Noninvasive individual and species identification of jaguars (Panthera onca), pumas (Puma concolor) and ocelots (Leopardus pardalis) in Belize,Central America using cross‐species microsatellites and faecal DNA

There is a great need to develop efficient, noninvasive genetic sampling methods to study wild populations of multiple, co‐occurring, threatened felids. This is especially important for molecular scatology studies occurring in challenging tropical environments where DNA degrades quickly and the quality of faecal samples varies greatly. We optimized 14 polymorphic microsatellite loci for jaguars (Panthera onca), pumas (Puma concolor) and ocelots (Leopardus pardalis) and assessed their utility for cross‐species amplification. Additionally, we tested their reliability for species and individual identification using DNA from faeces of wild felids detected by a scat detector dog across Belize in Central America. All microsatellite loci were successfully amplified in the three target species, were polymorphic with average expected heterozygosities of H_E = 0.60 ± 0.18 (SD) for jaguars, H_E = 0.65 ± 0.21 (SD) for pumas and H_E = 0.70 ± 0.13 (SD) for ocelots and had an overall PCR amplification success of 61%. We used this nuclear DNA primer set to successfully identify species and individuals from 49% of 1053 field‐collected scat samples. This set of optimized microsatellite multiplexes represents a powerful tool for future efforts to conduct noninvasive studies on multiple, wild Neotropical felids.     

Isolation and characterization of polymorphic microsatellite loci for the study of paternity and population structure in the little penguin Eudyptula minor

We isolated and characterized eight novel microsatellite loci in the little penguin Eudyptula minor, using nonradioactive polymerase chain reaction‐based techniques to screen GA and GAAA repeats from enriched genomic DNA libraries. All eight loci were polymorphic and seven were variable in our main study population (mean H_E = 0.613, mean N_A = 7.14). Cross‐amplification using a microsatellite primer developed in Spheniscus demersus (African penguin) yielded one additional polymorphic locus. This locus combined with six of the little penguin loci is suitable for paternity assignment in little penguins (exclusion probability for seven unlinked loci = 0.993).     

Isolation of polymorphic microsatellite loci in the clear lake gnat and two other phantom midge species of the genus Chaoborus (Diptera: Chaoboridae)

Chaoborus is of great interest to many freshwater ecologists. The adults can become pests in certain areas in North America and the larvae are an important food source for fish. In this preliminary study, we identified variable microsatellite loci in three species: Chaoborus astictopus (H_E = 0.52–0.76), Chaoborus americanus (H_E = 0.46–0.80) and Chaoborus punctipennis (H_E = 0.66–0.81). Using a biotin/streptavidin capture technique of repetitive sequences in a 96‐well format, we obtained microsatellite‐enriched genomic libraries for all three species and identified six polymorphic microsatellite markers for each species. None of the primers did yield a polymerase chain reaction fragment in a cross‐species test.     

Isolation and characterization of microsatellite markers in musk duck (Biziura lobata: Aves), and their application to other waterfowl species

We isolated and characterized 11 novel microsatellite loci to study paternity in the Australian musk duck (Biziura lobata), using nonradioactive PCR‐based techniques to screen GA and GAAA repeats enriched genomic DNA libraries. Nine of 11 loci showed no evidence of null alleles and were variable (mean H_E = 0.825, mean number of alleles = 9). This set of nine loci is suitable for paternity assignment (exclusion probability for nine unlinked loci = 0.9999). We also demonstrated that many of these loci cross‐amplify in various other waterfowl species.     

Isolation and characterization of microsatellite loci in the Cape fynbos heath Erica coccinea (Ericaceae)

Enriched genomic libraries were used to isolate and characterize dinucleotide microsatellite loci in Erica coccinea, a South African Cape fynbos heath species with distinct resprouter and seeder populations. Microsatellites were required to investigate the effect of the contrasting demographic pattern driven by these two post-fire responses in the population genetic structure of seeder and resprouter forms within this species. Eight microsatellite loci were characterised and amplified a total of 106 alleles in 2 samples each of 30 individuals from 1 resprouter and 1 seeder population. Mean allele numbers were 7.88 and 11.0 for the resprouter and seeder population, respectively. Both populations showed similar average observed and expected heterozygosity levels, H _O(resprouter) = 0.683, H _O(seeder) = 0.696; H _E(resprouter) = 0.726, H _E(seeder) = 0.756, and average positive inbreeding coefficients F _IS(resprouter) = 0.058, F _IS(seeder) = 0.080. This set of microsatellite loci will be used to conduct a population genetic survey of seeder and resprouter populations throughout the range of the species. Cross-species transferability was also assayed in four other South African and four European species of the genus Erica, supporting their potential use for population genetic analyses.     

