Stable isn’t good enough. Credit: Jack Schmidt/InkStain
Click the link to read the article on the InkStain.net website (John Fleck and Jack Schmidt):
January 14, 2025
Preliminary year-end Colorado River numbers are stark. Total basin-wide storage for the last two years has stabilized, oscillating between 30 and 27 maf (million acre-feet), where storage sits at the start of 2025[1]. That is lower than any sustained period since the River’s reservoirs were built (Fig. 1). Stable is better than declining, but we did not succeed in rebuilding reservoir storage during 2024’s excellent snowpack but modest inflow. Although reservoir storage significantly increased after the gangbuster 2023 snowmelt year, we have not protected the storage gained in 2024 when inflow to Lake Powell was ~85% of normal from a 130% of normal snowpack. We can’t rely on frequent repeats of 2023; we must do better at increasing storage in modest inflow years like 2024.
Why is this happening?
Less water. Credit: InkStain
The phrase “the new normal” can be misleading, suggesting a new, more stable state for the climate. It’s not gonna be stable. But by one reasonable measure – total estimated natural flow in the Colorado River at Lees Ferry – Calendar Year 2024 was typical of the first quarter of the 21st century, with a preliminary estimate of 12.1 million acre-feet “natural flow.” Thus, the calendar year average annual natural flow at Lees Ferry between 2000 and 2024 has been 12.4 maf/yr, down from 14.3 maf for the period 1930-1999. An additional 770,000 af/yr in side inflows between Lees Ferry and Lake Mead add to the available water supply[2].
That we made the cuts needed to stabilize reservoir levels with a natural flow at Lees Ferry as low as 12.1maf would have been a substantial achievement in the wetter “before times.” Now, it’s table stakes. The most important point is that we absolutely did not rebuild storage in 2024, despite a 130 percent snowpack. We must do better in reducing total basin consumptive use.
Once again in 2024, we saw substantial water use reductions among the states of the Lower Colorado River Basin. Total U.S. Lower Basin main stem use of 6.08 maf is the lowest since 1985 (meaning the lowest since the Central Arizona Project came on line). California’s use, based on preliminary numbers published by Reclamation seems to be the lowest since 1950, and use by the Imperial Irrigation District seems to be the absolute lowest in a dataset that goes back to 1941. These are important achievements, to be celebrated.
With regard to the other two major U.S. areas of use – Lower Basin tributaries and the Upper Basin as a whole – we have no idea what 2024 consumptive use was. This is a problem. Lower Basin main stem use is quantified through Reclamation’s annual accounting reports and reported on a nearly daily basis during the course of the water year. River flows and reservoir levels across the basin are similarly reported in public, transparent ways. That’s how we’re able to provide the data you see above. Anyone can download and crunch the numbers. The general public can’t readily do that for consumptive use in the Upper Basin or Lower Basin tributaries.
As Elinor Ostrom noted in her classic book Governing the Commons, shared understanding of the resource is crucial to successful water management. Increasingly, areas of uncertainty have become contested ground, as the genuine technical uncertainties collide with the motivated reasoning of political actors across the basin. [ed. emphasis mine]
With respect to the Upper Basin, we note that the rhetoric that Upper Basin water users suffer shortages in dry years has shifted to a broader claim that Upper Basin users always suffer shortages. We quote here from the Upper Basin states’ January 2 press release: “There are acute hydrologic shortages in the Upper Basin every year – there simply isn’t enough water in any year to satisfy current needs in the Upper Basin every year. The Upper Basin has made uncompensated cuts to their water users every year for the past 24 years.” Some of the data to support this assertion was presented at the December 2024 UCRC meeting, and we look forward to a more complete and transparent accounting of these data, because these data are crucial to a robust Colorado River management discussion. The Upper Basin’s experience of “acute hydrologic shortages … every year” is exactly what John Wesley Powell described in 1878 in the first edition of The Arid Lands Report. Nothing has changed, and the challenge of agriculture throughout the watershed has been well known for 150 years. We also note that consumptive use data throughout the basin has not been integrated with the important findings of Richter et al (2024) who documented the proportion of water used by different agricultural sectors. They estimated that 55% of all Colorado River water use supplies livestock feed.
We leave a discussion of Lower Basin tributary use for another post but note that in both the cases of the Upper Basin use and Lower Basin tributary use, the numbers are entangled in the current Upper Basin-Lower Basin feud, which makes serious efforts to think about how to manage water at the Basin scale, rather than simply defending parochial interests, much more difficult. It is important that the general public not employed by a state or water agency, and therefore not beholden to local parochial interests, help the basin community as a whole navigate these technical issues.
Conclusion
The stable reservoir levels at the end of 2024, despite another year of deep Lower Basin water use reductions, should be cause for alarm. Deeper cuts are needed. But without a shared understanding of water use elsewhere in the basin, we’re flying blind.
