Genetic differentiation between populations of swimming crab <Emphasis Type="Italic">Portunus trituberculatus</Emphasis> along the coastal waters of the East China Sea

Portunus trituberculatus is a commercially important species widely spread in the East China Sea. Intraspecific variation of the mitochondrial DNA cytochrome oxidase subunit I (mtDNA COI) gene was investigated in 213 individuals from six localities (Changjiang Estuary, Shengsi Islands, Zhoushan Islands, Dongtou Islands, Dinghai Bay, and Quanzhou Bay) ranging from north (31°21′N) to south (24°55′N) coastal waters of the East China Sea. Overall, a total of 27 mtDNA haplotypes and 21 variable sites were detected in the 787 bp segment of COI gene. Analysis of mtDNA COI sequence data revealed that crabs from the six localities were characterized by moderately high haplotypic diversity (h = 0.787 ± 0.026), while sequence divergence values between haplotypes were relatively low (π = 0.00241 ± 0.00098). Each population was characterized by a single most frequent haplotype, shared among all six localities, and a small number of rare ones, typically present in only one or two individuals and representative of a specific population. However, neither the neighbor-joining tree nor the minimum spanning network (MSN) based on the haplotype data exhibited geographical patterns of the six populations. Mismatch distribution analysis of P. trituberculatus individuals sampled from the six localities suggested that sudden population expansion might have occurred in CJ and SS population that might be consistent with over-exploitation of the swimming crab. Analysis of molecular variance (AMOVA) and F _ST statistics showed that significant genetic differentiation existed among the SS, ZS, DT, DH, and QZ populations, suggesting that gene flow might be reduced, even between the geographically close sites, despite the high potential of dispersal. The possible causes of the observed genetic heterogeneity among the P. trituberculatus populations and the potential applications of the mtDNA COI marker in the artificial breeding and fisheries management are discussed. Handling editor: C. Sturmbauer     

Genetic variation of Mytilus coruscus Gould (Bivalvia: Mytilidae) populations in the East China Sea inferred from mtDNA COI gene Sequence

In order to characterize the genetic relationship of six populations of Mytilus coruscus Gould in the East China Sea, a 681 bp region of mtDNA COI gene was sequenced and analyzed. Eighty four individuals in total were collected from three cultured populations and three wild populations from three localities of the coast of East China Sea. The sequences from these different populations identified 62 polymorphic sites, which included 41 singleton variable sites and 21 parsimony informative sites that defined 45 distinct haplotypes. Phylogenetic analysis showed that most haplotypes were highly interconnected with each other. Thirty seven of the 45 haplotypes were only found in their own populations, seven were found at two-four localities and only haplotype NO.2 was found in all six populations, indicating that most haplotypes were locally restricted. All haplotypes had shaped two similar branches, each including individuals from all six strains. The results of F_ST values indicated that the genetic distances between populations are not closely associated with their geographic distances.     

Genetic diversity and population structure of miiuy croaker populations in East China Sea revealed by the mitochondrial DNA control region sequence

The genetic diversity and population structure of the miiuy croaker (Miichthys miiuy) were investigated. Seventy-six individuals were sampled from six localities of the East China Sea. Genetic variation in DNA sequences was examined from the 5′-end of the mitochondrial DNA control region. High levels of haplotype diversity (h = 0.99333) in the control region were detected, indicating a high level of genetic diversity. A total of 81 polymorphic sites were found, and 65 haplotypes were defined. The results of AMOVA analysis indicated that 97.9% of the genetic variation contained within populations and 2.14% occurred among populations. No significant genealogical branches or clusters were recognized on the NJ tree. Tests of neutral evolution and analysis of mismatch distribution suggested that miiuy croaker might have undergone a population expansion. The knowledge on genetic diversity and genetic structure will be crucial to establish appropriate fishery management stocks for the species.     

