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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Atlantic Ocean
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North Atlantic
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Bay of Fundy (1)
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Gulf of Saint Lawrence (1)
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Australasia
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Australia
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Queensland Australia
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Burdekin River (1)
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Canada
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Eastern Canada
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Maritime Provinces
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New Brunswick
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Albert County New Brunswick (1)
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Westmorland County New Brunswick (1)
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Nova Scotia
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Cumberland County Nova Scotia
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Joggins Fossil Cliffs (3)
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Cumberland Basin (19)
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Maritimes Basin (4)
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North America
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Appalachians
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Northern Appalachians (1)
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Sydney Basin (2)
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fossils
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Chordata
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Vertebrata
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Tetrapoda
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Amphibia
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Lepospondyli (1)
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ichnofossils (1)
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Invertebrata
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Protista
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Foraminifera
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Textulariina
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Lituolacea
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Trochammina (1)
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microfossils (3)
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palynomorphs
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miospores (1)
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Plantae
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Pteridophyta (1)
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Spermatophyta
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Gymnospermae
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Cordaitales (1)
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tracks (1)
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geochronology methods
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paleomagnetism (1)
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geologic age
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Paleozoic
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Carboniferous
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Mabou Group (3)
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Mississippian
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Middle Mississippian
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Visean
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upper Visean (1)
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Upper Mississippian
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Serpukhovian (1)
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Pennsylvanian
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Cumberland Group (4)
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Joggins Formation (6)
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Lower Pennsylvanian (2)
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Morien Group (1)
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Upper Carboniferous
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Westphalian (5)
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Permian
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Lower Permian (1)
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upper Paleozoic
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Pictou Group (1)
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minerals
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carbonates
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calcite (1)
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Primary terms
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Atlantic Ocean
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North Atlantic
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Bay of Fundy (1)
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Gulf of Saint Lawrence (1)
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Australasia
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Australia
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Queensland Australia
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Burdekin River (1)
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Canada
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Eastern Canada
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Maritime Provinces
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New Brunswick
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Albert County New Brunswick (1)
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Westmorland County New Brunswick (1)
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Nova Scotia
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Cumberland County Nova Scotia
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Joggins Fossil Cliffs (3)
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Chordata
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Vertebrata
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Tetrapoda
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Amphibia
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Lepospondyli (1)
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deformation (1)
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diagenesis (1)
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faults (2)
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geochemistry (2)
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geophysical methods (1)
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ground water (2)
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hydrology (1)
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ichnofossils (1)
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Invertebrata
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Protista
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Foraminifera
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Textulariina
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Lituolacea
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Trochammina (1)
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North America
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Appalachians
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Northern Appalachians (1)
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paleoclimatology (3)
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paleoecology (2)
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paleogeography (1)
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paleomagnetism (1)
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Paleozoic
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Carboniferous
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Mabou Group (3)
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Mississippian
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Middle Mississippian
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Visean
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upper Visean (1)
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Upper Mississippian
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Serpukhovian (1)
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Pennsylvanian
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Cumberland Group (4)
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Joggins Formation (6)
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Lower Pennsylvanian (2)
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Morien Group (1)
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Upper Carboniferous
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Westphalian (5)
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Permian
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Lower Permian (1)
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upper Paleozoic
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Pictou Group (1)
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palynomorphs
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miospores (1)
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Plantae
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Pteridophyta (1)
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Spermatophyta
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Gymnospermae
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Cordaitales (1)
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remote sensing (1)
