scholarly article | Q13442814 |
P356 | DOI | 10.1139/GEN-2016-0100 |
P698 | PubMed publication ID | 28177833 |
P50 | author | Joanna Freeland | Q102154303 |
P2860 | cites work | Universal and blocking primer mismatches limit the use of high-throughput DNA sequencing for the quantitative metabarcoding of arthropods. | Q41749893 |
Environmental metabarcodes for insects: in silico PCR reveals potential for taxonomic bias | Q42003888 | ||
Quantification of damage in DNA recovered from highly degraded samples--a case study on DNA in faeces. | Q42036317 | ||
Browsed twig environmental DNA: diagnostic PCR to identify ungulate species | Q45344641 | ||
Glacial survival of boreal trees in northern Scandinavia | Q45814063 | ||
Optimizing techniques to capture and extract environmental DNA for detection and quantification of fish | Q46736520 | ||
Phylogeography of two European newt species--discordance between mtDNA and morphology | Q47302047 | ||
Tracking earthworm communities from soil DNA. | Q48052888 | ||
Single-nucleotide polymorphisms and other mismatches reduce performance of quantitative PCR assays | Q49113563 | ||
Clustal Omega, accurate alignment of very large numbers of sequences. | Q51147183 | ||
Ecology. Barcoding of plants and fungi. | Q51179426 | ||
Population genetics reveals origin and number of founders in a biological invasion. | Q51184492 | ||
Environmental DNA. | Q51566354 | ||
Critical considerations for the application of environmental DNA methods to detect aquatic species | Q56379484 | ||
Use of environmental DNA to survey the distribution of an invasive submerged plant in ponds | Q56395719 | ||
Comparison of environmental DNA metabarcoding and conventional fish survey methods in a river system | Q56398186 | ||
Active and passive environmental DNA surveillance of aquatic invasive species | Q56421825 | ||
Environmental DNA evidence of transfer of North Sea molluscs across tropical waters through ballast water | Q56425283 | ||
An evaluation of target specificity and sensitivity of three qPCR assays for detecting environmental DNA from Northern Pike (Esox lucius) | Q56428028 | ||
Improving efficiency and reliability of environmental DNA analysis for silver carp | Q56433427 | ||
A basin-scale application of environmental DNA assessment for rare endemic species and closely related exotic species in rivers: a case study of giant salamanders in Japan | Q56435470 | ||
Development of species-specific environmental DNA (eDNA) markers for invasive aquatic plants | Q56435486 | ||
GenBank | Q21056874 | ||
Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for Fungi | Q24630304 | ||
A DNA barcode for land plants | Q24655788 | ||
Biological identifications through DNA barcodes | Q24669741 | ||
Barcoding animal life: cytochrome c oxidase subunit 1 divergences among closely related species | Q24673120 | ||
Microbial diversity in the deep sea and the underexplored "rare biosphere" | Q24685531 | ||
Ancient and modern environmental DNA | Q27005869 | ||
MAFFT Multiple Sequence Alignment Software Version 7: Improvements in Performance and Usability | Q27860817 | ||
Diverse plant and animal genetic records from Holocene and Pleistocene sediments | Q28191763 | ||
In silico assessment of primers for eDNA studies using PrimerTree and application to characterize the biodiversity surrounding the Cuyahoga River | Q28602858 | ||
MiFish, a set of universal PCR primers for metabarcoding environmental DNA from fishes: detection of more than 230 subtropical marine species | Q28607985 | ||
Detection of a diverse marine fish fauna using environmental DNA from seawater samples | Q28728173 | ||
Sequencing our way towards understanding global eukaryotic biodiversity | Q28730952 | ||
Ancient DNA from lake sediments: bridging the gap between paleoecology and genetics | Q28742601 | ||
Molecular systematics of cowries (Gastropoda: Cypraeidae) and diversification patterns in the tropics | Q29303317 | ||
ABGD, Automatic Barcode Gap Discovery for primary species delimitation | Q29614732 | ||
