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Cabrillo Town Center (Future) Detailed Report, 7/26/2023 <br />Extreme Precipitation 3.50 <br />Sea Level Rise 0.00 <br />Wildfire 1.31 <br />annual days with precipitation above 20 mm <br />meters of inundation depth <br />annual hectares burned <br />Temperature and Extreme Heat data are for grid cell in which your project are located. The projection is based on the 98th historical percentile of daily maximum/minimum temperatures from observed <br />historical data (32 climate model ensemble from Cal -Adapt, 2040-2059 average under RCP 8.5). Each grid cell is 6 kilometers (km) by 6 km, or 3.7 miles (mi) by 3.7 mi. <br />Extreme Precipitation data are for the grid cell in which your project are located. The threshold of 20 mm is equivalent to about 3/4 an inch of rain, which would be light to moderate rainfall if received over a full <br />day or heavy rain if received over a period of 2 to 4 hours. Each grid cell is 6 kilometers (km) by 6 km, or 3.7 miles (mi) by 3.7 mi. <br />Sea Level Rise data are for the grid cell in which your project are located. The projections are from Radke et al. (2017), as reported in Cal -Adapt (2040-2059 average under RCP 8.5), and consider different <br />increments of sea level rise coupled with extreme storm events. Users may select from four model simulations to view the range in potential inundation depth for the grid cell. The four simulations make <br />different assumptions about expected rainfall and temperature are: Warmer/drier (HadGEM2-ES), Cooler/wetter (CNRM-CM5), Average conditions (CanESM2), Range of different rainfall and temperature <br />possibilities (MIR005). Each grid cell is 50 meters (m) by 50 m, or about 164 feet (ft) by 164 ft. <br />Wildfire data are for the grid cell in which your project are located. The projections are from UC Davis, as reported in Cal -Adapt (2040-2059 average under RCP 8.5), and consider historical data of climate, <br />vegetation, population density, and large (> 400 ha) fire history. Users may select from four model simulations to view the range in potential wildfire probabilities for the grid cell. The four simulations make <br />different assumptions about expected rainfall and temperature are: Warmer/drier (HadGEM2-ES), Cooler/wetter (CNRM-CM5), Average conditions (CanESM2), Range of different rainfall and temperature <br />possibilities (MIR005). Each grid cell is 6 kilometers (km) by 6 km, or 3.7 miles (mi) by 3.7 mi. <br />6.2. Initial Climate Risk Scores <br />Temperature and Extreme Heat <br />0 <br />0 <br />0 <br />N/A <br />Extreme Precipitation <br />N/A <br />N/A <br />N/A <br />N/A <br />Sea Level Rise <br />0 <br />0 <br />0 <br />N/A <br />Wildfire <br />0 <br />0 <br />0 <br />N/A <br />Flooding <br />N/A <br />N/A <br />N/A <br />N/A <br />Drought <br />N/A <br />N/A <br />N/A <br />N/A <br />Snowpack Reduction <br />N/A <br />N/A <br />N/A <br />N/A <br />Air Quality Degradation <br />0 <br />0 <br />0 <br />N/A <br />The sensitivity score reflects the extent to which a project would be adversely affected by exposure to a climate hazard. Exposure is rated on a scale of 1 to 5, with a score of 5 representing the greatest <br />exposure. <br />The adaptive capacity of a project refers to its ability to manage and reduce vulnerabilities from projected climate hazards. Adaptive capacity is rated on a scale of 1 to 5, with a score of 5 representing the <br />greatest ability to adapt. <br />The overall vulnerability scores are calculated based on the potential impacts and adaptive capacity assessments for each hazard. Scores do not include implementation of climate risk reduction measures. <br />6.3. Adjusted ('1imate Rick Scores <br />City Council 18 — 757 10/3/2023 <br />49 / 55 <br />