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Subsidence. Outline. Deltas Groundwater pumping Sinkholes. Subsidence. Ground moves downward due to Slow compaction of water saturated sediment Rapid collapse of caves. Slow subsidence. Ground sinks when fluids are removed from depth in some way. Delta Subsidence.
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Outline • Deltas • Groundwater pumping • Sinkholes
Subsidence • Ground moves downward due to • Slow compaction of water saturated sediment • Rapid collapse of caves
Slow subsidence • Ground sinks when fluids are removed from depth in some way
Delta Subsidence • Delta: water saturated loose pile of sand and mud deposited by river • Compact and sink as new layers of sediment are added (forcing water out) • Problem: popular places to live!
Example: New Orleans • On Mississippi Delta • Parts dropped ~10 ft in last 50 years • 45% of city is below sea-level • Many retaining walls keeping it dry • Significant danger from hurricanes
New Orleans Essentially town is a bowl, ringed by levees for protection. Deepest point in the city is ~14 ft. below sea level.
Possible Hurricane Danger - New Orleans • Poor evacuation routes, estimates of 1 in 10 killed during a very large storm • Huge economic impacts - • Produces 1/3 U.S. seafood, 1/4 natural gas, 1/5 oil • Significant housing/structural damage
Subsidence from Groundwater Pumping • Water beneath surface used for drinking • Typically, amount pumped out can be replenished by rain, snow • Pump too much, ground subsides • Examples: Mexico City, Los Angeles
Pumping Subsidence Example: Las Vegas in 1990s Several inches of subsidence resulted from over-pumping groundwater
Sinkholes • Catastrophic collapse • Typically find in areas where limestone is bedrock
Limestone • Rock made of calcium, oxygen, carbon • Form in shallow, warm ocean waters • Common in south and central U.S. • Used to be shallow ocean!
Limestone Caverns • Today - groundwater flows through limestone, dissolves to make underground caverns • If lose groundwater, support in caves disappears • Roof collapse - sinkhole