ABSTRACT
The Middle Ordovician Shoal Arm Formation, which is located in the
central volcanic belt of north-central Newfoundland, is a tripartite assemblage
of hematitic argillites, grey cherts, and black shales directly underlying
a flysch sequence. The hematitic argillites are enriched in Fe, Mn, Ni,
Pb, and Co. Factor analysis and principal component analysis indicate the
presence of a hydrothermal component, presumably derived from hydrothermal
activity in the coeval Lawrence Head volcanics. Unusual, (?) calcareous
Mn-Fe-oxide nodules are present in the top parts of turbidites in the hematitic
argillites. Electron microprobe analysis of a color transition from a red
to a green argillite indicates fractionation of Mn from Fe by diagenetic
mobilization of Mn and subsequent precipitation as Mn-carbonate in adjacent
green, calcareous argillites. The detrital component of the Shoal Arm Formation
is influenced by several, geochemically different, clastic sources. The
top part of the Shoal Arm Formation is characterized by a Zr-, Nb-, and
Y-rich clastic component that may reflect either erosion or volcanic activity
of lateral equivalents of the Lawrence Head volcanics. The hydrothermal
component disappeared with erosion of these volcanics. The overlying grey,
mottled and laminated cherts reflect a biogenic bloom, which preceded euxinification
of the depositional basin. Synchronous and diachronous depositional models
are proposed to explain the tectonic history of the Shoal Arm Formation.
The synchronous model emphasizes the high biological productivity and limited
circulation in a restricted basin as the cause for the observed euxinification.
The diachronous model explains the black shale facies with a prograding,
deep-water anoxic layer that developed during rapid basin subsidence as
the result of thrust-loading. In this model, the black shales were deposited
in front of flysch sediments derived from a southeastward prograding thrust
stack.
The Middle Ordovician Taconic sequence of New York (i.e., the upper
part of the Poultney Formation, the Indian River, and the Mt. Merino Formations)
exhibits hematitic argillites in a similar lithostratigraphic position
relative to black shale and flysch as the Shoal Arm Formation. Comparison
of the Shoal Arm Formation with this part of the Taconic sequence indicates
that the two tectonic models are also applicable to this sequence. Both
the Indian River Formation and the Mt. Merino Formation are slightly enriched
in Fe, Mn, and the trace elements Pb and Ni. This modest metal enrichment
is explained either by recycling of Fe and Mn into the seawater in expanded
oxygen minimum zones and subsequent precipitation at oxic/anoxic interfaces,
or by a distal hydrothermal component. A continental source of Fe is excluded.
Minor enrichment of biogenically derived material in the Mt. Merino Formation
suggests that biological productivity may not have been the determining
factor for euxinification.
The comparison with Precambrian sequences that contain Superior-type
banded iron-formations and black shales in comparable stratigraphic positions
indicates little geochemical similarity with the two Ordovician sequences.
Enrichments of Fe, Mn, Pb, Ni, Co, and Cr in both iron-formations and black
shales are generally stronger than in the Ordovician cases. Interpretations
of biological productivity are hampered by the insufficient knowledge of
inorganic element associations with biological matter in Precambrian oceans.
As a consequence, it is difficult to test the proposed tectonic models
with the available geochemical data. Comparisons to that point have to
rely upon field observations alone.
Brüchert, V., 1992. The origin of metalliferous argillites in the
Shoal Arm Formation of north-central Newfoundland. Unpublished MSc. thesis,
State University of New York at Albany. 262 pp., +xii
University at Albany Science Library call number: SCIENCE Oversize
(*) QE 40 Z899 1992 B79
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Sciences Program, University at Albany