2011 – Kerr Wood Leidal Associates Ltd. for BC Ministry of Forests, Lands and Natural Resource Operations
This report is intended to provide a technically sound basis for BC local governments to develop coastal floodplain maps, and includes an estimation of Flood Construction Levels (FCLs), based on best mapping and engineering practices. In light of rising sea levels, coastal floodplain maps are needed so that local governments can define sea level rise planning zones for land use planning and development decisions. The report summarizes recommended standards for topographic mapping in the production of coastal floodplain maps. A sample coastal floodplain map and design brief for the City of Campbell River is included.
In conjunction with this project, a coastal flood hazard web application had been developed. It illustrates potential year 2100 floodplain areas in coastal BC, based on approximate FCLs.
2012 – Delcan for the BC Ministry of Forests, Lands and Natural Resource Operations
This report explores diking and other flood management options, along with related costs, for more than 250 km of coastal shoreline in Metro Vancouver, including the Fraser River downstream of the Port Mann Bridge. Options include new or expanded dikes, floodwalls where there is insufficient room for dikes, breakwaters or barrier islands to dissipate wave energy, restrictions on building in the floodplain and better emergency response systems. The report estimates a cost of $9.5 billion to implement flood-protection improvements in Metro Vancouver by 2100 to address sea level rise.
2018 - Engineers and Geoscientists of BC
These Professional Practice Guidelines – Legislated Flood Assessments in a Changing Climate in BC were commissioned by the British Columbia (BC) Ministry of Forests, Lands, Natural Resource Operations, and Rural Development (MFLNRORD). They were written to guide professional practice for flood assessments, identify the circumstances when Risk Assessments are appropriate, and emphasize the need to consider climate change and land use changes in such assessments. MFLNRORD and Engineers and Geoscientists BC assembled a team of specialists from government and the engineering and geoscience community to prepare and review these guidelines. The goal is that the application of these guidelines will result in consistent and comprehensive Flood Assessment Reports being submitted to government authorities.
2012 – City of Prince George
To help identify and plan for the impacts of climate change, the City of Prince George worked on a planning process in partnership with University of Northern BC (UNBC), the Fraser Basin Council and many others. The City incorporated adaptation into the myPG sustainability plan and the Official Community Plan.
This video series offers an overview of the work and some of the key focus areas: forests, ecosystems, transportation and flood:
- Prince George Adaptation Process Summary (2012: Video)
- Prince George Adaptation and Sensitive Ecosystems (2012: Video)
- Prince George Adaptation and Forests (2012: Video)
- Prince George Adaptation and Transportation (2012: Video)
- Prince George Adaptation and Flooding (2012: Video).
2013 - Arlington Group Planning + Architecture Inc. and others for the Government of British Columbia
Coastal hazards associated with sea level rise include coastal inundation (flooding), reduced drainage capacity (due to higher groundwater levels), coastal erosion, changes to coastal habitats and loss of wetlands, such as salt marshes. The BC Ministry of Environment commissioned the Sea Level Rise Adaptation Primer: A Toolkit to Build Adaptive Capacity on Canada's South Coasts to help coastal management authorities — mainly local governments — identify, evaluate and compare options for adapting to the impacts of sea level rise and associated coastal hazards. The Primer offers 21 adaptation tools: for planning, regulation, land use changes/restrictions and for structural (flood protection) and non-structural (soft armouring) works.
The project was funded through the BC Regional Adaptation Collaborative (RAC) in partnership with Atlantic RAC and Natural Resources Canada to investigate adaptation on Canada's Pacific and Atlantic coasts.
2018 - Natalie Heldsinger, Jessica MacKinnon, and Shawna Peddle
This guide provides an overview of best practices for effective flood risk communication, and is designed to facilitate development of flood risk communication that promote community-level preparedness. This guide is intended for use by emergency managers, risk communicators, and others who are working towards developing flood risk communication messaging and strategies that empower communities to pursue personal preparedness actions to reduce risk. The structure of the guide follows the general outline of a communication strategy. This structure will assist with the development of a personalized plan for a targeted community.
2014 — City of Vancouver
In 2014 the City of Vancouver revised its bylaws to raise flood construction levels to respond to the increased risk of flood damage due to climate change. The provisions took effect January 1, 2015.
Important: Check with the City of Vancouver for current bylaw text.
Canadian Institute of Planners
Go to Resource: https://www.cip-icu.ca/ClimateChange
CALP Delta-RAC Project Team
The Delta-RAC Sea Level Rise Adaptation Visioning Study – Policy Report shows how mapping and visualizations can advance land use planning, decision-making and implementation of adaptation measures. The visioning study explores scenarios related to sea level rise, storm surge and increased storm water for Delta and its neighbourhoods, and looks at adaptation options. The project received funding from the BC Regional Adaptation Collaborative program
For more information, visit the Delta-RAC Sea Level Rise Adaptation website, hosted by the UBC Collaborative for Advanced Landscape Planning (CALP). The site provides visualizations of future adaptation scenarios and training modules.
District of West Vancouver
The District of West Vancouver created a shoreline protection plan (SPP) to help recreate a naturally self-sustaining shoreline to address the impacts of development, climate change and sea level rise.