According to USGS, National Water Use Is at Lowest Levels Since Before 1970: Conservation Works
Water use across the country reached its lowest recorded level in nearly 45 years. According to a new USGS report, about 355 billion gallons of water per day (BGD) were withdrawn for use in the entire United States during 2010. This represents a 13-percent reduction of water use from 2005 when about 410 BGD were withdrawn and the lowest level since before 1970. “Reaching this 45-year low shows the positive trends in conservation that stem from improvements in water-use technologies and management,” said Mike Connor, Deputy Secretary of the Interior. “Even as the US population continues to grow, people are learning to be more water conscious and do their part to help sustain the limited freshwater resources in the country.”
In 2010, more than 50 percent of the total withdrawals in the US were accounted for by 12 states, in order of withdrawal amounts: California, Texas, Idaho, Florida, Illinois, North Carolina, Arkansas, Colorado, Michigan, New York, Alabama and Ohio. California accounted for 11 percent of the total withdrawals for all categories and 10 percent of total freshwater withdrawals for all categories nationwide. Texas accounted for about seven percent of total withdrawals for all categories, predominantly for thermoelectric power, irrigation and public supply. Florida had the largest saline withdrawals, accounting for 18 percent of the total in the country, mostly saline surface-water withdrawals for thermoelectric power. Oklahoma and Texas accounted for about 70 percent of the total saline groundwater withdrawals in the US, mostly for mining. “Since 1950, the USGS has tracked the national water-use statistics,” said Suzette Kimball, acting USGS Director. “By providing data down to the county level, we are able to ensure that water resource managers across the nation have the information necessary to make strong water-use and conservation decisions.”
Water withdrawn for thermoelectric power was the largest use nationally, with the other leading uses being irrigation, public supply and self-supplied industrial water, respectively. Withdrawals declined in each of these categories. Collectively, all of these uses represented 94 percent of total withdrawals from 2005-2010.
— Thermoelectric power declined 20 percent, the largest percent decline.
— Irrigation withdrawals (all freshwater) declined nine percent.
— Public-supply withdrawals declined five percent.
— Self-supplied industrial withdrawals declined 12 percent.
A number of factors can be attributed to the 20-percent decline in thermoelectric-power withdrawals, including an increase in the number of power plants built or converted since the 1970s that use more efficient cooling-system technologies, declines in withdrawals to protect aquatic habitat and environments, power plant closures and a decline in the use of coal to fuel power plants. “Irrigation withdrawals in the United States continued to decline since 2005, and more croplands were reported as using higher-efficiency irrigation systems in 2010,” said Molly Maupin, USGS hydrologist. “Shifts toward more sprinkler and micro-irrigation systems nationally and declining withdrawals in the West have contributed to a drop in the national average application rate from 2.32 acre-feet per acre in 2005 to 2.07 acre-feet per acre in 2010.”
For the first time, withdrawals for public water supply declined between 2005 and 2010, despite a four-percent increase in the nation’s total population. The number of people served by public-supply systems continued to increase and the public-supply per capita use declined to 89 GPD in 2010 from 100 GPD in 2005. Declines in industrial withdrawals can be attributed to factors such as greater efficiencies in industrial processes, more emphasis on water reuse and recycling, and the 2008 US recession, resulting in lower industrial production in major water-using industries.
In a separate report, USGS estimated thermoelectric-power withdrawals and consumptive use for 2010, based on linked heat- and water-budget models that integrated power plant characteristics, cooling system types and data on heat flows into and out of 1,290 power plants in the US. These data include the first national estimates of consumptive use for thermoelectric power since 1995, and the models offer a new approach for nationally consistent estimates.