Scientific reports

Journal of agricultural and food chemistry

The Analyst

Molecules (Basel, Switzerland)

Journal of the science of food and agriculture

Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases

BMC research notes

Journal of food protection

3 Biotech

ACS sensors

Pest management science

Journal of forensic sciences

comparative cytogenetics

[1] Market Basket Survey of Arsenic Species in the Top Ten Most Consumed Seafoods in the United States.

[2] Linking karyotypes with DNA barcodes: proposal for a new standard in chromosomal analysis with an example based on the study of Neotropical Nymphalidae (Lepidoptera).

[3] Plant-mediated effects of ozone on herbivores depend on exposure duration and temperature.

[4] Karyotype of Polyommatus (Agrodiaetus) eriwanensis Forster, 1960 and taxonomic position of P. (A.) interjectus de Lesse, 1960 (Lepidoptera, Lycaenidae).

[5] DNA barcode trnH-psbA is a promising candidate for efficient identification of forage legumes and grasses.

[6] Expanding our knowledge on African trypanosomes of the subgenus Pycnomonas: A novel Trypanosoma suis-like in tsetse flies, livestock and wild ruminants sympatric with Trypanosoma suis in Mozambique.

[7] DNA barcoding coupled with high-resolution melting analysis for nut species and walnut milk beverage authentication.

[8] Global metabolomics analysis of serum from humans at risk of thrombotic stroke.

[9] Comparative Evaluation of Web Page and Label Presentation for Imported Seafood Products Sold on Chinese e-Commerce Platform and Molecular Identification Using DNA Barcoding.

[10] DNA barcoding as a valuable molecular tool for the certification of planting materials in bamboo.

[11] A hybrid 3D printed and paper-based microfluidic platform for investigating the cell's apoptosis and intracellular cross-talk.

[12] High-resolution melt and morphological analyses of mealybugs (Hemiptera: Pseudococcidae) from cacao: tools for the control of Cacao swollen shoot virus spread.

[13] Microbial signatures can help distinguish moon sponges (family Tetillidae) from Darwin Harbour, Australia

[14] Figures of merit and statistics for detecting faulty species identification with DNA barcodes: A case study in Ramaria and related fungal genera

[15] sampling strategy and potential utility of indels for dna barcoding of closely related plant species: a case study in <em>taxus</em>

[16] detection of a high-density brachiolaria-stage larval population of crown-of-thorns sea star (acanthaster planci) in sekisei lagoon (okinawa, japan)

[17] little divergence among mitochondrial lineages of prochilodus (teleostei, characiformes)

[18] dna barcoding of perennial fruit tree species of agronomic interest in the genus annona (annonaceae)

[19] macrobiotus polypiformis sp. nov., a new tardigrade (macrobiotidae; hufelandi group) from the ecuadorian pacific coast, with remarks on the claw abnormalities in eutardigrades

[20] corrigendum: validation and development of coi metabarcoding primers for freshwater macroinvertebrate bioassessment

[21] iseq: a new double-barcode method for detecting dynamic genetic interactions in yeast

[22] associations and a new species of the genus apatidelia (trichoptera, apataniidae) from china

[23] an exceptional homogeneous populations uncover the world’s most widespread sardine, sardinella aurita valenciennes, 1847

[24] dna barcoding of twelve shrimp species (crustacea: decapoda) from turkish seas reveals cryptic diversity

[25] a revision of the thyropygus allevatus group. part v: nine new species of the extended opinatus subgroup, based on morphological and dna sequence data (diplopoda: spirostreptida: harpagophoridae)

[26] natural history bycatch: a pipeline for identifying metagenomic sequences in radseq data

[27] diversity of planktonic fish larvae along a latitudinal gradient in the eastern atlantic ocean estimated through dna barcodes

[28] Identification of wild-caught phlebotomine sand flies from Crete and Cyprus using DNA barcoding

[29] Commentary on: Chimeno C, Morinière J, Podhorna J, Hardulak, L, Hausmann A, Reckel F, et al. DNA barcoding in forensic entomology—establishing a DNA reference library of potentially forensic relevant arthropod species. J Forensic Sci 2019;64(2):593–601

[30] DNA Barcoding in Forensic Entomology – Establishing a DNA Reference Library of Potentially Forensic Relevant Arthropod Species

[31] Analyzing mosquito (Diptera: culicidae) diversity in Pakistan by DNA barcoding.

