Sea Level is the sea height relative to a benchmark on land. Sea level rise is an increase in sea height over a period of time such that fluctuations due toand waves are factored over time, e.g. months to years. Over the past decades, increases in sea surface height have been attributed to increases in temperature of the ocean due to global warming. As water is heated it expands, resulting in of coastal areas. Additionally the melting of the ice caps contributes to the rise in sea height.
To explain what areas of the coast line will be flooded in a given number of years; to predict flooding from storm surges.
Part 1. Becoming familiar with topographic maps
1. Locate the following on your topographic map and note the color:
|Land Type||Map Color|
2. Using the non-permanent markers, trace the shoreline of the area, circle major buildings such as schools, churches, and mark several main roads.
Part 2. Determining flooded areas from sea level rise
1. Using the information provided in the table below, determine the current rate of sea level rise in mm per year.
2. Determine how many years it will take to flood the areas listed below.
|Area||Years to Flooding|
3. Using the graph below, determine how many meters the sea level will have risen by the year 2100 under a best case(bottom of purple area) and worst case scenario (top of purple area).
4. Use the contour lines on your topographic map to draw in the new coastline after 100 years of sea level rise.
Part 3. Determining flooded areas from a storm surge
1. Choose any coastal area from the US East Coast. Use one of the following websites to determine when high and low tide occur today in your area.
2. A hurricane in your area produced a storm surge of 6 feet. Would the impact of the storm be greater or less if it hits land at 8:00 AM vs. 2:00 PM today?