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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Australasia
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Australia
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Queensland Australia
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Broken River Province (1)
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Canada
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Arctic Archipelago (1)
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Eastern Canada
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Newfoundland and Labrador
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Newfoundland (1)
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Nunavut (1)
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Queen Elizabeth Islands
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Parry Islands (1)
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Cornwallis Island (1)
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United States
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Missouri
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Boone County Missouri (1)
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Saint Louis County Missouri (1)
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New Mexico
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Otero County New Mexico (1)
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Sierra County New Mexico (1)
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New York
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Niagara County New York (1)
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Orleans County New York (1)
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Oklahoma (1)
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Utah
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Millard County Utah (1)
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Virginia
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Rockingham County Virginia (1)
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Shenandoah County Virginia (1)
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West Virginia
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Hampshire County West Virginia (1)
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fossils
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Invertebrata
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Arthropoda
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Trilobitomorpha
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Trilobita (7)
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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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Boone Formation (1)
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Lower Mississippian
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Lake Valley Formation (1)
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Osagian
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Burlington Limestone (1)
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Keokuk Limestone (1)
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Devonian (2)
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lower Paleozoic
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Cape Phillips Formation (1)
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Ordovician
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Lower Ordovician
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Fillmore Formation (1)
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Martinsburg Formation (1)
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Middle Ordovician
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Darriwilian (1)
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Upper Ordovician (1)
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Silurian
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Lower Silurian
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Wenlock (1)
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Middle Silurian
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Rochester Formation (1)
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Primary terms
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Australasia
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Australia
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Queensland Australia
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Broken River Province (1)
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Canada
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Arctic Archipelago (1)
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Eastern Canada
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Newfoundland and Labrador
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Newfoundland (1)
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Nunavut (1)
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Queen Elizabeth Islands
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Parry Islands (1)
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Invertebrata
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Arthropoda
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Trilobitomorpha
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Trilobita (7)
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paleoecology (1)
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paleogeography (1)
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Paleozoic
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Carboniferous
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Mississippian
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Boone Formation (1)
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Lower Mississippian
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Lake Valley Formation (1)
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Osagian
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Burlington Limestone (1)
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Keokuk Limestone (1)
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Devonian (2)
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lower Paleozoic
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Cape Phillips Formation (1)
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Ordovician
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Lower Ordovician
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Fillmore Formation (1)
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Martinsburg Formation (1)
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Middle Ordovician
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Darriwilian (1)
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Upper Ordovician (1)
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Silurian
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Lower Silurian
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Wenlock (1)
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Middle Silurian
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Rochester Formation (1)
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sedimentary rocks (1)
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United States
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Missouri
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Boone County Missouri (1)
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Saint Louis County Missouri (1)
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New Mexico
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Otero County New Mexico (1)
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Sierra County New Mexico (1)
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New York
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Niagara County New York (1)
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Orleans County New York (1)
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Oklahoma (1)
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Utah
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Millard County Utah (1)
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Virginia
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Rockingham County Virginia (1)
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Shenandoah County Virginia (1)
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West Virginia
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Hampshire County West Virginia (1)
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sedimentary rocks
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sedimentary rocks (1)
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Brachymetopidae
AULACOPLEURID TRILOBITES FROM THE UPPER ORDOVICIAN OF VIRGINIA
Cordania and other trilobites from the Lower and Middle Devonian
The brachymetopid trilobite Radnoria in the Silurian (Wenlock) of New York State and Arctic Canada
LOWER MISSISSIPPIAN TRILOBITE BIOSTRATIGRAPHY OF THE CENTRAL UNITED STATES, AND SOME NEW OSAGEAN SPECIES
LOWER MISSISSIPPIAN TRILOBITES FROM SOUTHERN NEW MEXICO
Needmorella , a new trilobite genus of the Synphoriinae (Dalmanitidae) from the Lower–Middle Devonian of West Virginia
The Ordovician trilobite Oenonella and the new family Oenonellidae, with new species from western Newfoundland, Canada
Trilobites of the suborder Illaenina from the Silurian of north Queensland, Australia
A synopsis of Ordovician trilobite distribution and diversity
Abstract Ordovician trilobites are reviewed based on a new species-level relational database. The stratigraphical ranges of all 56 families with occurrences in the Ordovician are documented and the content, phylogenetic status, diversity and Ordovician distribution by major palaeocontinent/terrane are discussed. Aspects of higher classification are also dealt with. Global sampling is heavily biased towards a small number of highly sampled areas. Much of the world has a very limited record of formally named trilobite species. Even within heavily sampled units, sampling is patchy by environment and time. Genus endemism was at a peak in Laurentia, Baltic, and Avalonia in the Floian and declined more-or-less steadily through the remainder of the Ordovician.
