Genetic Heterogeneity of the Giant Tiger Shrimp (Penaeus monodon) in Thailand Revealed by RAPD and Mitochondrial DNA RFLP Analyses

Genetic diversity of the giant tiger shrimp (Penaeus monodon) collected from 5 areas, Chumphon and Trat (Gulf of Thailand), and Phangnga, Satun, and Trang (Andaman Sea), was examined by randomly amplified polymorphic DNA (RAPD) and mitochondrial DNA (16S ribosomal DNA and an intergenic COI-COII) polymorphism. A total of 53 polymorphic fragments from UBC299, UBC273, and UBC268 was consistently scored across all samples. From the respective primers 26, 32, and 30 genotypes were generated. A 260-bp RAPD fragment generated by the primer UBC268 was specifically observed in 95.8% of Trat P. monodon, suggesting that this RAPD could be used as a marker for comparing phenotypic performance of P. monodon from Trat and other geographic samples. In addition, 37 mtDNA composite haplotypes were observed from restriction analysis of the same P. monodon samples. High haplotype diversity (0.855) and nucleotide diversity (3.328%) of Thai P. monodon were observed. Population differentiation of P. monodon between the Andaman Sea and Gulf of Thailand was clearly illustrated by both techniques (P < .0001). Nevertheless, contradictory results on patterns of differentiation were observed between P. monodon within the Gulf of Thailand. Analysis of nuclear DNA polymorphism (RAPD) indicated a genetically significant difference between Chumphon and Trat (P < .0001), whereas mtDNA polymorphism did not show differentiation between these samples (P= .0497). Under the presumption of selective neutrality of these markers, biased female gene flow between Trat and Chumphon P. monodon may exist and be responsible for an anomalous differentiation pattern between these geographic samples. Received October 11, 2000; accepted March 5, 2001.     

Genetic Diversity and Geographic Differentiation of the Giant Tiger Shrimp (Penaeus monodon) in Thailand Analyzed by Mitochondrial COI Sequences

Genetic diversity and geographic differentiation of the giant tiger shrimp, Penaeus monodon, in Thai waters (Satun, Trang, Phangnga, and Ranong in the Andaman Sea and Chumphon and Trat in the Gulf of Thailand) were examined by COI polymorphism (N = 128). We observed 28 COI mitotypes across all investigated individuals. The sequence divergence between pairs of mitotypes was 0.00–20.76%. A neighbor-joining tree clearly indicated lineage separation of Thai P. monodon and large nucleotide divergence between interlineage mitotypes but limited divergence between intralineage mitotypes. High genetic diversity was found (mean sequence divergence = 6.604%, haplotype diversity = 0.716–0.927, π = 2.936–8.532%). F-statistics (F _ST) and an analysis of molecular variance (AMOVA) indicated that the gene pool of Thai P. monodon was not homogeneous but genetically differentiated intraspecifically (P < 0.05). Six samples of P. monodon could be allocated into three different genetic populations: Trat (A), Chumphon (B), and the Andaman samples Satun, Trang, Phangnga, and Ranong (C). Contradictory results regarding patterns of geographic differentiation previously reported by various molecular approaches were clarified by this study.     

Population genetic structure of Penaeus merguiensis in Thailand based on nuclear DNA variation

Polymorphisms of nuclear DNA markers were used to study the genetic variation and differentiation among populations of Penaeus merguiensis in Thailand. The data consisted of three nuclear loci analysed for 163 individuals from five populations collected from the Gulf of Thailand (Trad, Surat Thani and Songkhla) and the Andaman Sea (Satun and Trang). The multilocus F_ST estimated at three nuclear loci revealed great and highly significant differentiation between the Gulf of Thailand and Andaman Sea (F_ST=0.203, P<0.001), mostly due to the polymorphism of locus PvAmy. In addition, significant population differentiation was also found within the Gulf of Thailand. These results were compared to that of a previous mitochondrial DNA survey spanning the same geographical range where two divergent mitochondrial clades were reported. The present study brings support to the fact that the existence of these two clades is not due to a mixture of cryptic species but reflects their phylogeographic origin. The strong genetic structure of P. merguiensis on each side of the Thailand peninsula for both mitochondrial and nuclear genes could thus be linked to the phylogeographic divide between Indian Ocean and Pacific forms on the west and east sides respectively.     

