Your search keyword '"COI mitochondrial DNA"' showing total 14 results

1. DNA barcoding of an amphidromous palaemonid shrimp recruiting to the Palu River, Central Sulawesi, Indonesia

Author

Rosyida, Eka, Moore, Abigail Mary, Serdiati, Novalina, Ndobe, Samliok, Siddik, Judistira, Ma, Wanshu, Series Editor, Edy, Nur, editor, Alam, Anshary, editor, Rijal, Syamsu, editor, Pratama, Rahadian, editor, Wibowo, Agung, editor, and Kasim, Anita Ahmad, editor

Published

2023

2. Phylogeography of the Atlantic Blue Crab Callinectes sapidus (Brachyura: Portunidae) in the Americas versus the Mediterranean Sea: Determining Origins and Genetic Connectivity of a Large-Scale Invasion.

Author

Schubart, Christoph D., Deli, Temim, Mancinelli, Giorgio, Cilenti, Lucrezia, Gil Fernández, Alberto, Falco, Silvia, and Berger, Selina

Subjects

*BLUE crab, *CRABS, *PHYLOGEOGRAPHY, *OCEAN currents, *GENETIC variation, *GENE flow, *PORTUNIDAE

Abstract

Simple Summary: Due to its large size and importance in commercial and recreational fishery, the blue crab, Callinectes sapidus, has always been a well-known crab species all along the temperate and tropical American east coast. Over the past century, there have been increasing reports of this species from Africa, Asia, and Europe. However, the corresponding introduction pathways remain a reason for speculation. Its long larval development in marine plankton and tolerance towards varying salinities are prerequisites for a successful dispersal by marine currents or in ballast waters. On the other hand, being a highly valued seafood, it is conceivable that C. sapidus may have been intentionally released to establish breeding populations elsewhere. The species started expanding conspicuously in the east Mediterranean after the 1930s (Nile Delta, Thessaloniki Bay). On the other hand, western Mediterranean records are much more recent and regionally confined. The reconstruction of their origin is the main goal of the current study. For that purpose, the genetic composition of populations from the American native range and from the entire Mediterranean needed to be included and used for the overall comparison. It appears that only a few founding individuals are responsible for the invasion into Spanish and Italian waters, arguing in favor of a dispersal theory. The American blue crab Callinectes sapidus is a particularly successful invader in estuarine ecosystems worldwide. Despite increasing awareness of its potential harm, the invasion history and underlying genetic diversity of this species within the Mediterranean Sea remain unknown. This study constitutes the first large-scale approach to study phylogeographic patterns of C. sapidus in Europe, facilitated by the first comparison of all currently available COI sequence data. For this investigation, 71 individuals of C. sapidus were newly analyzed and the entire COI gene was sequenced and used for a comparative phylogeographic analyses. For the first time, two separately used adjacent regions of this gene were combined in a single dataset. This allowed emphasizing the prevalence of three geographically defined lineages within the native range: (1) eastern North America, including the Gulf of Mexico, (2) the Caribbean, and (3) Brazil. New data from the Mediterranean reveal that non-native populations of C. sapidus are characterized by a conspicuously low genetic diversity (except for Turkey, where stocking took place), and that there is surprisingly low connectivity among established populations. The occurrence of strong genetic bottlenecks suggests few founder individuals. This confirms that, even under a scenario of restricted large-scale gene flow, a very limited number of invasive individuals is sufficient for a massive impact. [ABSTRACT FROM AUTHOR]

Published

2023

3. Phylogeography of the Atlantic Blue Crab Callinectes sapidus (Brachyura: Portunidae) in the Americas versus the Mediterranean Sea: Determining Origins and Genetic Connectivity of a Large-Scale Invasion

Author

Christoph D. Schubart, Temim Deli, Giorgio Mancinelli, Lucrezia Cilenti, Alberto Gil Fernández, Silvia Falco, and Selina Berger

Subjects

Atlantic Ocean, invasion biology, gene flow, genetic bottleneck, founder effect, COI mitochondrial DNA, Biology (General), QH301-705.5