Primer3--new capabilities and interfaces | Q29614816 | ||
Environmental DNA as a 'Snapshot' of Fish Distribution: A Case Study of Japanese Jack Mackerel in Maizuru Bay, Sea of Japan | Q30388618 | ||
Assessing biodiversity of a freshwater benthic macroinvertebrate community through non-destructive environmental barcoding of DNA from preservative ethanol | Q30532034 | ||
Application of ITS2 metabarcoding to determine the provenance of pollen collected by honey bees in an agroecosystem. | Q30616525 | ||
Reliable, verifiable and efficient monitoring of biodiversity via metabarcoding | Q30658943 | ||
The use of coded PCR primers enables high-throughput sequencing of multiple homolog amplification products by 454 parallel sequencing | Q30829701 | ||
Replication levels, false presences and the estimation of the presence/absence from eDNA metabarcoding data | Q30862480 | ||
Utility of environmental DNA for monitoring rare and indicator macroinvertebrate species | Q56445619 | ||
REVIEW: The detection of aquatic animal species using environmental DNA - a review of eDNA as a survey tool in ecology | Q56447415 | ||
Environmental DNA surveillance for invertebrate species: advantages and technical limitations to detect invasive crayfish Procambarus clarkii in freshwater ponds | Q56449325 | ||
Environmental DNA as a new method for early detection of New Zealand mudsnails (Potamopyrgus antipodarum) | Q56482217 | ||
Detection of Asian carp DNA as part of a Great Lakes basin-wide surveillance program | Q56511836 | ||
Improved detection of an alien invasive species through environmental DNA barcoding: the example of the American bullfrog Lithobates catesbeianus | Q56551336 | ||
“Sight-unseen” detection of rare aquatic species using environmental DNA | Q56763532 | ||
Environmental DNA – An emerging tool in conservation for monitoring past and present biodiversity | Q56813297 | ||
Discriminating plant species in a local temperate flora using the rbcL+matK DNA barcode | Q56883499 | ||
Techniques for the practical collection of environmental DNA: filter selection, preservation, and extraction | Q56974094 | ||
The use of environmental DNA of fishes as an efficient method of determining habitat connectivity | Q56974102 | ||
Surveillance of fish species composition using environmental DNA | Q56974163 | ||
Screening mammal biodiversity using DNA from leeches | Q57178142 | ||
Characterisation of insect and plant origins using DNA extracted from small volumes of bee honey | Q57178180 | ||
The downside of eDNA as a survey tool in water bodies | Q57206440 | ||
Monitoring the near-extinct European weather loach in Denmark based on environmental DNA from water samples | Q57242498 | ||
A comparative study of ancient environmental DNA to pollen and macrofossils from lake sediments reveals taxonomic overlap and additional plant taxa | Q57252395 | ||
mtDNA sequence data supports an Asian ancestry and single introduction of the common carp into the Danube Basin | Q58137653 | ||
Mitochondrial DNA variation in the highly endangered cyprinid fish Anaecypris hispanica: importance for conservation | Q58392434 | ||
Using environmental DNA to census marine fishes in a large mesocosm | Q37484415 | ||
Environmental conditions influence eDNA persistence in aquatic systems. | Q38178291 | ||
Significant genetic boundaries and spatial dynamics of giant pandas occupying fragmented habitat across southwest China | Q38425178 | ||
Comparative mtDNA phylogeography of neotropical freshwater fishes: testing shared history to infer the evolutionary landscape of lower Central America | Q38551519 | ||
Development of species-specific primers with potential for amplifying eDNA from imperilled freshwater unionid mussels. | Q39278475 | ||
The ITS region as a target for characterization of fungal communities using emerging sequencing technologies | Q30863771 | ||
Environmental DNA metabarcoding of lake fish communities reflects long-term data from established survey methods | Q31081120 | ||
The promise of DNA barcoding for taxonomy | Q33225788 | ||
