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Tristan Cordier

Guest Researcher
  • E-mailtristan.cordier@uib.no
  • Visitor Address
    Allégaten 70
    5007 Bergen
  • Postal Address
    Postboks 7803
    5020 Bergen
Academic article
  • Show author(s) (2024). The global genetic diversity of planktonic foraminifera reveals the structure of cryptic speciation in plankton. Biological Reviews.
  • Show author(s) (2024). Assessing the potential of nematode metabarcoding for benthic monitoring of offshore oil platforms. Science of the Total Environment.
  • Show author(s) (2023). Sedimentary ancient DNA: a new paleogenomic tool for reconstructing the history of marine ecosystems. Frontiers in Marine Science. 12 pages.
  • Show author(s) (2023). Machine learning in marine ecology: an overview of techniques and applications. ICES Journal of Marine Science. 1829-1853.
  • Show author(s) (2023). COBRA Master Class: Providing deep-sea expedition leadership training to accelerate early career advancement. Frontiers in Marine Science. 11 pages.
  • Show author(s) (2022). Patterns of eukaryotic diversity from the surface to the deep-ocean sediment. Science Advances. 13 pages.
  • Show author(s) (2021). Supervised machine learning is superior to indicator value inference in monitoring the environmental impacts of salmon aquaculture using eDNA metabarcodes. Molecular Ecology. 2988-3006.
  • Show author(s) (2021). Scientific and budgetary tradeoffs between morphological and molecular methods for deep-sea biodiversity assessment. Integrated Environmental Assessment and Management.
  • Show author(s) (2021). PaleoEcoGen: Unlocking the power of ancient environmental DNA to understand past ecological trends. Past Global Changes Magazine.
  • Show author(s) (2021). Monitoring the ecological status of rivers with diatom eDNA metabarcoding: a comparison of taxonomic markers and analytical approaches for the inference of molecular diatom index. Molecular Ecology. 2959-2968.
  • Show author(s) (2021). Microbial community diversity and composition in river sediments contaminated with tetrabromobisphenol A and copper. Chemosphere.
  • Show author(s) (2021). Eukaryotic biodiversity and spatial patterns in the Clarion-Clipperton Zone and other abyssal regions: insights from sediment DNA and RNA metabarcoding. Frontiers in Marine Science.
  • Show author(s) (2021). Environmental DNA metabarcoding for benthic monitoring: A review of sediment sampling and DNA extraction methods. Science of the Total Environment.
  • Show author(s) (2021). Benthic monitoring of oil and gas offshore platforms in the North Sea using environmental DNA metabarcoding. Molecular Ecology. 3007-3022.
Report
  • Show author(s) (2022). Arctic Paleoceanography Cruise KH21-234 with R/V Kronprins Haakon. .
Lecture
  • Show author(s) (2022). Les promesses de la génomique environnementale: De la surveillance de routine à l’inférence de processus écologiques à l’échelle planétaire (ou l’inverse).
Academic lecture
  • Show author(s) (2024). Tracing changes in past biodiversity in the Arctic using ancient DNA.
  • Show author(s) (2023). Evaluating sedimentary ancient DNA as new proxy for sea ice variability in the Southern Ocean.
  • Show author(s) (2023). Assessing the impact of past environmental changes on marine protist biodiversity using sedimentary ancient DNA.
  • Show author(s) (2023). Assessing the impact of past environmental changes on Arctic biodiversity using sedimentary ancient DNA .
  • Show author(s) (2022). Using sedimentary ancient DNA to reconstruct the impact of Holocene environmental change on Arctic ecosystems.
  • Show author(s) (2022). Using ancient DNA sequencing to assess the impact of past environmental changes on marine protist biodiversity.
  • Show author(s) (2022). Towards Late Quaternary sea ice reconstructions in the Arctic with sedimentary ancient DNA.
  • Show author(s) (2022). Labrador Sea paleoceanography and paleodiversity across the Last Interglacial.
  • Show author(s) (2021). Towards a reconstruction of the past sea ice variations in the Arctic with sediment aDNA.
Editorial
  • Show author(s) (2021). Environmental DNA for biomonitoring. Molecular Ecology. 2931-2936.
Poster
  • Show author(s) (2024). Using paleogenomics to document the modern and past cryosphere and biodiversity.
  • Show author(s) (2023). Using sedimentary ancient DNA to reconstruct the impact of Holocene environmental change on Arctic ecosystems.
  • Show author(s) (2023). Reconstructing the Holocene marine ecosystem north of Svalbard using sedimentary ancient DNA.
  • Show author(s) (2023). Evaluating sedaDNA as paleoceanographic proxy in the Southern Ocean.
  • Show author(s) (2022). Using sedimentary ancient DNA to reconstruct the impact of Holocene environmental change on Arctic ecosystems.
  • Show author(s) (2022). Using ancient DNA sequencing to assess the impact of past environmental changes on protist biodiversity in the Arctic.
  • Show author(s) (2022). Towards Quaternary Arctic sea ice reconstructions with sedimentary ancient DNA: building a modern database for calibrating new DNA-based proxies.
  • Show author(s) (2022). Sedimentary ancient DNA Reveals Biodiversity Shifts in the Last Interglacial Labrador Sea.
  • Show author(s) (2022). A new approach to reconstruct Late Quaternary sea ice evolution in the Southern Ocean.
  • Show author(s) (2021). The Last Interglacial in the Labrador Sea: a sedimentary ancient DNA investigation.

More information in national current research information system (CRIStin)