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sedimentary rocks
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chemically precipitated rocks
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evaporites (2)
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clastic rocks
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claystone (1)
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conglomerate (2)
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fanglomerate (1)
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mudstone (2)
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red beds (1)
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sandstone (6)
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coal (4)
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sedimentary structures
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bedding plane irregularities
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ripple marks (1)
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biogenic structures
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lebensspuren (1)
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planar bedding structures
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cross-bedding (1)
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laminations (1)
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sand bodies (1)
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sedimentation (2)
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sediments
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peat (2)
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stratigraphy (2)
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structural geology (1)
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tectonics
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salt tectonics (5)
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sedimentary rocks
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sedimentary rocks
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chemically precipitated rocks
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evaporites (2)
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clastic rocks
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claystone (1)
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conglomerate (2)
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fanglomerate (1)
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mudstone (2)
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red beds (1)
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sandstone (6)
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coal (4)
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sedimentary structures
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channels (2)
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sedimentary structures
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bedding plane irregularities
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ripple marks (1)
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biogenic structures
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lebensspuren (1)
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planar bedding structures
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cross-bedding (1)
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laminations (1)
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sand bodies (1)
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tracks (1)
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sediments
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sediments
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peat (2)
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Cumberland Basin
Chemostratigraphy of Cumberland Group (Pennsylvanian) strata influenced by salt tectonics, Joggins Fossil Cliffs UNESCO World Heritage Site, eastern Canada
Absence of evidence of climate-driven cycles in Carboniferous deposits of Joggins, Nova Scotia, Canada: influence of salt withdrawal tectonics on deposition and pedogenesis
Stratigraphy and sedimentology of the Pennsylvanian Grande Anse Formation, Cumberland Basin, eastern Canada: its relationship to salt tectonics and coeval strata of the Joggins World Heritage Site
The Role of Salt Tectonics, Glacioeustatic Variations, and High pH Evaporitic Groundwater in the Development of Synsedimentary Paleokarst within Carboniferous Polymictic Fanglomerate at Hopewell Cape, Atlantic Canada
Sedimentology of the lower Serpukhovian (upper Mississippian) Mabou Group in the Cumberland Basin of eastern Canada: tectonic, halokinetic, and climatic implications
Impact of Vegetation On Early Pennsylvanian Fluvial Channels: Insight From the Joggins Formation of Atlantic Canada
Deconvolving Signals of Tectonic and Climatic Controls From Continental Basins: An Example From the Late Paleozoic Cumberland Basin, Atlantic Canada
Evaporite tectonics and the late Paleozoic stratigraphic development of the Cumberland basin, Appalachians of Atlantic Canada
Facies model for fluvial systems in the seasonal tropics and subtropics
Natural Geomorphic Variability Recorded in a High-Accommodation Setting: Fluvial Architecture of the Pennsylvanian Joggins Formation of Atlantic Canada
Paleomagnetism of the Distal Member of the New Glasgow Formation, Nova Scotia, Canada: New Constraints on Magnetic Polarity Stratigraphy near the Base of the Kiaman Superchron
Archerpeton anthracos from the Joggins Formation of Nova Scotia: a microsaur, not a reptile
Invertebrate trace fossils and agglutinated foraminifera as indicators of marine influence within the classic Carboniferous section at Joggins, Nova Scotia, Canada
Tectonic event stratigraphy in a fluvio-lacustrine, strike-slip setting; the Boss Point Formation (Westphalian A), Cumberland Basin, Maritime Canada
Alternating braidplain and lacustrine deposition in a strike-slip setting; the Pennsylvanian Boss Point Formation of the Cumberland Basin, Maritime Canada
The evolution of a ground-water-influenced (Westphalian B) peat-forming ecosystem in a piedmont setting: The No. 3 seam, Springhill coalfield, Cumberland Basin, Nova Scotia
The basis of modern fresh-water peatland (mire) classification, namely ground-water influence and source of ionic input, has been adopted in this study for ancient mire analysis. Trends that result from a modern mire’s evolution from a rheotrophic (ground-water influenced) planar to ombrotrophic (solely rain-fed), raised status, under decreasing influence of ground water, include decreasing pH levels, nutrient/ionic supply, ash content, species diversity, and ratio of arboreous to herbaceous vegetation. These attributes are inferred to give rise to the following upward trends within a coal seam: enhanced preservation and reduced biochemical geliflcation within similar tissues; decreasing abundance of liptinite macerals of aquatic affinity, sulfur (especially pyritic) content, and waterborne ash; and decreasing floral diversity. Reversals in these trends may signal change in the trophic status of the ancestral mire (e.g., deflation). The identification of such trends relies heavily upon the description of vitrinite in terms of relative geliflcation. The significance of Eh and the historical use of inertinite in paleomire analysis is questioned. The ancestral mire of the Westphalian B No. 3 seam of the Springhill coalfield, Cumberland Basin, Nova Scotia, formed between a piedmont of coalesced, retreating alluvial fans and the medial reaches of a basin-axis channel belt. The lithologically distinct piedmont, inner mire, and riverine zones of the seam reflect this geomorphic setting. Modeling of a maceral-based index of ground-water influence (strongly gelified tissues and mineral matter versus well preserved tissues) led to the deduction that the paleomire originated as a rheotrophic, and presumably planar, ecosystem that evolved progressively toward a less ground-water-influenced (mesotrophic) state, and possibly to an ombrotrophic, weakly domed system within the inner mire. This maceral-based method suggests a succession of mire types from swamp to fen (and questionably to bog) representing the classic hydroseral succession that forms by the autogenic process of terrestrialization. Contrary to the maceral-based evidence of progressive, albeit weak, raising of the mire surface, ash, sulfur, and miospore diversity increase, and lithotypes become duller upward within the upper third of the seam in the inner zone, suggesting that the mire may have ultimately reverted to a more ground-water-influenced state. A decrease in pH, inferred from an upward increase in tissue structure and decrease in geliflcation, accompanied inner mire development; elsewhere conditions were less acidic. The paleomire flora was dominated throughout by the arboreous lycopsids Lepidodendron hickii and Anabathra (cf. Paralycopodites ), confirming the rheotrophic nature of the ecosystem and the prevalence of flooded conditions. Floral succession of these arboreous lycopsids is evident within the inner mire. Groundwater discharge from alluvial fans at the piedmont margin favored conditions for the colonization of the forest flora. The feedback mechanism of lateral or upslope paludification was aided by the rapid, noncompetitive growth strategy of the arboreous lycopsids. At the riverine margin, autogenic evolution of the ecosystem was stymied by allogenic fluvial processes and by differential compaction about entombed multistory sandstone bodies. Lithotype trends record a general, but similar history of mire development. The ultimate demise of the mire is ascribed to allogenic change, potentially involving precession-induced climate change in concert with basin subsidence and sediment supply.