Paleodemography
Age Distributions from Skeletal Samples
Herausgeber: Hoppa, Robert D.; Vaupel, James W. Wachter
Paleodemography
Age Distributions from Skeletal Samples
Herausgeber: Hoppa, Robert D.; Vaupel, James W. Wachter
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Innovative exploration of the theoretical and methodological issues in reconstructing demographic structure from archaeological populations.
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Innovative exploration of the theoretical and methodological issues in reconstructing demographic structure from archaeological populations.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 276
- Erscheinungstermin: 31. Juli 2008
- Englisch
- Abmessung: 229mm x 152mm x 16mm
- Gewicht: 452g
- ISBN-13: 9780521089166
- ISBN-10: 0521089166
- Artikelnr.: 25043754
- Verlag: Cambridge University Press
- Seitenzahl: 276
- Erscheinungstermin: 31. Juli 2008
- Englisch
- Abmessung: 229mm x 152mm x 16mm
- Gewicht: 452g
- ISBN-13: 9780521089166
- ISBN-10: 0521089166
- Artikelnr.: 25043754
1. The Rostock Manifesto for paleodemography: the way from stage to age
Robert D. Hoppa and James W. Vaupel; 2. Paleodemography: looking back and
thinking ahead Robert D. Hoppa; 3. Reference samples: the first step in
linking biology and age in the human skeleton Bethany M. Usher; 4. Aging
through the ages: historical perspectives on age-indicator methods Ariane
Kemkes-Grottenthaler; 5. Transition analysis: a new method for estimating
age-indicator methods Jesper L. Boldsen, George R. Milner, Lyle W.
Konigsberg and James W. Wood; 6. Age estimation by tooth cementum
annulation - perspectives of a new validation study Ursula Wittwer-Backofen
and H. Buba; 7. Mortality models for paleodemography James W. Wood, Darryl
J. Holman, Kathleen A. O'Connor and Rebecca J. Ferrell; 8. Linking
age-at-death distributions and ancient population dynamics: a case study
Richard R. Paine and Jesper L. Boldsen; 9. A solution to the problem of
obtaining a mortality schedule for paleodemographic data Bradley Love and
Hans-Georg Müller; 10. Estimating age-at-death distributions from skeletal
samples: a multivariate latent trait approach Darryl J. Holman, James W.
Wood and Kathleen A. O'Connor; 11. Markov Chain Monte Carlo estimation of
hazard model parameters in paleodemography Lyle W. Konigsberg and Nicholas
P. Herrmann; 12. A re-examination of the age-at-death distribution of
Indian Knoll Nicholas P. Herrmann and Lyle W. Konigsberg.
Robert D. Hoppa and James W. Vaupel; 2. Paleodemography: looking back and
thinking ahead Robert D. Hoppa; 3. Reference samples: the first step in
linking biology and age in the human skeleton Bethany M. Usher; 4. Aging
through the ages: historical perspectives on age-indicator methods Ariane
Kemkes-Grottenthaler; 5. Transition analysis: a new method for estimating
age-indicator methods Jesper L. Boldsen, George R. Milner, Lyle W.
Konigsberg and James W. Wood; 6. Age estimation by tooth cementum
annulation - perspectives of a new validation study Ursula Wittwer-Backofen
and H. Buba; 7. Mortality models for paleodemography James W. Wood, Darryl
J. Holman, Kathleen A. O'Connor and Rebecca J. Ferrell; 8. Linking
age-at-death distributions and ancient population dynamics: a case study
Richard R. Paine and Jesper L. Boldsen; 9. A solution to the problem of
obtaining a mortality schedule for paleodemographic data Bradley Love and
Hans-Georg Müller; 10. Estimating age-at-death distributions from skeletal
samples: a multivariate latent trait approach Darryl J. Holman, James W.
Wood and Kathleen A. O'Connor; 11. Markov Chain Monte Carlo estimation of
hazard model parameters in paleodemography Lyle W. Konigsberg and Nicholas
P. Herrmann; 12. A re-examination of the age-at-death distribution of
Indian Knoll Nicholas P. Herrmann and Lyle W. Konigsberg.
1. The Rostock Manifesto for paleodemography: the way from stage to age
Robert D. Hoppa and James W. Vaupel; 2. Paleodemography: looking back and
thinking ahead Robert D. Hoppa; 3. Reference samples: the first step in
linking biology and age in the human skeleton Bethany M. Usher; 4. Aging
through the ages: historical perspectives on age-indicator methods Ariane
Kemkes-Grottenthaler; 5. Transition analysis: a new method for estimating
age-indicator methods Jesper L. Boldsen, George R. Milner, Lyle W.
Konigsberg and James W. Wood; 6. Age estimation by tooth cementum
annulation - perspectives of a new validation study Ursula Wittwer-Backofen
and H. Buba; 7. Mortality models for paleodemography James W. Wood, Darryl
J. Holman, Kathleen A. O'Connor and Rebecca J. Ferrell; 8. Linking
age-at-death distributions and ancient population dynamics: a case study
Richard R. Paine and Jesper L. Boldsen; 9. A solution to the problem of
obtaining a mortality schedule for paleodemographic data Bradley Love and
Hans-Georg Müller; 10. Estimating age-at-death distributions from skeletal
samples: a multivariate latent trait approach Darryl J. Holman, James W.
Wood and Kathleen A. O'Connor; 11. Markov Chain Monte Carlo estimation of
hazard model parameters in paleodemography Lyle W. Konigsberg and Nicholas
P. Herrmann; 12. A re-examination of the age-at-death distribution of
Indian Knoll Nicholas P. Herrmann and Lyle W. Konigsberg.
Robert D. Hoppa and James W. Vaupel; 2. Paleodemography: looking back and
thinking ahead Robert D. Hoppa; 3. Reference samples: the first step in
linking biology and age in the human skeleton Bethany M. Usher; 4. Aging
through the ages: historical perspectives on age-indicator methods Ariane
Kemkes-Grottenthaler; 5. Transition analysis: a new method for estimating
age-indicator methods Jesper L. Boldsen, George R. Milner, Lyle W.
Konigsberg and James W. Wood; 6. Age estimation by tooth cementum
annulation - perspectives of a new validation study Ursula Wittwer-Backofen
and H. Buba; 7. Mortality models for paleodemography James W. Wood, Darryl
J. Holman, Kathleen A. O'Connor and Rebecca J. Ferrell; 8. Linking
age-at-death distributions and ancient population dynamics: a case study
Richard R. Paine and Jesper L. Boldsen; 9. A solution to the problem of
obtaining a mortality schedule for paleodemographic data Bradley Love and
Hans-Georg Müller; 10. Estimating age-at-death distributions from skeletal
samples: a multivariate latent trait approach Darryl J. Holman, James W.
Wood and Kathleen A. O'Connor; 11. Markov Chain Monte Carlo estimation of
hazard model parameters in paleodemography Lyle W. Konigsberg and Nicholas
P. Herrmann; 12. A re-examination of the age-at-death distribution of
Indian Knoll Nicholas P. Herrmann and Lyle W. Konigsberg.