Abstract

The American blue crab Callinectes sapidus is a particularly successful invader in estuarine ecosystems worldwide. Despite increasing awareness of its potential harm, the invasion history and underlying genetic diversity of this species within the Mediterranean Sea remain unknown. This study constitutes the first large-scale approach to study phylogeographic patterns of C. sapidus in Europe, facilitated by the first comparison of all currently available COI sequence data. For this investigation, 71 individuals of C. sapidus were newly analyzed and the entire COI gene was sequenced and used for a comparative phylogeographic analyses. For the first time, two separately used adjacent regions of this gene were combined in a single dataset. This allowed emphasizing the prevalence of three geographically defined lineages within the native range: (1) eastern North America, including the Gulf of Mexico, (2) the Caribbean, and (3) Brazil. New data from the Mediterranean reveal that non-native populations of C. sapidus are characterized by a conspicuously low genetic diversity (except for Turkey, where stocking took place), and that there is surprisingly low connectivity among established populations. The occurrence of strong genetic bottlenecks suggests few founder individuals. This confirms that, even under a scenario of restricted large-scale gene flow, a very limited number of invasive individuals is sufficient for a massive impact.

Published

2022

4. Diversity of the Pterasteridae (Asteroidea) in the Southern Ocean: a molecular and morphological approach.

Author

Jossart, Quentin, Kochzius, Marc, Danis, Bruno, Saucède, Thomas, and Moreau, Camille V E

Subjects

*DNA data banks, *BIOLOGICAL classification, *STARFISHES, *OCEAN

Abstract

An integrative approach is crucial in discrimination of species, especially for taxa that are difficult to identify based on morphological characters. In this study, we combine genetics and morphology to assess the diversity of Pterasteridae, a sea star family diversified in deep-sea and polar environments. Because of their derived anatomy and the frequent loss of characters during preservation, Pterasteridae are a suitable case for an integrative study. The molecular identification of 191 specimens (mostly from the Southern Ocean) suggests 26–33 species in three genera (Diplopteraster , Hymenaster and Pteraster), which match the morphological identification in 54–62% of cases. The mismatches are either different molecular units that are morphologically indistinguishable (e.g. Pteraster stellifer units 2 and 4) or, conversely, nominal species that are genetically identical (e.g. Hymenaster coccinatus/densus/praecoquis). Several species are shared between the Northern and Southern Hemispheres (e.g. Pteraster jordani/affinis). In conclusion, the taxonomic status of some groups is confirmed, but for others we find the need to re-evaluate the taxonomy at both genus and species levels. This work significantly increases the DNA barcode library of the Southern Ocean species and merges taxonomic information into an identification key that could become a baseline for future studies (pterasteridae-so.identificationkey.org). [ABSTRACT FROM AUTHOR]

Published

2021

5. Genetic variation in intraspecific populations of Rabdophaga rosaria (Diptera: Cecidomyiidae) indicating possible diversification scenarios into sibling species along with host range expansion on willows (Salicaceae: Salix).

Author

Sato, Shinsuke, Harris, Keith M, Collet, Dominique M, Kim, Wanggyu, and Yukawa, Junichi

Subjects

*WILLOWS, *GALL midges, *DIPTERA, *MITOCHONDRIAL DNA, *SALICACEAE

Abstract

We analysed the COI gene of mitochondrial DNA extracted from larvae of Rabdophaga (Diptera: Cecidomyiidae) that induce rosette galls on Salix in the Holarctic Region. Genetic data show that they belong to species groups of Rabdophaga rosaria and Rabdophaga strobiloides. A maximum likelihood tree indicates that R. rosaria and R. strobiloides populations are divided into clades 1 and 2, respectively. Clade 1 is divided into subclades 1 and 2, and the latter is further divided into subclades 2A and 2B. Subclade 1 consists of populations on several Salix species of section Cinerella in subgenus Vetrix in Georgia and the UK. Subclade 2A contains populations on Salix alba (section Salix , subgenus Salix) in The Netherlands and the UK. Subclade 2B consists of populations on section Helix in Poland, Phylicifoliae in Alaska and Salix species in the Eastern Palaearctic Region. The genetic differences between populations of subclades 1, 2A and 2B range from 1.06 to 3.46%. We propose a possible diversification scenario of R. rosaria into sibling species through the expansion of host plant ranges. Clade 2 consists of R. strobiloides populations on two Alaskan Salix species of the sections Hastatae and Sitchenses in subgenus Vetrix. [ABSTRACT FROM AUTHOR]

