Computational Model Library

Viable North Sea (ViNoS): A NetLogo Agent-based Model of German Small-scale Fisheries (1.3.0)

Viable North Sea (ViNoS) is an Agent-based Model of the German North Sea Small-scale Fisheries in a Social-Ecological Systems framework focussing on the adaptive behaviour of fishers facing regulatory, economic, and resource changes. Small-scale fisheries are an important part both of the cultural perception of the German North Sea coast and of its fishing industry. These fisheries are typically family-run operations that use smaller boats and traditional fishing methods to catch a variety of bottom-dwelling species, including plaice, sole, and brown shrimp. Fisheries in the North Sea face area competition with other uses of the sea – long practiced ones like shipping, gas exploration and sand extractions, and currently increasing ones like marine protection and offshore wind farming. German authorities have just released a new maritime spatial plan implementing the need for 30% of protection areas demanded by the United Nations High Seas Treaty and aiming at up to 70 GW of offshore wind power generation by 2045. Fisheries in the North Sea also have to adjust to the northward migration of their established resources following the climate heating of the water. And they have to re-evaluate their economic balance by figuring in the foreseeable rise in oil price and the need for re-investing into their aged fleet.

Bildschirmfoto 2024-03-01 um 08.30.02.png

Release Notes

Version 1.3.0 is a feature release of our Viable North Sea (ViNoS) software. The main purpose of this release are benchmarks and realism improvements, as well as a new storymap and individual logbooks.

  • added storymap
  • added individual fisher’s logbook
  • added monthly landing expectation
  • added monthly reporting
  • added benchmark monitors

Associated Publications

Lemmen, C., Hokamp, S., Örey, S., & Scheffran, J. (2024). Viable North Sea (ViNoS): A NetLogo Agent-based Model of German Small-scale Fisheries. Journal of Open Source Software, accepted.

Viable North Sea (ViNoS): A NetLogo Agent-based Model of German Small-scale Fisheries 1.3.0

Viable North Sea (ViNoS) is an Agent-based Model of the German North Sea Small-scale Fisheries in a Social-Ecological Systems framework focussing on the adaptive behaviour of fishers facing regulatory, economic, and resource changes. Small-scale fisheries are an important part both of the cultural perception of the German North Sea coast and of its fishing industry. These fisheries are typically family-run operations that use smaller boats and traditional fishing methods to catch a variety of bottom-dwelling species, including plaice, sole, and brown shrimp. Fisheries in the North Sea face area competition with other uses of the sea – long practiced ones like shipping, gas exploration and sand extractions, and currently increasing ones like marine protection and offshore wind farming. German authorities have just released a new maritime spatial plan implementing the need for 30% of protection areas demanded by the United Nations High Seas Treaty and aiming at up to 70 GW of offshore wind power generation by 2045. Fisheries in the North Sea also have to adjust to the northward migration of their established resources following the climate heating of the water. And they have to re-evaluate their economic balance by figuring in the foreseeable rise in oil price and the need for re-investing into their aged fleet.

Release Notes

Version 1.3.0 is a feature release of our Viable North Sea (ViNoS) software. The main purpose of this release are benchmarks and realism improvements, as well as a new storymap and individual logbooks.

  • added storymap
  • added individual fisher’s logbook
  • added monthly landing expectation
  • added monthly reporting
  • added benchmark monitors

Version Submitter First published Last modified Status
1.3.0 Carsten Lemmen Tue Dec 5 07:50:49 2023 Tue Dec 5 07:50:49 2023 Published
1.2.0 Carsten Lemmen Wed Sep 6 13:33:09 2023 Wed Sep 6 13:33:09 2023 Published
1.1.0 Carsten Lemmen Thu May 25 20:36:12 2023 Mon Sep 9 17:36:59 2024 Published Peer Reviewed DOI: 10.25937/b8wc-t293
1.0.0 Carsten Lemmen Thu May 25 13:45:17 2023 Fri May 26 07:35:39 2023 Published

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