[1] Basin-wide reservoir storage reached a peak of 29.7 maf on 13 July 2023 and was subsequently drawn down to 27.5 maf by mid-April 2024. Inflow from 2024 snowmelt rebounded basin-wide storage to 30.0 maf on 6 July 2024, and storage was subsequently drawn down to 27.4 maf by 31 December 2024. Retention of storage in Lake Mead and Lake Powell has been somewhat better during the same period. Combined storage in Lake Mead and Lake Powell peaked in mid-July 2023 at 18.0 maf, declined to 17.1 maf by mid-May 2024, increased to 18.5 maf on 8 July 2024, and was 17.3 maf on 31 December 2024. Thus, storage in the two largest reservoirs at year’s end was slightly greater than it was at its spring 2024 minimum just before storage increased when significant snowmelt reached Lake Powell.
[2] This estimate is calculated as the difference between annual flow measured just upstream from Diamond Creek in western Grand Canyon and measured at Lees Ferry.
Udall/Overpeck 4-panel Figure Colorado River temperature/precipitation/natural flows with trend. Lake Mead and Lake Powell storage. Updated through Water Year 2024. Credit: Brad Udall
October snows above Ouray, Colorado. The Red Mountain Pass SNOTEL showed the snowpack to be 103% of normal as of Jan. 2, 2025. Jonathan P. Thompson photo.
Click the link to read the article on the Land Desk website (Jonatan P. Thompson):
January 3, 2025
🥵 Aridification Watch 🐫
Happy New Year! The Land Desk had a very mellow and relaxing couple of weeks off, and I must admit that I’m struggling to get back into the old routine. And I sure as heck haven’t gotten used to writing “2025” yet. Oy.
But no matter what the calendar may say, we’re one-fourth of the way through the 2025 water year, and one-third of the way through meteorological winter. That means it’s time for a little snowpack update.
Snowpack levels in the watersheds that feed Lake Powell are just about normal for this time of year, thanks to some late-December storms across the region. But as you can see from 2023 (the purple line), there’s plenty of time left for it to be a huge snow year — or a downright crappy one if the precipitation suddenly stops. Source: NRCS.
This snow season got off to a rip-roaring start in much of the West, with some substantial high-country snowfall back in October and November. Then, as is often the case, someone turned off the big sky spigot, the clouds cleared, temperatures warmed, and the early season bounty became mid-winter middling to meager. Meanwhile, the high-mountain snow, while not necessarily melting, began “rotting.” That is, it embarked on the metamorphosis from strong, well-bonded snow, to weak, faceted, depth hoar1.
That’s a problem, because when another layer of snow falls on top of it, the weak layer is prone to failure, resulting in an avalanche. Sadly, avalanches have taken the lives of four people so far this season, all during the last couple of weeks in December. Two of the fatalities occurred in Utah and one in Nevada, all following a late December storm atop a deep, weak layer. The other one was in Idaho on Dec. 15. Two of the victims were on motorized snowbikes, one was a solo split-boarder, and another was on foot or snowshoes. Last season there were 16 avalanche-related fatalities across the West, all occurring after the first of the year.
Southwestern Colorado got some good dumps in October and November, pushing the snowpack far above average and into the 90th percentile. But a dry December brought snowpack levels down below “normal” for the 1991-2020 period. Still, this year’s levels almost mirror 2023’s, when snow season didn’t get going until January. Source: NRCS.
Meanwhile, further south, the Sonoran Avalanche Center hasn’t had much action this season, at least not of the snowy kind. Most of the Southwest has been plagued by a dearth of snowfall — and precipitation in general — following a couple good storms in October and November. Temperatures have also been well above average in the southern lowlands. Phoenix set four daily high-temperature records in December, and the average for the month was a whopping seven degrees above normal; Flagstaff was also far warmer than normal and received nary a drop of rain or snow during all of December. And Las Vegas hasn’t received measurable rainfall since it got a bit damp (.08 inches) in mid-July.
The Salt River watershed in central Arizona has received hardly any snow so far this year and continues to lag far behind the 2023 and 2024 water years. The lack of moisture and unusually high temperatures in December don’t bode well for the region’s runoff. Source: NRCS.
The Rio Grande’s headwaters also started out strong, but have dropped below normal.
Things were looking pretty grim in western Wyoming’s Upper Green River watershed until December snows pushed the snowpack almost up to normal for this time of year. The entire state was quite dry last year and it’s looking like the drought will persist there.
This does not bode well for spring streamflows, particularly in the Salt and Gila Rivers. The mountains feeding the Rio Grande also are in need of some good storms to keep that river from going dry this summer.
