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Sympatric speciation in palms on an oceanic island

Naturevolume 441pages210–213 (2006)Cite this article

Abstract

The origin of species diversity has challenged biologists for over two centuries. Allopatric speciation, the divergence of species resulting from geographical isolation, is well documented1. However, sympatric speciation, divergence without geographical isolation, is highly controversial2. Claims of sympatric speciation must demonstrate species sympatry, sister relationships, reproductive isolation, and that an earlier allopatric phase is highly unlikely1. Here we provide clear support for sympatric speciation in a case study of two species of palm (Arecaceae) on an oceanic island. A large dated phylogenetic tree shows that the two species ofHowea, endemic to the remote Lord Howe Island, are sister taxa and diverged from each other well after the island was formed 6.9 million years ago3. During fieldwork, we found a substantial disjunction in flowering time that is correlated with soil preference. In addition, a genome scan4,5 indicates that few genetic loci are more divergent between the two species than expected under neutrality, a finding consistent with models of sympatric speciation involving disruptive/divergent selection2. This case study of sympatric speciation in plants provides an opportunity for refining theoretical models on the origin of species, and new impetus for exploring putative plant and animal examples on oceanic islands.

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Figure 1:Lord Howe Island and its endemic palms.
Figure 2:Flowering phenology for eachHowea species.
Figure 3:Distribution ofH. forsteriana andH. belmoreana according to mean soil pH and elevation.
Figure 4:AFLP genome scan for species differentiation inH. belmoreana andH. forsteriana.

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Acknowledgements

We thank the Lord Howe Island Board, L. Wilson, T. Wilson, J. Smith and the New South Wales National Parks and Wildlife Service for facilitating this research; E. Brown and B. Conn for logistical support; T. Wilmot, R. Cowan, L. Llédo, I. Gallego and L. Hanson for research assistance; C. Lewis, J. Roncal, M. Thomas and M. Beaumont for sharing data and software; J. Dowe, the Flecker Botanic Garden and Royal Botanic Gardens, Sydney for providing material; J. Moat for GIS assistance; J. Dransfield, J.-C. Pintaud, S. Gavrilets, M. Chase, T. Barraclough and L. Rieseberg for discussions; and the Royal Botanic Gardens, Kew, the BAT Biodiversity Partnership, the European Commission and the Leverhulme Trust for funding.

Author information

Authors and Affiliations

  1. Royal Botanic Gardens, Kew, Richmond, Surrey, TW9 3DS, UK

    Vincent Savolainen, Christian Lexer, James J. Clarkson, Maria V. Norup, Martyn P. Powell, David Springate & William J. Baker

  2. Centre for Evolutionary and Functional Ecology, UMR 5175, 1919 Route de Mende, 34293, Montpellier, cedex 5, France

    Marie-Charlotte Anstett

  3. PO Box 157, Lord Howe Island, New South Wales, 2898, Australia

    Ian Hutton

  4. Department of Systematic Botany, University of Aarhus, DK-8000, Aarhus C, Denmark

    Maria V. Norup

  5. Department of Ecology and Evolution, University of Lausanne, CH-1015, Lausanne, Switzerland

    Nicolas Salamin

Authors
  1. Vincent Savolainen
  2. Marie-Charlotte Anstett
  3. Christian Lexer
  4. Ian Hutton
  5. James J. Clarkson
  6. Maria V. Norup
  7. Martyn P. Powell
  8. David Springate
  9. Nicolas Salamin
  10. William J. Baker

Corresponding author

Correspondence toVincent Savolainen.

Ethics declarations

Competing interests

DNA sequences have been deposited at EBI under accession numbers AF453329–AF453381, AY348907–AY348944, AY543096–AY5443156, AJ830020–AJ831373, AJ971821–AJ971841 (seeSupplementary Information). Reprints and permissions information is available atnpg.nature.com/reprintsandpermissions. The authors declare no competing financial interests.

Supplementary information

Supplementary Notes

Supplementary notes with list of taxa, chronogram, phenological profiles and population statistics. (PDF 871 kb)

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Savolainen, V., Anstett, MC., Lexer, C.et al. Sympatric speciation in palms on an oceanic island.Nature441, 210–213 (2006). https://doi.org/10.1038/nature04566

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