Geological seabed stability model for informing Irish offshore renewable energy opportunities

J. L. Peters; J. L. Peters; J. L. Peters; F. Butschek; F. Butschek; R. O'Connell; V. Cummins; V. Cummins; J. Murphy; A. J. Wheeler; A. J. Wheeler; A. J. Wheeler

doi:10.5194/adgeo-54-55-2020

Advances in Geosciences (Oct 2020)

Geological seabed stability model for informing Irish offshore renewable energy opportunities

J. L. Peters,
J. L. Peters,
J. L. Peters,
F. Butschek,
F. Butschek,
R. O'Connell,
V. Cummins,
V. Cummins,
J. Murphy,
A. J. Wheeler,
A. J. Wheeler,
A. J. Wheeler

Affiliations

J. L. Peters: School of Biological, Earth and Environmental Sciences, University College Cork, Cork, Ireland
J. L. Peters: MaREI Centre for Marine & Renewable Energy, University College Cork, Beaufort Building, Environmental Research Institute, Ringaskiddy, Ireland
J. L. Peters: Fisheries Liaisons, Green Rebel Marine Group, 26 Harbour View, Cobh, County Cork, Ireland
F. Butschek: School of Biological, Earth and Environmental Sciences, University College Cork, Cork, Ireland
F. Butschek: Irish Centre for Research in Applied Geosciences, University College Cork, Ireland
R. O'Connell: MaREI Centre for Marine & Renewable Energy, University College Cork, Beaufort Building, Environmental Research Institute, Ringaskiddy, Ireland
V. Cummins: School of Biological, Earth and Environmental Sciences, University College Cork, Cork, Ireland
V. Cummins: MaREI Centre for Marine & Renewable Energy, University College Cork, Beaufort Building, Environmental Research Institute, Ringaskiddy, Ireland
J. Murphy: MaREI Centre for Marine & Renewable Energy, University College Cork, Beaufort Building, Environmental Research Institute, Ringaskiddy, Ireland
A. J. Wheeler: School of Biological, Earth and Environmental Sciences, University College Cork, Cork, Ireland
A. J. Wheeler: MaREI Centre for Marine & Renewable Energy, University College Cork, Beaufort Building, Environmental Research Institute, Ringaskiddy, Ireland
A. J. Wheeler: Irish Centre for Research in Applied Geosciences, University College Cork, Ireland

DOI: https://doi.org/10.5194/adgeo-54-55-2020
Journal volume & issue: Vol. 54
pp. 55 – 65

Abstract

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Climate change has driven the European Union to propose a reduction in carbon emissions by increasing renewable energy production. Although Ireland is rich in renewable energy, especially offshore wind resources, it is failing to reduce its annual carbon emissions. This study endeavours to improve Ireland's marine spatial planning abilities and offshore renewable energy developments by harmonising and customising a unique geological dataset for incorporation into geospatial assessments of Ireland's continental shelf. A dataset of 1858 points, including 17 new seabed samples collected at strategic sites for this study, is created and used to build a series of geospatial outputs. Data are interpolated with empirical Bayesian kriging to use variogram analyses for probabilistically interpolating coded geological values. The interpolation results are validated through leave-one-out cross-validation and combined with bespoke models of bathymetry and seabed slope using map algebra. The final model reveals areas of relative probable seabed stability based on geological and geomorphological characteristics and is shown to comport with known conditions in several locations. Results suggest that the methods and results presented here could provide useful information to future planning activities and initial site selection assessments.

Published in Advances in Geosciences

ISSN: 1680-7340 (Print); 1680-7359 (Online)
Publisher: Copernicus Publications
Country of publisher: Germany
LCC subjects: Science: Geology: Dynamic and structural geology
Website: http://www.advances-in-geosciences.net

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