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ERSEM 15.06: a generic model for marine biogeochemistry and the ecosystem dynamics of the lower trophic levels
Butenschön, M.; Clark, J.; Aldridge, J.N.; Allen, J.I.; Artioli, Y.; Blackford, J.; Bruggeman, J.; Cazenave, P.; Ciavatta, S.; Kay, S.; Lessin, G.; van Leeuwen, S.; van der Molen, J.; de Mora, L.; Polimene, L.; Sailley, S.; Stephens, N.; Torres, R. (2016). ERSEM 15.06: a generic model for marine biogeochemistry and the ecosystem dynamics of the lower trophic levels. Geosci. Model Dev. 9(4): 1293-1339. https://dx.doi.org/10.5194/gmd-9-1293-2016
In: Geoscientific Model Development. Copernicus Publications: Göttingen. ISSN 1991-959X; e-ISSN 1991-9603, more
Peer reviewed article  

Available in  Authors | Dataset 

Keyword
    Marine/Coastal

Authors  Top | Dataset 
  • Butenschön, M.
  • Clark, J.
  • Aldridge, J.N.
  • Allen, J.I.
  • Artioli, Y.
  • Blackford, J.
  • Bruggeman, J.
  • Cazenave, P.
  • Ciavatta, S.
  • Kay, S.
  • Lessin, G.
  • van Leeuwen, S.
  • van der Molen, J.
  • de Mora, L.
  • Polimene, L.
  • Sailley, S.
  • Stephens, N.
  • Torres, R.

Abstract
    The European Regional Seas Ecosystem Model (ERSEM) is one of the most established ecosystem models for the lower trophic levels of the marine food web in the scientific literature. Since its original development in the early nineties it has evolved significantly from a coastal ecosystem model for the North Sea to a generic tool for ecosystem simulations from shelf seas to the global ocean. The current model release contains all essential elements for the pelagic and benthic parts of the marine ecosystem, including the microbial food web, the carbonate system, and calcification. Its distribution is accompanied by a testing framework enabling the analysis of individual parts of the model. Here we provide a detailed mathematical description of all ERSEM components along with case studies of mesocosm-type simulations, water column implementations, and a brief example of a full-scale application for the north-western European shelf. Validation against in situ data demonstrates the capability of the model to represent the marine ecosystem in contrasting environments.

Dataset
  • Galli, G.; Artioli, Y.; Harle, J.; de Mora, L.; Holt, J.; Plymouth Marine Laboratory (PML), England; (2023): Climatological monthly means from the global hydrodynamic-biogeochemical model NEMO-ERSEM, hindcast from 1980-2019, biogeochemistry variables., more

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