Refuting the six‐genus classification of Penaeus s.l. (Dendrobranchiata,Penaeidae): a combined analysis of mitochondrial and nuclear genes

Ma, K. Y., Chan, T. ‐Y & Chu, K. H. (2011). Refuting the six‐genus classification of Penaeus s.l. (Dendrobranchiata, Penaeidae): a combined analysis of mitochondrial and nuclear genes. —Zoologica Scripta, 40, 498–508. The taxonomic revision in 1997 of the shrimps formerly classified in Penaeus s.l. has been one of the most controversial issues on systematics of the decapods in recent years. Since Pérez Farfante & Kensley (Penaeoid and Sergestoid Shrimps and Prawns of the World, 1997) split this long‐accepted taxon into six genera, much debate has been devoted to their proposed new classification scheme; this has taken place because there are serious doubts whether the said scheme could reflect the evolutionary relationships among the 29 Penaeus s.l. species. Although these shrimps can be easily separated into several groups morphologically, whether these subdivisions are truly monophyletic and warrant a generic rank continues to be hotly debated among taxonomists. This study examined a total of 2425 bp sequences from three nuclear protein genes (enolase, phosphoenolpyruvate carboxykinase and sodium–potassium ATPase α‐subunit), and the mitochondrial 16S and 12S rRNA gene of 18 Penaeus s.l. shrimps and 13 other species in the family Penaeidae. Our phylogenetic analyses strongly support the monophyly of Penaeus s.l. and, concurring with previous studies that used the mitochondrial genes alone, the paraphyly of both Penaeus s.s. (sensu Pérez Farfante & Kensley, Penaeoid and Sergestoid Shrimps and Prawns of the World, 1997) and Melicertus, rendering them non‐natural groupings. Our study reveals two lineages: Penaeus s.s. + Fenneropenaeus + Litopenaeus + Farfantepenaeus and Melicertus + Marsupenaeus, which exhibit genetic divergences comparable with those among other penaeid genera. However, all the morphological characters, which are emphasized by Pérez Farfante and Kensley and used to separate Penaeus s.l., do not correlate with the grouping revealed by the present, perhaps decisive, phylogenetic result. Such disparity may arise from selection on the morphology of genitalia and convergent evolution. Our molecular data clearly refute the six‐genus classification, and we advocate the restoration of the old Penaeus genus (=Penaeus s.l.) definition which is the only classification scheme with both the morphological and the molecular data being in agreement.     

Isolation and characterization of microsatellites in Pacific white shrimp Penaeus (Litopenaeus) vannamei

Five polymorphic microsatellite loci were characterized for Penaeus (Litopenaeus) vannamei. Loci were isolated using a partial Sau3A1 genomic library by the sequencing of randomly selected clones and by a biotinylated (CT)₁₀ and (GT)₁₀ probes screening procedure. The last strategy resulted in the most useful data. About 40% of the clones showed a previously reported satellite/microsatellite (PVS1), reducing the chance of finding new microsatellite regions. Whereas two of the microsatellite loci with more than 10 alleles will be useful for mating analysis in a breeding program, the others might prove useful for population genetic studies.     

Genetic characterization of brown trout (<Emphasis Type="Italic">Salmo trutta</Emphasis>) populations from the Southern Balkans using mtDNA sequencing and RFLP analysis

In the present study, a polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) assay was used to survey variation in a 1450-bp mitochondrial DNA (mtDNA) segment which comprises part of the cytochrome oxidase III (COIII) and ATPase subunit VI genes in 8 brown trout (Salmo trutta L) populations from the southern Balkans. In addition, a 300 bp fragment at the 5′ end of the control region was sequenced from representatives of the populations studied providing the opportunity to assign PCR-RFLP haplotypes into major phylogenetic lineages (i.e. Atlantic, Danubian, marmoratus, Adriatic and Mediterranean). The level of polymorphism found in the 1450 bp segment suggests that this PCR-RFLP assay may be useful for future diagnostic analyses of mitochondrial DNA in brown trout populations. A reduced within-population genetic variability but considerable among-population differentiation was observed. The results are in accordance with previous data on phylogeography of Mediterranean brown trout suggesting that mitochondrial DNA haplotypes are distributed in a mosaic pattern as a consequence of a complex evolutionary history. The present study shows that brown trout populations from the Southern Balkans are highly divergent and possess a unique genetic profile that should be taken into account when establishing conservation management programs. Handling editor: C. Sturmbauer     