Published

2020

6. A new record and molecular characterization of the Green Turtle Chelonia mydas (Testudines, Cheloniidae) in Sicilian coastal waters.

Author

Caracappa, Santo, Persichetti, Maria Flaminia, Piazza, Antonio, Gentile, Antonino, Marineo, Sandra, Currò, Vittoria, Iraci Fuintino, Antonio, Marrone, Federico, and Arculeo, Marco

Abstract

A juvenile specimen of the Green Turtle, Chelonia mydas, was recovered in Sicilian coastal waters close to Avola (Syracuse province, south-eastern Sicily, Italy). Before being released, the specimen was measured and inspected for the presence of ingested hooks or other possible harms to its health. A fragment of the mtDNA marker COI was amplified and sequenced in order to provide the first molecular data for the species from the central Mediterranean area. The possible influence of climate change on the occurrence of this thermophilic species in the central Mediterranean area is briefly discussed. [ABSTRACT FROM AUTHOR]

Published

2017

7. Diversity of the Pterasteridae (Asteroidea) in the Southern Ocean: a molecular and morphological approach

Author

Quentin Jossart, Camille Moreau, Bruno Danis, Marc Kochzius, Thomas Saucède, Marine Biology, Ecology and Biodiversity, Vrije Universiteit Brussel [Bruxelles] (VUB), Laboratoire de Biologie Marine (LBM), Université libre de Bruxelles (ULB), Biogéosciences [UMR 6282] [Dijon] (BGS), Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Centre National de la Recherche Scientifique (CNRS), Work supported by the 'Refugia and Ecosystem Tolerance in the Southern Ocean' project (RECTO, BR/154/A1/RECTO) funded by the ` Belgian Science Policy Office' (BELSPO). This is contribution no. 15 to the RECTO project., Biology, and Ecology and Systematics

Subjects

morphological systematics, 0106 biological sciences, 0301 basic medicine, COI mitochondrial DNA, media_common.quotation_subject, Biology, 010603 evolutionary biology, 01 natural sciences, taxonomy, 03 medical and health sciences, identification key, 14. Life underwater, Pterasteridae, Ecology, Evolution, Behavior and Systematics, media_common, cryptic species, Ecology, echinoderms, biology.organism_classification, phylogenetics, 030104 developmental biology, deep sea, Antarctica, Animal Science and Zoology, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Sciences exactes et naturelles, Diversity (politics)

Abstract

An integrative approach is crucial in discrimination of species, especially for taxa that are difficult to identify based on morphological characters. In this study, we combine genetics and morphology to assess the diversity of Pterasteridae, a sea star family diversified in deep-sea and polar environments. Because of their derived anatomy and the frequent loss of characters during preservation, Pterasteridae are a suitable case for an integrative study. The molecular identification of 191 specimens (mostly from the Southern Ocean) suggests 26–33 species in three genera (Diplopteraster, Hymenaster and Pteraster), which match the morphological identification in 54–62% of cases. The mismatches are either different molecular units that are morphologically indistinguishable (e.g. Pteraster stellifer units 2 and 4) or, conversely, nominal species that are genetically identical (e.g. Hymenaster coccinatus/densus/praecoquis). Several species are shared between the Northern and Southern Hemispheres (e.g. Pteraster jordani/affinis). In conclusion, the taxonomic status of some groups is confirmed, but for others we find the need to re-evaluate the taxonomy at both genus and species levels. This work significantly increases the DNA barcode library of the Southern Ocean species and merges taxonomic information into an identification key that could become a baseline for future studies (pterasteridae-so.identificationkey.org)., info:eu-repo/semantics/published

Published

2020

8. Phylogeography of the Atlantic Blue Crab Callinectes sapidus (Brachyura: Portunidae) in the Americas versus the Mediterranean Sea: Determining Origins and Genetic Connectivity of a Large-Scale Invasion.