Phylogeography of Padina boryana (Dictyotales,Phaeophyceae) around the Thai-Malay Peninsula

The Indo-Pacific Ocean is a biodiversity hotspot for marine organisms. In this area, most of the research has focused on marine animals, such as reef fish, molluscs and other associated coral fauna, but very little has been done on macroalgae. The Thai-Malay Peninsula is an important north–south barrier in this area, which faces two different oceans – the Indian Ocean and the Pacific Ocean. This study aims to investigate genetic distribution patterns of Padina boryana Thivy around the Thai-Malay Peninsula, where it is common. Three DNA marker regions, the mitochondrion-encoded cytochrome c oxidase subunit 3 gene (cox3); the plastid rbcL, and the nuclear internal transcribed spacer 2 (ITS2) were used to evaluate genetic diversity and the relationships within and between populations. Samples were collected from both the Andaman Sea and Gulf of Thailand sides of the peninsula. Parsimony networks and maximum likelihood and Bayesian analyses showed clearly that there are two separated P. boryana lineages, one restricted to the Gulf of Thailand and the other to the Andaman Sea and other areas of the Indo-Pacific. The effect of different ocean currents along the Andaman Sea and Gulf of Thailand may have shaped these populations of P. boryana. This phylogeographic separation, based on persistent currents in the area, may affect other marine organisms along the Thai peninsula.     

Mitochondrial DNA Diversity of the Asian Moon Scallop, <Emphasis Type="Italic">Amusium pleuronectes</Emphasis> (Pectinidae), in Thailand

Sequence variation of the mitochondrial DNA 16S rRNA region of the Asian moon scallop, Amusium pleuronectes, was surveyed in seven populations along the coast of Thailand. A total of 16 unique haplotypes were detected among 174 individuals with a total 27 variable sites out of 534 bp sequenced. The mitochondrial haplotypes grouped into two distinct arrays (estimated to differ by about 2.62% to 2.99% nucleotide divergence) that characterized samples collected from the Gulf of Thailand versus the Andaman Sea. Low levels of intrapopulation variation were observed, while in contrast, significant divergence was observed between populations from the Gulf of Thailand and Andaman Sea. Results of AMOVA reveal a high F _ST value (0.765) and showed that the majority of the total genetic variance (76.03%) occurred among groups (i.e., Andaman Sea and the Gulf of Thailand) and little among populations within the group (0.52%) and within populations (23.45%). The genetic differentiation between the populations recorded in the present study is similar to that observed in a variety of marine species in the Indo-Pacific. The implications of the findings for management of A. pleuronectes genetic resources in Thailand are discussed.     

Microsatellite Polymorphism and the Population Structure of the Black Tiger Shrimp (Penaeus monodon) in Thailand

: Genetic variation and differentiation of Thai Penaeus monodon from five geographic locations (Chumphon, Trad, Phangnga, Satun, and Trang) were investigated using five microsatellite loci (CUPmo18, Di25, Di27, CSCUPmo1, and CSCUPmo2). The number of alleles across the five loci ranged from 19 to 30, and heterozygosities ranged from 0.49 to 0.95. The mean number of alleles and effective number of alleles per locus were 21.0 to 26.6 and 13.1 to 20.4, respectively. The average heterozygosity across all investigated samples was 0.78, indicating high genetic diversity in this species. Geographic heterogeneity analysis of the results from two of the loci, CUPmo18 and Di25, showed significant differences among the Gulf of Thailand (Trad and Chumphon) but not the Andaman samples. Comparison between regions revealed significant heterogeneity of the Andaman and Trad P. monodon (P < .001), whereas those from Chumphon and the Andaman were genetically similar (P > .05). Significant genetic differentiation was consistently observed between the Andaman-Trad samples (FST = 0.0101, P < .0001) and the Chumphon-Trad samples (FST = 0.0101, P < .0001). On the basis of our analyses, the investigated samples from five geographic locations were allocated to three distinct populations composed of the Andaman Sea (A), Chumphon (B), and Trad (C).     