Evidence of natural Wolbachia infections and molecular identification of field populations of Culex pipiens complex (Diptera: Culicidae) mosquitoes in western Turkey

Establishing reliable risk projection information about the distribution pattern of members of the Culex pipiens complex is of particular interest, as these mosquitoes are competent vectors for certain disease‐causing pathogens. Wolbachia, a maternally inherited bacterial symbiont, are distributed in various arthropod species and can induce cytoplasmic incompatibility, i.e., reduced egg hatch, in certain crosses. It is being considered as a tool for population control of mosquito disease vectors. The Aegean region is characterized by highly populated, rural, and agricultural areas and is also on the route of the migratory birds. In this study, a fragment of the 658 bp of the mitochondrial cytochrome c oxidase subunit 1 (COI) gene, which includes the barcode region, was employed to differentiate Cx. pipiens complex species found in this region. Moreover, for the first time, the prevalence of Wolbachia endobacteria in these natural populations was examined using PCR amplification of a specific wsp gene. Our results revealed a widespread (more than 90%, n=121) presence of the highly efficient West Nile virus vector Cx. quinquefasciatus in the region. We also found that Wolbachia infection is widespread; the average prevalence was 62% in populations throughout the region. This study provided valuable information about the composition of Cx. pipiens complex mosquitoes and the prevalence of Wolbachia infection in these populations in the Aegean region. This information will be helpful in tracking mosquito‐borne diseases and designing and implementing Wolbachia‐based control strategies in the region.     

Diel activity patterns in Metapenaeus and Penaeus juveniles

Small (5–10.9 mm carapace length), medium (11–15.9 mm), and large (16–20.9 mm) juveniles of Metapenaeus anchistus, Metapenaeus sp., Penaeus monodon and P. merguiensis were stocked individually in glass tanks provided with sand substrate, sea water, artificial bamboo shelter, aeration and food. The seven activity types (recorded for each shrimp hourly for 24 h) were classified as below (burrowing) or above substrate (swimming, walking, stationary, in shelter, feeding and cleaning). Shrimp juveniles exhibited a strong diel periodicity — emergence and activity at night and burrowing in the day. The chi-square test showed that type of activity (above/below substrate) was associated with period (light/dark). Diurnal burrowing was greater among Metapenaeus than Penaeus; inversely, above substrate activities were more frequent for Penaeus species compared to Metapenaeus. Feeding was the major above substrate and nocturnal activity for M. anchistus, Metapenaeus sp. and P. monodon. Only P. Monodon used the shelter consistently. Frequency of the 7 activity types was dependent on juvenile size for Penaeus, e.g., the preference for shelters shifted to burrowing with increase in size in P. monodon. Results are discussed in relation to the importance of mangrove habitats in providing shelter to penaeids, in particular the mangrove-associated P. monodon and P. merguiensis.     

Genetic structure of Eurasian badgers Meles meles (Carnivora: Mustelidae) and the colonization history of Ireland

The present study examined the contemporary genetic composition of the Eurasian badger, Meles meles, in Ireland, Britain and Western Europe, using six nuclear microsatellite loci and a 215‐bp fragment of the mitochondrial DNA control region. Significant population structure was evident within Europe (global multilocus microsatellite F_ST = 0.205, P < 0.001; global mitochondrial control region Φ_ST = 0.399, P < 0.001). Microsatellite‐based cluster analyses detected one population in Ireland, whereas badgers from Britain could be subdivided into several populations. Excluding the island populations of Ireland and Britain, badgers from Western Europe showed further structuring, with evidence of discrete Scandinavian, Central European, and Spanish populations. Mitochondrial DNA cluster analysis grouped the Irish population with Scandinavia and Spain, whereas the majority of British haplotypes grouped with those from Central Europe. The findings of the present study suggest that British and Irish badger populations colonized from different refugial areas, or that there were different waves of colonization from the source population. There are indications for the presence of an Atlantic fringe element, which has been seen in other Irish species. We discuss the results in light of the controversy about natural versus human‐mediated introductions. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, ?? , ??–??.     

