We’re sorry, but GBIF doesn’t work properly without JavaScript enabled.
Our website has detected that you are using an outdated insecure browser that will prevent you from using the site. We suggest you upgrade to a modern browser.
{{nav.loginGreeting}}
  • Get data

      • Occurrences
      • Species
      • Datasets
      • Trends
  • How-to

    • Share data

      • Quick-start guide
      • Dataset classes
      • Data hosting
      • Standards
      • Become a publisher
      • Data quality
      • Data papers

    • Use data

      • Featured data use
      • Citation guidelines
      • GBIF citations
      • Citation widget
  • Tools

    • Publishers

      • IPT
      • Data validator
      • Suggest a dataset
      • Scientific Collections

    • Users

      • GBIF API
      • Data processing
      • rgbif
      • MAXENT
      • Tools catalogue

    • GBIF labs

      • Species matching
      • Name parser
      • Sequence ID
      • Relative observation trends
      • GBIF data blog
  • Community

    • Network

      • Participants
      • Nodes
      • Publishers
      • Network contacts
      • Community forum
      • alliance for biodiversity knowledge

    • Volunteers

      • Mentors
      • Ambassadors
      • Translators
      • Citizen scientists

    • Activities

      • Capacity enhancement
      • Training and e-Learning
      • Programmes & projects
      • Living Atlases
  • About

    • Inside GBIF

      • What is GBIF?
      • Become a member
      • Governance
      • Funders
      • Partnerships
      • Release notes
      • Implementation plan
      • Contacts

    • News & outreach

      • News
      • Newsletters and lists
      • Events
      • Ebbe Nielsen Challenge
      • Young Researchers Award
      • Science Review
  • User profile

Bacterial biogeography of a High Arctic ice cap

Dataset homepage

Citation

MGnify (2019). Bacterial biogeography of a High Arctic ice cap. Sampling event dataset https://doi.org/10.15468/rm9uht accessed via GBIF.org on 2021-01-25.

Description

This study investigates the roles of dispersal, environmental and biotic filtration in bacterial assemblies, in order to understand the environmental influences in cryoconite ecosystems. Foxfonna dome is used as a model ecosystem to observe the bacterial biogeography of an ice cap.

Sampling Description

Sampling

This study investigates the roles of dispersal, environmental and biotic filtration in bacterial assemblies, in order to understand the environmental influences in cryoconite ecosystems. Foxfonna dome is used as a model ecosystem to observe the bacterial biogeography of an ice cap.

Method steps

  1. Pipeline used: https://www.ebi.ac.uk/metagenomics/pipelines/4.1

Taxonomic Coverages

Geographic Coverages

Bibliographic Citations

Contacts

originator
Aberystwyth University
metadata author
Aberystwyth University
administrative point of contact
Aberystwyth University
What is GBIF? API FAQ Newsletter Privacy Terms and agreements Citation Code of Conduct Acknowledgements
Contact GBIF Secretariat Universitetsparken 15 DK-2100 Copenhagen Ø Denmark