We can take comfort in the fact that in many places in the West, snow-season doesn’t really arrive until February or March. So this could turn out to be a whopper of a winter yet.
The drought situation a year ago (left) and now (right). While drought has subsided in New Mexico and the Four Corners area, it has intensified dramatically in Wyoming, Montana, parts of Idaho and a swath that follows the lower Colorado River and includes Las Vegas, which has only received .08” of precipitation since April of last year. Source: U.S. Drought Monitor.
For now it looks like there’s no relief in sight for the Southwest or the Northern Rockies.
🌵 Public Lands 🌲
Biden’s getting busy as he prepares to vacate the White House. The Los Angeles Times reports that he plans to designate the Chuckwalla National Monument on 644,000 acres of federal land in southern California, and the Sáttítla National Monument on 200,000 acres in the northern part of the state near the Oregon border. That’s what I’m talkin’ about, Joe! Now do the lower Dolores!
🦫 Wildlife Watch 🦅
The soon-to-be Chuckwalla National Monument lies south of and adjacent to Joshua Tree National Park, an area often targeted by utility-scale solar developers. That’s the sort of development that will now be banned there. Not only will cultural sites be protected, but also wildlife. A new study found that some of the Southwest’s best sites for solar overlap critical habitat for vulnerable species, including in most of southern California.
***
The U.S. Fish and Wildlife Service is seeking any information on the killing of a gray wolf in Grand County, Colorado, in summer of 2024. The wolf, 2309-OR, was part of the Copper Creek pack that was captured by wildlife officials in August, after members of the pack had made a meal out of local ranchers’ livestock. 2309-OR was in bad condition and perished in captivity; a subsequent investigation found that he died of a gunshot wound. It’s illegal to kill wolves in Colorado, not to mention immoral and just a horrible thing to do. The Center for Biological Diversity and other conservation organizations are offering a $65,000 reward for information leading to the arrest and conviction of the shooter.
📸 Parting Shot 🎞️
San Francisco Peaks near Flagstaff, Arizona, in mid-November. They had a bit of snow from earlier storms, but haven’t received much since. The Snowslide Canyon SNOTEL site at 9,744 feet in elevation is recording 65% of normal snow water equivalent. Jonathan P. Thompson photo.
1 Andy Gleason, snow nerd extraordinaire, explained it like this after record-high avalanche fatalities during the relatively scant 2021 snow year :
Decades of drought and taking more water from the Colorado River than it can afford to give have put both the river and the $1.4 trillion economy it supports in jeopardy. Investing in water resilience is essential for companies operating in the region, but it requires a different approach than many are used to.
A tested and successful model can be found on the Verde River, a Northern Arizona tributary of the Salt River in the Colorado River Basin. The Verde River provides water for local farms and delivers up to 40 percent of in-state surface water for major urban locations in the Phoenix metro area. But its long-term health is at risk from withdrawals, groundwater pumping, a warming climate and drought.
Companies including Boeing, REI, Coca-Cola, Meta, Microsoft, Cox, PepsiCo, Google, Procter & Gamble, EdgeCore and Intel have partnered with groups such as The Nature Conservancy, Friends of the Verde River, National Forest Foundation and the Salt River Project to support dozens of resilience projects over the past decade in the Verde River. The Nature Conservancy (TNC) reports that over the past five years, projects spanning seven irrigation districts have saved nearly 50,000 acre-feet of water. That’s enough to support 100,000 U.S. households for a year.
These projects have focused on creating healthier streams and wetlands, reducing the risk of catastrophic wildfires and increasing the efficiency of water delivery systems. Here are some examples.
Reducing wildfire risk
An overabundance of small shrubs and trees in the Verde River’s forested headwater areas significantly increased the risk of devastating wildfires that would affect communities and regional water supplies and infrastructure. Partnerships that include agencies, nongovernmental organizations and corporate funders have scaled up projects that remove overgrowth and restore healthy forest conditions. This work has reduced fire risk, improved water availability and increased water security for the region. Corporate partners, including EdgeCore, PepsiCo, Apple, Meta and Google, were critical to the success of these projects.
“Meta’s water stewardship efforts include investing in projects that help put in place the enabling conditions for sustainable water management,” said Stefanie Woodward, water stewardship lead at Meta. “We’re proud to support projects that help to restore healthy forest conditions in the Verde and empower environmental nonprofits and communities to build long-term capacity in Arizona.”
Increasing water conservation
Outdated irrigation ditches convey water from the Verde River to farms across the middle Verde watershed. Leakage across many miles of the system increased the amount of water withdrawn from the river and made it difficult to irrigate farmland.