Neural control of the pyloric region in the foregut of the shrimp Penaeus (Decapoda: Penaeidae)

Pyloric pattern-generating neurons that control the pyloric region of the foregut were identified in the stomatogastric ganglion of the most primitive decapod genus Penaeus. Five types of motor neurons and one interneuron are involved in generation of pyloric motor pattern. One cell type of motor neurons innervates muscles of both the gastric mill and the pylorus like the gastric motor neurons in Cancer, but unlike those in Panulirus. These identified neurons are connected to each other either by electrical or inhibitory chemical synapses to construct the neural circuit. This pyloric circuit is similar to the homologous circuit of other crustacean species though some differences are seen in synaptic connections, supporting the hypothesis that the basic design of the neural circuit has been conserved during evolution of the Malacostraca, and that differences have occurred in the synaptic connectivity as the foregut structure has become complex. The motor neurons use either acetylcholine or glutamate as a neurotransmitter like in reptantians. The foregut structure, the number of the pyloric cells, muscle innervation, neurotransmitters, and circuitry are compared among malacostracan crustaceans to provide insight into how the neural circuits change and evolve to produce the motor patterns mediating behaviour. Accepted: 18 April 1997     

Polymorphism of the Noncoding Region of the Mitochondrial Genome in Three Kazakh Populations Inhabiting Different Areas of Kazakhstan and in DNA Samples from Ancient Populations of the Kazakhstani Altai

The polymorphism of the major noncoding region of mitochondrial DNA (mtDNA D loop, 528 bp) has been studied in samples from three modern Kazakh populations (from Almaty, the Semipalatinsk Region, and the Altai Mountains) and in DNA samples of ancient human populations of the Kazakhstani Altai. Polymerase chain reaction (PCR) and restriction fragment length polymorphism (RFLP) analysis for 13 restriction sites, including BamHI, EcoRV, Sau3AI (one site each), KpnI (two sites), HaeIII (three sites), and RsaI (five sites) were used. The frequency distributions of all sites have been determined. The gene diversity (h) and the genetic distances between different Kazakh populations and other populations of the world have been calculated. The RFLP analysis of the mtDNA control region of fossil samples has been performed similarly to the analysis of modern mtDNA samples. Two fossil mtDNA samples from burial mound 11 are monomorphic with respect to all restriction sites analyzed.     

基于线粒体DNA控制区的斑翅草螽不同地理种群遗传分化研究

采用PCR扩增结合DNA克隆测序技术,分析了斑翅草螽Conocephalus maculates 9个地理种群mtDNA控制区序列的变异及遗传多样性。切除侧翼RNA基因序列后,最终获得的斑翅草螽mtDNA控制区比对后全长为676 bp,平均碱基组成T(37.8%),C(11.7%),A(41.3%)和G(9.1%)。共检测到98个可变位点,占总位点数的14.5%,其中,9处碱基插入/缺失,74处转换(40个T/C,34个A/G),50处颠换(18个A/T,11个T/G,15个A/C,6个C/G)。共定义46个单倍型,其中,4个为种群间共享单倍型(H02、H05、H08和H10),其余42个为各种群独有单倍型,包括6个种群内共享单倍型(H09、H11、H15、H18、H26和H38)。单倍型总数占实验个体总数的69.7%,除四川峨眉山外,其余种群单倍型百分比均﹥50%。通过两两地理种群间的FST值差异显著性检验,将这些群体分为4组,分别为SC+CQ,GX+FLB+HN+YN,XZ和HB。以长瓣草螽C.gladiatus、峨眉草螽C.emeiensis、悦鸣草螽C.melaenus、竹草螽C.bambusanus为外群,构建的斑翅草螽mtDNA控制区单倍型NJ法系统树形成3个自举支持度较高的分支,其中,分支A由28种单倍体组成,包括本研究中除四川峨眉山(SC)和重庆万州(CQ)以外的7个种群;分支B由12种单倍体组成,包含除菲律宾拉乌尼翁(FLB)和江西南昌(JX)以外的7个种群;分支C由6种单倍型组成,全部来自西藏林芝(XZ)的单倍型。聚类结果表明,斑翅草螽不同地理种群间的遗传分化并不明显,即使是两两群体间FST值差异显著的群体,也未能形成完全独立的分支。     

