Book contents
- Frontmatter
- Dedication
- Contents
- List of figures
- List of tables
- Preface
- Acknowledgements
- 1 WHAT IS TAPHONOMY?
- 2 THE HISTORY AND STRUCTURE OF TAPHONOMY
- 3 TAPHONOMY IN PRACTICE AND THEORY
- 4 STRUCTURE AND QUANTIFICATION OF VERTEBRATE SKELETONS
- 5 VERTEBRATE MORTALITY, SKELETONIZATION, DISARTICULATION, AND SCATTERING
- 6 ACCUMULATION AND DISPERSAL OF VERTEBRATE REMAINS
- 7 FREQUENCIES OF SKELETAL PARTS
- 8 BUTCHERING, BONE FRACTURING, AND BONE TOOLS
- 9 OTHER BIOSTRATINOMIC FACTORS
- 10 BURIAL AS A TAPHONOMIC PROCESS
- 11 DIAGENESIS
- 12 TAPHONOMY OF FISH, BIRDS, REPTILES, AND AMPHIBIANS
- 13 DISCUSSION AND CONCLUSIONS
- Bibliography
- Glossary of taphonomy terminology
- Index
7 - FREQUENCIES OF SKELETAL PARTS
Published online by Cambridge University Press: 05 August 2014
- Frontmatter
- Dedication
- Contents
- List of figures
- List of tables
- Preface
- Acknowledgements
- 1 WHAT IS TAPHONOMY?
- 2 THE HISTORY AND STRUCTURE OF TAPHONOMY
- 3 TAPHONOMY IN PRACTICE AND THEORY
- 4 STRUCTURE AND QUANTIFICATION OF VERTEBRATE SKELETONS
- 5 VERTEBRATE MORTALITY, SKELETONIZATION, DISARTICULATION, AND SCATTERING
- 6 ACCUMULATION AND DISPERSAL OF VERTEBRATE REMAINS
- 7 FREQUENCIES OF SKELETAL PARTS
- 8 BUTCHERING, BONE FRACTURING, AND BONE TOOLS
- 9 OTHER BIOSTRATINOMIC FACTORS
- 10 BURIAL AS A TAPHONOMIC PROCESS
- 11 DIAGENESIS
- 12 TAPHONOMY OF FISH, BIRDS, REPTILES, AND AMPHIBIANS
- 13 DISCUSSION AND CONCLUSIONS
- Bibliography
- Glossary of taphonomy terminology
- Index
Summary
After death, vertebrate carcasses are often subjected to the same mechanical laws of transport by geologic agents as any other component of the sediment. Their specific gravity, which changes according to changing buoyancy, and the relation of mass to surface area specify the mechanical arrangement.
(J. Weigelt 1927/1989:160—161).Introduction
One of the most obvious and visible properties of a faunal assemblage is the frequencies of each of the particular skeletal elements that make up the collection. A complete mammal skeleton, for example, always consists of two humeri, two scapulae, two mandibles, one skull, etc. From this model of relative frequencies of skeletal parts in an individual, one can predict what should be found in a fossil assemblage that contains, for instance, 10 skulls; here, 20 humeri, 20 scapulae, 20 mandibles, etc., should be found if taphonomic processes have not resulted in the removal of certain kinds of bones, and sampling and recovery processes have not failed to find certain skeletal parts. Analysis of skeletal part frequencies, or what are sometimes called skeletal part profiles, has, in the past 15 years, become a major part of taphonomic research. In fact, the references cited in this chapter show that there has been a major burst of publication on this topic in the late 1980s and early 1990s.
- Type
- Chapter
- Information
- Vertebrate Taphonomy , pp. 223 - 293Publisher: Cambridge University PressPrint publication year: 1994
- 1
- Cited by