INIS
abundance
28%
accuracy
19%
animals
15%
ants
28%
assessments
25%
asymmetry
28%
biodiversity
14%
capture
28%
clams
43%
colonies
14%
communities
40%
comparative evaluations
36%
contamination
28%
data
31%
datasets
16%
distribution
14%
dna
19%
doses
14%
dynamics
28%
eggs
14%
environment
15%
errors
14%
europe
14%
fresh water
14%
genes
57%
genetic variability
14%
genetics
100%
habitat
37%
hypothesis
13%
laboratories
19%
lakes
14%
levels
19%
males
34%
meiosis
23%
mixing (genetic)
43%
offsprings
16%
origin
50%
polymerase chain reaction
19%
polyploidy
14%
pools
28%
populations
31%
radiations
36%
recombination
21%
roots
28%
rotifera
28%
sex
28%
surveillance
28%
validation
28%
variations
15%
yields
14%
Keyphrases
Accreditation
28%
Allele Sharing
14%
Amplicon-based
19%
ARTIC
19%
Biogeographic Origin
28%
Body Size Change
28%
Capacity Growth
9%
Chromatogram
28%
Colonization Capacity
9%
Constructive Criticism
28%
Cross-taxon
28%
Current Asymmetry
7%
Desiccation Sensitivity
8%
Ecological Advantage
28%
Female Reproductive
7%
Foraging Activity
7%
Gene Tree
9%
Genetic Mixing
9%
Genetic Pool
12%
Harvester Ants
28%
Illumina Technology
9%
In Vitro Diagnostics
9%
ISO 15189
28%
Local Processes
14%
Male Production
7%
Mate numbers
7%
Multiple Spatial Scales
28%
Next-generation Sequencing Technology
9%
Nextclade
9%
NGS Method
9%
Oenothera
21%
Outbreak Investigation
9%
Oxford Nanopore Technologies
9%
Polyploidy
9%
Population Genetic Studies
9%
Queen
14%
Radiation Resistance
28%
Reproductive Output
7%
Resistant Species
8%
Reverse Complement
9%
Root Resistance
28%
Rotifer Community
28%
Rotifera
28%
SARS-CoV-2 Strains
9%
Single nucleotide Variation
9%
Species Phylogeny
9%
Surveillance Network
9%
Survivorship
7%
Urban Community
28%
Yield Pattern
28%