Microsatellites for diversity studies in the golden hamster (Mesocricetus auratus)

Ten polymorphic microsatellites were developed for the golden hamster (Mesocricetus auratus), a widely used model organism in biological and medical researches. All loci were used to analyse the microsatellite variability in wild golden hamsters from Syria and in a sample of domestic animals comprising different strains. Average mean expected heterozygosity (H_E) and mean allele number (A) of domestic hamsters measured 0.279 ± 0.058 and 2.6 ± 0.306, respectively, compared to 0.809 ± 0.019 and 8.3 ± 1.075 found for wild hamsters. Cross‐species application in other Mesocricetus species proved conservation of most loci throughout the genus.     

Limited cross‐species microsatellite amplification and the isolation and characterization of new microsatellite markers for the greater stick‐nest rat (Leporillus conditor)

The greater stick‐nest rat (Leporillus conditor) is a conilurid rodent whose recent history provides an opportunity to examine genetic changes in reintroduced populations. We trialled 63 known microsatellite primers from Rattus rattus and Mus musculus in L. conditor. Three primer pairs produced polymorphic loci (number of alleles = 2–3, mean, H_E = 0.42). Subsequently, we isolated and characterized 12 novel polymorphic microsatellites (mean number of alleles = 5–16, mean H_E = 0.76) from L. conditor from genomic libraries for use in population genetic studies.     

Isolation and characterization of microsatellites in a perennial Apiaceae,Eryngium alpinum L.

In order to investigate the genetic structure in an endangered Alpine plant (Eryngium alpinum L.), we developed microsatellites. Two different approaches were used: an enrichment protocol and the classical technique of hybridization on nylon membranes. We identified 25 loci, 13 of which revealed to be polymorphic. The polymorphism was rather low (2–6 alleles; H_E = 0.49 ± 0.16), probably due to the short size of microsatellites (6–10 dinucleotide repeats) and to the fine spatial scale investigated. However, these markers are expected to provide a new insight about the genetic processes at work within and among E. alpinum populations.     

Tandem repeat markers for population genetic studies of the protected California tiger salamander (<Emphasis Type="Italic">Ambystoma californiense</Emphasis>)

Habitat loss is the single greatest threat to persistence of the critically threatened California tiger salamander (Ambystoma californiense). To aid management plans that designate critical habitat for this species, I developed and characterized 21 tetranucleotide microsatellite markers using two native populations in Santa Barbara and Alameda Counties. Allelic variation and average heterozygosities were lower in the endangered Santa Barbara population (allele range 1–4, mean 2.4; H _O = 0.308 H _E = 0.288) compared with the threatened Alameda population (allele range 2–10, mean 6.7; H _O = 0.712, H _E = 0.722). In-depth population studies using these markers will provide vital information for plans to assign critical habitat that optimize gene flow among breeding populations, as well as for identifying non-native hybrid genotypes that threaten native A. californiense stocks. Beyond the conservation goals for A. californiense, the close phylogenetic relationships within the tiger salamander complex also suggest a broad utility for population studies using these markers.     

Genetic diversity and molecular differentiation of Chinese toad based on microsatellite markers

Genetic diversity and population structure of 9 populations of Bufo gargarizans with total 111 samples in China were assessed using seven microsatellite loci. The analysed microsatellite markers produced 161 alleles, varied from 9 to 38 alleles each locus. The number of alleles per population per locus ranged from 4.43 to 10.29. Polymorphic information content showed that all seven loci were highly informative (mean = 0.810 ± 0.071). The average observed heterozygosity was less than the expected (0.353 ± 0.051 and 0.828 ± 0.067, respectively). All tested populations gave significant departures from Hardy–Weinberg equilibrium. Genetic differentiation among the populations was considerably high with the overall and pairwise F _ST values (mean = 0.160 ± 0.039), and showed fairly high level of inbreeding (indicated by a mean F _IS value of 0.504 ± 0.051) and global heterozygote deficit. In comparison to other amphibian studies; however, our results suggested that the level of genetic structuring in B. gargarizans was relatively low in the geographical scale of the study area. Interestingly, the speculated population bottleneck was found to be absent and the analyses provide only weak evidence for a recent contraction in size even though there was severe inbreeding (indicated by the F _IS value) in the Chinese toad populations.     