Author

Schubart CD, Deli T, Mancinelli G, Cilenti L, Gil Fernández A, Falco S, and Berger S

Abstract

The American blue crab Callinectes sapidus is a particularly successful invader in estuarine ecosystems worldwide. Despite increasing awareness of its potential harm, the invasion history and underlying genetic diversity of this species within the Mediterranean Sea remain unknown. This study constitutes the first large-scale approach to study phylogeographic patterns of C. sapidus in Europe, facilitated by the first comparison of all currently available COI sequence data. For this investigation, 71 individuals of C. sapidus were newly analyzed and the entire COI gene was sequenced and used for a comparative phylogeographic analyses. For the first time, two separately used adjacent regions of this gene were combined in a single dataset. This allowed emphasizing the prevalence of three geographically defined lineages within the native range: (1) eastern North America, including the Gulf of Mexico, (2) the Caribbean, and (3) Brazil. New data from the Mediterranean reveal that non-native populations of C. sapidus are characterized by a conspicuously low genetic diversity (except for Turkey, where stocking took place), and that there is surprisingly low connectivity among established populations. The occurrence of strong genetic bottlenecks suggests few founder individuals. This confirms that, even under a scenario of restricted large-scale gene flow, a very limited number of invasive individuals is sufficient for a massive impact.

Published

2022

9. Diversity of the Pterasteridae (Asteroidea) in the Southern Ocean: a molecular and morphological approach

Author

Jossart, Quentin, Kochzius, Marc, Danis, Bruno, Saucède, Thomas, Moreau, Camille, Jossart, Quentin, Kochzius, Marc, Danis, Bruno, Saucède, Thomas, and Moreau, Camille

Abstract

An integrative approach is crucial in discrimination of species, especially for taxa that are difficult to identify based on morphological characters. In this study, we combine genetics and morphology to assess the diversity of Pterasteridae, a sea star family diversified in deep-sea and polar environments. Because of their derived anatomy and the frequent loss of characters during preservation, Pterasteridae are a suitable case for an integrative study. The molecular identification of 191 specimens (mostly from the Southern Ocean) suggests 26–33 species in three genera (Diplopteraster, Hymenaster and Pteraster), which match the morphological identification in 54–62% of cases. The mismatches are either different molecular units that are morphologically indistinguishable (e.g. Pteraster stellifer units 2 and 4) or, conversely, nominal species that are genetically identical (e.g. Hymenaster coccinatus/densus/praecoquis). Several species are shared between the Northern and Southern Hemispheres (e.g. Pteraster jordani/affinis). In conclusion, the taxonomic status of some groups is confirmed, but for others we find the need to re-evaluate the taxonomy at both genus and species levels. This work significantly increases the DNA barcode library of the Southern Ocean species and merges taxonomic information into an identification key that could become a baseline for future studies (pterasteridae-so.identificationkey.org)., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2020

10. Mitochondrial DNA variation and population genetic structure of white shrimp Fenneropenaeus indicus along the coastal belt of Sri Lanka.

Author

de Croos, M.D.S.T and Pálsson, Snæbjörn

Subjects

*PENAEIDAE, *MITOCHONDRIAL DNA, *POPULATION genetics, *ANIMAL population genetics, *PENAEUS schmitti, *PENAEUS chinensis, *CYTOCHROME oxidase structure

