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Taxonomic review and phylogenetic analysis of central European Eresus species (Araneae: Eresidae)
Author(s) -
ŘEzáč Milan,
Pekár Stano,
Johannesen Jes
Publication year - 2008
Publication title -
zoologica scripta
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.204
H-Index - 64
eISSN - 1463-6409
pISSN - 0300-3256
DOI - 10.1111/j.1463-6409.2008.00328.x
Subject(s) - biology , monophyly , paraphyly , zoology , taxonomy (biology) , nomen dubium , phylogenetic tree , ecology , clade , biochemistry , gene
Ladybird spiders ( Eresus spp.) have attracted scientific interest since the 18th century, but taxonomical knowledge of the genus is unsatisfactory. Early classification based on colour and size variation divided European Eresus into numerous species. These were later lumped into one predominant morphospecies, Eresus niger / E. cinnaberinus , which could be found from Portugal to Central Asia. Here, we perform a major revision of Eresus from northern and central Europe using morphological, phenological, habitat, distribution and molecular data. Three species, E. kollari , E. sandaliatus and E. moravicus sp. n. were distinguished. The name E. niger (originally Aranea nigra ) cannot be used as the name A. nigra was used for a previous spider species. The name E. cinnaberinus is considered a nomen dubium . The three species differ in size, colour pattern, shape of prosoma and copulatory organs, phenology, and have slightly different habitat requirements. No morphologically intermediate forms were recorded. In contrast to distinct morphology and phenology, the genus is genetically complex. Genetically, the mitochondrial haplotypes of E. sandaliatus and E. moravicus sp. n. are monophyletic, whereas those of E. kollari are paraphyletic. Eastern central European E. kollari is likely a hybrid lineage between E. sandaliatus and the monophyletic western central European E. kollari . Because eastern and western European E. kollari are morphologically and phenologically indistinguishable, we did not formally split them. However, detailed population‐based research in the future may partition E. kollari into additional species.