Your input will help us assess how Ottawa is vulnerable to climate change and inform the development of the climate resiliency strategy. How will increased extreme weather events affect you and your community? How can we prepare for these changes? Share your ideas by completing the survey. The impacts of climate change will be looked at in further detail as part of the climate vulnerability assessment.įind out what the City is already doing to adapt to climate change. This is expensive to repair and can disrupt lives, local businesses and City services. They can cause extended power outages and put added strain on emergency services and costs to the City.ĭamage to property and other infrastructureĮxtreme events damage property and other infrastructure such as roads, pathways and communication and power lines. Favourable conditions for ice storms or severe snow storms, tornadoes and high wind gusts, droughts and wildfiresĮxtreme events such as ice storms, tornadoes, floods and wildfires greatly affect the mental and physical health of those directly impacted and can have significant financial costs.More freezing rain, particularly in the winter.On Canada Day, at the hottest time of the day, humidex levels made it feel like 47 degrees Celsius.īy the 2050s, under a high-emission scenario, we can expect: A prolonged extreme heat event that lasted six days in July 2018.Tornadoes in 20 caused extensive damage to property and power outages.Significant flooding along the Ottawa River in the spring of 20 resulted in extensive property damage and health concerns.Over 50 cm of snow in February 2016, which caused closures throughout the city and set a new record for the biggest snowfall in a single day.Five successive ice storms in January 1998, which caused massive damage to trees and electrical infrastructure causing widespread power outages and a shutdown of activities across Ottawa and the region for several weeks.Some examples of extreme weather events in Ottawa include: Climate science tells us that these trends will continue in the next decades. In recent years we have experienced more extreme heat, wind, rain and snow. Several specific case study municipalities are being selected for interviews, and summary fact sheets are being prepared in Norwegian on the findings which are posted to this website.Ottawa’s weather is becoming more variable and unpredictable. The data is collected from January 2016 to December 2021, using historical weather reports that were collected from 2,071 airport-based. storm) and some could be regarded as regular events (e.g. Some of the events in this dataset are extreme events (e.g. Factors on how municipalities deal with this type of knowledge are assessed, with especial focus on the interplay amongst institutional structures and frameworks at the national, regional, and municipal levels. Examples of weather events are rain, snow, storm, and freezing condition. The work analyses how new and updated knowledge in these realms affects policy formation at the municipal level. The focus is on the possible effects on drinking water, cultural heritage, and the natural environment especially floods. The yearly total snowfall was 42.1 inches. February 19-20th high wind event across central SD, July 13th heavy rains across northeastern SD and west central MN, the active severe weather pattern in July and August, November 17-18th blizzard across eastern SD and west central MN, Nov 28-30 record-breaking low pressure rain/snowstorm, and the December 17-18 arctic cold air outbreak. The normal yearly precipitation is 39.10. The yearly total precipitation was 36.47 inches. The normal average yearly temperature is 50.7 degrees. The yearly average temperature was 54.2 degrees. ![]() The research carried out through the program is improving such knowledge and is providing an overview of the challenges municipalities face, particularly in terms of storms leading to extreme precipitation and floods but also slower changes such as to humidity and runoff. 2016 was the warmest year ever in Cleveland with an average temperature of 54.2 degrees. ![]() The main objective is to provide a resource website to aid municipalities in facing the challenges of extreme weather and other climate-driven challenges. The spatial distribution of large floods in Europe can also be shown as in Figure 4 over the entire 32-year time interval (19852016) for which records are. The Klima Strategic Institute Program focuses on adapting to extreme weather in municipalities. Examples of recent, major weather events are the hurricane in northwest Norway in 1992 and the flood in eastern Norway in 1995. Yet preparing for the likelihood of climate-driven extreme events and developing response strategies are primarily tasks for municipalities. Local authorities in Norway have varying abilities to deal with climate-related extremes, such as floods, storms, landslides, and avalanches.
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