Genetic variation and population structure of swimming crab (Portunus trituberculatus) inferred from mitochondrial control region

Genetic variation and population structure in Portunus trituberculatus along the coast of China were revealed according to 617 bp of mitochondrial DNA control region. 90 polymorphic sites defined 53 distinct haplotypes, showing a moderately high diversity among 72 individuals sampled from eight localities. Neighbor-joining tree, statistics analyses of gene flow and genetic differentiation index indicated two populations from Beihai and Laizhou had differentiated. The population from Yingkou, Dandong, Laizhou and Beihai had smaller genetic diversity compared to that from Ningbo, Lianyungang, Qingdao and Japan according to the genetic distance. And mantel test showed significant positive correlation between genetic distance and geographic distance for P. trituberculatus. TCS parsimony network suggested that all the animals sampled were probably the result of recent divergence from a common ancestral haplotype but for Laizhou population. Moreover, the haplotype distribution appeared to correlate with a recent colonization followed by localized genetic differentiation. Mismatch distribution results suggested that Ningbo, Yingkou, Qingdao, Lianyungang and Japan populations, particularly Dandong population had experienced a sudden demographic or spatial expansion. The Pleistocene glaciations might contribute to this process.     

Significant genetic differentiation between the Yellow Sea and East China Sea populations of cocktail shrimp Trachypenaeus curvirostris revealed by the mitochondrial DNA COI gene

The cocktail shrimp Trachypenaeus curvirostris is an ecologically and economically important shrimp species in the Yellow Sea and East China Sea. However, there is no information about its population genetic structure. The population genetic structure and level of gene flow of T. curvirostris from the Yellow Sea and the East China Sea were studied with a 658-bp segment of mtDNA COI gene. In total, 85 individuals were collected from five locations and 13 haplotypes were obtained. The genetic variation of COI gene in five populations was moderate, giving an overall haplotype diversity of 0.6888 ± 0.0432 and nucleotide diversity of 0.0069 ± 0.0038. Conflicting to our expectation, significant genetic differentiation was detected in this species. The result revealed two genetically divergent lineages, displaying clear different geographical distributions in the studied area. The significant genetic differentiation between the Yellow Sea and East China Sea populations might be caused by the Yangtze River outflow. Mismatch distribution revealed that T. curvirostris had undergone population range expansion, possibly before 103,400–109,700 years ago in the last interglaciation, rejecting the sudden demographic expansion.     

Genetic analysis of the populations of Japanese anchovy Engraulis japonicus from the Yellow Sea and East China Sea based on mitochondrial cytochrome b sequence

Japanese anchovy Engraulis japonicus was not only a commercial species but also a key link in the marine food chain in the Yellow Sea and East China Sea. However, in recent years, E. japonicus experienced a deep recession caused by over fishing. Therefore, determination of population genetic structure is essential to underpin resource recovery and to aid delineating and monitoring populations for fishery management. In this study, sequence variation of a 402-bp fragment of mitochondrial cytochrome b (cyt b) gene from ten populations of E. japonicus in the Yellow Sea and East China Sea was determined, detecting 73 haplotypes. Haplotype diversities and nucleotide diversities for the ten populations ranged from 0.4706 ± 0.1177 (D) to 0.9935 ± 0.210 (WH), and from 0.0014 ± 0.0013 (D) to 0.0090 ± 0.0053 (WH), respectively. Analysis of molecular variance (AMOVA) showed no significant differences at all hierarchical levels, and almost all F_ST values were non-significant, indicating no significant population genetic structure in the Yellow Sea and East China Sea. Two indistinct clades with low support values were detected and the analysis of haplotype frequency distribution showed no significant geographic differences among populations. These results supported the null hypothesis that E. japonicus within the Yellow Sea and East China Sea constituted a panmictic mtDNA gene pool. Based on the present study, the existence of separate genetic stocks in the Yellow Sea and East China Sea were not detected. Strong dispersal capacity of planktonic larvae, and ocean current could be the reasons for genetic homogeneity in this species in the Yellow Sea and East China Sea.     

Low mtDNA Cytb diversity and shallow population structure of Eleutheronema tetradactylum in the East China Sea and the South China Sea

Eleutheronema tetradactylum is an economically important fish species in China water. To investigate the genetic diversity and describe population structure of it, an 1151 base pair (bp) fragment of the mitochondrial DNA Cytb sequence was analyzed in 120 individuals from four populations in the East China Sea and the South China Sea. A total of 16 haplotypes were defined by 24 variable nucleotide sites. High level of haplotype diversity and low nucleotide diversity were observed in all populations. The results of AMOVA detected that 89.44% of the genetic variation occurred within populations. Significant genetic differentiations were detected among populations (0.05097, P < 0.05), but no large-scale regional differences were detected. Analysis of neutral evolution and mismatch distribution suggested no recent population expansion happened. The present results provided new information for genetic assessment, fishery management and conservation of this species.     