[32] DNA barcoding evidence for the North American presence of alfalfa cyst nematode, Heterodera medicaginis

[33] Using DNA barcoding to improve invasive pest identification at U.S. ports-of-entry.

[34] The use of plant DNA barcoding coupled with HRM analysis to differentiate edible vegetables from poisonous plants for food safety

[35] DNA barcoding and mini-barcoding in authenticating processed animal-derived food: A case study involving the Chinese market

[36] DNA barcoding of fruit flies (Diptera: Tephritidae) in Thailand: ambiguity, misidentification and cryptic diversity.

[37] DNA barcoding coupled with high-resolution melting analysis for nut species and walnut milk beverage authentication.

[38] Comparative Evaluation of Web Page and Label Presentation for Imported Seafood Products Sold on Chinese e-Commerce Platform and Molecular Identification Using DNA Barcoding.

[39] DNA barcoding as a valuable molecular tool for the certification of planting materials in bamboo.

[40] DNA barcoding and fauna of phlebotomine sand flies (Diptera: Psychodidae: Phlebotominae) from Los Tuxtlas, Veracruz, Mexico.

[41] Drift of Larval Darters (Family Percidae) in the Upper Roanoke River Basin, USA, Characterized Using Phenotypic and DNA Barcoding Markers

[42] stability and accuracy assessment of identification of traditional chinese materia medica using dna barcoding: a case study on flos lonicerae japonicae

[43] from field courses to dna barcoding data release for west papua - making specimens and identifications from university courses more sustainable

[44] identification of common edible and medicinal mushrooms by dna barcoding

[45] using next-generation sequencing for dna barcoding: capturing allelic variation in its2

[46] sampling strategy and potential utility of indels for dna barcoding of closely related plant species: a case study in <em>taxus</em>

[47] when dna barcoding and morphology mesh: ceratopogonidae diversity in finnmark, norway

[48] dna barcoding of perennial fruit tree species of agronomic interest in the genus annona (annonaceae)

[49] the importance of validated alpha taxonomy for phylogenetic and dna barcoding studies: a comment on species identification of pygmy grasshoppers (orthoptera, tetrigidae)

[50] mosquito species (diptera, culicidae) in three ecosystems from the colombian andes: identification through dna barcoding and adult morphology

[51] re-evaluation of the discriminatory power of dna barcoding on some specimens of african cyprinidae (subfamilies cyprininae and danioninae)

[52] pengembangan virtual laboratory berbasis penelitian dna barcoding durian merah

[53] dna barcoding of twelve shrimp species (crustacea: decapoda) from turkish seas reveals cryptic diversity

[54] dna barcoding of fish species from the mediterranean coast of israel

[55] dna barcoding and phylogenetic reconstruction of shark species landed in muncar fisheries landing site in comparison with southern java fishing port

[56] connecting systematic and ecological studies using dna barcoding in a population survey of drosophilidae (diptera) from mt oku (cameroon)

[57] application of two molecular approaches (use of sex attractants and dna barcoding) allowed to rediscover zygaenoprocris eberti (alberti, 1968) (lepidoptera, zygaenidae, procridinae), hitherto known only from the female holotype

[58] Hydraena (s.str.) dinarica, new species (Coleoptera: Hydraenidae) along with further records of Hydraena spp. from Durmitor National Park, Montenegro and comments on the DNA barcoding problem with the genus

[59] DNA barcoding for bio-surveillance of emerging pests and species identification in Afrotropical Prioninae (Coleoptera, Cerambycidae)

[60] DNA barcoding of native Caucasus herbal plants: potentials and limitations in complex groups and implications for phylogeographic patterns

[61] New taxonomy and old collections: Integrating DNA barcoding into the collection curation process

[62] Differentiation of and Common Adulterants Based on Chloroplast Genome Sequencing and DNA Barcoding Markers.