Genetic heterogeneity of the tropical abalone (Haliotis asinina) revealed by RAPD and microsatellite analyses

Genetic heterogeneity of the tropical abalone, Haliotis asinina was examined using randomly amplified polymorphic DNA (RAPD) and microsatellite analyses. One hundred and thirteen polymorphic RAPD fragments were generated. The percentage of polymorphic bands of H. asinina across overall primers was 85.20%. The average genetic distance of natural samples within the Gulf of Thailand (HACAME and HASAME) was 0.0219. Larger distance was observed when those samples were compared with HATRAW from the Andaman Sea (0.2309 and 0.2314). Geographic heterogeneity and F(ST) analyses revealed population differentiation between H. asinina from the Gulf of Thailand and the Andaman Sea (p < 0.0001). Three microsatellite loci (CUHas1, CUHas4 and CUHas5) indicated relatively high genetic diversity in H. asinina (total number of alleles = 26, 5, 23 and observed heterozygosity = 0.84, 0.42 and 0.33, respectively). Significant population differentiation was also found between samples from different coastal regions (p < 0.0001). Therefore, the gene pool of natural H. asinina in coastal Thai waters can be genetically divided to 2 different populations; the Gulf of Thailand (A) and the Andaman Sea (B).     

Genetic Diversity of the Giant Tiger Shrimp (Penaeus monodon) in Thailand Revealed by PCR-SSCP of Polymorphic EST-Derived Markers

A total of 90 ESTs from normal and 157 from subtractive ovarian cDNA libraries of the giant tiger shrimp (Penaeus monodon) were sequenced. SSCP analysis of disulfide isomerase (DSl), zinc finger protein (ZFP), PMO920, and PMT1700 was carried out for population genetic studies of P. monodon in Thai waters. The number of codominant alleles per locus for overall samples was 6 for PMO920, 5 for PMT1700, and 12 for ZFP, and there were 19 dominant alleles for DSI. The observed heterozygosity of each geographic sample was 0.3043–0.5128 for PMO920, 0.3462–0.4643 for PMT1700, and 0.5000–0.8108 for ZFP. Linkage disequilibrium analysis indicated that genotypes of these loci segregate randomly (P > 0.05). Low genetic distance was found between pairs of geographic samples (0.0077–0.0178). The neighbor-joining tree constructed from the average genetic distance of overall loci allocated the Andaman samples (Satun, Trang, and Phangnga) into one cluster, and Chumphon and Trat into other clusters. Geographic differentiation between Satun-Trat and Satun-Phangnga was found only at the ZFP locus (P < 0.05), suggesting low degrees of genetic subdivision of Thai P. monodon.     

Genetic Heterogeneity of the Blue Swimming Crab (Portunus pelagicus) in Thailand Determined by AFLP Analysis

Genetic diversity and population differentiation of the blue swimming crab (Portunus pelagicus) in Thailand, originating from Ranong and Krabi located in the Andaman Sea (west) and Chanthaburi, Prachuap Khiri Khan, and Suratthani located in the Gulf of Thailand (east), were examined by AFLP analysis. High genetic diversity of P. pelagicus in Thai waters was found (N=72). The four primer combinations generated 227 AFLP fragments, and the percentage of polymorphic bands in each geographic sample was 66.19-94.38%. The mean genetic distance between pairs of samples was 0.1151-0.2440. Geographic heterogeneity analyses using the exact test and FST-based statistics between all pairwise comparisons were statistically significant (P<0.01), indicating a fine-scale level of intraspecific population differentiation of Thai P. pelagicus. The estimated number of migrants per generation (Nem) was 0.26-0.76, suggesting restricted gene flow levels of P. pelagicus in Thai waters.     

