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Metabarcoding analysis based on 18S rDNA in the Jiaozhou Bay
To explore the phytoplankton communities, the metabarcoding analysis using v4 region of 18S rDNA were conducted. -
Hydrogen and carbon monoxide oxidation in marine bacteria
Hydrogen and carbon monoxide are supersaturated in marine surface waters compared to the atmosphere, providing an accessible energy source for microbial communities. While... -
CNS00001 - Jiaozhou Bay metagenomics (January 2019)
18S rDNA V4 region of environmental samples from Jiaozhu Bay Raw sequence reads -
Marine biofilm in Jangmok
We performed metabarcoding analysis to monitor seasonal variation and antifouling effect in microbial biofilm formation. To monitor biofouling formation, we equipped untreated... -
Comparative analysis of abundant and rare HAB species in representative coast...
To detect whether the dispersal of phytoplankton, especially harmful algal bloom (HAB) species, has geographical preference -
Mount Hope Bay bacteria Targeted Locus (Loci)
Coastal marine environments have been impacted by human activity for several centuries, including shoreline alteration, nutrient introduction, sedimentation, toxic compound... -
Metabarcoding diet analysis of marine cladocerans, Penilia avirostris and Psu...
Metabarcoding diet analysis targeting 18S and 16S rRNA were performed to reveal feeding habits of marine cladocerans Penilia avirostris and Pseudevadne tergestina. Zooplankton... -
High-throughput sequencing of 16S rRNA gene in the sediment and seawater samples
The microbial community compositions in the sediments and seawaters of one mariculture area were uncovered by the 16S rRNA gene amplicon sequencing -
Metagenomic seqencing in the sediments and seawaters
Comparative metagenomic sequencing reveals the microbial diversity and metabolic potentials in the sediments and seawaters of a mariculture area