DNA barcoding: how it complements taxonomy, molecular phylogenetics and population genetics | Q33275063 | ||
Loss of bacterial diversity during antibiotic treatment of intubated patients colonized with Pseudomonas aeruginosa | Q33281164 | ||
Paradox lost: genetic diversity and the success of aquatic invasions | Q33292953 | ||
Species detection using environmental DNA from water samples | Q33327465 | ||
A universal DNA mini-barcode for biodiversity analysis | Q33333964 | ||
Evaluation of the impact of single nucleotide polymorphisms and primer mismatches on quantitative PCR. | Q33498120 | ||
Ultrasequencing of the meiofaunal biosphere: practice, pitfalls and promises. | Q33544840 | ||
ITS as an environmental DNA barcode for fungi: an in silico approach reveals potential PCR biases | Q33629401 | ||
An in silico approach for the evaluation of DNA barcodes | Q33634584 | ||
Ecometagenetics confirm high tropical rainforest nematode diversity | Q33739837 | ||
Environmental barcoding: a next-generation sequencing approach for biomonitoring applications using river benthos | Q33886933 | ||
Design of phylum-specific hybrid primers for DNA barcoding: addressing the need for efficient COI amplification in the Echinodermata. | Q33897379 | ||
Molecular detection of vertebrates in stream water: a demonstration using Rocky Mountain tailed frogs and Idaho giant salamanders | Q33983404 | ||
A fuzzy-set-theory-based approach to analyse species membership in DNA barcoding. | Q34007506 | ||
Meta-barcoding of 'dirt' DNA from soil reflects vertebrate biodiversity | Q34019442 | ||
ecoPrimers: inference of new DNA barcode markers from whole genome sequence analysis | Q34022585 | ||
Using DNA Metabarcoding to Identify the Floral Composition of Honey: A New Tool for Investigating Honey Bee Foraging Preferences | Q34044717 | ||
Monitoring endangered freshwater biodiversity using environmental DNA. | Q34094459 | ||
Reducing the effects of PCR amplification and sequencing artifacts on 16S rRNA-based studies | Q34109852 | ||
Next-generation sequencing technologies for environmental DNA research | Q34225587 | ||
Primer-BLAST: a tool to design target-specific primers for polymerase chain reaction | Q34307627 | ||
DNA metabarcoding and the cytochrome c oxidase subunit I marker: not a perfect match | Q34311426 | ||
Exploiting extension bias in polymerase chain reaction to improve primer specificity in ensembles of nearly identical DNA templates. | Q34416220 | ||
The widely used small subunit 18S rDNA molecule greatly underestimates true diversity in biodiversity surveys of the meiofauna | Q34417481 | ||
Environmental DNA for wildlife biology and biodiversity monitoring | Q34419744 | ||
Using environmental DNA to estimate the distribution of an invasive fish species in ponds | Q34599020 | ||
DNA barcoding at riverscape scales: assessing biodiversity among fishes of the genus Cottus (Teleostei) in northern Rocky Mountain streams. | Q34621698 | ||
Improved methods for capture, extraction, and quantitative assay of environmental DNA from Asian bigheaded carp (Hypophthalmichthys spp.). | Q34633850 | ||
Robust detection of rare species using environmental DNA: the importance of primer specificity | Q34651394 | ||
20 years since the introduction of DNA barcoding: from theory to application | Q34657256 | ||
Microbial ecology and evolution: a ribosomal RNA approach | Q34658122 | ||
Molecular- and pollen-based vegetation analysis in lake sediments from central Scandinavia | Q34669028 | ||
A new versatile primer set targeting a short fragment of the mitochondrial COI region for metabarcoding metazoan diversity: application for characterizing coral reef fish gut contents | Q34773388 | ||
Detecting an elusive invasive species: a diagnostic PCR to detect Burmese python in Florida waters and an assessment of persistence of environmental DNA. | Q35015892 | ||
Metabarcoding is powerful yet still blind: a comparative analysis of morphological and molecular surveys of seagrass communities | Q35068696 | ||