Phylogeographical analysis reveals multiple conservation units in brook lampreys Lampetra planeri of Portuguese streams

The populations of brook lamprey Lampetra planeri of Portuguese Rivers were analysed phylogeographically using a fragment of 644 bp of the mitochondrial control region of 158 individuals from six populations. Samples representing L. planeri and migratory lampreys Lampetra fluviatilis of rivers draining to the North Sea and the Baltic Sea were also included to assess the relationships of Portuguese samples. The data support a clear differentiation of all the populations studied. Several populations, which are isolated among themselves and also from the migratory lampreys, proved to be entirely composed of private haplotypes, a finding that supports some time of independent evolutionary history for these populations. This, combined with the geographic confinement to small water bodies, justifies the recognition of at least four conservation units in the Portuguese rivers Sado, São Pedro, Nabão and Inha.     

Mitochondrial DNA variation and population genetic structure of the northern redbelly dace (Phoxinus eos)

Two sections of the control region and the genes coding for NADH dehydrogenase sub-units 5 and 6 (ND-5/6) of mitochondrial DNA (mtDNA) were amplified from Phoxinus eos with the polymerase chain reaction. Both sections of the control region were sequenced directly while the ND-5/6 fragment was sequenced in from each end only. Additionally, the entire ND-5/6 fragment was examined for sequence variation using RFLP analysis. No sequence variation was detected in the control region among 70 individuals sampled from 18 populations across three Ontario regions (Spanish River, Madawaska R. and Cataraqui R.). To examine ND-5/6 variation, a total of 75 individuals were sampled from five populations representing two of the three regions (Madawaska River and Cataraqui R.). Six haplotypes were detected by direct sequencing and four by RFLP analysis. Estimates of population subdivision from RFLP data, sequence analysis, and the two data sets combined for the ND-5/6 fragment, suggest that gene flow is restricted within and between regions. However, estimates of sequence divergence for both sequence and RFLP analysis of this fragment suggested that populations were either founded by already differentiated populations or that populations were founded by a single stock and divergence between regions occurred prior to isolation of populations within regions. These estimates of population structure are much greater than those obtained from allozyme analysis. Additionally, high levels of heterozygosity in nuclear DNA, but low mtDNA diversity suggests that populations have experienced reductions in population size sufficient to reduce only mtDNA variation. Random lineage extinction and limited time for the accumulation of new mutations are likely responsible for low levels of mtDNA variation in ND-5/6 and the control region, while functional constraints may limit variation more than expected in the control region in dace and other fishes.     

Structure and Evolution of the Mitochondrial Control Region of Leaf Beetles (Coleoptera: Chrysomelidae): A Hierarchical Analysis of Nucleotide Sequence Variation

Abstract To assess the levels of variation at different evolutionary scales in the mitochondrial (mt) control region of leaf beetles, we sequenced and compared the full mt control region in two genera (Chrysomela and Gonioctena), in two species within a genus (Gonioctena olivacea and G. pallida), in individuals from distant populations of these species in Europe, and in individuals from populations separated by moderate (10- to 100-km) to short (<5-km) distances. In all individuals, a highly repetitive section consisting of the tandem repetition of 12 to 17 imperfect copies of a 107- to 159-bp-long core sequence was observed. This repetitive fragment accounts for roughly 50% of the full control-region length. The sequence variability among repeated elements within the control region of a given individual depends on the species considered: the variability within any G. olivacea individual is much higher than that within G. pallida individuals. Comparisons of the repeated elements, in a phylogenetic framework, within and among individuals of G. olivacea and G. pallida suggests that the repetitive section of the control region experienced recurrent duplications/deletions, leading to some degree of concerted evolution. Comparisons between Chrysomela and Gonioctena control regions revealed virtually no significant sequence similarity, except for two long stretches of A's and several [T(T)A(A)] repeats, all found in the control region of other insect orders. Our analyses allowed us to identify portions of the control region with enough variation for population genetic or phylogeographic studies.     