Abstract

The white shrimp (Fenneropenaeus indicus) is an ecologically and economically important penaeid species, widely distributed in the Indo-Pacific region. To obtain information on the genetic variation and population structure of F. indicus, sequencing analysis was conducted on a fragment of cytochrome oxidase subunit I (COI) of the mitochondrial DNA. Individuals (n = 217) from eight locations covering four main geographic regions along the coastal belt of Sri Lanka were analysed. The sequences, a 602-base pairs (bp) fragment in length, revealed high haplotype and nucleotide diversity that yielded 82 haplotypes. A mismatch analysis produced a unimodal distribution of pairwise differences between haplotypes, consistent with a historic rapid population expansion. Little or no genetic differentiation was observed between most samples, although genetic distances based on pairwise differences between haplotypes started to increase when geographic distances exceeded about 130 km. A population in Bundala (southeast) had lower diversity and was genetically differentiated from the others. This information could be important for the sustainable management and utilization of this resource. [ABSTRACT FROM PUBLISHER]

Published

2010

11. DNA barcoding of stygofauna uncovers cryptic amphipod diversity in a calcrete aquifer in Western Australia’s arid zone.

Author

BRADFORD, T., ADAMS, M., HUMPHREYS, W. F., AUSTIN, A. D., and COOPER, S. J. B.

Subjects

*GROUNDWATER animals, *AMPHIPODA, *CALCRETES, *AQUIFERS, *FOOD chains

Abstract

The arid Yilgarn region of Western Australia contains numerous subterranean calcrete aquifers with unique assemblages of obligate groundwater invertebrates (stygofauna). We aimed to establish a DNA barcoding framework for the macro-invertebrates present in a single calcrete, as a basis for future assessment of biodiversity of the Yilgarn calcretes and for investigating food webs. Intense sampling of a bore field grid in the Sturt Meadows calcrete was undertaken to obtain representatives of the entire macro-invertebrate ecosystem. A 623-bp fragment of the mitochondrial cytochrome c oxidase 1 ( COI) gene was used to provide DNA barcodes for stygobiont macro-invertebrates plus terrestrial organisms that are found in the calcrete. Phylogenetic analyses revealed the existence of 12 divergent monophyletic groups of haplotypes. Subterranean amphipods (Chiltoniidae) showed three groups of COI haplotypes with sequence divergences between them of >11%. Allozyme analyses found a large number of fixed allelic differences between these three amphipod groups, indicating that there are three morphologically cryptic species within the Sturt Meadows calcrete. Unlike the sister triplet of dytiscid beetles present, the amphipods are not sister clades and are more closely related to other Yilgarn and non-Yilgarn amphipods than to each other. Our results show that the aquifer contains at least 12 macro-invertebrate species and DNA barcoding provides a useful means for discriminating species in this system. [ABSTRACT FROM AUTHOR]

Published

2010

12. Nuevo registro y caracterización molecular de la tortuga verde Chelonia mydas (Testudines, Cheloniidae) en las aguas costeras sicilianas

Author

Caracappa, Santo, Flaminia Persichetti, Maria, Piazza, Antonio, Gentile, Antonino, Marineo, Sandra, Currò, Vittoria, Iraci Fuintino, Antonio, Marrone, Federico, and Arculeo, Marco

Subjects

Chelonia mydas, COI mitochondrial DNA, Mediterranean Sea, Sea turtle

Abstract

A juvenile specimen of the Green Turtle, Chelonia mydas, was recovered in Sicilian coastal waters close to Avola (Syracuse province, south-eastern Sicily, Italy). Before being released, the specimen was measured and inspected for the presence of ingested hooks or other possible harms to its health. A fragment of the mtDNA marker COI was amplified and sequenced in order to provide the first molecular data for the species from the central Mediterranean area. The possible influence of climate change on the occurrence of this thermophilic species in the central Mediterranean area is briefly discussed.

Published

2017

13. A new record and molecular characterization of the Green Turtle Chelonia mydas (Testudines, Cheloniidae) in Sicilian coastal waters

Author

Maria Flaminia Persichetti, Marco Arculeo, Antonio Piazza, Vittoria Currò, Federico Marrone, Sandra Marineo, Antonino Gentile, Antonio Iraci Fuintino, Santo Caracappa, Caracappa, S., Persichetti, M., Piazza, A., Gentile, A., Marineo, S., Currò, V., Iraci Fuintino, A., Marrone, F., and Arculeo, M.