Sequence variations of the first ribosomal internal transcribed spacer of Penaeus species in Thailand

The ribosomal DNA internal transcribed spacer 1 (ITS1) was investigated in the search for additional genetic marker that is suitable for population studies of the penaeid shrimps. The sequence variations of the ITS1 were determined and found to be informative in estimating phylogenies in that they differentiate four species of penaeid shrimps, namely Penaeus merguiensis, Penaeus silasi, Penaeus monodon and Penaeus semisalcatus and the populations of P. merguiensis collected in the Gulf of Thailand and the Andaman Sea. The length of the ITS1 ranged from 499 to 772 bp, with a GC content of 63.30-67.37%. Four microsatellite loci are found in the ITS1 at 5′ end and the middle of region and seem to be associated with sequence divergence and size variation in Penaeus species. Some microsatellites were found in only one specie, (GCGA)₄ in P. semisalcatus and (CGGA)_4-9 in P. monodon. These microsatellite regions are considerably long enough and the level of intragenomic variation in P. merguiensis is less than that between different species, hence, provide a great potential use in the population studies.     

Population genetic structure of Penaeus monodon, in relation to monsoon current patterns in Southwest, East and Andaman coastal waters of India

The black tiger shrimp (Penaeus monodon), a commercially important penaeid species, is widely distributed across the Indo-Pacific region. Genetic diversity in P. monodon collected from eight geographical regions in Southwest, East and Andaman coastal waters of India (N = 418) was investigated using 10 polymorphic microsatellite loci. Average observed heterozygosity at sampled loci were high, ranging from 0.643 (Coromandel Coast) to 0.753 (South Andaman). Pairwise F_ST (ranged from 0.005 to 0.078) and R_ST (ranged from 0.005 to 0.171) estimates revealed surprisingly strong and statistically significant genetic structure among tiger shrimp populations. A synthetic map generated by multidimensional scaling shows an apparent cline in allele frequencies paralleling the roughly circular flow of surface currents in the Bay of Bengal. Significant heterozygote deficiencies were noted in most population samples at most loci. Andaman Island sites showed the highest diversity. Recognition of high genetic diversity and distinct population structuring of P. monodon in Indian seas has important implications for future domestication of this species in India, for two reasons: identification of the best wild founding stocks for aquaculture and, subsequently, the potential impacts of release of domesticates to the wild, either accidentally or deliberately (i.e. for stock enhancement).     

Genetic structure of the endangered Irrawaddy dolphin (Orcaella brevirostris) in the Gulf of Thailand

The Irrawaddy dolphin (Orcaella brevirostris) is an endangered, small cetacean species which is widely distributed in rivers, estuaries, and coastal waters throughout the tropical and subtropical Indo-Pacific. Despite the extensive distribution of this species, little is known of individual movements or genetic exchange among regions in Thailand. Here, we evaluate the genetic diversity and genetic structure of O. brevirostris in the eastern, northern and western Gulf of Thailand, and Andaman Sea. Although phylogenetic relationships and network analysis based on 15 haplotypes obtained from 32 individuals reveal no obvious divergence, significant genetic differentiation in mitochondrial DNA (overall F_ST = 0.226, P < 0.001; Φ_ST = 0.252, P < 0.001) is apparent among regions. Of 18 tested microsatellite loci, 10 are polymorphic and successfully characterized in 28 individuals, revealing significant genetic differentiation (overall F_ST = 0.077, P < 0.05) among the four sampling sites. Structure analysis reveals two inferred genetic clusters. Additionally, Mantel analysis demonstrates individual-by-individual genetic distances and geographic distances follow an isolation-by-distance model. We speculate that the significant genetic structure of O. brevirostris in Thailand is associated with a combination of geographical distribution patterns, environmental and anthropogenic factors, and local adaptations.     