Multiple Verde River irrigation districts partnered with The Nature Conservancy to pipe more than 4 miles of irrigation ditch and improve water management by installing new water control structures. The work has increased water conservation and improved streamflows. Companies participating in the project include Swire Coca-Cola USA, Coca-Cola, Procter & Gamble, Meta, Coors Seltzer, Microsoft, PepsiCo, Advanced Semiconductor Materials (ASM) and Pulliam Trust.
“Together with The Coca-Cola Company, our support of conservation organizations along the Verde River aims to address the critical water challenges facing this vital ecosystem,” said Mike Bernier, director of sustainability at Swire Coca-Cola. “By funding projects like the piping of the Verde Ditch, we’re helping implement a long-term solution to reduce leakage, in turn improving water-efficiency and ensuring the sustainability of this water source for millions downstream.”
Shifting agricultural water demand
Many traditional crops in the Verde Valley are water-intensive and require significant irrigation during summer months when river flows are low. A partnership that includes Sinagua Malt, TNC and local farmers implemented an innovative program that replaced high-water-use crops, such as alfalfa, with barley, which requires less water in the summer season. The project delivered a solution that provides brewers with premium Arizona malt while improving water flows in the Verde River.
Tamarisk
Improving river flows
In addition to conservation and efficiency projects, removing invasive plant species can also improve water flows. Companies and funders including REI, Intel and Forever Our Rivers each funded work to remove invasive Arundo and Tamarisk plants from the middle Verde River and areas near the mouth of the Verde on the Salt River. These plants force out native vegetation and can use water at a higher rate. Removing them has helped restore habitat, improve biodiversity and keep more water flowing in the Verde River.
Setting the stage for success
Ready-to-fund water resilience projects that directly reinforce corporate goals are rare. Understanding the history and context for the Verde River work can help companies replicate success in other areas.
Social stronghold: Most projects in the Verde developed in areas where extensive groundwork had already been done by organizations that would later partner with corporations. Nonprofit groups and agencies spent time building relationships and credibility with landowners, agencies and partners prior to corporate investment. A foundation of social infrastructure was in place, or was positioned to expand.
Takeaway:Consider the need to support essential enabling actions such as planning, project design or outreach. It’s rare that “shovel-ready projects” are lined up in the right places and on the right timeline to perfectly align with corporate goals. Understanding and supporting pre-project strategies, including relationship building, can be essential.
Community relevance: A shared understanding of water challenges and solutions is necessary to achieve progress. There must be an overlap between community, corporate and conservation goals. On the Verde River, an analysis conducted by TNC and others of water issues, challenges and solutions helped identify areas where community interests intersected with corporate and conservation priorities.
Takeaway: Long-term, larger-scale resilience projects require significant community buy-in to succeed. Specific corporate stewardship, volume or replenishment goals should be based on a solid understanding of local priorities and context. This includes current public sentiment as well as the availability, likelihood, cost and timing of projects in a given location.
The long game: Many projects require years of preparation — for example, overhauling and improving centuries-old irrigation ditches that cross many land ownership boundaries required years of trust-building, engineering, problem-solving and fundraising. In the case of the Verde, several philanthropic organizations, including the Walton Family Foundation and the Nina Mason Pulliam Charitable Trust, provided early funding that allowed on-the-ground partners to build trust incrementally and set the stage for later success. It took 5-10 years to fully develop a pipeline of projects that could be funded and linked to corporate goals.
Takeaway: Be realistic and informed about the timeline and partnerships required for success. Corporate timelines should reflect real conditions and needs on the ground.
Setting flexible goals: Goals that rigidly define success metrics can create a scenario in which targets cannot be achieved — or where corporate goals do not address the real issues and concerns of local communities. For example, a narrow, inflexible goal such as “by 2030, our company will support projects that reduce water contaminants by at least 20 percent in all regions where we operate” will make it difficult to adapt to real conditions and needs that reflect evolving water challenges and community priorities across diverse locations.
Takeaway: Invest in multiple projects and set goals that are flexible enough to respond to local conditions, needs and context. Don’t expect a single project or narrow approach to meet both corporate water objectives and relevant regional needs.
Brett Fleck stands by the Arizona Canal in Peoria, Ariz. on March 18, 2024. The water department he manages is focused on making sure taps keep flowing in the long term, even as Peoria’s main source of water shrinks. Alex Hager/KUNC
Click the link to read the article on the KUNC website (Alex Hager):
June 24, 2024
This story is part of ongoing coverage of the Colorado River, produced by KUNC and supported by the Walton Family Foundation. It was produced in partnership with The Water Desk, an independent initiative of the University of Colorado Boulder’s Center for Environmental Journalism.
Brett Fleck does not have an easy job. He manages water for a city in the desert. He has to keep taps flowing while facing a complicated equation: The city is growing — attracting big business and thousands of new residents every year — but its main source of water is shrinking.
