The success of non-native species may depend on the genetic resources maintained through the invasion process. The Coqui (Eleutherodactylus coqui), a frog endemic to Puerto Rico, was introduced to Hawaii in the late 1980s via the horticulture trade, and has become an aggressive invader. To explore whether genetic diversity and population structure changed with the introduction, we assessed individuals from 15 populations across the Hawaiian Islands and 13 populations across Puerto Rico using six to nine polymorphic microsatellite loci and five dorsolateral colour patterns. Allelic richness (R(T)) and gene diversity were significantly higher in Puerto Rico than in Hawaii populations. Hawaii also had fewer colour patterns (two versus three to five per population) than Puerto Rico. We found no isolation by distance in the introduced range, even though it exists in the native range. Results suggest extensive mixing among frog populations across Hawaii, and that their spread has been facilitated by humans. Like previous research, our results suggest that Hawaiian Coquis were founded by individuals from sites around San Juan, but unlike previous research the colour pattern and molecular genetic data (nuclear and mtDNA) support two separate introductions, one on the island of Hawaii and one on Maui. Coquis are successful invaders in Hawaii despite the loss of genetic variation. Future introductions may increase genetic variation and potentially its range.
Gila trout (Oncorhynchus gilae gilae) was federally protected in 1973 because of severe declines in abundance and geographic range size. At present, four relict genetic lineages of the species remain in mountain streams of New Mexico and Arizona, USA. Management actions aimed at species recovery, including hatchery production and restocking of formerly occupied streams, have been guided by information from non-functional genetic markers. In this study, we investigated genetic variation at exon 2 of the major histocompatibility complex (MHC) class II b gene that is involved in pathogen resistance and thus presumably under natural selection. Phylogenetic analysis revealed trans-species polymorphism and a significantly high ratio of non-synonymous to synonymous amino acid changes consistent with the action of historical balancing selection that maintained diversity at this locus in the past. However, Gila trout exhibited low allelic diversity (five alleles from 142 individuals assayed) compared to some other salmonid fishes, and populations that originated exclusively from hatcheries possessed three or fewer MHC alleles. Comparative analysis of genetic variation at MHC and six presumably neutrally evolving microsatellite loci revealed that genetic drift cannot be rejected as a primary force governing evolution of MHC in contemporary populations of Gila trout. Maintenance of diversity at MHC will require careful implementation of hatchery breeding protocols and continued protection of wild populations to prevent loss of allelic diversity due to drift.
The prevalence of female multiple mating in natural populations is important for many questions in mating system evolution. Several statistical techniques use genetic data to estimate the number of fathers that contribute gametes to broods, but they have not been widely compared to assess the magnitude of differences in their performance. With a combination of new data and reanalysis of previously published data, we compared five analytical approaches: (1) allele-counting, (2) parental reconstruction in GERUD, (3) a Bayesian probability model to estimate the frequency of multiple mating (FMM), (4) computer simulations based on population allele frequencies in HAPLOTYPES and (5) Bayesian parental reconstruction in PARENTAGE. The results show that choice of analysis technique can significantly affect estimates of sire number. Estimates from GERUD conformed exactly to results obtained from strict exclusion of potential sires in an experimental context. However, estimates yielded by HAPLOTYPES and PARENTAGE sometimes exceeded the numbers from GERUD by as much as 120 and 55%, respectively. We recommend GERUD over these other approaches for most purposes because of its accuracy and consistency in this analysis. Our novel genetic data set allowed us to investigate the extent and frequency of multiple paternity in a marbled salamander (Ambystoma opacum) population in South Carolina, USA. A. opacum contrasted with other salamander species by having relatively low levels of multiple paternity (only 31-54% compared with 71-96%). Although A. opacum had the lowest level of multiple paternity under all analytical approaches used here, the magnitude of differences among species varied.
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