Project description:Metabarcoding of benthic fauna of Takamigawa River (Nara Prefecture) using histone H3 gene

Project description:Matabarcoding of benthic fauna of Takamigawa River (Nara Prefecture) using COI gene

Project description:Metabarcoding New York City: 16S rRNA, 18S rRNA, and COI sequences of the Bronx River Estuary

Project description:16S rRNA metagenome project for feces of wild deer in Nara prefecture, Japan

Project description:MiFish metabarcoding data of river samples in Fukuoka, Japan

Project description:Fish fauna detected by eDNA metabarcoding in damaged rivers by heavy rainfall in Northern Kyushu District, Japan in July 2017

Project description:MiFish metabarcoding data of river sample in Fukuoka, Japan (January 2020)

Project description:MiFish metabarcoding data of river samples in Fukuoka, Japan (June 2018- January 2019)

Project description:Freshwater environments such as rivers receive effluent discharges from wastewater treatment plants, representing a potential hotspot for antibiotic resistance genes (ARGs). These effluents also contain low levels of different antimicrobials including biocides and antibiotics such as sulfonamides that can be frequently detected in rivers. The impact of such exposure on ARG prevalence and microbial diversity of riverine environment is unknown, so the aim of this study was to investigate the release of a sub-lethal concentration (<4 g L-1) of the sulfonamide compound sulfamethoxazole (SMX) on the river bacterial microbiome using a microflume system. This system was a semi-natural in-vitro microflume using river water (30 L) and sediment, with circulation to mimic river flow. A combination of ‘omics’ approaches were conducted to study the impact of SMX exposure on the microbiomes within the microflumes. Metaproteomics did not show differences in ARGs expression with SMX exposure in water.

Project description:16S rRNA next generation sequencing of bacterial community from Tama River