Standing on the edge of a sun-baked canal with palm trees lining its banks, Fleck watched water flow into the pipes that supply the Phoenix suburb of Peoria, Arizona.
“We’re really having a complete changeover in how people view the Colorado River from a reliability standpoint,” he said.
The river, which accounts for about 60% of the city’s supply, is stretched thin. Its water is used by 40 million people from Wyoming to Mexico. Climate change is shrinking its supply, and the federal government is scrambling to boost depleted reservoirs. The Biden Administration has poured money on the problem, allocating $4 billion from the Inflation Reduction Act for Colorado River projects.
Across the seven U.S. states that use its water, that money has been used to save water in a number of ways — from patching up leaky canals to paying farmers to pause crop planting. A relatively small chunk of that money has gone to cities, but it’s being welcomed with open arms in the Phoenix metro area.
Peoria’s water department is one of seven in Arizona getting paid by the federal government to leave some of its supplies in Lake Mead, the nation’s largest reservoir. In May 2023, the Biden Administration announced it would set aside $157 million for a handful of Arizona cities and one mining company to cut back on their take from the Colorado River.
Following that money and seeing how cities are spending the federal cash reveals a major trend in Arizona’s water management.
The sun sets behind Phoenix on June 14, 2024. The city and its suburbs are attracting new residents and businesses despite shrinking water supplies. Local leaders say they have plans for expensive engineering projects that will help keep taps flowing for decades to come. Photo credit: Alex Hager/KUNC
The Biden administration framed the spending effort as “water conservation,” but Arizona’s municipal water leaders aren’t using it to make changes traditionally thought of as conservation. Instead of paying for small tweaks to water use – like encouraging residents to install low-flow showerheads or rip out their thirsty lawns – many are thinking bigger, putting their multimillion dollar checks towards billion dollar infrastructure projects that are aimed at keeping taps flowing for decades to come.
Basically, cities like Peoria are planning to engineer their way out of the problem.
“When you don’t have that reliability,” Fleck said, “You have to make additional investments for alternatives, backup supplies, etc. That’s what it really takes to make sense of the world that we live in now.”
A changing mindset
Much ink has been spilled about the future of life in Phoenix. The sprawling metro area – referred to by locals as “The Valley” – is home to about 5 million people. A booming economy and strikingly wide suburban sprawl are pushing its borders further into once-unoccupied dusty expanses in nearly every direction. Meanwhile, climate change has inspired growing skepticism about the long-term sustainability of that growth.
Scorching temperatures, which consistently peak above 110 degrees in the summer, and much-publicized threats to its major sources of water, have accelerated calls in the national media for central Arizona to pump the brakes on expansion.
But on the ground, the people that run water departments in cities and suburbs project optimism.
“We have to plan ahead and say, ‘It’s not enough to have enough water to live this year, this month, two years, or five years,” said Cynthia Campbell, a water management advisor for the City of Phoenix. “We plan for 100, and that’s the way we’ve approached it in Arizona. That, I think, is the secret sauce that keeps us sustainable.”
Downtown Phoenix viewed from City Hall on March 4, 2024. The city’s water leaders say they’re nearing the ceiling on how much water can be saved through traditional conservation, and are instead turning their eyes and budgets toward new technology that will help decrease demand for water from the Colorado River and underground aquifers. Photo credit: Alex Hager/KUNC
Campbell described shifting attitudes in Phoenix-area water management. Dwindling water supplies have, for years, forced those cities to do more with less. She explained how Phoenix uses less water now than it did two decades ago, despite significant population growth. The city mostly chalks that up to more efficient water use by homes and businesses, specifically highlighting water that was conserved through more efficient outdoor watering for lawns and plants.
But now, those practices are getting closer to the ceiling in terms of how much water they can save, and new residents keep arriving.
“At some point in time, there does have to be a recognition of the scope of the problem,” Campbell said. “You just can’t conserve your way out of it.”
That mindset has put one word on the lips of many water managers in central Arizona: augmentation.
Engineering a way to more water
The word “augmentation” has different definitions depending on who you ask, but it generally means water departments are focused on adding new water supplies, rather than just using less of the water they already have.
Peoria and Phoenix water leaders highlighted two expensive infrastructure projects that fall into the augmentation category. The first is a massive renovation of a nearby dam that would make its reservoir bigger, allowing cities in the area to store more water during wet winters.
Bartlett Dam. Photo credit: Salt River Project
The Bartlett Dam holds back a reservoir about an hour’s drive northeast of Phoenix. Over time, the reservoir has gotten shallower, as sediment in the water settles to the bottom and piles up, reducing the amount of water storage. Bartlett Reservoir and nearby Horseshoe Reservoir have lost a combined 45,000 acre-feet of their total holding capacity. By comparison, Peoria, a city of nearly 200,000 people, gets a total of 35,000 acre-feet of water delivered each year.