Mitochondrial DNA Diversity in Three Populations of the Giant Tiger Shrimp Penaeus monodon

Mitochondrial DNA restriction fragment length polymorphism (mtDNA-RFLP) was utilized for determination of genetic variation and population structure in Penaeus monodon collected from Satun (the Andaman Sea) and Surat and Trat (the Gulf of Thailand). Twenty-eight composite haplotypes were generated from 52 restriction profiles of P. monodon mtDNA digested with 11 restriction endonucleases. The size of the entire P. monodon mitochondrial genome was estimated to be 15.913 ± 0.177 kb. The average haplotype diversity in P. monodon was 0.864, whereas the mean nucleotide diversity within populations was 2.51%, 2.22%, and 1.91% for Satun, Trat, and Surat, respectively. Geographic heterogeneity analysis indicated population differentiation between P. monodon from the Andaman Sea and P. monodon from the Gulf of Thailand (p < .0001). On the basis of the high genetic diversity level of P. monodon in Thailand, the Satun and Trat P. monodon populations from the west and east of the pennisula were selected to be founder stocks in our selective breeding program. Received February 23, 1998; accepted September 30, 1998.     

Population differentiation in the redshank (<Emphasis Type="Italic">Tringa totanus</Emphasis>) as revealed by mitochondrial DNA and amplified fragment length polymorphism markers

The redshank (Tringa totanus) is declining throughout Europe and to implement efficient conservation measures, it is important to obtain information about the population genetic structure. The aim of the present study was two-fold. First, we analysed the genetic variation within and between populations in the Baltic region in southern Scandinavia. Evidence of genetic structure would suggest that different populations might require separate management strategies. Second, in an attempt to study large-scale genetic structure we compared the Baltic populations with redshanks from northern Scandinavia and Iceland. This analysis could reveal insights into phylogeography and long-term population history. DNA samples were collected from six breeding sites in Scandinavia presumed to include two subspecies (totanus and britannica) and a further sample from Iceland (subspecies robusta). Two methods were used to study the population genetic structure. Domain II and III of the mitochondrial control region was analysed by DNA sequencing and nuclear DNA was analysed by screening amplified fragment length polymorphism (AFLP) markers. Mitochondrial DNA showed no variation between individuals in domain II. When analysing an 481 bp fragment of domain III seven haplotypes were found among birds. On the basis of mtDNA sequences, redshanks showed some evidence of a recent expansion from a bottlenecked refugial population. Bayesian analyses of AFLP data revealed a significant genetic differentiation between suggested subspecies but not between populations within the Baltic region. Our results indicate that populations of redshanks in Europe constitute at least three separate management units corresponding to the recognised subspecies.     

Population structure of the dusky pipefish (Syngnathus floridae) from the Atlantic and Gulf of Mexico,as revealed by mitochondrial DNA and microsatellite analyses

Aim To elucidate the historical phylogeography of the dusky pipefish (Syngnathus floridae) in the North American Atlantic and Gulf of Mexico ocean basins. Location Southern Atlantic Ocean and northern Gulf of Mexico within the continental United States. Methods A 394‐bp fragment of the mitochondrial cytochrome b gene and a 235‐bp fragment of the mitochondrial control region were analysed from individuals from 10 locations. Phylogenetic reconstruction, haplotype network, mismatch distributions and analysis of molecular variance were used to infer population structure between ocean basins and time from population expansion within ocean basins. Six microsatellite loci were also analysed to estimate population structure and gene flow among five populations using genetic distance methods (F_ST, Nei’s genetic distance), isolation by distance (Mantel’s test), coalescent‐based estimates of genetic diversity and migration patterns, Bayesian cluster analysis and bottleneck simulations. Results Mitochondrial analyses revealed significant structuring between ocean basins in both cytochrome b (Φ_ST = 0.361, P < 0.0001; Φ_CT = 0.312, P < 0.02) and control region (Φ_ST = 0.166, P < 0.0001; Φ_CT = 0.128, P < 0.03) sequences. However, phylogenetic reconstructions failed to show reciprocal monophyly in populations between ocean basins. Microsatellite analyses revealed significant population substructuring between all locations sampled except for the two locations that were in closest proximity to each other (global F_ST value = 0.026). Bayesian analysis of microsatellite data also revealed significant population structuring between ocean basins. Coalescent‐based analyses of microsatellite data revealed low migration rates among all sites. Mismatch distribution analysis of mitochondrial loci supports a sudden population expansion in both ocean basins in the late Pleistocene, with the expansion of Atlantic populations occurring more recently. Main conclusions Present‐day populations of S. floridae do not bear the mitochondrial DNA signature of the strong phylogenetic discontinuity between the Atlantic and Gulf coasts of North America commonly observed in other species. Rather, our results suggest that Atlantic and Gulf of Mexico populations of S. floridae are closely related but nevertheless exhibit local and regional population structure. We conclude that the present‐day phylogeographic pattern is the result of a recent population expansion into the Atlantic in the late Pleistocene, and that life‐history traits and ecology may play a pivotal role in shaping the realized geographical distribution pattern of this species.     

