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all geography including DSDP/ODP Sites and Legs
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Hydrocarbon trapping in hydrodynamic salinity gradients: Williston Basin case studies
BIOFILMS MEDIATE THE PRESERVATION OF LEAF ADPRESSION FOSSILS BY CLAYS
Palynostratigraphy of John’s Nose, a new Cretaceous–Paleogene boundary section in southwestern North Dakota, USA
New Material of Gilmoremys lancensis nov. comb. (Testudines: Trionychidae) from the Hell Creek Formation and the Diagnosis of Plastomenid Turtles
Lower Jaw of the Early Paleocene Mammal Alveugena and its Interpretation as a Transitional Fossil
A REVISION OF PLESIOBAENA (TESTUDINES: BAENIDAE) AND AN ASSESSMENT OF BAENID ECOLOGY ACROSS THE K/T BOUNDARY
A New Species of Palatobaena (Testudines: Baenidae) and a Maximum Parsimony and Bayesian Phylogenetic Analysis of Baenidae
Stable isotope evidence for changes in dietary niche partitioning among hadrosaurian and ceratopsian dinosaurs of the Hell Creek Formation, North Dakota
Land plant extinction at the end of the Cretaceous: a quantitative analysis of the North Dakota megafloral record
Palynologically calibrated vertebrate record from North Dakota consistent with abrupt dinosaur extinction at the Cretaceous-Tertiary boundary
Carbon Isotope Excursion in Atmospheric CO 2 at the Cretaceous-Tertiary Boundary: Evidence from Terrestrial Sediments
Taphonomy and suggested structure of the dinosaurian assemblage of the Hell Creek Formation (Maastrichtian), eastern Montana and western North Dakota
Paleoenvironmental distribution of Paleocene palynomorph assemblages from brackish water deposits in the Ludlow, Slope, and Cannonball formations, southwestern North Dakota
A North Dakota Triceratops skull
Ordovician Red River “B”: Horizontal Oil Play in the Southern Williston Basin
Megafloral change across the Cretaceous/Tertiary boundary in the northern Great Plains and Rocky Mountains, U.S.A.
Intensive collecting of Maastrichtian and early Paleocene plant megafossils (primarily leaves) in the northern Rocky Mountains and Great Plains has resulted in a database of nearly 25,000 specimens from more than 200 localities in eight areas. The most completely sampled section is at Marmarth, in southwestern North Dakota, where 57 latest Cretaceous and 30 early Paleocene localities (11,503 specimens) span the Cretaceous/Tertiary (K/T) boundary. Zonation of the Marmarth megaflora based on floral composition and relative abundance results in four zones: HC I, HC II, HC III, and FU I. This megafloral zonation appears to be applicable to terrestrial sediments across the northern Great Plains and Rocky Mountains and to correlate with the Western Interior ammonite zonation. The zones reflect major megafloral changes before and at the K/T boundary. Megafloral change at the boundary is large (79 percent) and is characterized by the disappearance of most of the Upper Cretaceous dicotyledonous angiosperm taxa. It coincides with a peak in palynofloral extinctions and iridium content and with the occurrence of shocked mineral grains, all of which have become accepted as the characteristic signature of the K/T boundary and as indications of an abrupt causal mechanism. In contrast, the megafloral changes before the boundary appear to have been caused by a regional climate warming. The fact that the megafloral zones are not reflected by palynostratigraphy argues for using an integrated approach to biostratigraphy that combines the high stratigraphic resolution of palynomorphs with the high taxonomic resolution of megafossils. Results of this analysis of the terrestrial plant record are compatible with the hypothesis of a biotic crisis caused by extraterrestrial impact at the end of the Cretaceous.