The global Hangenberg Crisis (Devonian–Carboniferous transition): review of a first-order mass extinction
Abstract The global Hangenberg Crisis near the Devonian–Carboniferous boundary (DCB) represents a mass extinction that is of the same scale as the so-called ‘Big Five’ first-order Phanerozoic events. It played an important role in the evolution of many faunal groups and destroyed complete ecosystems but affected marine and terrestrial environments at slightly different times within a short time span of c. 100–300 kyr. The lower crisis interval in the uppermost Famennian started as a prelude with a minor eustatic sea-level fall, followed rather abruptly by pantropically widespread black shale deposition (Hangenberg Black Shale and equivalents). This transgressive and hypoxic/anoxic phase coincided with a global carbonate crisis and perturbation of the global carbon cycle as evidenced by a distinctive positive carbon isotope excursion, probably as a consequence of climate/salinity-driven oceanic overturns and outer-shelf eutrophication. It is the main extinction level for marine biota, especially for ammonoids, trilobites, conodonts, stromatoporoids, corals, some sharks, and deeper-water ostracodes, but probably also for placoderms, chitinozoans and early tetrapods. Extinction rates were lower for brachiopods, neritic ostracodes, bryozoans and echinoderms. Extinction patterns were similar in widely separate basins of the western and eastern Prototethys, while a contemporaneous marine macrofauna record from high latitudes is missing altogether. The middle crisis interval is characterized by a gradual but major eustatic sea-level fall, probably in the scale of more than 100 m, that caused the progradation of shallow-water siliciclastics (Hangenberg Sandstone and equivalents) and produced widespread unconformities due to reworking and non-deposition. The glacio-eustatic origin of this global regression is proven by miospore correlation with widespread diamictites of South America and South and North Africa, and by the evidence for significant tropical mountain glaciers in eastern North America. This isolated and short-lived plunge from global greenhouse into icehouse conditions may follow the significant drawdown of atmospheric CO 2 levels due to the prior massive burial of organic carbon during the global deposition of black shales. Increased carbon recycling by intensified terrestrial erosion in combination with the arrested burial of carbonates may have led to a gradual rise of CO 2 levels, re-warming, and a parallel increase in the influx of land-derived nutrients. The upper crisis interval in the uppermost Famennian is characterized by initial post-glacial transgression and a second global carbon isotope spike, as well as by opportunistic faunal blooms and the early re-radiation of several fossil groups. Minor reworking events and unconformities give evidence for continuing smaller-scale oscillations of sea-level and palaeoclimate. These may explain the terrestrial floral change near the Famennian–Tournaisian boundary and contemporaneous, evolutionarily highly significant extinctions of survivors of the main crisis. Still poorly understood small-scale events wiped out the last clymeniid ammonoids, phacopid trilobites, placoderms and some widespread brachiopod and foraminiferan groups. The post-crisis interval in the lower Tournaisian is marked by continuing eustatic rise (e.g. flooding of the Old Red Continent), and significant radiations in a renewed greenhouse time. But the recovery had not yet reached the pre-crisis level when it was suddenly interrupted by the global, second-order Lower Alum Shale Event at the base of the middle Tournaisian.