Nature based alternatives regarding coastal and environmental climate change hazards: A case study of the Tsleil-Waututh Nation foreshore

The Tsleil-Wautuh Nation (TWN) reserve, Sleil-Waututh, located at the north shore of the Burrard Inlet in Vancouver (British Columbia, Canada) is strongly influenced by climate change. Sea level rise, coastal flooding and shoreline erosion are contributing to loss of land, damages to infrastructure,...

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Bibliographic Details
Main Authors: van der Ven, Mizzi (author), Scheurwater, Bart (author), Scheijmans, Jasper (author), Tukker, Jim (author), Hartman, Nicole (author)
Other Authors: Aarninkhof, S.G.J. (graduation committee), Ertsen, M.W. (mentor), Pearson, S.G. (mentor), Taleghani, Amir (mentor), Scruton, Max (mentor), Delft University of Technology (degree granting institution)
Format: Other/Unknown Material
Language:English
Published: 2020
Subjects:
Hydraulic Engineering
Coastal Engineering
Climate Change
Climate Adaptation
Building with Nature
Indigenous community
Environmental Engineering
Coastal erosion
British Columbia
Canada
Kerr
Rip
Ocean acidification
Online Access:http://resolver.tudelft.nl/uuid:71cfe650-a90d-48c7-b791-99ae53eb1c36
Description
Summary:The Tsleil-Wautuh Nation (TWN) reserve, Sleil-Waututh, located at the north shore of the Burrard Inlet in Vancouver (British Columbia, Canada) is strongly influenced by climate change. Sea level rise, coastal flooding and shoreline erosion are contributing to loss of land, damages to infrastructure, ecosystem changes and exposure of historic sites with cultural value. The TWN are a First Nation, a recognized group of aboriginal people in Canada, and have lived in harmony on the lands and waters of the Burrard Inlet since time out of mind. As TWN has a sacred obligation to be caretakers of the land, they retained Kerr Wood Leidal (KWL) to conduct a climate change hazard and vulnerability assessment and to design a ten year climate change adaptation action plan. The existing conditions in the area are investigated from a technical, environmental and sociological point of view, including a study of the community context of the TWN. Climate change exposes the project area to hazards such as sea level rise, acidification and water temperature changes among others. After conducting a hazard assessment, the following climate change induced hazards are evaluated: Coastal flooding, coastal erosion, intertidal area change, ocean acidification, harmful algae blooms and other ocean conditions (water temperature, e.g.). The impact of waves and rising sea levels are assessed through an Xbeach model. The impact of harmful algae blooms and other ocean conditions are evaluated though literature research. The potential of four different approaches, varying from traditional to building with nature-based solutions, to mitigate the identified hazards are discussed: a rip rap, a nourishment, a salt marsh and a clam garden. They are evaluated based on technical, environmental, economic and social feasibility. For each alternative a trade-off exists between protection against the identified hazards – mainly between the ability of each of the solutions to prevent or mitigate coastal flooding and erosion while preserving the local ...

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