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Microfossils and Precambrian Iron-Formations

GSA Bulletin (1967) 78 (3): 331–342.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
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Bacterial paleontology of the Neoarchean banded iron formations of Karelia and the Kola Peninsula
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Iron mineralization and taphonomy of microfossils of the 2.45–2.21 Ga Turee Creek Group, Western Australia
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Iron silicate microgranules as precursor sediments to 2.5-billion-year-old banded iron formations
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Biological carbon precursor to diagenetic siderite with spherical structures in iron formations
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Paleoenvironmental and taphonomic controls on the occurrence of Paleoproterozoic microbial communities in the 1.88 Ga Ferriman Group, Labrador Trough, Canada
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Precambrian microbe-like pseudofossils: A promising solution to the problem
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Overview of the mineralogy of the Biwabik Iron Formation, Mesabi Iron Range, northern Minnesota
Regulatory Toxicology and Pharmacology (2008) 52 (1): S11.
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The Physics, Chemical Physics, and Biological Physics of the Origin of Life on Earth
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Biomarkers (Alkanes) of the Xuanlong ‐ Type Iron Deposits
Acta Geologica Sinica - English Edition (1995) 8 (4): 387.
Carbonaceous bodies of debatable organic provenance in the Banded Iron formation of the Wadi Kareim area, Eastern Desert, Egypt
Journal of African Earth Sciences (1994) 19 (1-2): 125.
Problematic bedding-plane markings from the Middle Proterozoic Manganese Subgroup, Bangemall Basin, Western Australia
Precambrian Research (1990) 46 (4): 307.
Hematite Nanospheres of Possible Colloidal Origin from a Precambrian Banded Iron Formation
Science (1990) 250 (4977): 111.
Rainy periods and bottom water stagnation initiating brine accumulation and metal concentrations, 2. Precambrian gold‐uranium ore beds and banded iron formations
Paleoceanography (1987) 2 (4): 379.
Cadmium binding sites on cells of a marine pseudomonad
Chemosphere (1985) 14 (9): 1409.
Subdivision and correlation of late Precambrian sequences in Australia
Precambrian Research (1985) 29 (1-3): 303.
Early geological record and the origin of life
Naturwissenschaften (1984) 71 (2): 63.
Sedimentology of the Kuruman and Griquatown Iron-formations, Transvaal Supergroup, Griqualand West, South Africa
Precambrian Research (1984) 24 (1): 47.
Early Diversification of Life in the Archaean
Zentralblatt für Bakteriologie Mikrobiologie und Hygiene: I. Abt. Originale C: Allgemeine, angewandte und ökologische Mikrobiologie (1982) 3 (1): 53.
Binding of metals to cell envelopes of Escherichia coli K-12
Applied and Environmental Microbiology (1981) 42 (2): 325.
Sedimentary structures in the Gunflint Iron Formation, Schreiber Beach, Ontario
Precambrian Research (1980) 12 (1-4): 287.
The eukaryotic nature of Eosphaera-like ferriferous structures from the Precambrian Gunflint Iron Formation, Canada: A comparative study
Precambrian Research (1979) 9 (1-2): 1.
Uptake and retention of metals by cell walls of Bacillus subtilis
Journal of Bacteriology (1976) 127 (3): 1502.
Microfossils from a newly discovered Precambrian stromatolitic iron formation in Western Australia
Nature (1976) 261 (5557): 221.
Organische Substanzen in präkambrischen Itabiriten und deren Nebengesteinen
Geologische Rundschau (1975) 64 (1): 641.
Organic geochemistry in Precambrian research
Precambrian Research (1974) 1 (2): 75.
Transvaal Stromatolite: First Evidence for the Diversification of Cells about 2.2 × 10 9 Years Ago
Science (1974) 183 (4124): 514.
Microbial mineral maricultures, a possibility?
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Die Entwicklung des Lebens im Präkambrium und seine geologische Bedeutung
Geologische Rundschau (1971) 60 (4): 1323.
The evolution of bioenergetic processes
Progress in Biophysics and Molecular Biology (1970) 21: 145.
PRECAMBRIAN MICRO‐ORGANISMS AND EVOLUTIONARY EVENTS PRIOR TO THE ORIGIN OF VASCULAR PLANTS
Biological Reviews (1970) 45 (3): 319.
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