Noninvasive population genetics: a review of sample source,diet, fragment length and microsatellite motif effects on amplification success and genotyping error rates

Noninvasive population genetics has found many applications in ecology and conservation biology. However, the technical difficulties inherent to the analysis of low quantities of DNA generally tend to limit the efficiency of this approach. The nature of samples and loci used in noninvasive population genetics are important factors that may help increasing the potential success of case studies. Here we reviewed the effects of the source of DNA (hair vs. faeces), the diet of focal species, the length of mitochondrial DNA fragments, and the length and repeat motif of nuclear microsatellite loci on genotyping success (amplification success and rate of allelic dropout). Locus-specific effects appeared to have the greatest impact, amplification success decreasing with both mitochondrial and microsatellite fragments’ length, while error rates increase with amplicons’ length. Dinucleotides showed best amplification success and lower error rates compared to longer repeat units. Genotyping success did not differ between hair- versus faeces-extracted DNA, and success in faeces-based analyses was not consistently influenced by the diet of focal species. While the great remaining variability among studies implies that other unidentified parameters are acting, results show that the careful choice of genetic markers may allow optimizing the success of noninvasive approaches.     

Evaluation of fecal DNA preservation techniques and effects of sample age and diet on genotyping success

Optimal collection and preservation protocols for fecal DNA genotyping are not firmly established. We evaluated 3 factors that influence microsatellite genotyping success of fecal DNA extracted from coyote (Canis latrans) scats: 1) age of scat, 2) preservative, and 3) diet content. We quantified genotyping success by comparing rates of allelic dropout, false alleles, and failed amplifications among consensus genotypes. We used a panel of 6 microsatellite loci to genotype 20 scat samples, each of which was subjected to 3 age (1 day, 5 days, and 10 days post-deposition) and 3 preservation (DET buffer, 95% ethanol [EtOH], and lysis buffer) treatments. Both sample age and storage buffer had a significant effect on success and reliability. Ethanol and DET buffer preserved fecal samples with similar efficiency, and both were superior to lysis buffer. Our analysis of DNA degradation rates revealed that samples collected as early as 5 days of age yielded DNA that was highly degraded relative to samples collected on day 1. We tested the influence of dietary remains on microsatellite genotyping by using scat samples consisting predominantly of insect prey (n = 5), mammalian prey (n = 9), or the remains of juniper (Juniperus spp.) berries (n = 6) and compared EtOH and DET buffer preservation efficacy. We observed a significant interaction effect between storage buffer and diet for the probability of a false allele in a polymerase chain reaction (PCR), suggesting that the optimal preservation technique depended on the food remains comprising the scat. Scats comprised of juniper berry remains were more reliably genotyped when preserved in DET than EtOH. Mammalian prey-based scats were more reliable when stored in EtOH than DET buffer. Insect-predominant scats were preserved in EtOH and DET buffer with similar efficiency. Although accurate and reliable results can be obtained from scats collected at ≥5 days of age, we suggest sampling design to include collection of scats <5 days of age to minimize field and laboratory expenses. We suggest EtOH preservation for scats of obligate carnivores and of facultative carnivores with a diet consisting primarily of mammals. We suggest DET buffer preservation for animals with a diet consisting of plant-derived foods. Lysis buffer protocols that we employed should not be used for fecal DNA preservation. © 2011 The Wildlife Society.     

gemini: software for testing the effects of genotyping errors and multitubes approach for individual identification

Improvements in the determination of individual genotypes from samples with low DNA quantity and quality are of prime importance in molecular ecology and conservation for reliable genetic individual identification (molecular tagging using microsatllites loci). Thus, errors (e.g. allelic dropout and false allele) appearing during samples genotyping must be monitored and eliminated as far as possible. The multitubes approach is a very effective but a costly and time‐consuming solution. In this paper, we present a simulation software that allows evaluation of the effect of genotyping errors on genetic identification of individuals and the effectiveness of a multitubes approach to correct these errors.     

Isolation of polymorphic microsatellite markers for the demersal fish Helicolenus dactylopterus (Dela Roche 1809)

Six microsatellite loci were identified for the demersal deep‐sea fish Helicolenus dactylopterus. All loci were highly polymorphic (5–21 alleles per locus). Observed heterozygosities were from 0.378 to 0.868, while the expected heterozygosities ranged from 0.529 to 0.925. Multiplex PCR reactions were optimized. Microsatellite markers were developed for analysis of genetic structure including identification of stocks and migration patterns. The resulting data will be used to help in the establishment of scientifically based fisheries management for this species. Departures from the expected Hardy–Weinberg equilibrium were observed in three loci, and are likely to be a consequence of population structuring across the Azorean islands.     

