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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Antarctica
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Antarctic ice sheet
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East Antarctic ice sheet (1)
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Asia
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Siberia (1)
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Australasia
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Australia (1)
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North America
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North American Cordillera (1)
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Western Interior
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Western Interior Seaway (1)
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Southern Ocean (1)
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United States
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California (1)
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elements, isotopes
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isotope ratios (2)
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isotopes
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stable isotopes
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O-18/O-16 (2)
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oxygen
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O-18/O-16 (2)
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geologic age
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Cenozoic
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Quaternary
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Holocene (1)
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Tertiary
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Neogene
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Pliocene
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middle Pliocene (1)
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Mesozoic
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Cretaceous
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Middle Cretaceous (1)
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Triassic
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Lower Triassic
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Scythian (1)
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Upper Triassic
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Carnian (1)
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Paleozoic
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Carboniferous (2)
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Ordovician
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Upper Ordovician (1)
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Permian (2)
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upper Paleozoic (1)
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minerals
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carbonates
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siderite (1)
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Primary terms
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Antarctica
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Antarctic ice sheet
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East Antarctic ice sheet (1)
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Asia
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Siberia (1)
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atmosphere (2)
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Australasia
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Australia (1)
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Cenozoic
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Quaternary
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Holocene (1)
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Tertiary
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Neogene
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Pliocene
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middle Pliocene (1)
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climate change (3)
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data processing (5)
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earthquakes (1)
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faults (1)
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geochemistry (1)
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geodesy (1)
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glacial geology (3)
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heat flow (1)
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hydrology (1)
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isotopes
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stable isotopes
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O-18/O-16 (2)
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mantle (1)
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Mesozoic
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Cretaceous
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Middle Cretaceous (1)
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Triassic
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Lower Triassic
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Scythian (1)
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Upper Triassic
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Carnian (1)
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North America
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North American Cordillera (1)
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Western Interior
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Western Interior Seaway (1)
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oxygen
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O-18/O-16 (2)
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paleoclimatology (8)
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paleoecology (1)
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paleogeography (2)
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Paleozoic
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Carboniferous (2)
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Ordovician
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Upper Ordovician (1)
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Permian (2)
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upper Paleozoic (1)
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sea-level changes (1)
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Southern Ocean (1)
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tectonics (1)
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United States
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California (1)
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soils
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paleosols (1)
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Modeling the oxygen isotope composition of the Antarctic ice sheet and its significance to Pliocene sea level
The impact of dynamic topography change on Antarctic ice sheet stability during the mid-Pliocene warm period
Late Paleozoic tropical climate response to Gondwanan deglaciation
General circulation model simulation of the δ 18 O content of continental precipitation in the middle Cretaceous: A model-proxy comparison
Siberian glaciation as a constraint on Permian–Carboniferous CO 2 levels
Inverting for Slip on Three-Dimensional Fault Surfaces Using Angular Dislocations
Sensitivity of the Australian Monsoon to insolation and vegetation: Implications for human impact on continental moisture balance
Obliquity forcing with 8–12 times preindustrial levels of atmospheric p CO 2 during the Late Ordovician glaciation
The climates of two realistic geographic representations of the Triassic earth, corresponding in age to the Scythian (245 Ma) and the Carnian (225 Ma), are explored using a new atmospheric general circulation model (AGCM) called GENESIS. The GENESIS AGCM is coupled to a slab ocean 50 m thick, with prescribed heat transport; it also incorporates three types of cloud cover and new models for vegetation effects, soil hydrology, snow cover, and sea-ice formation and melting. Boundary conditions prescribed in the separate Scythian and Carnian experiments include realistic paleogeography and estimates of paleotopography, solar insolation, atmospheric CO 2 concentration, vegetation and soil types, and oceanic heat flux. Seasonal simulations of Triassic climate were performed using a horizontal spectral resolution of R15 (4.5 degrees latitude by 7.5 degrees longitude) and 12 levels in the vertical for the atmosphere and 2° × 2* for the surface. Results for both time intervals suggest that most of the seasonal precipitation fell on major highland areas of Pangea. Dry continental climates with very large seasonal temperature ranges (>45°C) were modeled in the dominantly lowland interior of Pangea. Carnian continental climates predicted by the AGCM were wetter than those of the Scythian; however, both time intervals were characterized by strongly monsoonal circulation. Comparison of these results with lithologic and fossil proxy climatic indicators suggests reasonably good correlations. However, the extreme temperature variations predicted for both Scythian and Carnian are somewhat difficult to reconcile with the fossil record, although accurate interpretation of fossil proxy climatic indicators is not a simple matter. Additional AGCM sensitivity studies may be necessary to resolve this problem.