Ontogenetic variation in diet and habitat of Irrawaddy dolphins (Orcaella brevirostris) in the Gulf of Thailand and the Andaman Sea

Irrawaddy dolphins (Orcaella brevirostris) are threatened, little‐known cetaceans primarily jeopardized by fishing gear entanglement. Information regarding life history, foraging ecology, and movement are crucial to determine management units and conservation regions. This is the first analysis of the ontogenetic changes in diet and habitat of Irrawaddy dolphins from the Gulf of Thailand and the Andaman Sea using stable isotopes from skin and teeth. Results suggest limited age and sex structure indicated by weak ontogenetic and sexual variability in δ¹⁵N and δ¹³C in teeth. Significant variation in δ¹³C and δ¹⁵N values were observed between three Gulf regions and the Andaman Sea, indicating distinct regional groups. Isotope mixing models run on soft tissues from the eastern Gulf revealed a diet based primarily on fishes and secondarily on crustaceans, suggesting overlap with fishery targets. Conservation strategies that focus on reducing regional competition with humans and bycatch mortality are proposed. Fishing gear improvements and monitoring of fishing operations are a potential immediate response to reduce anthropogenic impact.     

Population Structure of Tropical Abalone (<Emphasis Type="Italic">Haliotis asinina</Emphasis>) in Coastal Waters of Thailand Determined Using Microsatellite Markers

Three partial genomic libraries were constructed from genomic DNA of the tropical abalone (Haliotis asinina) that was digested with AluI, vortexed/sonicated, and digested with mixed enzyme (AluI, HincII, and RsaI). The libraries yielded 0.02%, 0.42%, and 1.46% positive microsatellite-containing clones, respectively. Eleven clones each of perfect, imperfect, and compound microsatellites were isolated. Ten primer pairs (CUHas1–CUHas10) were analyzed to evaluate their polymorphic level. The numbers of alleles per locus, observed heterozygosity (H₀), and expected heterozygosity (H_e) ranged from 3 to 26 alleles, and varied between 0.27 and 0.85 and between 0.24 and 0.93, respectively. Three microsatellite loci (CUHas2, CUHas3, and CUHas8) were further used for examination of genetic diversity and differentiation of natural H. asinina in coastal waters of Thailand. Genetic variabilities in terms of the effective number of alleles (n_e), H₀, and H_e were higher in 2 samples from the Gulf of Thailand (n_e = 9.37, 7.66; H₀ = 0.62, 0.78; and H_e = 0.87, 0.86) than those of one sample (n_e = 6.04; H₀ = 0.58; and H_e = 0.62) derived from the Andaman Sea. Assessment of genetic heterogeneity, including allele frequency comparison and pairwise F_ST analysis, indicated interpopulational differentiation, between natural H. asinina from the Gulf of Thailand and that from the Andaman Sea (P < 0.0001).     

Catch composition and aspects of the biology of sharks caught by Thai commercial fisheries in the Andaman Sea

Catch composition, landing patterns and biological aspects of sharks caught by commercial fishing fleet operating in the Andaman Sea were recorded from landing sites in Ranong province of Thailand over a period of 1 year. Of the 64 species previously reported in the existing Thailand checklist, only 17 species were recorded in this study. Shark landings from the Andaman Sea appear now to be dominated largely by bamboo sharks Chiloscyllium spp. (Hemiscylliidae), which contribute c. 65% of the total number of sharks recorded. The carcharhinid sharks comprised c. 30·5% to the total catch, while the remaining c. 4·5% of landings comprised sharks from the families Squalidae, Stegostomatidae, Sphyrnidae and Triakidae. The catch composition is remarkably different from the previous landing survey in 2004, in that the current study found noticeable declines in landings of slow‐growing, late‐ maturing and low‐fecundity species (especially sphyrnid and carcharhinid species). The absences of many species and changes in life‐stage composition suggest that the populations of these groups may be close to collapse. The results from this study emphasize the urgency for additional research and monitoring efforts and also the need for management incentives in order to manage shark fisheries effectively in the Andaman Sea.     