Genetic Variation Analysis of Mugil cephalus in China Sea Based on Mitochondrial COI Gene Sequences

In this study, genetic diversity and population genetic structure of flathead grey mullet, Mugil cephalus, among four China Sea populations were investigated by COI sequences. All the populations studied had high values of haplotype and nucleotide diversity, except for the Yellow Sea population. In the phylogenetic tree, these haplotypes clustered in two groups, one for the populations from the Bohai and East China seas, and the other from the Yellow and South China seas. Analysis of molecular variance indicated that the northern populations (Bohai and East China) had lower genetic divergence (0.0725, P > 0.05) than that of the southern population (South China) (0.4530-0.6827, P < 0.001), suggesting that two distinct genetic groups exist in Chinese waters. Tests of neutral evolution and mismatch distribution indicated that no historical demographic expansion occurred in these populations. The results provide new information for genetic assessment, fishery management, and conservation of this species.     

中国近海银鲳线粒体COⅠ基因序列变异分析

对采自黄海、东海和南海的7个银鲳群体的线粒体COⅠ基因序列变异进行分析,研究银鲳的遗传多样性、遗传结构和群体历史动态。在所分析的111个个体中检测到16个单倍型。7个群体呈现出高的单倍型多样性（h=0.564～0.688） 和低的核苷酸多样性（π=0.001～0.003）。单倍型遗传学关系、两两群体间的F_ST值和分子方差分析均表明中国近海7个银鲳群体间的遗传分化不显著。中性检验和核苷酸不配对分析均表明中国近海银鲳经历了晚更新世的群体扩张事件,扩张时间约为6.0×10⁴～1.04×10⁵ 年前。研究结果表明,银鲳的卵和幼体具有较强的扩散能力、中国近海的海洋环流以及近期的群体扩张可能是造成中国近海银鲳群体在线粒体COⅠ基因序列上存在较高的遗传同质性的原因。     

Genetic diversity in the mtDNA control region and population structure in the small yellow croaker <Emphasis Type="Italic">Larimichthys polyactis</Emphasis>

The genetic diversity and population genetic structure of the small yellow croaker (Larimichthys polyactis) were investigated. One hundred and fourteen individuals were sampled from 8 localities of the Yellow Sea and the northern East China Sea. Genetic variation in DNA sequences were examined from the first hypervariable region (HVR-1) of the mitochondrial DNA control region. High levels of haplotype diversity (h = 0.98 ± 0.87%) in the HVR-1 region were detected, indicating a high level of genetic diverstiy. A total of 84 polymorphic sites were found, and 87 haplotypes were defined. The pairwise nucleotide differences between samples ranged from 3.83 ± 2.19 to 6.56 ± 3.25. The demographic history of L. polyactis was examined by using neutrality tests and mismatch distribution analysis, which indicated a Pleistocene population expansion at about 49,300–197,000 years. The star burst structure of the minimum spanning tree also suggestted a very recent origin for most haplotypes. Hierarchical molecular variance analysis (AMOVA) and conventional population Fst comparisons revealed no significant genetic structure throughout the examined range, which is inconsistent with previous findings based on the morphological and ecological studies. Long-term dispersal and high gene flow likely have contributed to the genetically homogeneous population structure of the species. The knowledge on genetic diversity and genetic structure will be crucial to establish appropriate fishery management stocks for the species.     

Genetic diversity and population connectivity of the Asian green mussel Perna viridis in South China Sea,inferred from mitochondria DNA markers

The Asian green mussel Perna viridis is ecologically and economically important in the coastal regions of China. In order to characterize the genetic diversity and population connectivity of P. viridis in South China Sea, a 664 bp region of mitochondrial COI gene and a 293 bp region of 16S rRNA gene were sequenced and analyzed for 78 and 92 individuals from four populations in South China Sea, respectively. A total of 15 haplotypes were defined by 14 variable nucleotide sites in COI gene, and 7 haplotypes by 6 variable nucleotide sites in 16S rRNA gene. High haplotype diversity and low nucleotide diversity were observed in COI gene, while moderate haplotype diversity and low nucleotide diversity were observed in 16S rRNA gene. Pairwise F_ST values of COI gene were all negative and those of 16S rRNA gene ranged from −0.01409 to 0.10289. The results showed that no significant genetic divergence (or shallow genetic structure) and high levels of population connectivity among the four populations of P. viridis in South China Sea.     