Characterization of polymorphic microsatellite markers for the Carnaby's cockatoo (Calyptorhynchus latirostris) and related black cockatoo species

Microsatellite loci were isolated from Carnaby's black cockatoo (Calyptorhynchus latirostris: Aves), a highly valued, endangered, and endemic species of bird from Western Australia. This study describes three dinucleotide and one tetranucleotide microsatellite loci for which the primers produced clear and polymorphic amplification patterns with between two and nine alleles and moderate levels of variability. Two additional dinucleotide markers which were monomorphic in the Carnaby's cockatoo were able to amplify and were polymorphic in two other species of black cockatoo, greatly increasing the utility of these markers.     

Isolation and characterization of polymorphic microsatellite loci for the dace complex: Leuciscus leuciscus (Teleostei: Cyprinidae)

Ten novel polymorphic microsatellites were isolated from the dace complex (Leuciscus leuciscus), which is a European cyprinid species. Four multiplex polymerase chain reaction sets were optimized in order to genotype 26 polymorphic loci in all, including 16 previously published cyprinid-specific loci. The level of genetic diversity was assessed in 142 dace individuals. We also successfully applied 26 of the microsatellites to 10 related species. These primers thus will be useful to assess population structure of the dace and other cyprinid species, with application for conservation issues and phylogeographical approaches.     

Isolation and characterization of polymorphic microsatellite loci in the freshwater fishes Telestes souffia and Telestes muticellus (Teleostei: Cyprinidae)

Ten novel polymorphic microsatellites (seven with perfect motifs) were isolated from vairone species (Telestes souffia and Telestes muticellus), which are endangered European cyprinid species. Together with 11 previously published cyprinid-specific loci, five multiplex sets were optimized, allowing the genotyping of 21 polymorphic loci. The level of genetic diversity was assessed in 97 individuals from the two species T. souffia and T. muticellus. We also successfully applied the 21 microsatellites to nine related species. These primers will thus be useful in assessing population structure of the vairone and other cyprinid species, with application for conservation issues and phylogeographical approaches.     

Isolation of polymorphic microsatellite loci from the red‐billed gull (Larus novaehollandiae scopulinus) and amplification in related species

We describe the isolation and characterization of seven dinucleotide microsatellite loci developed from the red‐billed gull (Larus novaehollandiae scopulinus). Locus‐specific primers were used to genotype individuals from 13 populations of this subspecies as well as individuals from closely related subspecies from Australia and New Caledonia. The primers were tested successfully on other species of gulls and shorebirds. The number of alleles observed within the red‐billed gull ranged from three to 17, and observed heterozygosity varied from 0.359 to 0.787. These microsatellites are likely to be useful for studies of mating systems and population genetics in a wide range of gull species.     

A multiplex set of microsatellite markers for the scarlet rosefinch (Carpodacus erythrinus)

Cardueline finches have become important models in studies of sexual selection and evolution of carotenoid‐based ornamentation. Here, we describe eight new polymorphic microsatellites isolated from the Scarlet rosefinch (Carpodacus erythrinus) and four from the House finch (Carpodacus mexicanus). Together with the cross‐species amplification of additional loci, originally published for two species of songbirds, we optimized a multiplex panel for C. erythrinus allowing genotyping of 22 polymorphic loci. Number of alleles and heterozygosity per locus in a sample of 34 individuals ranged from three to 38 and from 0.27 to 0.94, respectively.     

Molted feathers from clay licks in Peru provide DNA for three large macaws (Ara ararauna, A. chloropterus, and A. macao)

ABSTRACT Conservation genetic analyses of wildlife have increased greatly in the past 10 yr, yet genetic studies of parrots are rare because of difficulties associated with capturing them and obtaining samples. Recent studies have demonstrated that molted feathers can provide a useful source of DNA, but success rates have varied considerably among studies. Our objective was to determine if molted macaw feathers from Blue‐and‐yellow Macaws (Ara ararauna), Scarlet Macaws (A. macao), and Red‐and‐green Macaws (A. chloropterus) collected from rainforest geophagy sites called clay licks could provide a good source of DNA for population genetic studies. Specific objectives were to determine (1) how nuclear DNA microsatellite amplification success and genotyping error rates for plucked macaw feathers compared to those for molted feathers collected from clay licks in the Amazon rainforest, and (2) if feather size, feather condition, species, or extraction method affected microsatellite amplification success or genotyping error rates from molted feathers. Amplification success and error rates were calculated using duplicate analyses of four microsatellite loci. We found that plucked feathers were an excellent source of DNA, with significantly higher success rates (P < 0.0001) and lower error rates (P= 0.0002) than for molted feathers. However, relatively high success rates (75.6%) were obtained for molted feathers, with a genotyping error rate of 11.7%. For molted feathers, we had higher success rates and lower error rates for large feathers than small feathers and for feathers in good condition than feathers that were moldy and broken when collected. We also found that longer incubation times and lower elution volumes yielded the highest quality DNA when extracting with the Qiagen DNeasy tissue kit. Our study demonstrates that molted feathers can be a valuable source of genetic material even in the challenging conditions of tropical rainforests, and our results provide valuable information for maximizing DNA amplification success rates when working with shed feathers of parrots.     

