Patterns of Cladogenesis in the Venomous Marine Gastropod Genus Conus from the Cape Verde Islands

doi:10.1080/106351591007471

Systematic Biology 2005 54(4):634-650; doi:10.1080/106351591007471

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Patterns of Cladogenesis in the Venomous Marine Gastropod Genus Conus from the Cape Verde Islands

Regina L. Cunha¹^,2, Rita Castilho², Lukas Rüber¹ and Rafael Zardoya¹

¹ Departamento de Biodiversidad y Biología Evolutiva, Museo Nacional de Ciencias Naturales-CSIC José Gutiérrez Abascal, 2, 28006 Madrid, Spain E-mail: reginac{at}mncn.csic.es (R.L.C.)
² CCMAR, Campus de Gambelas 8005–139, Faro, Portugal

Edited by Tim Collins: Associate Editor

Abstract

Isolated oceanic archipelagos are excellent model systems tostudy speciation, biogeography, and evolutionary factors underlyingthe generation of biological diversity. Despite the wealth ofstudies documenting insular speciation, few of them focusedon marine organisms. Here, we reconstruct phylogenetic relationshipsamong species of the marine venomous gastropod genus Conus fromthe Cape Verde archipelago. This small island chain locatedin the Central Atlantic hosts 10% of the worldwide species diversityof Conus. Analyses were based on mtDNA sequences, and a novelnuclear marker, a megalin-like protein, member of the low-densitylipoprotein receptor gene family. The inferred phylogeny recoveredtwo well-defined clades within Conus. One includes Cape Verdeendemic species with larger shells, known as the "venulatus"complex together with C. pulcher from the Canary Islands. Theother is composed of Cape Verde endemic and West Africa andCanary Island "small" shelled species. In both clades, nonendemicConus were resolved as sister groups of the Cape Verde endemics,respectively. Our results indicate that the ancestors of "small"and "large" shelled lineages independently colonized Cape Verde.The resulting biogeographical pattern shows the grouping ofmost Cape Verde endemics in monophyletic island assemblages.Statistical tests supported a recent radiation event withinthe "small shell" clade. Using a molecular clock, we estimatedthat the colonization of the islands by the "small" shelledspecies occurred relatively close to the origin of the islandswhereas the arrival of "large" shelled Conus is more recent.Our results suggest that the main factor responsible for speciesdiversity in the archipelago may be allopatric speciation promotedby the reduced dispersal capacity of nonplanktonic lecithotrophiclarvae.

Keywords: Allopatry; biogeography; Conus; molecular clock; speciation

Received August 18, 2004; Revised November 15, 2004; Accepted March 15, 2005
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