DNA barcoding and metabarcoding of standardized samples reveal patterns of marine benthic diversity | Q35128997 | ||
Use of droplet digital PCR for estimation of fish abundance and biomass in environmental DNA surveys | Q35208179 | ||
The use of environmental DNA in invasive species surveillance of the Great Lakes commercial bait trade | Q35234476 | ||
Quantifying environmental DNA signals for aquatic invasive species across multiple detection platforms | Q35316329 | ||
Environmental DNA (eDNA) sampling improves occurrence and detection estimates of invasive burmese pythons | Q35432558 | ||
Next generation sequencing for characterizing biodiversity: promises and challenges | Q35547520 | ||
Tag jumps illuminated--reducing sequence-to-sample misidentifications in metabarcoding studies | Q35571881 | ||
Metabarcoding of benthic eukaryote communities predicts the ecological condition of estuaries | Q35613506 | ||
Quantification of mesocosm fish and amphibian species diversity via environmental DNA metabarcoding | Q35649019 | ||
Divergence thresholds and divergent biodiversity estimates: can metabarcoding reliably describe zooplankton communities? | Q35664770 | ||
Comparative study of the validity of three regions of the 18S-rRNA gene for massively parallel sequencing-based monitoring of the planktonic eukaryote community | Q35756248 | ||
DNA metabarcoding of insects and allies: an evaluation of primers and pipelines. | Q35765694 | ||
An eDNA assay for Irish Petromyzon marinus and Salmo trutta and field validation in running water | Q35777799 | ||
Next-generation monitoring of aquatic biodiversity using environmental DNA metabarcoding | Q35812378 | ||
The Dual Challenges of Generality and Specificity When Developing Environmental DNA Markers for Species and Subspecies of Oncorhynchus | Q35832123 | ||
Fishing in the Water: Effect of Sampled Water Volume on Environmental DNA-Based Detection of Macroinvertebrates | Q35839122 | ||
I Environmental DNA sampling is more sensitive than a traditional survey technique for detecting an aquatic invader | Q35847973 | ||
Using occupancy modelling to compare environmental DNA to traditional field methods for regional-scale monitoring of an endangered aquatic species | Q35871313 | ||
Unveiling the Biodiversity of Deep-Sea Nematodes through Metabarcoding: Are We Ready to Bypass the Classical Taxonomy? | Q35877774 | ||
Sampling large geographic areas for rare species using environmental DNA: a study of bull trout Salvelinus confluentus occupancy in western Montana | Q35893026 | ||
An eDNA Assay to Monitor a Globally Invasive Fish Species from Flowing Freshwater | Q35905477 | ||
Large-Scale Monitoring of Plants through Environmental DNA Metabarcoding of Soil: Recovery, Resolution, and Annotation of Four DNA Markers | Q36054428 | ||
Pollen DNA barcoding: current applications and future prospects. | Q36056882 | ||
Estimating species richness using environmental DNA. | Q36102489 | ||
Deep COI sequencing of standardized benthic samples unveils overlooked diversity of Jordanian coral reefs in the northern Red Sea. | Q36120213 | ||
Evaluating a multigene environmental DNA approach for biodiversity assessment | Q36126711 | ||
Improving herpetological surveys in eastern North America using the environmental DNA method | Q36175973 | ||
Assessing vertebrate biodiversity in a kelp forest ecosystem using environmental DNA. | Q36533144 | ||
Targeted capture in evolutionary and ecological genomics. | Q36771745 | ||
Identifying the source of species invasions: sampling intensity vs. genetic diversity | Q37080135 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | biodiversity | Q47041 |
molecular design | Q55213915 | ||
DNA design | Q55213961 | ||
primer design | Q14825451 | ||
environmental DNA | Q25098939 | ||
P304 | page(s) | 358-374 | |
P577 | publication date | 2016-12-22 | |
P1433 | published in | Genome | Q15765118 |
P1476 | title | The importance of molecular markers and primer design when characterizing biodiversity from environmental DNA. | |
P478 | volume | 60 |
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