Case study: Marine: Low trophic Marine Production systems in offshore wind farms at the North Sea: Synergies & Trade-offs of Wageningen Climate Solutions in Primary Production Systems

M. Poelman, J.A.M. Pulskens, D. Verstand (Contributor), C. Liu (Contributor), N.L. Dam (Contributor), J.A. Verschoor (Contributor), T. Selnes (Contributor), M.S. Trip (Contributor), L.Y. Garcia Chavez (Contributor), N. Pellens (Contributor), K. Niermans (Contributor), R. Rosa Amalia Safitri (Contributor), J. Steenbergen (Contributor), M. Budding-Polo Ballinas (Contributor)

Research output: Other contributionPamphlet

Abstract

With a world population reaching 10 billion in 2050, the pressure on our food system, the impact on the ecological carrying capacity as well as the need for global food security is more apparent than ever. A fossil fuel transition towards more renewable energy, in this case wind energy, embodies a crucial point in this.
Original languageEnglish
TypeFactsheet
PublisherWageningen University & Research
Number of pages10
Place of PublicationWageningen
Publication statusPublished - Jul 2024

Keywords

  • Energy
  • wind
  • food production

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