Project description:Despite the fact that deep sea mining is becoming more popular nowadays in terms of obtaining metals ores for daily life purposes, its potential impact to the deep sea habitat, which is originally stable and converse, stills remains uncertain. In order to estimate and regulate the imapct of deep sea mining activities, an in-situ exposure experiment is performed to observe the change in proteomics expression of the deep-sea scvangers, Abyssorchomene distinctus, to copper exposure. This project aims to suggest a potenial protein bio-marker in Abyssorchomene distinctus to assess the impact of mining activities towards deep sea organisms and also discuss the potential application of other deep sea in-situ exposure experiment in the future.

Project description:Metatranscriptomics of natural groundwater surrounding a uranium roll-front deposit: Insights into in-situ recovery mining

Project description:In this study, a deep mining strategy of plasma proteomics was established by combing the protein corona formed by deep mining beads (DMB beads, hereafter referred to as magnetic covalent organic frameworks Fe3O4@TpPa-1), DIA-MS detection and the DIA-NN library searching method.

Project description:Temporal dynamics in biotic and functional recovery following mining

Project description:Fungal communities in around mining and smelting sites Metagenome

Project description:Canada mining impacted freshwater metagenomes

Project description:Geobacteraceae transfer electrons from a donor such as acetate to an electron acceptor such as Fe(III) or U(VI). Geobacter uraniireducens is found in uranium-contaminated sites and plays an important role in in situ bioremediation. In this experiment, gene expression was compared between G. uraniireducens cultures grown in sediments from a uranium contaminated site amended with acetate and cultures grown in acetate/fumarate medium. Keywords: two-condition comparison

Project description:Mining revegetation - Usherbrooke - NRC Metagenome

Project description:Citrus Nuclear species-diagnostic SNP markers mining from 454 amplicon sequencing.

Project description:Citrus Nuclear species-diagnostic SNP markers mining from 454 amplicon sequencing.