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Citation for Study 1044

Citation title: "The temporal course of Quaternary diversification in the European high mountain endemic Primula sect. Auricula (Primulaceae).".

This study was previously identified under the legacy study ID S939 (Status: Published).

Citation

Zhang L., Comes H., & Kadereit J. 2003. The temporal course of Quaternary diversification in the European high mountain endemic Primula sect. Auricula (Primulaceae). International Journal of Plant Sciences, null.

Authors

• Zhang L.
• Comes H.
• Kadereit J.

Abstract

Primula sect. Auricula is one of only few endemics of the European high mountains with a comparatively large number of species. We explored the section's geographical origin, time of origin, and temporal course of diversification via parsimony, genetic distance, and lineages-through-time analyses based on the internal transcribed spacer (ITS) regions of nuclear ribosomal DNA. The taxa analysed included 52 individuals representing all 25 species of the section, representatives of seven other European, Asian and/or North American sections of the genus, and two species of Douglasia. We present evidence that sect. Auricula likely originated from an Asian ancestor at the end of the Late Tertiary, followed by its primary diversification into an 'eastern' and 'western' lineage at the Plio-/Pleistocene boundary. Comparison with a constant-rates null model of stochastic diversification-extinction ('birth-death') demonstrates that diversification has proceeded non-randomly through Quaternary times in both lineages. They display a pulse of speciation events occurring soon after their origin, and relatively few such events occurring since. This pattern contrasts with the predictions of the ?Late Pleistocene origins' hypothesis and implies unpredictability of the evolutionary response of sect. Auricula to the recurrent abiotic conditions of the Quaternary glacial-interglacial cycles. We conclude that there is no necessity to invoke an increase in extinction rate. Rather, the observed slowdown of inter- (and intra-)specific diversification in sect. Auricula toward the present likely results from a decrease in diversification rate due to ecological and/or geographical space filling processes.

About this resource

• Canonical resource URI: http://purl.org/phylo/treebase/phylows/study/TB2:S1044
• Other versions: Nexus NeXML
• Show BibTeX reference

  		@ARTICLE{TreeBASE2Ref18276,
  	 author = {Li-Bing  Zhang and Hans Peter  Comes and Joachim W.  Kadereit},
  	 title = {The temporal course of Quaternary diversification in the European high mountain endemic Primula sect. Auricula (Primulaceae).},
  	 year = {2003},
  	 keywords = {},
  	 doi = {},
  	 url = {},
  	 pmid = {},
  	 journal = {International Journal of Plant Sciences},
  	 volume = {},
  	 number = {},
  	 pages = {},
  	 abstract = {Primula sect. Auricula is one of only few endemics of the European high mountains with a comparatively large number of species. We explored the section's geographical origin, time of origin, and temporal course of diversification via parsimony, genetic distance, and lineages-through-time analyses based on the internal transcribed spacer (ITS) regions of nuclear ribosomal DNA. The taxa analysed included 52 individuals representing all 25 species of the section, representatives of seven other European, Asian and/or North American sections of the genus, and two species of Douglasia. We present evidence that sect. Auricula likely originated from an Asian ancestor at the end of the Late Tertiary, followed by its primary diversification into an 'eastern' and 'western' lineage at the Plio-/Pleistocene boundary. Comparison with a constant-rates null model of stochastic diversification-extinction ('birth-death') demonstrates that diversification has proceeded non-randomly through Quaternary times in both lineages. They display a pulse of speciation events occurring soon after their origin, and relatively few such events occurring since. This pattern contrasts with the predictions of the ?Late Pleistocene origins' hypothesis and implies unpredictability of the evolutionary response of sect. Auricula to the recurrent abiotic conditions of the Quaternary glacial-interglacial cycles. We conclude that there is no necessity to invoke an increase in extinction rate. Rather, the observed slowdown of inter- (and intra-)specific diversification in sect. Auricula toward the present likely results from a decrease in diversification rate due to ecological and/or geographical space filling processes.}
  }
  		

• Show RIS reference

  		TY  - JOUR
  ID  - 18276
  AU  - Zhang,Li-Bing 
  AU  - Comes,Hans Peter 
  AU  - Kadereit,Joachim W. 
  T1  - The temporal course of Quaternary diversification in the European high mountain endemic Primula sect. Auricula (Primulaceae).
  PY  - 2003
  UR  - 
  N2  - Primula sect. Auricula is one of only few endemics of the European high mountains with a comparatively large number of species. We explored the section's geographical origin, time of origin, and temporal course of diversification via parsimony, genetic distance, and lineages-through-time analyses based on the internal transcribed spacer (ITS) regions of nuclear ribosomal DNA. The taxa analysed included 52 individuals representing all 25 species of the section, representatives of seven other European, Asian and/or North American sections of the genus, and two species of Douglasia. We present evidence that sect. Auricula likely originated from an Asian ancestor at the end of the Late Tertiary, followed by its primary diversification into an 'eastern' and 'western' lineage at the Plio-/Pleistocene boundary. Comparison with a constant-rates null model of stochastic diversification-extinction ('birth-death') demonstrates that diversification has proceeded non-randomly through Quaternary times in both lineages. They display a pulse of speciation events occurring soon after their origin, and relatively few such events occurring since. This pattern contrasts with the predictions of the ?Late Pleistocene origins' hypothesis and implies unpredictability of the evolutionary response of sect. Auricula to the recurrent abiotic conditions of the Quaternary glacial-interglacial cycles. We conclude that there is no necessity to invoke an increase in extinction rate. Rather, the observed slowdown of inter- (and intra-)specific diversification in sect. Auricula toward the present likely results from a decrease in diversification rate due to ecological and/or geographical space filling processes.
  L3  - 
  JF  - International Journal of Plant Sciences
  VL  - 
  IS  - 
  ER  -