Because the reservoirs reach capacity more quickly, water managers have been forced to release excess water instead of storing it for dryer times. A proposed expansion of the dam would make it easier to store that water by making Bartlett Dam about 100 feet taller. Peoria and Phoenix are among 22 cities, tribes and farm districts that are interested in chipping in for the project, which is projected to cost about $1 billion.
Water is released from behind Bartlett Dam in March 2023 after a wet winter. Cities that use water stored behind the dam want to fund a $1 billion expansion of the dam to make sure that extra water can be stored instead of released downstream. Michael McNamara/Salt River Project
The dam holds back water from the Salt River, whose supplies are managed separately from the Colorado River. But increasing the amount of stored Salt River water could help cities ease up on their Colorado River reliance.
A second idea that falls into the augmentation category represents an entirely different way of “adding” water to the system, and it’s part of a regional trend: cleaning up sewage and making it drinkable again.
Metropolitan Water District’s advanced water treatment demonstration plant in Carson. (Source: Metropolitan Water District of Southern California)
Water managers refer to the practice as “advanced water purification,” or “wastewater recycling,” and it’s stirring up a lot of excitement – and big investment – in a number of places that share similar anxieties about shrinking supplies from the Colorado River.
Small cities are eyeing the expensive new technology for the future, and big ones are already putting shovels in dirt.
In Phoenix, the city council greenlit a $300 million construction project to revive a shuttered water treatment plant in the city’s far northern reaches, which officials said would lay the groundwork for installing equipment to turn wastewater into clean drinking water.
Elsewhere in the Colorado River basin, big cities are forging ahead with the practice. In the Los Angeles Metro area, the main water distributor proposed a $3.4 billion wastewater recycling facility, and has rallied hundreds of millions of dollars in support from out-of-state water agencies that could buy California’s unused Colorado River water if the new facility is a success. In Colorado, the state government passed first-of-its-kind legislation that would make it easier for cities to bring the new water treatment tech online, and some cities say they’re 3-5 years away from building it.
Beneath the surface
Phoenix-area water managers have to keep a lot of balls in the air at once. The water flowing through their pipes comes from a few sources, each with very different challenges.
The Colorado River, which mostly begins as snowmelt in the faraway Rocky Mountains, comes to the metro via the Central Arizona Project, a 336-mile canal that cuts through the desert. The Salt and Verde Rivers bring snow and runoff from a watershed that covers the colder, higher-altitude parts of Arizona. And one source starts much closer to home: groundwater.
That last water source, at least recently, has proven the trickiest to manage. Groundwater use and management have become hot-button political issues in Arizona as experts raise alarm about underground stores of water that are shrinking fast, including some that, once drained, would take generations to refill.
Water experts say all of the most pressing water issues facing Arizona cities – the shrinking Colorado River, the overtaxed underground aquifers, and work to augment existing supplies – are all smaller pieces of a bigger puzzle.
Kathryn Sorensen, a former director of Phoenix’s water department, said Colorado River shortages will probably turn up the pressure on groundwater.
“Our aquifers, while large and plentiful, are also fossil aquifers, so if we pump them out too quickly, then it’s just gone,” said Sorensen, who now researches water policy at Arizona State University. “So these types of things like advanced water purification, augmentation, additional conservation efforts, those all play into avoiding the use of those fossil groundwater supplies.”
Sorensen described the groundwater supplies – and whether or not they’re managed sustainably – as pivotally important to Arizona’s long-term future.
“If we’re going to continue to have the sort of economic opportunities we have here and the quality of life that we have here a few generations from now,” she said, “It’s really of utmost importance that we protect groundwater today.”
‘There’s not a lot of gambling going on here’
Groundwater has become the latest issue to help fuel a wave of national attention on the long-term viability of Phoenix as a place for people to live.
Articles with headlines like “How long can the world’s ‘least sustainable’ city survive?” have helped to crystalize nationwide skepticism about central Arizona’s future. In 2023, state officials put a pause on some new subdivisions because they couldn’t draw enough water from underground. The announcement launched a flurry of news coverage. The New York Times framed it as “the beginning of the end” for development around Phoenix.
In that article, Katie Hobbs, Arizona’s governor, is quoted as saying, “We are not out of water and we will not be running out of water.”
Arizona Governor Katie Hobbs speaks in Tucson, Ariz. on Mar. 13, 2024. State leaders have been forced to advocate for policies that respond to the Phoenix area’s water supply crunch while simultaneously trying to tamp down any fears that the city and suburbs might not be a good place to live and work. Photo credit: Alex Hager/KUNC
Hobbs and other leaders in the state have been forced into a bit of a juggling act. Some are trying to advocate for policies that respond to the Phoenix area’s water supply crunch while simultaneously trying to tamp down any fears that the city and suburbs might not be a good place to live and work.
