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Mexico City/Ogallala case studies

Mexico City

• when the pressure in confined aquifer aquifers is reduced, the aquifer gets compacted
• in instances where overlying units (or interlayers within the aquifer system) are clays, pumping the confined aquifer has two effects. The first is to increase the effective stress on the aquifer and the second is to de-water the clay units (analogue to mud cracks) => land subsidence
• in Mexico City the lowering of the potentiometric surface in the Mexico City Aquifer has resulted in the removal of water from the overlying clays. The land surface has subsided by some 7.5 m in the central part of Mexico City (Fig. 7.15)
• in the photo below, taken in central Mexico City, the young boy is not leaning against a utility pole, but a well casing, once completely below the land surface. Land Subsidence in Mexico City
• consequences are extensive damage to the city's infrastructure, building foundations and the sewer system
• the city is bordered by  Texcoco Lake-the natural low point of the southern portion of the Basin of Mexico. In 1900, the lake bottom was 3 meters below the median level of the city center, in 1970 it was 2 meters above the city! => floods

Ogallala (High Plains aquifer)

• extend of the Ogallala aquifer The High Plains Aquifer Revisited
• aquifer provides irrigation for 15% of the country's corn and wheat, 25% of its cotton, and 40% of its feedlot beef
• the current rate of pumping  is ~8 times the estimated recharge rate
• by 2020, 1/4 of the water will be pumped out of the ground
• total irrogated land is already decling in 5 states using the aquifer
• Texas is second only to California in its use of ground water, in 1960 Texas withdrew about a fifth of all the ground water used in the United States
• the Ogallala aquifer in the Texas Plains stored 250 million acre-feet initially, at the end of 1961, 50 million acre-feet already had been pumped out
• low recharge rate, dry region, flat topography
• the average annual rate of decline in Texas decreased from 0.84 foot, from predevelopment to 1980, to 0.22 foot, from 1980 to 1994
• rises of water table related to wetter than average years >1980
• artificial recharge of rain water is being tried
• the economy of the High Plains area is firmly based on ground-water mining

Resources

• National Research Council (NRC). 1995b. Mexico City's Water Supply: Improving the Outlook for Sustainability. Washington: National Academy Press.
• Dugan, J. T., and D. E. Cox. 1994. Water-level changes in the High Plains aquifer-predevelopment to 1993. U.S. Geological Survey Water-Resources Investigations Report 94-4157.
• Recharge and Groundwater Management in the High Plains: A Historical Perspective