Systematics,genetics, and biogeography of intertidal mites (Acari,Oribatida) from the Andaman Sea and Strait of Malacca

This study demonstrates for the first time the presence of marine‐associated mites in the Andaman Sea and Strait of Malacca and reveals a relatively high diversity of these taxa with six species from two different families: Selenoribatidae and Fortuyniidae. Indopacifica, a new genus of Selenoribatidae, is described from Thailand and Malaysia, with two new species, Indopacifica pantai n. sp. and Indopacifica parva n. sp. The genus is characterized by the unique combination of following characters: lacking lamellar ridges, incomplete dorsosejugal suture, fourteen pairs of notogastral setae, and presence of epimeral foveae. A phylogenetic reconstruction based on 18S ribosomal RNA sequences clearly confirms the distinctness of the new genus Indopacifica and places it close to the genus Rhizophobates. The lack of molecular genetic data of possible relatives impedes a clear assessment, and hence, we emphasize the need for further combined approaches using morphological and molecular genetic sequence data. All species show wide distribution areas within this geographic region suggesting that these taxa are good dispersers despite their minute size and wingless body. Molecular genetic data demonstrate recent gene flow between far distant populations of I. pantai n. sp. from the coasts of Thailand and two islands of Malaysia and hence confirm this assumption. The seasonally changing surface currents within this geographic area may favor hydrochorous dispersal and hence genetic exchange. Nevertheless, morphometric data show a slight trend to morphological divergence among the studied populations, whereas this variation is suggested to be a result of genetic drift but also of habitat differences in one population of Alismobates pseudoreticulatus.     

Phylogeography of the pharaoh cuttle Sepia pharaonis based on partial mitochondrial 16S sequence data

The pharaoh cuttle Sepia pharaonis Ehrenberg, 1831 (Mollusca: Cephalopoda: Sepiida) is a broadly distributed species of substantial fisheries importance found from east Africa to southern Japan. Little is known about S. pharaonis phylogeography, but evidence from morphology and reproductive biology suggests that Sepia pharaonis is actually a complex of at least three species. To evaluate this possibility, we collected tissue samples from Sepia pharaonis from throughout its range. Phylogenetic analyses of partial mitochondrial 16S sequences from these samples reveal five distinct clades: a Gulf of Aden/Red Sea clade, a northern Australia clade, a Persian Gulf/Arabian Sea clade, a western Pacific clade (Gulf of Thailand and Taiwan) and an India/Andaman Sea clade. Phylogenetic analyses including several Sepia species show that S. pharaonis sensu lato may not be monophyletic. We suggest that “S. pharaonis” may consist of up to five species, but additional data will be required to fully clarify relationships within the S. pharaonis complex.     

Distribution and molecular phylogeny of the dinoflagellate genus Ostreopsis in Thailand

The toxic benthic dinoflagellate genus Ostreopsis has been connected to the production of palytoxin and its analogs in many tropical and temperate areas. Although the type species, O. siamensis, was originally described from the Gulf of Thailand in 1901, little is known about the species composition and distribution of the genus Ostreopsis in Thailand. In this study, a total of 64 Ostreopsis strains isolated from the Andaman Sea as well as the Gulf of Thailand were investigated by analyzing the nucleotide sequences of the LSU rDNA D1/D2, D8/D10 and ITS-5.8S rDNA regions. Phylogenetic analyses (BI and ML) resulted in some of the strains being assigned to previously described clades, O. cf. ovata and Ostreopsis sp. 6, and revealed the existence of a novel clade named Ostreopsis sp. 7, which exhibited large genetic distances from the other clades. Among O. cf. ovata, several strains from Thailand were formed into a new subclade, the Thailand subclade, whereas a few strains belonged to the South China Sea subclade. Morphometric characteristics such as the cell sizes of the two O. cf. ovata subclades and those of Ostreopsis sp. 7 were not significantly different from each other (p > 0.05). Their characteristics were similar but slightly different from those of O. ovata and were significantly different from those of Ostreopsis sp. 6 (p < 0.05). Toxicities of Ostreopsis from Thailand were evaluated using mouse bioassay. Strains of Ostreopsis sp. 6 and Ostreopsis sp. 7 tested were highly toxic, while the two subclades of O. cf. ovata strains seemed to be nontoxic. This study suggests that toxic Ostreopsis sp. 7 is distributed in the Andaman Sea, whereas the two subclades of O. cf. ovata and toxic Ostreopsis sp. 6 are distributed in the Gulf of Thailand.