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Data from: Modeling the mito-nuclear compatibility and its role in species identification
负责人:
关键词:
mtDNA Barcode;Parapatry;phylogeny;Mito-nuclear coevolution
DOI:
doi:10.5061/dryad.2ngf1vhk7
摘要:
and mitochondrial genomes. Depending on the model parameters, the population breaks into distinct species and the model output then allows us to analyze the accuracy of mtDNA barcode
Data from: Tracking earthworm communities from soil DNA
负责人:
Taberlet, Pierre
关键词:
Community Ecology DNA Barcoding Invertebrates Population Ecology DNA metabarcoding
DOI:
doi:10.5061/dryad.3mv8v434
摘要:
se of mitochondrial DNA (mtDNA) 16S gene for 14 earthworm species found in the French Alps. Using this database, we designed two new primer pairs targeting very short
Data from: High-throughput molecular identification of fish eggs using multiplex suspension bead arrays
负责人:
Gleason, Lani U
关键词:
fish egg identification DNA Barcoding suspension bead arrays Fish
DOI:
doi:10.5061/dryad.8p425
摘要:
by mitochondrial DNA (mtDNA) sequences (e.g., via “DNA barcoding”). By taking advantage of a DNA barcode database, we have developed oligonucleotide probes for 23 mar
Data from: Genomic sequence capture of haemosporidian parasites: methods and prospects for enhanced study of host-parasite evolution
负责人:
关键词:
Avian malaria;Apicomplexa;hybrid enrichment;host-parasite relationships;Haemoproteus majoris;Haemoproteus;Haemoproteus tartakovskyi;Haemoproteus nucleocondensus;Leucocytozoon
DOI:
doi:10.5061/dryad.8030nq9
摘要:
mitochondrial (mtDNA) barcode, and 2) the development in 2009 of an open-access database to document the geographic and host ranges of parasite mtDNA haplotypes
Data from: Hybridization relics complicate barcode-based identification of species in earthworms
负责人:
关键词:
DNA Barcoding;Allolobophora chlorotica;hybridization;Worms;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.cr890
摘要:
DNA barcoding and microsatellite data of all known A. chlorotica lineages (N = 85). For this, we used both molecular phylogenetic and population genetic
Data from: A combined field survey and molecular identification protocol for comparing forest arthropod biodiversity across spatial scales
负责人:
关键词:
beta diversity;taxonomy;biological species;Araneae;parataxonomy;spider;barcode
DOI:
doi:10.5061/dryad.8g5d2
摘要:
) and selective sampling of individuals for mtDNA sequencing to infer biological species. We sampled ten lowland rainforest plots located on the volcanic oceanic island
Data from: Taxonomic challenges in freshwater fishes: a mismatch between morphology and DNA barcoding in fish of the north-eastern part of the Congo basin
负责人:
关键词:
Enteromius cf. atromaculatus;\Ctenopoma\ ocellatum;Marcusenius angolensis;Labeobarbus hybrid mawambiensis x longidorsalis;Paramormyrops kingsleyae;Chrysichthys habereri;Tylochromis lateralis;Gnathonemus petersii;Parauchenoglanis balayi;Garra dembeensis;Schilbe grenfelli;Microthrissa royauxi;Synodontis schoutedeni;Brachypetersius altus;Leptocypris lujae;Acanthocleithron chapini;Labeo chariensis;Kribia nana;Labeo parvus;Chrysichthys cranchii;Oxymormyrus boulengeri;Distichodus sp.;Synodontis alberti;Gnathonemus echidnorhynchus;Synodontis smiti;Xenocharax spilurus;Labeo cyclopinnis;Congopanchax myersi;Parachanna obscura;Synodontis acanthomias;Synodontis nigriventris;Micralestes acutidens;Enteromius jae;Parauchenoglanis sp.;Petrocephalus schoutedeni;Pelmatochromis nigrofasciatus;Campylomormyrus tamandua;Synodontis decorus;Synodontis dorsomaculatus;Rhabdalestes yokai;Distichodus noboli;Labeobarbus longidorsalis;Enteromius atromaculatus;Parakneria camerunensis;Alestes liebrechtsii;Orthochromis stormsi;Genyomyrus donnyi;Brycinus sp. \Epulu\;Chromidotilapia schoutedeni;Stomatorhinus cf. fuliginosus;Stomatorhinus cf. kununguensis;Brycinus imberi;Schilbe intermedius;Clarias sp. \angolensis sole-shaped\;Bathyaethiops caudomaculatus;Bryconaethiops microstoma;Brycinus grandisquamis;Hemichromis lifalili;Synodontis nummifer;Petrocephalus christyi;Brycinus bimaculatus;Clarias sp. \pachynema long barbels\;Campylomormyrus alces;Chrysichthys punctatus;Micralestes stormsi;Enteromius sp. \Congo\;Brycinus sp. \Congo\;Enteromius sp. \10 cps\;Nannocharax schoutedeni;Ichthyborus ornatus;Marcusenius cf. stanleyanus;Synodontis angelicus;Hippopotamyrus weeksii;Mormyrops anguilloides;Clarias liocephalus;Clarias buthupogon;Haplochromis sp. \Yaekama\;Pollimyrus cf. nigripinnis;Mormyrus caballus