Isolation and characterization of polymorphic tetranucleotide microsatellite loci in the chestnut-crowned babbler (Pomatostomus ruficeps)

We describe 18 microsatellite markers isolated in the cooperatively breeding chestnut‐crowned babbler (Pomatostomus ruficeps). The number of alleles ranged from seven to 16 per locus (mean N_a = 10.4 ± 0.54 SE) and the expected heterozygosity ranged from 0.732 to 0.889 (mean H_E = 0.836 ± 0.01 SE). Three of the 18 loci exhibited significant heterozygote deficiency, but the remaining 15 will be used to analyse population genetic structure and the mating system of this highly social species.     

Isolation and characterization of microsatellite markers for paternity assessment in the golden whistler (Pachycephala pectoralis: Aves)

We isolated and characterized six novel microsatellite markers for paternity analysis in the golden whistler Pachycephala pectoralis, by screening an enriched genomic library using nonradioactive PCR techniques. The six loci exhibited little or no evidence of null alleles and showed high levels of polymorphism (mean H_E = 0.85, mean number of alleles = 15.2), making them suitable for paternity assessment in this species (exclusion probability of six unlinked loci = 0.9997).     

Polymorphic microsatellite DNA markers in black grouse (Tetrao tetrix)

Ten GATA microsatellite DNA markers were isolated and characterized from black grouse (Tetrao tetrix) using an enrichment cloning procedure. High levels of heterozygosity (mean H_O = 0.74 ± 0.026), and a large number of alleles (range = 5–16) were resolved in 70 individuals, indicating these markers will be useful for examining parentage, inbreeding and population structure in black grouse. No evidence for linkage disequilibrium or the presence of null alleles was found.     

Genetic diversity and population structure of Taxus cuspidata in the Changbai Mountains assessed by chloroplast DNA sequences and microsatellite markers

Taxus cuspidata, a tree species with high economic value because of its anticancer properties, is experiencing severe reduction in populations across its range in China. We examined one chloroplast DNA (cpDNA) region (petA-psbE) and 9 nuclear simple sequence repeats (SSRs) loci variations among seven populations in the Changbai Mountains of China to investigate the levels of genetic diversity and population structure. A moderate level of haplotype diversity (H_T = 0.625), low nuclear microsatellite diversity (H_E = 0.261 ± 0.028), significant genetic differences (F_ST = 0.065) and substantial gene flow (Nm = 2.806) were observed. Most of the total genetic variation was partitioned within the population (87.8% and 94.0% for cpDNA and SSRs, respectively). Our haplotype identification permutation tests revealed that G_ST > N_ST, indicating an absence of phylogeographic structure in T. cuspidata. Neither STRUCTURE nor UPGMA analyses showed any geographic pattern in T. cuspidata populations. By comparatively analyzing the genetic diversity and survival situation of T. cuspidata, our results provide a theoretical foundation for the resource protection, utilization cultivation and breeding of this valuable plant.     

Conservation genetics of Butte County meadowfoam (Limnanthes floccosa ssp. californica Arroyo), an endangered vernal pool endemic

The endangered annual plant Limnanthes floccosa ssp. californica Arroyo is restricted to vernal pools in Butte County, California. To identify populations with unique genetic resources, guide reintroduction efforts, and design seed collection scenarios for long-term ex situ seed storage we determined extant genetic diversity and structure by surveying 457 individuals from 21 distinct populations using nine polymorphic microsatellite markers. We found low within population genetic diversity: low allelic diversity (1.9 [0.06 SE] alleles/locus); low heterozygosity (H _obs = 0.10 ± 0.018, H _exp = 0.19 ± 0.015), and a high fixation index (0.556 ± 0.044). The number of polymorphic loci ranged between 11 and 89%. Bayesian ordination determined 20 distinct populations and we found high genetic structure among these (F _st = 0.65, P < 0.0001). We identified notable gene flow barriers across populations, confirming regional structuring between three previously defined population density centers and two outlying populations (F _st = 0.21, P < 0.0001). Population size estimates ranged between ~50 and >5,000 extant plants per site. Our study confirms previous isozyme-based results and suggests that the loss of any population would represent a significant loss in the species’ genetic diversity. Recovery requires active restoration of existing populations and permanent habitat protection. We recommend close comparison of microhabitats of declining populations with genetically similar populations, to determine the potential for human assisted gene flow via seed movement to recover declining populations.     