Molecular Phylogeny and Biogeography of the Marine ShrimpPenaeus

The evolutionary relationships among 13 species representing all six subgenera of the shrimp genusPenaeuswere examined using 558 bp of mitochondrial (mt) DNA from the cytochrome oxidase subunit I gene. Analyses of this sequence revealed high genetic divergence between species (d = 8–24%), a finding which contrasts with previous work, which indicated that genetic diversity, based on electrophoretic analysis of allozymes, was extremely low inPenaeus.Three tree-building methods (maximum parsimony, neighbor joining, and maximum likelihood) were concordant in indicating that current subgenera assignments do not reflect evolutionary partitions within the genusPenaeus.While the molecular phylogenies cast doubt on the validity of subgenera, the observed relationships are concordant with biogeographic boundaries across the tropical range ofPenaeus.Both the western Atlantic and eastern Pacific contain monophyletic species pairs which cluster together in all analyses. The Indo-Pacific contains a putative basal taxa (P. indicus), the deepest mtDNA lineages, and the highest diversity, including representatives of all three primary lineages observed inPenaeus.These data are consistent with the suggestion by Dallet al.(1990) thatPenaeusarose in the Indo-Pacific and radiated eastward and westward to account for the current circumtropical distribution of the genus. This phylogenetic framework forPenaeuswill enhance the scientific foundations for wildlife resource management and breeding experiments (hybridization and related manipulations) designed to improve the commercial value of captive strains.     

Molecular Phylogeny for Marine Turtles Based on Sequences of the ND4-Leucine tRNA and Control Regions of Mitochondrial DNA

Marine turtles are divided into two families, the Dermochelyidae and the Cheloniidae. The majority of species are currently placed within the two tribes of the Cheloniidae, the Chelonini and the Carettini, but debate continues over generic and tribal affinities as well as species boundaries. We used nucleotide sequences (907 bp) from the ND4–LEU tRNA region and the control region (526 bp) of mitochondrial DNA to resolve areas of uncertainty in marine turtle (Chelonioidae) systematics. The ND4–LEU tRNA fragment was more conserved than the fragment from the control region, with sequence divergences ranging from 0.026 to 0.148 and 0.067 to 0.267, respectively. Parsimony analysis based only on the ND4–LEU tRNA data suggests that the hawksbill,Eretmochelys imbricata,lies within the tribe Carettini and is closely related to the genusCaretta,but could not resolve the position of the flatback,Natator depressus.A similar analysis based only on the control region sequence data suggested thatN. depressusis affiliated with the Chelonini, but failed to resolve the position ofE. imbricataand the loggerhead,Caretta caretta.In contrast to these results, the combination of both data sets with published cytochrome b data produced a phylogeny based on 1924 bp of sequence data which resolves the position ofE. imbricatarelative toCarettaandLepidochelysand joinsN. depressusas sister to the Carettini. Based on the molecular data, the Chelonini contains theCheloniaspecies, while the Carettini contains the remaining species of Cheloniidae. The control region sequence divergence between Pacific and Atlantic populations of the leatherback,Dermochelys coriacea,was relatively low (0.0081) when compared with the green turtle,Chelonia mydas(0.071–0.074). Atlantic and Pacific populations ofCh. mydaswere found to be paraphyletic with respect to the black turtle,Ch. agassizi,suggesting that the current taxonomic designations within the PacificCheloniaare questionable. This analysis shows the utility of combining sequence data for different regions of mtDNA that by themselves are insufficient to obtain robust phylogenies.     

