scholarly article | Q13442814 |
P50 | author | Xin Zhou | Q37605753 |
Min Tang | Q54634281 | ||
Dandan Lang | Q92043428 | ||
P2093 | author name string | Jiahui Hu | |
P2860 | cites work | Mitochondrial metagenomics: letting the genes out of the bottle | Q26752426 |
Fast and accurate long-read alignment with Burrows-Wheeler transform | Q29547193 | ||
MEGA7: Molecular Evolutionary Genetics Analysis Version 7.0 for Bigger Datasets | Q29616345 | ||
Forensic palynology: Current status of a rarely used technique in the United States of America | Q30050662 | ||
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 | ||
Global change and species interactions in terrestrial ecosystems | Q33390655 | ||
Global pollinator declines: trends, impacts and drivers | Q33534964 | ||
Managing ecosystem services: what do we need to know about their ecology? | Q33830034 | ||
Navigating the tip of the genomic iceberg: Next-generation sequencing for plant systematics. | Q34102602 | ||
A DNA barcoding approach to characterize pollen collected by honeybees | Q34308210 | ||
SOAPdenovo-Trans: de novo transcriptome assembly with short RNA-Seq reads. | Q34404689 | ||
Ultra-deep sequencing enables high-fidelity recovery of biodiversity for bulk arthropod samples without PCR amplification. | Q34669514 | ||
Multiplex sequencing of pooled mitochondrial genomes-a crucial step toward biodiversity analysis using mito-metagenomics. | Q34712131 | ||
Influence of pollen nutrition on honey bee health: do pollen quality and diversity matter? | Q34938265 | ||
From barcoding single individuals to metabarcoding biological communities: towards an integrative approach to the study of global biodiversity. | Q35235840 | ||
Tag jumps illuminated--reducing sequence-to-sample misidentifications in metabarcoding studies | Q35571881 | ||
Taxonomic Characterization of Honey Bee (Apis mellifera) Pollen Foraging Based on Non-Overlapping Paired-End Sequencing of Nuclear Ribosomal Loci | Q35877513 | ||
Pollen DNA barcoding: current applications and future prospects. | Q36056882 | ||
High-throughput monitoring of wild bee diversity and abundance via mitogenomics | Q36199007 | ||
Using metabarcoding to reveal and quantify plant-pollinator interactions | Q36964844 | ||
Shotgun mitogenomics across body size classes in a local assemblage of tropical Diptera: Phylogeny, species diversity and mitochondrial abundance spectrum. | Q38368952 | ||
Applying pollen DNA metabarcoding to the study of plant-pollinator interactions | Q38660536 | ||
Season and landscape composition affect pollen foraging distances and habitat use of honey bees | Q38961529 | ||
Evaluating multiplexed next-generation sequencing as a method in palynology for mixed pollen samples | Q39126997 | ||
Plant-pollinator interactions over 120 years: loss of species, co-occurrence, and function | Q39459442 | ||
Effect of human disturbance on bee communities in a forested ecosystem | Q39786600 | ||
Filling reference gaps via assembling DNA barcodes using high-throughput sequencing-moving toward barcoding the world. | Q46273311 | ||
Pollen mixing in pollen generalist solitary bees: a possible strategy to complement or mitigate unfavourable pollen properties? | Q46977840 | ||
Forensic palynology in Canada: an overview with emphasis on archaeology and anthropology | Q47191461 | ||
SOAPnuke: A MapReduce Acceleration supported Software for integrated Quality Control and Preprocessing of High-Throughput Sequencing Data | Q47343155 | ||
Performance of amplicon and shotgun sequencing for accurate biomass estimation in invertebrate community samples. | Q52581329 | ||
A Sequel to Sanger: amplicon sequencing that scales. | Q52630357 | ||
Genomic analysis of the interaction between pesticide exposure and nutrition in honey bees (Apis mellifera). | Q52783514 | ||
Bee nutrition and floral resource restoration. | Q53204367 | ||
NOVOPlasty: de novo assembly of organelle genomes from whole genome data. | Q54190747 | ||
Next-generation sequencing library construction on a surface. | Q55122345 | ||
How quantitative is metabarcoding: a meta-analytical approach | Q58585689 | ||
A MinION™-based pipeline for fast and cost-effective DNA barcoding | Q59359121 | ||
Differential staining of aborted and nonaborted pollen | Q70109376 | ||
Minimizing polymerase biases in metabarcoding | Q88804213 | ||
The choice of universal primers and the characteristics of the species mixture determine when DNA metabarcoding can be quantitative | Q89232533 | ||
Resource overlap and possible competition between honey bees and wild bees in central Europe | Q89569145 | ||
A DNA barcoding method for identifying and quantifying the composition of pollen species collected by European honeybees, Apis mellifera (Hymenoptera: Apidae) | Q90905874 | ||
Origin of angiosperms and the puzzle of the Jurassic gap | Q91806594 | ||
P433 | issue | 6 | |
P304 | page(s) | 1433-1446 | |
P577 | publication date | 2019-09-18 | |
P1433 | published in | Molecular Ecology Resources | Q15760135 |
P1476 | title | Genome-skimming provides accurate quantification for pollen mixtures | |
P478 | volume | 19 |
Q90119076 | Experimental quantification of pollen with DNA metabarcoding using ITS1 and trnL | cites work | P2860 |
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