Evidence for speciation underground in diving beetles (Dytiscidae) from a subterranean archipelago

Barbara L. Langille, Josephine Hyde, Kathleen M. Saint, Tessa M. Bradford, Danielle N. Stringer, Simon M. Tierney, William F. Humphreys, Andrew D. Austin, Steven J. B. Cooper

Research output: Contribution to journalArticlepeer-review

24 Citations (Scopus)

Abstract

Most subterranean animals are assumed to have evolved from surface ancestors following colonisation of a cave system, however very few studies have raised the possibility of „subterranean speciation‟ in underground habitats (i.e. obligate cave-dwelling organisms (troglobionts) descended from troglobiotic ancestors). Numerous endemic subterranean diving beetle species from spatially-discrete calcrete aquifers in Western Australia (stygobionts) have evolved independently from surface ancestors; however, several cases of sympatric sister species raises the possibility of subterranean speciation. We tested this hypothesis using vision (phototransduction) genes that are evolving under neutral processes in subterranean species and purifying selection in surface species. Using sequence data from 32 subterranean and five surface species in the genus Paroster (Dytiscidae), we identified deleterious mutations in: long wavelength opsin (lwop), arrestin 1 (arr1), and arrestin 2 (arr2) shared by a sympatric sister-species triplet, arr1 shared by a sympatric sister-species pair, and lwop and arr2 shared among closely related species in adjacent calcrete aquifers. In all cases, a common ancestor possessed the function-altering mutations, implying they were already adapted to aphotic environments. Our study represents one of the first confirmed cases of subterranean speciation in cave insects. The assessment of genes undergoing pseudogenisation provides a novel way of testing modes of speciation and the history of diversification in blind cave animals.
Original languageEnglish
Pages (from-to)166-175
Number of pages28
JournalEvolution
Volume75
Issue number1
DOIs
Publication statusPublished - 2021

Keywords

  • cave animals
  • groundwater animals
  • species

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