Development and multiplex PCR amplification of novel microsatellite markers in the White‐tailed Sea Eagle,Haliaeetus albicilla (Aves: Falconiformes,Accipitridae)

We report the development of 14 novel polymorphic microsatellite markers cloned from the White‐tailed Sea Eagle, Haliaeetus albicilla, a formerly threatened raptor that has received much conservation attention throughout Eurasia. We also present a protocol for multiplex polymerase chain reaction (PCR) amplification of the loci. Among 40 unrelated H. albicilla individuals from southern Sweden, the markers produced two to eight alleles per locus, and average observed and expected heterozygosities were 0.463 and 0.468, respectively. We further present five microsatellite markers that appeared monomorphic in H. albicilla, but which may be of interest for use in other raptor species.     

Development and multiplexing of microsatellite markers using pyrosequencing in the clonal plant Comarum palustre (Rosaceae)

Microsatellites represent one of the most commonly used genetic markers for population genetic studies. Traditionally, their development is quite time consuming, requiring construction of a genomic library enriched for repeated motifs. Using pyrosequencing, a fast and cost-effective new generation sequencing technique, we produced 24,340,862 bases in 63,860 short fragment reads, including 1170 dinucleotide motifs with a minimum of six repeats and 1383 trinucleotide motifs with a minimum of four repeats for the Marsh Cinquefoil, Comarum palustre L., an endangered marsh pioneer species. We selected 58 loci with SSR (Short Sequence Repeat) segments (at least 10 repeats) for a preliminary screening. Out of them, we screened 29 loci on a capillary sequencer after ligation in a vector and PCR using T7 forward primer labelled with FAM fluorescent dye and the specific unlabeled reverse primers. This procedure allowed us to screen large number of candidate loci with the same labelled primer and unlabelled specific primers. Finally, we characterized 20 polymorphic microsatellite markers, nine dinucleotides and 11 trinucleotides. We used these markers to assess genetic diversity and clonal structure in two Belgian populations. All loci showed a maximum of two alleles per individual, suggesting that they are from a diploid genome. One genet was detected in a newly extending population while 53 different genets in a long-term ecologically managed population. The number of alleles per locus ranged from 6 to 14 in this old population with an expected heterozygosity, ranging from 0.5964 to 0.8278. These preliminary results show a genet size up to 7.2 m.     

Development and multiplex PCR amplification of new microsatellite markers for the freshwater fish,ayu (Plecoglossus altivelis)

Multiplex polymerase chain reaction (PCR) technique has recently been applied to gain many advantages in molecular genetics. The present study focused on the development of 15 new microsatellite markers with multiplex PCR systems in ayu, Plecoglossus altivelis, an important freshwater fish in Japan. All loci were followed Mendelian inheritance in 27 F1 progeny except for the one locus. The number of alleles per locus ranged from nine to 44 and the observed heterozygosities ranged from 0.680 to 0.980 in 50 unrelated individuals. The results indicate that these new microsatellite markers are useful for studies of linkage mapping and population genetics for the species.     

Two-step multiplex polymerase chain reaction improves the speed and accuracy of genotyping using DNA from noninvasive and museum samples

Many studies in molecular ecology rely upon the genotyping of large numbers of low‐quantity DNA extracts derived from noninvasive or museum specimens. To overcome low amplification success rates and avoid genotyping errors such as allelic dropout and false alleles, multiple polymerase chain reaction (PCR) replicates for each sample are typically used. Recently, two‐step multiplex procedures have been introduced which drastically increase the success rate and efficiency of genotyping. However, controversy still exists concerning the amount of replication needed for suitable control of error. Here we describe the use of a two‐step multiplex PCR procedure that allows rapid genotyping using at least 19 different microsatellite loci. We applied this approach to quantified amounts of noninvasive DNAs from western chimpanzee, western gorilla, mountain gorilla and black and white colobus faecal samples, as well as to DNA from ~100‐year‐old gorilla teeth from museums. Analysis of over 45 000 PCRs revealed average success rates of > 90% using faecal DNAs and 74% using museum specimen DNAs. Average allelic dropout rates were substantially reduced compared to those obtained using conventional singleplex PCR protocols, and reliable genotyping using low (< 25 pg) amounts of template DNA was possible. However, four to five replicates of apparently homozygous results are needed to avoid allelic dropout when using the lowest concentration DNAs (< 50 pg/reaction), suggesting that use of protocols allowing routine acceptance of homozygous genotypes after as few as three replicates may lead to unanticipated errors when applied to low‐concentration DNAs.     