Campbell, who advises Phoenix’s political leaders on water decisions, said she’s confident that people who buy a house or open a business in Phoenix will have water in the future, because those policymakers are feeling a lot of pressure to make sure growth is sustainable.
“They know that the moment there’s a crack in the armor,” she said, “The moment that we have to turn off a tap, every national media outlet will cover it, and it will have a devastating effect on our economy. So there’s not a lot of gambling going on here.”
What ‘sustainable’ growth looks like
Sustainable growth certainly weighs on the mind of water manager Brett Fleck in Peoria.
The city itself touted its status as one of the nation’s top “boomtowns,” growing by 19% in the five-year stretch between 2016 and 2021. It recently paved the way for a massive, $2 billion microchip operation. Amkor Technology’s 56-acre facility in Peoria is set to be the nation’s largest semiconductor packaging and test facility, and will likely use a massive amount of water.
“Do I think Arizona can continue to grow sustainably? As long as we continue to make the investments and plan, absolutely,” he said. “The day that we stop making those investments in our sustainability is the day that we probably shouldn’t be growing anymore.”
Fleck said his city is working with Amkor to create a system that brings recycled water to the facility, so the semiconductor operation doesn’t draw from the drinking supply.
Brett Fleck shows where Colorado River water enters the city’s water treatment facility in Peoria, Ariz. on March 18, 2024. The city has plans to build new water purification technology that will turn sewage into usable water, decreasing the strain on the Colorado River and groundwater. Photo credit: Alex Hager/KUNC
At a relatively small water treatment plant on Peoria’s western edge, the city’s water system is getting upgraded in real time and the facility is quickly expanding its footprint.
“This water reclamation facility is really the start of Peoria’s water future,” Fleck said as workers in hard hats crisscrossed the dirt expanse behind him.
Treated water from the plant could see a few fates, Fleck said. It may be pumped into underground storage, sent to the giant new microchip facility, or maybe even purified to drinking standards and sent back into pipes. The latter is probably a decade from reality.
“It’s all based on funding,” Fleck said.
Now that cities around Arizona are seeing the promise of new technology and methods to get more out of their endangered water supplies, the massive cost of those projects stands as the biggest hurdle to their implementation. Fleck said the billions of federal dollars being sent to remedy the Southwest’s water woes pale in comparison to the tens or hundreds of billions needed to build needed infrastructure.
“Unfortunately, it’s a drop in the bucket,” he said. “However, at least we’re headed in the right direction. So at least we’re making those investments, and we’re recognizing that we need to make those investments to pivot away from our very large reliance on Colorado River supplies.”
Armed with a combination of federal, state, and local money, cities all around the Phoenix area are moving in that direction. Tempe, for example, has similar plans to Peoria and plans to open a water recycling facility by 2027. Nearby Scottsdale hosts one of only three water treatment facilities in the nation that is part of a pilot program for advanced water purification, and is poised to bring it into regular use.
An uncertain future
Arizona’s city leaders say they’re doing all they can to fend off anxiety about an uncertain future for water supply. Two big factors, largely out of those cities’ hands, mean that anxiety is justified.
The first is funding. Large-scale, high-tech water projects that come with nine- or ten-figure price tags benefit greatly from federal help. The Biden Administration has spent an amount of money that one water expert called, “the largest investment in drinking water infrastructure and water supply infrastructure that we’ve seen in a generation.”
Future administrations might not be so spendy.
“Federal funding is always a dicey proposition,” said Sorensen, the ASU water researcher. “Relying on annual appropriations, it can be hinky, especially when you have to compete with other very worthy federal priorities.”
The second big cause for uncertainty is the messy, ongoing negotiation process that will result in new rules for sharing the Colorado River. The current rules for divvying up its water expire in 2026, and the people in charge of writing new ones are stuck in a heated standoff.
Those people are negotiators from the seven states that use its water. Despite their differences, they generally agree that climate change has shrunk the amount of water in the river, and states need to cut back on demand accordingly.
Tom Buschatzke (right), Arizona’s top water negotiator, sits on a panel about Colorado River management in Boulder, Colo. on June 6, 2024. Every proposed water cutback plan, even the one co-signed by Arizona itself, puts more of Arizona’s water on the chopping block than any other state. Photo credit: Alex Hager/KUNC
Their disagreements, though – sometimes rooted in century-old rivalries between states – mean that it’s not clear exactly how much water, if any, each state should lose.
But every proposed cutback plan, even the one co-signed by Arizona itself, puts more of Arizona’s water on the chopping block than any other state.
That is due to a system called prior appropriation, which serves as the bedrock of Colorado River management. In short, it means that the first person to use water will be the last to lose it in times of shortage. And when it comes to Colorado River use, Arizona sits in a more vulnerable legal position.
