Abstract
Theoretically, species with high population structure are likely to expand their range, because marginal populations are free to adapt to local conditions; however, meta-analyses have found a negative relation between structure and invasiveness. The crab Petrolisthes armatus has a wide native range, which has expanded in the last three decades. We sequenced 1718 bp of mitochondrial DNA from native and recently established populations to determine the population structure of the former and the origin of the latter. There was phylogenetic separation between Atlantic and eastern Pacific populations, and between east and west Atlantic ones. Haplotypes on the coast of Florida and newly established populations in Georgia and South Carolina belong to a different clade from those from Yucatán to Brazil, though a few haplotypes are shared. In the Pacific, populations from Colombia and Ecuador are highly divergent from those from Panamá and the Sea of Cortez. In general, populations were separated hundreds to million years ago with little subsequent gene flow. High genetic diversity in the newly established populations shows that they were founded by many individuals. Range expansion appears to have been limited by low dispersal rather than lack of ability of marginal populations to adapt to extreme conditions.
Highlights
The population-genetic constitution of marine invasive species in their native range is increasingly being studied in efforts to determine the source of invasions into new areas
Intraspecific gene genealogies are said to be better represented by networks than phylogenetic trees because ancestral haplotypes may still exist in the sample[40], the split in Petrolisthes armatus from the eastern Pacific and the Atlantic cannot be more recent than the completion of the central American Isthmus, and their common ancestor could not be younger than 3 million years (MY)
Two haplotypes at Colombia belong to the NW Atlantic clade, and four haplotypes at South Carolina belong to the SW Atlantic clade (Figs 1 and 3)
Summary
The population-genetic constitution of marine invasive species in their native range is increasingly being studied in efforts to determine the source of invasions into new areas (reviews in refs 1–5). Less attention has been focused on the insights that such studies can provide regarding the relationship between genetic structure within the species range and invasive properties Both factors are related to dispersal ability, which, in turn, is dependent on the degree to which propagules can spread and to the capacity of a species to adapt to varying physical and biological environmental factors. An invasive species with a wide native geographic range is the porcelain crab Petrolisthes armatus (Gibbes), a marine, crab-like anomuran decapod. This species has the largest geographical distribution of any neotropical porcellanid. According to a 16S rDNA phylogeny by Hiller, et al.[29], P. armatus from both American coasts forms a sister clade to one comprised of P. robsonae and P. zacae, the former adapted to withstand great changes in salinity[12, 30], and the later adapted to inhabit spaces formed by entangled roots of the mangrove Rhizophora mangle[31]
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call