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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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United States
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Arkansas
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Washington County Arkansas
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Fayetteville Arkansas (6)
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Oklahoma (1)
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Ozark Mountains (1)
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elements, isotopes
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carbon
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organic carbon (2)
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metals
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alkali metals
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potassium (1)
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sodium (1)
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alkaline earth metals
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calcium (1)
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magnesium (1)
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arsenic (2)
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cadmium (2)
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chromium (2)
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copper (2)
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iron (2)
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manganese (2)
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nickel (2)
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zinc (2)
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phosphorus (1)
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selenium (2)
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trace metals (1)
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fossils
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Invertebrata
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Mollusca
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Cephalopoda (1)
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Plantae
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Pteridophyta
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Lycopsida (1)
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geologic age
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Paleozoic
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Carboniferous
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Mississippian
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Upper Mississippian
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Chesterian (1)
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Fayetteville Formation (1)
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Pennsylvanian (1)
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Primary terms
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carbon
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organic carbon (2)
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data processing (1)
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faults (1)
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geophysical methods (2)
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ground water (2)
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Invertebrata
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Mollusca
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Cephalopoda (1)
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land use (1)
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metals
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alkali metals
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potassium (1)
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sodium (1)
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alkaline earth metals
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calcium (1)
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magnesium (1)
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arsenic (2)
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cadmium (2)
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chromium (2)
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copper (2)
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iron (2)
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manganese (2)
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nickel (2)
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zinc (2)
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paleoecology (1)
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paleontology (1)
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Paleozoic
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Carboniferous
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Mississippian
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Upper Mississippian
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Chesterian (1)
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Fayetteville Formation (1)
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Pennsylvanian (1)
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phosphorus (1)
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Plantae
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Pteridophyta
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Lycopsida (1)
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pollution (1)
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sediments
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clastic sediments
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clay (1)
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selenium (2)
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soils
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Ultisols (2)
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United States
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Arkansas
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Washington County Arkansas
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Fayetteville Arkansas (6)
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Oklahoma (1)
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Ozark Mountains (1)
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sediments
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sediments
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clastic sediments
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clay (1)
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soils
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soils
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Ultisols (2)
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Fayetteville Arkansas
Applications and Analytical Methods of Ground Penetrating Radar for Soil Characterization in a Silvopastoral System
Long-Term Leachate Water Quality Trends from a Broiler-Litter-Amended Udult in a Karst Region
Soluble Metal Leaching from a Poultry Litter–Amended Udult under Pasture Vegetation
The Fayetteville Formation of northwestern Arkansas (upper Mississippian/middle Chesterian) contains two compression plant fossil assemblages (one in situ) that represent plant communities, and an allochthonous permineralized assemblage recovered from marine strata that represents the landscape. This preservation of spatial ecological subunits (communities) nested within a larger subunit (landscape) provides a snapshot of vegetation patterns within a Late Mississippian clastic swamp. Fifteen whole plants are recognized. Seed ferns are the most speciose group and lycopsids account for most biomass. Seed fern taxa known only as permineralized specimens include one canopy tree ( Megaloxylon ), two understory trees, and five herbaceous layer plants. Two herbaceous layer seed ferns are observed only as compressions. Lycopsids are represented as two canopy trees that are known from both permineralizations and compressions. Archaeocalamites is also known from both permineralizations and compressions but was an understory tree. Ferns are rare and are preserved only as fragments of permineralized rachises from two species. As revealed by the in situ compression assemblage, the two species of lycopsid canopy trees co-occur and they formed communities that occupied ever-wet bottomlands, with Archaeocalamites occupying the understory, and a single species of seed fern comprising the herbaceous layer. Lycopsids do not co-occur with Megaloxylon . Megaloxylon probably formed a second community type in somewhat water-stressed areas of the swamp with an understory of small arborescent seed ferns, some Archaeocalamites , and an herbaceous-layer seed fern. Ferns probably formed a third type of community in disturbed sites.