Isolation and characterization of 11 new microsatellite markers for Macaranga (Euphorbiaceae)

We provide primer sequences for 11 new polymorphic microsatellite markers developed in the tropical ant-plant genus Macaranga (Euphorbiaceae), after enrichment cloning of Macaranga tanarius and Macaranga hypoleuca. Allele numbers per locus ranged from two to 16 among 20 accessions of M. tanarius, and from three to 10 among 22 accessions of M. hypoleuca. Observed and expected heterozygosities ranged from 0.150 to 0.900 and from 0.375 to 0.894 in M. tanarius, and from 0.545 to 1.000 and from 0.434 to 0.870 in M. hypoleuca, respectively. Six of the 11 primer pairs successfully cross-amplified polymorphic polymerase chain reaction products in Macaranga winkleri.     

Characterization of 29 polymorphic artiodactyl microsatellite markers for the mountain goat (Oreamnos americanus)

We report the results of a cross‐species amplification test of 156 bovine, ovine and cervid microsatellite markers in a wild population of mountain goats, Oreamnos americanus, inhabiting Caw Ridge, Alberta, Canada. Twenty‐nine markers were found to be low to moderately polymorphic with between two to nine alleles per locus. Observed heterozygosity ranged from 0.14 to 0.85 for a sample of 215 mountain goats. This set of markers will be used in parentage analyses to construct the pedigree of the long‐term studied population and to investigate the effects of individual genetic variability on life‐history traits.     

Isolation and characterization of microsatellite DNA markers from the Lanyu scops owl (Otus elegans botelensis)

From a genomic library enriched for GATA/CTAT and GAAA/CTTT repeats, 12 polymorphic microsatellite markers were developed for the Lanyu scops owl (Otus elegans botelensis). Polymorphism of these loci was evaluated in a sample of 58 adult individuals of unknown relationship. The allele numbers of each locus were from five to 25 and the observed heterozygosity of each locus ranges from 0.707 to 0.914. When using these loci in parentage assignment, the probability of false parent exclusion is greater than 0.999. All loci conformed to Hardy–Weinberg expectations.     

Two multiplex sets of eight and five microsatellite markers for the European corn borer,Ostrinia nubilalis Hübner (Lepidoptera: Crambidae)

Primer sequence and polymorphism data are presented for 13 microsatellite loci isolated from the European corn borer moth, Ostrinia nubilalis, as part of a project to construct a linkage map for the two pheromone strains. Experimental conditions are described for polymerase chain reaction (PCR) multiplexing, which allows genotyping in two electrophoresis runs of eight and five markers each. In a sample of 27 individuals coming from one European locality, the number of alleles per locus ranged from one to 12, and gene diversity from 0 to 0.859. Seven loci showed a deficit of heterozygotes. Eleven loci cross‐amplify in the related Ostrinia furnacalis.     

Development and cross‐species amplification of 18 microsatellite markers in the Sumatran tiger (Panthera tigris sumatrae)

Eighteen polymorphic microsatellite loci from the highly endangered Sumatran tiger (Panthera tigris sumatrae) were isolated and characterized. Upon polymerase chain reaction amplification, 16 of these markers produced a single, sharp band in all three tiger and 10 non‐tiger felid species examined. Of the two remaining loci, 6HDZ057 and 6HDZ635 failed to amplify genomic DNA from puma (Felis concolor) and cheetah (Acinonyx jubatus), respectively. The amplification of these markers across four genera is an indication of their usefulness for population genetics studies and conservation work in a wide range of felid species.     

Isolation, characterization and multiplex polymerase chain reaction of novel microsatellite loci for the avian parasite Philornis downsi (Diptera: Muscidae)

An enrichment technique was used to isolate 11 di-, tri-, and tetra microsatellites for the parasitic fly Philornis downsi (Diptera: Muscidae). These loci were polymerase chain reaction amplified in singleplexes or two-plexes for P. downsi. The loci showed low to moderate polymorphism, exhibited between three and four alleles, and observed heterozygosity ranged from 0.05 to 0.86. These new markers will be useful for population-level and paternity analyses and will provide valuable information about the ecology of this high-impact parasite of vulnerable bird species.