Hydraulic permeability and compressive properties of porcine and human synovium

The synovium is a multilayer connective tissue separating the intra-articular spaces of the diarthrodial joint from the extra-synovial vascular and lymphatic supply. Synovium regulates drug transport into and out of the joint, yet its material properties remain poorly characterized. Here, we measured the compressive properties (aggregate modulus, Young's modulus, and Poisson's ratio) and hydraulic permeability of synovium with a combined experimental-computational approach. A compressive aggregate modulus and Young's modulus for the solid phase of synovium were quantified from linear regression of the equilibrium confined and unconfined compressive stress upon strain, respectively (H_A = 4.3 ± 2.0 kPa, E_s = 2.1 ± 0.75, porcine; H_A = 3.1 ± 2.0 kPa, E_s = 2.8 ± 1.7, human). Poisson's ratio was estimated to be 0.39 and 0.40 for porcine and human tissue, respectively, from moduli values in a Monte Carlo simulation. To calculate hydraulic permeability, a biphasic finite element model's predictions were numerically matched to experimental data for the time-varying ramp and hold phase of a single increment of applied strain (k = 7.4 ± 4.1 × 10^?15 m⁴/N.s, porcine; k = 7.4 ± 4.3 × 10^?15 m⁴/N.s, human). We can use these newly measured properties to predict fluid flow gradients across the tissue in response to previously reported intra-articular pressures. These values for material constants are to our knowledge the first available measurements in synovium that are necessary to better understand drug transport in both healthy and pathological joints.     

Polymorphic microsatellite primers developed from DNA of the endangered Mekong giant catfish,Pangasianodon gigas (Chevey) and cross‐species amplification in three species of Pangasius

The critically endangered Pangasianodon gigas is endemic to the Mekong River. Despite its importance, little is known about its genetic diversity and conservation efforts are hampered. Ten polymorphic dinucleotide microsatellite primer pairs were developed from DNA of P. gigas. The analysis of 20 individuals from hatchery stocks using these primers resulted in two to six alleles/locus; H_O = 0.05–0.95; H_E = 0.05–0.81. All but one locus (Pg‐3) conformed to Hardy–Weinberg expectation. Eight, six and seven primer pairs were amplified with the DNA from Pangasianodon hypophthalmus, Pangasius larnaudii and Pangasius sanitwongsei, respectively. These markers will be useful for genetic monitoring of wild and hatchery stocks of these pangasiids.     

Genetic differences between continuous and disjunct populations: some insights from sal (<Emphasis Type="Italic">Shorea robusta</Emphasis> Roxb.) in Nepal

Sal (Shorea robusta Gaertn., Dipterocarpaceae) is a wind-pollinated tropical tree species found in southern Asia. We investigated the genetic diversity and structure at four microsatellites of 15 populations comprising continuous-peripheral and disjunct-peripheral populations in Nepal. Estimates of genetic diversity (N _A = 8.98, H _O = 0.62, H _E = 0.69) were similar when compared with those of other tropical tree species. A higher level of genetic diversity was observed in continuous-peripheral populations (N _A = 9.61, H _O = 0.67, H _E = 0.72) as compared to disjunct-peripheral (N _A = 8.04, H _O = 0.55, H _E = 0.64). Population differentiation was higher among disjunct-peripheral populations (F _ST = 0.043) than among continuous peripherals (F _ST = 0.012). There was a significant association between gene flow distances and genetic differentiation (r ² = 0.128, P ≤ 0.007). No spatial arrangement of populations according to their geographical locations was found. Based on observed genetic diversity protection of some populations in continuous-peripheral range are suggested for the sustainable conservation of genetic resources of the species while protection of some disjunct-peripheral populations are also recommended for conserving rare alleles.     

Microsatellite loci for the critically endangered Santa Cruz long-toed salamander (Ambystoma macrodactylum croceum) and other Ambystoma taxa

The imperiled Santa Cruz long-toed salamander (Ambystoma macrodactylum croceum) is a geographically isolated lineage of the long-toed salamander species complex. Recovery of this taxon requires understanding its population genetic structure, which is necessary to identify critical habitat. To assess the population structure of A. m. croceum, I developed primers for 17 microsatellite loci and evaluated their performance. Polymorphism ranged from 3 to 10 alleles per locus, with an average of 6.3 per locus. Mean observed and expected heterozygosity were similar (H _O = 0.678; H _E = 0.708), with one locus demonstrating heterozygote deficiency. The performance of these and previously identified microsatellite loci were also characterized for two other long-toed salamander lineages, as well as two other species of Ambystoma. The utility of these markers has similar and overlapping applications for conservation and population genetics studies of other Ambystoma taxa, and will provide a basis for revising the recovery plan for A. m. croceum, particularly for designating corridors among interacting breeding populations and upland areas, and identifying areas where gene flow should be restored.