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Irrigation and the Colorado River. From the University of Georgia (http://www.ugacfs.org/producesafety/Pages/Steps/USGrowingRegions.html). One of the country’s most prolific growing regions is in the Mojave Desert. Dams on the Colorado River. Lake Mead .
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From the University of Georgia (http://www.ugacfs.org/producesafety/Pages/Steps/USGrowingRegions.html)
One of the country’s most prolific growing regions is in the Mojave Desert
Lake Mead Behind each dam, a lake forms. These are used as reservoirs for cities and for agriculture.
Worldwide large aquifers and their “Groundwater Footprint” From http://www.nature.com/nature/journal/v488/n7410/full/nature11295.html
Center-pivot irrigation circles, Finney County, Kansas. Here, water is pumped from an underground aquifer and distributed through a giant sprinkler, up to 1/2 mile in length, that pivots around a central point. From http://ga.water.usgs.gov/edu/gallery/irrigation-sprinkler.html
Another typical irrigation sprinkler type This is in Nebraska (from http://ga.water.usgs.gov/edu/gallery/irrigation-sprinkler.html)
From http://www.irrigation.org/uploadedFiles/Policy/PNP-WesternIrrigationImpact_8-2013.pdf
Should the environment be altered to benefit people by growing food using irrigation in dry-land regions like southern Arizona and the central valley of California? How about the Great Plains (irrigated by drawing water from the Ogallala aquifer)? If we “let nature take its course”, in the case of drought, what are the consequences? The Kesterson Marsh was artificially created by the water diverted from the San Luis drain. If it isn’t natural, why can’t we allow this wetland to dry up, i.e., return to its natural state? If not already answered, how does the GAIA concept fit here?