Molecular characterization of clonal population structure and biogeography of arctic apomictic Daphnia from Greenland and Iceland

As part of a continuing international project to characterize the population genetic (clonal) structure of arctic members of the Daphnia pulex complex, 34 populations from western Iceland (N= 1373), and 76 populations from western Greenland (N= 2917), were surveyed for allozymic variation at six polymorphic enzyme loci. Mean clonal richness (±SE) was 1.91±0.19 and 1.50±0.12 for Iceland and Greenland populations, respectively. Mean clonal diversity (±1 SE) was 1.20±0.07 and 1.13±0.04 for Iceland and Greenland populations, respectively. Four widely distributed clones constituted 92.2% of the total animals surveyed from Iceland, while three locally abundant clones constituted 80.1% of the total animals collected primarily from Disko Island, western Greenland. Selected populations were screened for mitochondrial (mt)DNA variation using PCR-based RFLP analysis of a 2100 bp fragment containing part of the ND4 and ND5 genes. One mtDNA haplotype was very widespread in both western Greenland and western Iceland, although, a number of mutational derivatives were also detected. These data indicate the potential for long-distance dispersal of mtDNA lineages, of the order of hundreds or thousands of kilometers across the arctic. Phylogenetic analysis of the sequence of a 254 base pair (bp) fragment of the control region of the mtDNA molecule revealed two major clades one of which consisted solely of non-melanic lineages, and the other of which consisted almost exclusively of melanic lineages (i.e. one non-melanic lineage also clustered in this clade). Sequence divergence between the two clades averaged 7.3%. Both mitochondrial analyses did not reveal any distinct intraregional clustering of lineages. We discuss our results in reference to previous molecular work done on this arctic Daphnia complex, and we attempt to infer phylogeographic patterning based on geological/glaciological historical events in this region of the arctic.     

Congruence in genetic markers used to describe Mediterranean and Atlantic populations of European hake (Merluccius merluccius L. 1758)

Eight samples of the hake, Merluccius merluccius L., from the Mediterranean basin (370 fishes total) and one from the Atlantic ocean (50 fishes) were analysed in order to assess genetic variability and describe genetic population structure. Five polymorphic protein coding loci were scored (ADH*, PGI‐1*, PGI‐2*, PGM* and SOD‐1*) in eight samples, together with a haplotype variation of four samples, obtained from polymerase chain reaction/restriction fragment length polymorphism (PCR–RFLP) analysis on the mitochondrial DNA control region. The average value for observed heterozygosity was typically higher than expected (showing an excess of heterozygotes among the samples) whereas the haplotype diversity at mtDNA was very low. Samples originating from inside the Mediterranean basin appeared genetically homogeneous but the sample originating from the Atlantic was heterogeneous compared with the Mediterranean populations. Nuclear and mitochondrial gene analysis showed similar results supporting that the Strait of Gibraltar may be considered as a breakpoint area to gene flow.     

The genetic structure of chum salmon (<Emphasis Type="Italic">Oncorhynchus keta</Emphasis> Walbaum) populations inferred from the nucleotide variation of the mitochondrial DNA cytochrome <Emphasis Type="Italic">b</Emphasis> gene

The nucleotide sequences of a fragment of the mitochondrial DNA cytochrome b gene were determined in 12 chum salmon populations from the Russian Far East. The level of genetic diversity in the chum salmon populations from the Iturup Island, northern coast of the Sea of Okhotsk, and Anadyr’ River was found to be higher than in the populations from Kamchatka and Sakhalin, which may be related to the history of their origin and dispersal. The proportions of intrapopulation genetic variability (F _CT) and interpopulation genetic variability within the groups (F _SC) account for 90.87 and 0.9%, respectively, and the intergroup component (F _ST) comprises 8.23%. The predominance of one haplotype, B1, which is common for all populations studied, and a low share of intergroup variability suggest the beginning of colonization by the species of the given region from a common source (group of founders) and a relatively recent time of divergence of the chum salmon populations from the region examined.