Population genetic diversity of mud crab (Scylla paramamosain) in Hainan Island of China based on mitochondrial DNA

In this paper, we analyzed population genetic diversity of Scylla paramamosain in Hainan Island of China based on COI gene sequence. Totally 92 individuals were collected from six localities: Haikou, Wenchang, Wanning, Sanya, Dongfang and Danzhou. A 761 bp fragment was sequenced, defining 32 different haplotypes. H4 was the most frequent haplotype, existing in all six localities, while the majority of haplotypes were rare ones, existing in only one or two individuals. Haplotype diversity (h) and nucleotide diversity (π) ranged from 0.625 to 0.914 and from 0.001 to 0.003, with an average of 0.841 and 0.002, respectively. Genetic distance ranged from 0.001 to 0.003 within localities and from 0.002 to 0.003 between localities. The AMOVA analysis indicated a low level of genetic differentiation among six localities (F_ST = 0.0176, P > 0.05). Neutrality tests and mismatch analysis implied a potential population expansion event for this crab species.     

Phylogeography of <Emphasis Type="Italic">Ceriops tagal</Emphasis> (Rhizophoraceae) in Southeast Asia: the land barrier of the Malay Peninsula has caused population differentiation between the Indian Ocean and South China Sea

The genetic structure of mangrove species is greatly affected by their geographic history. Nine natural populations of Ceriops tagal were collected from Borneo, the Malay Peninsula, and India for this phylogeographic study. Completely different haplotype compositions on the east versus west coasts of the Malay Peninsula were revealed using the atpB-rbcL and trnL-trnF spacers of chloroplast DNA. The average haplotype diversity (Hd) of the total population was 0.549, nucleotide diversity (θ) was 0.030, and nucleotide difference (π) was 0.0074. The cladogram constructed by the index of population differentiation (G _ST) clearly separated the South China Sea populations from the Indian Ocean populations. In the analysis of the minimum spanning network, the Indian Ocean haplotypes were all derived from South China Sea haplotypes, suggesting a dispersal route of C. tagal from Southeast Asia to South Asia. The Sunda Land river system and surface currents might be accountable for the gene flow directions in the South China Sea and Bay of Bengal, respectively. The historical geography not only affected the present genotype distribution but also the evolution of C. tagal. These processes result in the genetic differentiation and the differentiated populations that should be considered as Management Units (MUs) for conservation measurements instead of random forestation, which might lead to gene mixing and reduction of genetic variability of mangrove species. According to this phylogeographic study, populations in Borneo, and east and west Malay Peninsula that have unique genotypes should be considered as distinct MUs, and any activities resulting in gene mixing with each other ought to be prevented.     

Lack of genetic structure in endangered large yellow croaker Larimichthys crocea from China inferred from mitochondrial control region sequence data

The large yellow croaker Larimichthys crocea is an important commercial marine fish species in China. However, information about the population structure of this species is limited. In the present study, mitochondrial DNA (mtDNA) control region was sequenced from four populations of the yellow croaker in the southern Yellow Sea, East China Sea and South China Sea to investigate the genetic structure of this species. A total of 54 haplotypes were detected among 62 individuals of large yellow croaker. High levels of population genetic diversity were observed. Among the four populations, the haplotype diversity was between 0.9895 ± 0.0193 (Xiamen) and 1.0000 ± 0.0524 (Lvsi, Zhoushan). The nucleotide diversity ranged from 0.0208 ± 0.0108 (Xuwen) to 0.0246 ± 0.0138 (Lvsi). The results of AMOVA detected no significant differences among populations. The conventional F_ST statistics were negative and insignificant values. These indicated lack of population genetic structure throughout the Yellow Sea, East China Sea and South China Sea, and random mixing of individuals among the samples. Biological characters of large yellow croaker and lack of physical barrier in the studied area could be the reasons for lack of genetic structure in this species.     