bumbanus;Phenacogrammus interruptus;Pollimyrus nigripinnis;Petrocephalus grandoculis;Schilbe marmoratus;Enteromius sp. \Loboya\;Marcusenius stanleyanus;DNA Barcoding;Alestopetersius compressus;Synodontis congicus;Marcusenius sp. \flat head\;Synodontis greshoffi;Marcusenius leopoldianus;Clarias gabonensis;Polypterus delhezi;Bryconaethiops boulengeri;Channallabes apus;Enteromius brazzai;Clarias gariepinus;Hemichromis elongatus;Mormyrops nigricans;Chrysichthys longibarbis;Malapterurus microstoma;Potamothrissa acutirostris;Distichodus lusosso;Synodontis notatus;Marcusenius monteiri;Auchenoglanis occidentalis;Fenerbahce cf. devosi;Distichodus maculatus;Coptodon rendalli;Eugnathichthys macroterolepis;Petrocephalus sp. \simus Congo\;Distichodus teugelsi;Marcusenius greshoffi;Mesoborus crocodilus;biodiversity;Distichodus cf. teugelsi;Clarias dumerilli;Clarias sp.;Alestes macrophthalmus;Distichodus antonii;Petrocephalus sauvagii;Synodontis pleurops;Ctenopoma ocellatum;Chrysichthys longipinnis;Pelmatochromis ocellifer;Raiamas cf. christyi;Mormyrops attenuatus;Hypsopanchax platysternus;Papyrocranus congoensis;Clariallabes variabilis;Clariallabes melas;Pollimyrus adspersus;Oreochromis leucostictus;Labeo altivelis;Marcusenius schilthuisiae;Pareutropius debauwi;Clarias platycephalus;Coptodon zillii;Aphyosemion sp. nov.;Enteromius miolepis;Enteromius cf. trinotatus;Undetected taxonomic diversity;Labeo longipinnis;Citharinus gibbosus;Labeo nasus;Eugnathichthys eetveldii;Distichodus sexfasciatus;Clarias dumerillii;Parauchenoglanis punctatus;Distichodus atroventralis;Neolebias trilineata;Labeobarbus hybrid macroceps x mawambiensis;Malapterurus melanochir;Microctenopoma uelense;Labeo greenii;Bagrus ubangiensis;Phago boulengeri;Hydrocynus vittatus;Petrocephalus binotatus;Chanallabes apus;Lamprologus mocquardi;Distichodus fasciolatus;Micralestes humilis;Micralestes lualabae;Pantodon buchholzi;Mastacembelus congicus;Ctenopoma nigropannosum;Chrysichthys congicus;Polypterus congicus;Clarias sp. \pachynema long barbels\/pectorals\;Hepsetus sp. \Congo\;Lates niloticus;Haplochromis sp. \yellow\;Heterobranchus sp.;Raiamas salmolucius;Phago intermedius;Enteromius stanleyi;Congochromis dimidiatus;Opsaridium ubangiense;Brycinus kingsleyae;Enteromius cf. urostigma;Labeobarbus caudovittatus;Oxymormyrus zanclirostris;Euchilichthys royauxi;Enteromoius cf. urostigma;Tetraodon miurus;Hemigrammocharax uniocellatus;Cyphomyrus psittacus;Bryconaethiops macrops;Labeo lukulae;Parachanna insignis;Labeo lineatus;Myomyrus macrops;Synodontis flavitaeniatus;Epiplatys cf. multifasciatus;Campylomormyrus numenius;Enteromius lukusiensis;Oreochromis niloticus niloticus;Aphyosemion cf. musafirii;Brycinus poptae;Congoglanis alula;Petrocephalus microphthalmus;Pollimyrus plagiostoma;Distichodus affinis;Mormyrops furcidens;Pollimyrus osborni;Clypeobarbus pleuropholis;Eugnathichthys virgatus;Synodontis iturii;Labeo cyclorhynchus;Marcusenius kutuensis;Campylomormyrus rhynchophorus
DOI:
doi:10.5061/dryad.n571m
摘要:
e detected. Finally, the DNA barcodes confirmed previously known identification problems within certain genera of the Clariidae, Cyprinidae and Mormyridae
Data from: Mitochondrial and microsatellite DNA markers reveal a Balkanic origin for the highly invasive Horse-Chestnut leaf miner
负责人:
关键词:
insects;phylogeography;Cameraria ohridella;invasive species;Ecological Genetics;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.1271
摘要:
d range expansion, progressively colonizing all of Central and Western Europe. We used cytochrome oxidase I sequences (DNA barcode fragment) and a set of si
Data from: Population genetic structure and intraspecific genetic distance of Periplaneta americana (Blattodea: Blattidae) based on mitochondrial
负责人:
关键词:
Periplaneta americana;American cockroach;genetic diversity;invasive pest;population genetic structure
DOI:
doi:10.5061/dryad.280gb5mm1
摘要:
accurately identified P. americana with a barcoding threshold of 5.1%. To identify the population genetic structure of P. americana
Data from: Phylogeography of Dendrolimus punctatus (Lepidoptera: Lasiocampidae): population differentiation and last glacial maximum survival
负责人:
关键词:
Dendrolimus punctatus;phylogeography;Holocene
DOI:
doi:10.5061/dryad.2df87g2
摘要:
success rate of barcoding identification was lower than interspecific ones, indicating a level of difficulty in barcoding individuals from different populations

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