Subjects

Chelonia mydas, COI mitochondrial DNA, biology, Ecology, Settore BIO/05 - Zoologia, Zoology, Sea turtle, Aquatic Science, Oceanography, biology.organism_classification, language.human_language, law.invention, law, Mediterranean Sea, language, Mediterranean area, Cheloniidae, Sea turtle, Chelonia mydas, COI mitochondrial DNA, Mediterranean Sea, Turtle (robot), Sicilian

Abstract

A juvenile specimen of the Green Turtle, Chelonia mydas, was recovered in Sicilian coastal waters close to Avola (Syracuse province, south-eastern Sicily, Italy). Before being released, the specimen was measured and inspected for the presence of ingested hooks or other possible harms to its health. A fragment of the mtDNA marker COI was amplified and sequenced in order to provide the first molecular data for the species from the central Mediterranean area. The possible influence of climate change on the occurrence of this thermophilic species in the central Mediterranean area is briefly discussed.

Published

2017

14. Phylogeography of the Atlantic Blue Crab Callinectes sapidus (Brachyura: Portunidae) in the Americas versus the Mediterranean Sea: Determining Origins and Genetic Connectivity of a Large-Scale Invasion

Author

Christoph D. Schubart, Temim Deli, Giorgio Mancinelli, Lucrezia Cilenti, Alberto Gil Fernández, Silvia Falco, and Selina Berger

Subjects

General Immunology and Microbiology, COI mitochondrial DNA, Atlantic Ocean, invasion biology, gene flow, genetic bottleneck, founder effect, ddc:590, Genetic bottleneck, Founder effect, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, 590 Tiere (Zoologie), Gene flow, TECNOLOGIA DEL MEDIO AMBIENTE, Invasion biology

Abstract

[EN] Due to its large size and importance in commercial and recreational fishery, the blue crab, Callinectes sapidus, has always been a well-known crab species all along the temperate and tropical American east coast. Over the past century, there have been increasing reports of this species from Africa, Asia, and Europe. However, the corresponding introduction pathways remain a reason for speculation. Its long larval development in marine plankton and tolerance towards varying salinities are prerequisites for a successful dispersal by marine currents or in ballast waters. On the other hand, being a highly valued seafood, it is conceivable that C. sapidus may have been intentionally released to establish breeding populations elsewhere. The species started expanding conspicuously in the east Mediterranean after the 1930s (Nile Delta, Thessaloniki Bay). On the other hand, western Mediterranean records are much more recent and regionally confined. The reconstruction of their origin is the main goal of the current study. For that purpose, the genetic composition of populations from the American native range and from the entire Mediterranean needed to be included and used for the overall comparison. It appears that only a few founding individuals are responsible for the invasion into Spanish and Italian waters, arguing in favor of a dispersal theory. The American blue crab Callinectes sapidus is a particularly successful invader in estuarine ecosystems worldwide. Despite increasing awareness of its potential harm, the invasion history and underlying genetic diversity of this species within the Mediterranean Sea remain unknown. This study constitutes the first large-scale approach to study phylogeographic patterns of C. sapidus in Europe, facilitated by the first comparison of all currently available COI sequence data. For this investigation, 71 individuals of C. sapidus were newly analyzed and the entire COI gene was sequenced and used for a comparative phylogeographic analyses. For the first time, two separately used adjacent regions of this gene were combined in a single dataset. This allowed emphasizing the prevalence of three geographically defined lineages within the native range: (1) eastern North America, including the Gulf of Mexico, (2) the Caribbean, and (3) Brazil. New data from the Mediterranean reveal that non-native populations of C. sapidus are characterized by a conspicuously low genetic diversity (except for Turkey, where stocking took place), and that there is surprisingly low connectivity among established populations. The occurrence of strong genetic bottlenecks suggests few founder individuals. This confirms that, even under a scenario of restricted large-scale gene flow, a very limited number of invasive individuals is sufficient for a massive impact.