Population genetics and recent colonization history of the invasive drosophilid Zaprionus indianus in Mexico and Central America

Zaprionus indianus, also known as the African fig fly, is an invasive pest of a variety of commercial and native fruit. The species was first reported in Brazil in 1999, but has established itself in much of the New World within the last 10–15 years. We used nucleotide sequences from a segment of the mitochondrial cytochrome c oxidase subunit I (COI) gene to examine haplotype relationships, population structure, and infer the colonization history of Z. indianus in Mexico and Panama. Construction of a haplotype network showed that six COI haplotypes, obtained from flies collected at six localities in Mexico and one in Panama, clustered into three distinct clades. Clade composition was generally consistent in flies from Panama to northwestern Mexico, and analysis of molecular variance indicated no significant structure among populations. Three of the six haplotypes from Mexico and Panama were identical to previously reported haplotypes from Brazil. None of the six haplotypes, however, were shared with previously reported haplotypes from potential source populations in the Old World. The results of our genetic analysis suggest that the invasion of Z. indianus into Central America and Mexico most probably includes a northward migration of individuals from Brazil, with the possibility of at least one additional introduction of Z. indianus to the New World. Additional sequence data from potential source populations in the Old World will be required to confidently determine the number of introductions of Z. indianus into the New World, and to identify the geographic source.     

台湾海峡鲐鱼种群遗传结构

以往研究表明,台湾海峡的鲐鱼分属2个地理种群,即东海种群和闽南——粤东地方种群.为研究这2个种群的遗传结构,对鲐鱼闽东(30尾)和闽南(30尾)种群进行了AFLP分析,8对选择性引物在2个种群60个个体中,共扩增出497个位点,其中多态位点343个.闽东和闽南种群的多态位点比例、Nei遗传多样性指数和Shannon遗传多样性指数分别为57.75％、64.59％,0.1779、0.2123,0.2725和0.3228,2个种群的遗传多样性处于同一水平.与其他鱼类对比显示,台湾海峡鲐鱼种群的遗传多样性水平高.生境广及生命周期短被认为是台湾海峡鲐鱼具有较高遗传变异水平的原因;基因分化系数Gst、Shannon遗传多样性指数和AMOVA分析均显示鲐鱼的遗传变异主要来源于种群内,而种群间无明显的遗传分化.Nm显示2个种群间基因交流频繁.种群的显性基因型频率分布显示2个种群有基本相同的种群遗传结构.结果表明,鲐鱼闽东和闽南种群间无明显的遗传差异.幼体较强的扩散能力、海洋环流及洄游特性可能是造成台湾海峡鲐鱼种群间遗传同质性较高的原因.     

Characterization of 20 microsatellite loci by multiplex PCR in swimming crab, Portunus trituberculatus

The swimming crab, Portunus trituberculatus (Crustacea: Decapoda: Brachyura), is one of the most important fishery resources in East Asia. The aim of this work is to develop microsatellite multiplex PCR systems for 20 microsatellites which were isolated from a microsatellite-enriched genomic library and to explore the genetic diversity of P. trituberculatus captured in the coastal regions of the Yellow Sea in Korea. We prepared four multiplex PCR systems (two hexplex and tetraplex systems each) which could be used for the genotyping of 20 markers. Most markers in this system are highly informative with mean polymorphism information contents and observed heterozygosity of 0.913 and 0.930. The total number of alleles observed in this study was 724, and the mean allelic number per locus was 36.2. Significant deviations from the Hardy–Weinberg equilibrium (HWE) were observed at six loci in the Wonsando Island population, but all the loci deviated from the HWE in the Jeonjangpo population. The genetic differentiation between the two populations and the phylogenetic tree constructed by the unweighted pair group method with the arithmetic average suggested that there is no significant genetic difference between Wonsando Island and Jeonjangpo populations. The prepared multiplex PCR systems and population genetic data will be helpful to study phylogeographic analysis as well as to prepare strategies of stock management and aquaculture of P. trituberculatus.     

