Project description:Evaluating sedimentary DNA for tracing eutrophication-associated cyanobacteria species in subrecent varved sediments of lake Tiefer See, NE Germany.

Project description:Sedimentary ancient DNA shotgun data Lake Salmon sediment core

Project description:Sedimentary DNA metabarcoding of Cowpar Lake sediment core samples

Project description:Sedimentary bacterial markers from Lake Montcortes

Project description:Sedimentary DNA from Mubwindi Swamp

Project description:Epigenetic variation has the potential to control environmentally dependent development and contribute to phenotypic responses to local environments. Environmental epigenetic studies of sexual organisms confirm the responsiveness of epigenetic variation, which should be even more important when genetic variation is lacking. A previous study of an asexual snail, Potamopyrgus antipodarum, demonstrated that different populations derived from a single clonal lineage differed in both shell phenotype and methylation signature when comparing lake versus river populations. Here, we examine methylation variation among lakes that differ in environmental disturbance and pollution histories. The differential DNA methylation regions (DMRs) identified among the different lake comparisons suggested a higher number of DMRs and variation between rural Lake 1 and one urban Lake 2 and between the two urban Lakes 2 and 3, but limited variation between the rural Lake 1 and urban Lake 3. DMR genomic characteristics and gene associations were investigated. Observations suggest there is no effect of geographic distance or any consistent pattern of DMRs between urban and rural lakes. Environmental factors may influence epigenetic response.

Project description:Taihu Lake sedimentary bacteria Raw sequence reads

Project description:Deep-sea sedimentary DNA metabarcoding project

Project description:Plant DNA metabarcoding data of Lake Ximen derived from sedimentary ancient DNA of a lacustrine sediment core

Project description:High resolution ancient sedimentary DNA shows that alpine plant biodiversity is a result of human land use