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Best Practices for Justifying Fossil Calibrations

Our ability to correlate biological evolution with climate change, geological evolution, and other historical patterns is essential to understanding the processes that shape biodiversity. Combining data from the fossil record with molecular phylogenetics represents an exciting synthetic approach to... Full description

Journal Title: Systematic biology 2012-03-01, Vol.61 (2), p.346-359
Main Author: Parham, James F
Other Authors: Donoghue, Philip C. J , Bell, Christopher J , Calway, Tyler D , Head, Jason J , Holroyd, Patricia A , Inoue, Jun G , Irmis, Randall B , Joyce, Walter G , Ksepka, Daniel T , Patané, José S. L , Smith, Nathan D , Tarver, James E , van Tuinen, Marcel , Yang, Ziheng , Angielczyk, Kenneth D , Greenwood, Jenny M , Hipsley, Christy A , Jacobs, Louis , Makovicky, Peter J , Müller, Johannes , Smith, Krister T , Theodor, Jessica M , Warnock, Rachel C. M , Benton, Michael J
Format: Electronic Article Electronic Article
Language: English
Subjects:
Quelle: Alma/SFX Local Collection
Publisher: England: Oxford University Press
ID: ISSN: 1063-5157
Link: https://www.ncbi.nlm.nih.gov/pubmed/22105867
Zum Text:
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recordid: cdi_pubmedcentral_primary_oai_pubmedcentral_nih_gov_3280042
title: Best Practices for Justifying Fossil Calibrations
format: Article
creator:
  • Parham, James F
  • Donoghue, Philip C. J
  • Bell, Christopher J
  • Calway, Tyler D
  • Head, Jason J
  • Holroyd, Patricia A
  • Inoue, Jun G
  • Irmis, Randall B
  • Joyce, Walter G
  • Ksepka, Daniel T
  • Patané, José S. L
  • Smith, Nathan D
  • Tarver, James E
  • van Tuinen, Marcel
  • Yang, Ziheng
  • Angielczyk, Kenneth D
  • Greenwood, Jenny M
  • Hipsley, Christy A
  • Jacobs, Louis
  • Makovicky, Peter J
  • Müller, Johannes
  • Smith, Krister T
  • Theodor, Jessica M
  • Warnock, Rachel C. M
  • Benton, Michael J
subjects:
  • Animals
  • Calibration
  • Classification
  • Classification - methods
  • Evolution
  • Fossils
  • Geology
  • Paleontology
  • Phylogenetics
  • Phylogeny
  • Points of View
  • Taxa
  • Turtles
  • Vertebrates
ispartof: Systematic biology, 2012-03-01, Vol.61 (2), p.346-359
description: Our ability to correlate biological evolution with climate change, geological evolution, and other historical patterns is essential to understanding the processes that shape biodiversity. Combining data from the fossil record with molecular phylogenetics represents an exciting synthetic approach to this challenge. The first molecular divergence dating analysis (Zuckerkandl and Pauling 1962) was based on a measure of the amino acid differences in the hemoglobin molecule, with replacement rates established (calibrated) using paleontological age estimates from textbooks (e.g., Dodson 1960). Since that time, the amount of molecular sequence data has increased dramatically, affording ever-greater opportunities to apply molecular divergence approaches to fundamental problems in evolutionary biology.
language: eng
source: Alma/SFX Local Collection
identifier: ISSN: 1063-5157
fulltext: fulltext
issn:
  • 1063-5157
  • 1076-836X
url: Link


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descriptionOur ability to correlate biological evolution with climate change, geological evolution, and other historical patterns is essential to understanding the processes that shape biodiversity. Combining data from the fossil record with molecular phylogenetics represents an exciting synthetic approach to this challenge. The first molecular divergence dating analysis (Zuckerkandl and Pauling 1962) was based on a measure of the amino acid differences in the hemoglobin molecule, with replacement rates established (calibrated) using paleontological age estimates from textbooks (e.g., Dodson 1960). Since that time, the amount of molecular sequence data has increased dramatically, affording ever-greater opportunities to apply molecular divergence approaches to fundamental problems in evolutionary biology.
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subjectAnimals ; Calibration ; Classification ; Classification - methods ; Evolution ; Fossils ; Geology ; Paleontology ; Phylogenetics ; Phylogeny ; Points of View ; Taxa ; Turtles ; Vertebrates
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descriptionOur ability to correlate biological evolution with climate change, geological evolution, and other historical patterns is essential to understanding the processes that shape biodiversity. Combining data from the fossil record with molecular phylogenetics represents an exciting synthetic approach to this challenge. The first molecular divergence dating analysis (Zuckerkandl and Pauling 1962) was based on a measure of the amino acid differences in the hemoglobin molecule, with replacement rates established (calibrated) using paleontological age estimates from textbooks (e.g., Dodson 1960). Since that time, the amount of molecular sequence data has increased dramatically, affording ever-greater opportunities to apply molecular divergence approaches to fundamental problems in evolutionary biology.
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abstractOur ability to correlate biological evolution with climate change, geological evolution, and other historical patterns is essential to understanding the processes that shape biodiversity. Combining data from the fossil record with molecular phylogenetics represents an exciting synthetic approach to this challenge. The first molecular divergence dating analysis (Zuckerkandl and Pauling 1962) was based on a measure of the amino acid differences in the hemoglobin molecule, with replacement rates established (calibrated) using paleontological age estimates from textbooks (e.g., Dodson 1960). Since that time, the amount of molecular sequence data has increased dramatically, affording ever-greater opportunities to apply molecular divergence approaches to fundamental problems in evolutionary biology.
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