scholarly article | Q13442814 |
P50 | author | Xavier Turon | Q23675053 |
Owen Simon Wangensteen | Q42933811 | ||
Kim Praebel | Q56505887 | ||
P2093 | author name string | Adrià Antich | |
Creu Palacín | |||
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Many species in one: DNA barcoding overestimates the number of species when nuclear mitochondrial pseudogenes are coamplified | Q29616342 | ||
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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 | ||
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Metabarcoding is powerful yet still blind: a comparative analysis of morphological and molecular surveys of seagrass communities | Q35068696 | ||
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Exact sequence variants should replace operational taxonomic units in marker-gene data analysis | Q38668202 | ||
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Metabarcoding Analyses Enable Differentiation of Both Interspecific Assemblages and Intraspecific Divergence in Habitats With Differing Management Practices | Q46274928 | ||
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Under the canopy: Community-wide effects of invasive algae in Marine Protected Areas revealed by metabarcoding. | Q51149494 | ||
It's about time: divergence, demography, and the evolution of developmental modes in marine invertebrates. | Q51599458 | ||
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DNA metabarcoding of littoral hard-bottom communities: high diversity and database gaps revealed by two molecular markers. | Q55258880 | ||
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DNA from lake sediments reveals long-term ecosystem changes after a biological invasion. | Q55436733 | ||
Are genetic databases sufficiently populated to detect non-indigenous species? | Q56388414 | ||
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Systematic evaluation of error rates and causes in short samples in next-generation sequencing | Q56964427 | ||
Multi-marker metabarcoding approach to study mesozooplankton at basin scale | Q57026856 | ||
Metabarcoding of marine environmental DNA based on mitochondrial and nuclear genes | Q57031868 | ||
Cryptic speciation and genetic structure of widely distributed brittle stars (Ophiuroidea) in Europe | Q57039206 | ||
A wolf in sheep’s clothing: carnivory in dominant sea urchins in the Mediterranean | Q57039266 | ||
Two markers and one history: phylogeography of the edible common sea urchin Paracentrotus lividus in the Lusitanian region | Q57039318 | ||
Low densities of sea urchins influence the structure of algal assemblages in the western Mediterranean | Q57039579 | ||
Over 2.5 million COI sequences in GenBank and growing | Q57159815 | ||
Comparison of environmental DNA and bulk-sample metabarcoding using highly degenerate cytochrome c oxidase I primers | Q57168321 | ||
Benchmarking DNA Metabarcoding for Biodiversity-Based Monitoring and Assessment | Q58634090 | ||
Water, water everywhere: environmental DNA can unlock population structure in elusive marine species | Q58794998 | ||
DNA metabarcoding unveils multiscale trophic variation in a widespread coastal opportunist | Q60131188 | ||
The ecologist's field guide to sequence-based identification of biodiversity | Q60175894 | ||
Population characteristics of a large whale shark aggregation inferred from seawater environmental DNA | Q60297573 | ||
Faster, Higher and Stronger? The Pros and Cons of Molecular Faunal Data for Assessing Ecosystem Condition | Q60481112 | ||
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P433 | issue | 2 | |
P921 | main subject | metabarcoding | Q51237016 |
P304 | page(s) | e02036 | |
P577 | publication date | 2019-12-11 | |
P1433 | published in | Ecological Applications | Q3047086 |
P1476 | title | From metabarcoding to metaphylogeography: separating the wheat from the chaff | |
P478 | volume | 30 |
Q93014310 | Population-level inferences from environmental DNA-Current status and future perspectives | cites work | P2860 |