Document Type

Article

Publication Title

PLOS ONE

Volume

5

Issue

2

Article Number

e9194

Publication Date

2-12-2010

Keywords

INVASIVE ARGENTINE ANT; ODOROUS HOUSE ANT; TAPINOMA-SESSILE; DNA BARCODES; SUBTERRANEAN TERMITES; LINEPITHEMA-HUMILE; MITOCHONDRIAL-DNA; WOODLAND ANTS; FIRE ANTS; EVOLUTION

Abstract

The most rapidly expanding habitat globally is the urban habitat, yet the origin and life histories of the populations of native species that inhabit this habitat remain poorly understood. We use DNA barcoding of the COI gene in the widespread native pest ant Tapinoma sessile to test two hypotheses regarding the origin of urban populations and traits associated with their success. First, we determine if urban samples of T. sessile have a single origin from natural populations by looking at patterns of haplotype clustering fromacross their range. Second, we examine whether polygynous colony structure - a trait associated with invasion success - is correlated with urban environments, by studying the lineage dependence of colony structure. Our phylogenetic analysis of 49 samples identified four well supported geographic clades. Within clades, Kimura-2 parameter pairwise genetic distances revealed <2.3% variation; however, between clade genetic distances were 7.5-10.0%, suggesting the possibility of the presence of cryptic species. Our results indicate that T. sessile has successfully colonized urban environments multiple times. Additionally, polygynous colony structure is a highly plastic trait across habitat, clade, and haplotype. In short, T. sessile has colonized urban habitats repeatedly and appears to do so using life history strategies already present in more natural populations. Whether similar results hold for other species found in urban habitats has scarcely begun to be considered.

DOI

10.1371/journal.pone.0009194

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