2 results
Contributors
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- By Sofya Abazyan, Saskia S. Arndt, Jonathon C. Arnold, Sandra Beeské, Odd-Geir Berge, Valerie J. Bolivar, David Borchelt, Marie-Françoise Chesselet, Yoon H. Cho, Angelo Contarino, John C. Crabbe, Wim E. Crusio, Bianca De Filippis, Mara Dierssen, Stephanie C. Dulawa, Emily C. Eastwood, Haim Einat, Raul R. Gainetdinov, David Gordon, Guy Griebel, F. Scott Hall, John H. Harkness, Christopher Janus, Zhengping Jia, Nirit Kara, Tim Karl, Martien J. H. Kas, Federica Klaus, Robert Lalonde, Glenda Lassi, Giovanni Laviola, Iddo Magen, Stephen C. Maxson, Douglas Ashley Monks, Rebecca E. Nordquist, Lucy R. Osborne, Tamara J. Phillips, Alisdair R. Philp, Marina R. Picciotto, Susanna Pietropaolo, Mikhail V. Pletnikov, Christopher R. Pryce, James L. Resnick, Laura Ricceri, Frans Sluyter, Emily Y. Smith, Ichiro Sora, Tatyana D. Sotnikova, Rebecca C. Steiner, Ortrud K. Steinlein, Catherine Strazielle, Enejda Subashi, Ashlyn Swift-Gallant, Aki Takahashi, Kevin Talbot, Stewart Thompson, Valter Tucci, F. Josef van der Staay, Gertjan van Dijk, Nancy S. Woehrle
- Edited by Susanna Pietropaolo, Centre National de la Recherche Scientifique (CNRS), Paris, Frans Sluyter, University of Portsmouth, Wim E. Crusio, Centre National de la Recherche Scientifique (CNRS), Paris
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- Book:
- Behavioral Genetics of the Mouse
- Published online:
- 05 October 2014
- Print publication:
- 25 September 2014, pp ix-xii
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9 - Plio–Pleistocene mammal faunas: an overview
- Edited by John A. Van Couvering, American Museum of Natural History, New York
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- Book:
- The Pleistocene Boundary and the Beginning of the Quaternary
- Published online:
- 10 November 2009
- Print publication:
- 28 December 1996, pp 114-128
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- Chapter
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Summary
Introduction
The evidence from mammalian biostratigraphy with regard to the boundary between the Neogene and the Quaternary, or, more precisely, the base of the Pleistocene, can be analyzed in various ways. Long-established regional biostratigraphic scales are still widely used, although for the most part they are based on uneven, inadequate evidence and thus are subject to differing and unreliable interpretations. In seeking for greater reliability, vertebrate paleontologists in the past few decades have attempted to subdivide the geological time scale into probabilistic mammal ages and mammal zones, such as the MN (Mammal Neogene) zones of Mein. That approach is equally subject to imprecision and subjective bias (De Bruijn et al., 1992; Fahlbusch, 1991), and scholars may, consciously or unconsciously, constrain the paleofaunal changes to coincide with a particular magnetic reversal, a climate event, or any other significant, even preselected, level.
The objective approach is to begin with the ages of local faunal horizons that are directly based on radiometric dates or paleomagnetic analysis and build a biochronologic framework on this ground (e.g., Lindsay et al., 1987). Interpolations are legitimate, as are correlations based on faunal similarities, when the limits of probable error are realistically included. In cases where a local fauna presents many first appearances or last appearances, it is reasonable to suspect a lack of information in the preceding or following time interval, respectively. When the sampling factor is corrected, if unusual numbers of earliest and latest occurrences are still seen at one level, a genuine faunal overturn can be inferred.
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