Inferring population connectivity across the range of distribution of the stiletto shrimp Artemesia longinaris Spence Bate, 1888 (Decapoda,Penaeidae) from DNA barcoding: implications for fishery management

Artemesia longinaris is a marine shrimp endemic to the southwestern Atlantic and distributed from Atafona, Rio de Janeiro (Brazil) to Rawson, Chubut (Argentina). In recent years, this species has become an important target of the commercial fishery as a consequence of the decline in the fishery of more traditional and profitable marine shrimps. In addition, phenotypic variations have been documented in populations along its distribution. Therefore, investigations on the genetics of the fishing stocks are necessary for the development of sustainable management strategies and for understanding the possible sources of these variations. The mitochondrial gene Cytochrome Oxidase I (COI) was used to search for evidence of genetic structure among the populations of Artemesia longinaris and to analyze the phylogenetic relationships among them. A total of 60 specimens were collected from seven different localities, covering its geographical range. The final alignment showed 53 haplotypes (48 individuals and 5 shared), with no biogeographical pattern. The low genetic divergence found, with a non-significant FST value, also suggests the absence of population structure for this gene. These findings indicate a continuous gene flow among the populations analyzed, suggesting that the phenotypic variation is a consequence of different environmental conditions among the localities.     

Genetic differentiation in the mud crab Scylla serrata (Decapoda: Portunidae) within the Indian Ocean

Scylla serrata (Decapoda: Portunidae) is a swimming crab that is widespread in the Indo-Pacific region and commonly found in estuarine and mangrove waters. An extended planktonic larval phase suggests high dispersal potential and the possibility of extensive gene flow between conspecific populations at least on a geographic mesoscale (tens to hundreds of kilometres).Intraspecific variation of the mitochondrial DNA cytochrome oxidase subunit I (mtDNA COI) gene was investigated in 77 individuals from four representative mangrove swamps of the African tropics (Kenya and Zanzibar) by means of DNA sequencing. We examined 535 base pairs (bp) and identified 24 different haplotypes. Each population sample is characterised by a single most frequent haplotype, shared among all four populations, and a small number of rare ones, typically present in only one or two individuals and representative of a specific population.Analysis of molecular variance (AMOVA), F_ST statistics and χ² contingency analysis of spatial distribution of mtDNA haplotype frequencies revealed in toto a significant genetic differentiation among populations. These results could indicate that gene flow might be reduced, even between geographically close sites, despite the high potential for dispersal; anyway, at the recorded level of divergence and owing to the abundance of rare haplotypes and singletons in our data set, repeated sampling over time is necessary to establish whether the recorded pattern of genetic differentiation is stable and biologically significant.Finally, integration of our data with those reported by Gopurenko et al. [Mar. Biol. 134 (1999) 227] on S. serrata from South Africa, Red Sea and Mauritius Islands allowed to infer S. serrata population structure within a larger area of the Indian Ocean region.     

The Phylogeographical Pattern and Conservation of the Chinese Cobra (Naja atra) across Its Range Based on Mitochondrial Control Region Sequences

The vulnerable Chinese cobra (Naja atra) ranges from southeastern China south of the Yangtze River to northern Vietnam and Laos. Large mountain ranges and water bodies may influence the pattern of genetic diversity of this species. We sequenced the mitochondrial DNA control region (1029 bp) using 285 individuals collected from 23 localities across the species'' range and obtained 18 sequences unique to Taiwan from GenBank for phylogenetic and population analysis. Two distinct clades were identified, one including haplotypes from the two westernmost localities (Hekou and Miyi) and the other including haplotypes from all sampling sites except Miyi. A strong population structure was found (Φst = 0.76, P<0.0001) with high haplotype diversity (h = 1.00) and low nucleotide diversity (π = 0.0049). The Luoxiao and Nanling Mountains act as historical geographical barriers limiting gene exchange. In the haplotype network there were two “star” clusters. Haplotypes from populations east of the Luoxiao Mountains were represented within one cluster and haplotypes from populations west of the mountain range within the other, with haplotypes from populations south of the Nanling Mountains in between. Lineage sorting between mainland and island populations is incomplete. It remains unknown as to how much adaptive differentiation there is between population groups or within each group. We caution against long-distance transfers within any group, especially when environmental differences are apparent.