ◽

pp. 159-169 ◽

Cited By ~ 4

Author(s):

SERGEI B. FELITSYN ◽

ALEXANDER P. GUBANOV

Keyword(s):

Mass Exchange ◽

Water Mass ◽

Isotope Composition ◽

Isotopic Signature ◽

Early Cambrian ◽

Water Reservoirs ◽

Nd Isotope ◽

Small Shelly Fossils ◽

T Values ◽

Nd Isotope Composition

A Nd isotope map of early Cambrian epeiric basins has been inferred from the Nd isotopic signature recorded in phosphatic Small Shelly Fossils. The most radiogenic εNd(t) values characterize water reservoirs along the Avalonian and Cadomian belts, while εNd(t) values of −10 to −20 were obtained in Laurentia and East Gondwanan Australia and China. Such a distribution of Nd isotope signatures results from the different provenance of early Cambrian epeiric seas: juvenile magmatic arcs and/or cordilleran for Mongolia, Siberia, Iberia and adjacent terranes, and cratonic sources for Laurentia and East Gondwana. Biogenic apatite of Small Shelly Fossils may be a useful tool for mapping of Nd isotope composition and documenting water mass exchange between discrete basins.

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Age constraints from small shelly fossils on the early Cambrian terminal Cadomian Phase in Iberia

GFF ◽

10.1080/11035899901212137 ◽

1999 ◽

Vol 121 (2) ◽

pp. 137-143 ◽

Cited By ~ 20

Author(s):

Gonzalo Vidal ◽

Teodoro Palacios ◽

Małgorzata Moczydłowska ◽

Alexander P. Gubanov

Keyword(s):

Early Cambrian ◽

Small Shelly Fossils ◽

Age Constraints

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A probable late Neoproterozoic age for the Kennedy Channel and Ella Bay formations, northeastern Ellesmere Island and its implications for passive margin history of the Canadian Arctic

Canadian Journal of Earth Sciences ◽

10.1139/e04-044 ◽

2004 ◽

Vol 41 (9) ◽

pp. 1013-1025 ◽

Cited By ~ 31

Author(s):

Keith Dewing ◽

J C Harrison ◽

Brian R Pratt ◽

Ulrich Mayr

Keyword(s):

Lower Cambrian ◽

Canadian Arctic ◽

Passive Margin ◽

Early Cambrian ◽

Channel Formation ◽

Type Section ◽

Small Shelly Fossils ◽

History Of ◽

Basin Formation ◽

Late Neoproterozoic

The Kennedy Channel and Ella Bay formations are the two oldest stratigraphic units exposed in the Franklinian margin sedimentary sequence in the Canadian Arctic Islands. An Early Cambrian age had previously been accepted by the occurrence of trilobites and small shelly fossils in the type section of the Kennedy Channel Formation. Reinvestigation of the area around the type section shows that several large strike-slip faults cut the succession and that the olenelloid trilobites are from an infaulted slice of a younger unit, the Lower Cambrian Kane Basin Formation. Thus, there is no unambiguous paleontological evidence for the age of either the Kennedy Channel or Ella Bay formations. However, the abundance of stromatolites, absence of trace fossils, and separation from overlying Lower Cambrian clastics by a regional angular unconformity indicate a probable late Neoproterozoic age for these two formations. The Ella Bay Formation likely correlates with the Portfjeld Formation in North Greenland, the Spiral Creek Formation in East Greenland, and the Risky Formation of the Mackenzie Mountains in northwestern Canada. The passive margin that existed in northern Laurentia during the early Paleozoic was, therefore, established in the late Neoproterozoic, and the onset of rifting must have preceded this, rather than occurring in the Early Cambrian as some authors have suggested.

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