Robert W. Scott
University of Tulsa
59 Papers
475 Citations
Robert W. Scott is an academic researcher from University of Tulsa. The author has contributed to research in topics: Cretaceous & Cenomanian. The author has an hindex of 21, co-authored 59 publications.
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Papers
A synoptical classification of the Bivalvia (Mollusca)
Joseph G. Carter,Cristian R. Altaba,L.R. Anderson,Rafael Araujo,Alexander S. Biakov,Arthur E. Bogan,David Campbell,M. Campbell,J. Chen,John C. W. Cope,G. Delvene,Henk H. Dijkstra,Z. Fang,R.N. Gardner,V.A. Gavrilova,I.A. Goncharova,Peter J. Harries,J.H. Hartman,Michael Hautmann,Walter R. Hoeh,Jorgen Hylleberg,Baoyu Jiang,P. Johnston,Lisa Kirkendale,Karl Kleemann,J. Koppka,J. Kříž,D. Machado,Nikolaus Malchus,Ana Márquez-Aliaga,Jean-Pierre Masse,Christopher A. McRoberts,Peter Middelfart,Simon F. Mitchell,L.A. Nevesskaja,Sacit Özer,John Pojeta,Thomas E. Yancey,I.V. Polubotko,J.M. Pons,S. Popov,T. Sánchez,André F. Sartori,Robert W. Scott,I.I. Sey,J.H. Signorelli,Vladimir V. Silantiev,Peter W. Skelton,Thomas Steuber,J.B. Waterhouse,G.L. Wingard,T. Yancey +51 more
TL;DR: This classification summarizes the suprageneric taxonomy of the Bivalvia for the upcoming revision of the bivalvia volumes of the Treatise on Invertebrate Paleontology, Part N.
Late Cretaceous stratigraphy, Songliao Basin, NE China: SK1 cores
TL;DR: The Songliao Basin is the largest Cretaceous oil and gas-producing lacustrine basin in China, with its greatest aerial extent in the middle Cretages as discussed by the authors, and a coring program (SK1) has to date yielded 2485.89m of continuous core (96.46% recovery).
188
Upper Cretaceous oceanic red beds in southern Tibet: a major change from anoxic to oxic, deep-sea environments
TL;DR: In this article, the authors suggest that the oxidized character of these deep-sea deposits was a result of a combination of various processes, among which very low sedimentation rates and changes in bottom ocean circulation may have been the most important.
127
Global environmental controls on Cretaceous reefal ecosystems
TL;DR: In the early Cretaceous, the dominant biota in the reefal ecosystem changed from corals, algae and rudists, to rudists with minor coral species as mentioned in this paper.
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