The canal that carries water to central Arizona from the Colorado river was authorized in 1968, and the users who depend on its water are first in line to have their water taken away when reservoirs are low.
Sorensen said that fact is a major motivator for Arizona’s water leaders to make sure they manage supplies in a sustainable way.
“We’ve known since 1968 that our water was first to be cut when there wasn’t enough to go around, and that has made us prepare very methodically for those cuts,” Sorensen said. “The pressure has certainly been turned up, but it’s pressure that’s always existed.”
Central Arizona Project map via Mountain Town News
CORRECTIONS: On June 24, we incorrectly identified the river held back by Bartlett Dam. This story has since been updated to clarify the connection between the Verde River and Salt River. On June 24, we incorrectly identified the estimated completion date of Tempe’s water recycling facility as 2025. This story has since been updated to include the correct year, which is 2027.
Critical minerals for the clean energy transition are abundant in the Southwest, but the dozens of mines proposed to access them will require vast sums of water, something in short supply in the desert.
One by one, leaders from across Arizona gave speeches touting the importance of water conservation at Phoenix City Hall as they celebrated the announcement of voluntary agreements to preserve the declining Colorado River in November.
“The two largest foreign-based multinational mining companies in the world intend to construct the massive Resolution Copper Mine near Superior,” said Etpison, the vice chairman of the San Carlos Apache Tribe. “This mine will use, at a minimum, 775,000 acre feet of groundwater, and once the groundwater is gone, it’s gone. How can this be in the best interests of Arizona?”
The question is one the state and the Southwest must answer. Mine claims for the elements critical to the clean energy transition are piling up from Arizona to Nevada to Utah. Lithium is needed for the batteries to store wind and solar energy and power electric vehicles. Copper provides the wiring to send electricity where it will be needed to satisfy exploding demand. But water stands in the way of the transition, with drought playing into nearly every proposed renewable energy development, from solar to hydropower, as the Southwest debates what to do with every drop it has left as the region undergoes aridification due to climate change and decades of overconsumption.
Mining opponents argue the proposals could impact endangered species, tribal rights, air quality and, of course, water—both its quantity and its quality. Across the Southwest, the story of 2023 was how water users, from farmers in the Colorado River Basin to fast-growing cities in the Phoenix metropolitan area, needed to use less water, forcing changes to residential development and agricultural practices. But left out of that conversation, natural resource experts and environmentalists say, is the water used by mining operations and the amount that would be consumed by new mines.
The San Carlos Apache Tribe has fought for years to stop Resolution’s proposed mine. It would be built on top of Oak Flat, a sacred site to the Apache and other Indigenous communities, and a habitat of rare species like the endangered Arizona hedgehog cactus, which lives only in the Tonto National Forest near the town of Superior. The fate of the mine now rests with the U.S. District Court in Arizona after the grassroots group Apache Stronghold filed a lawsuit to stop it, arguing its development would violate Native people’s religious rights.
But for communities located near the mine and across the Phoenix metropolitan area, the water it would consume is just as big of an issue.
Throughout the mine’s lifespan, Resolution estimates it would use 775,000 acre feet of water—enough for at least 1.5 million Arizona households over roughly 40 years. And experts say the mine would likely need far more.
“By pumping billions of gallons of groundwater from the East Salt River Valley, this project would make Arizona’s goal for stewardship of its scarce groundwater resources unreachable,” one report commissioned by the San Carlos Apache Tribe reads. In one hydrologist’s testimony to Congress, water consumption was estimated to be 50,000 acre feet a year—about 35,000 more than the company has proposed drawing from the aquifer.
The Resolution copper mine isn’t the only water-intensive mining operation being proposed. Many of what the industry describes as “critical minerals,” like lithium and copper, are found throughout the Southwest, leading to a flurry of mining claims on the region’s federally managed public lands.
“Water is going to be scarcer in the Southwest but the mining industry is basically immune from all these issues,” said Roger Flynn, director and managing attorney at the Western Mining Action Project, which has represented tribes and environmental groups in mining-related lawsuits, including the case over Oak Flat.
President Ulysses S. Grant signed the bill into law as a way to continue the country’s development westward, allowing anyone to mine on federal lands for free. To do this, all one needs to do is plant four stakes into the ground where they think there are minerals and file a claim. Unlike other industries that make use of public lands—such as the oil and gas industry—no royalties are paid for the minerals extracted from the lands owned by American taxpayers.
Flynn referred to mining as the last of the “Lords of Yesterday”—a term coined by Charles Wilkinson, a long-time environmental law professor at the University of Colorado who died earlier this year—referring to the industries like oil and gas drilling, ranching and logging that were given carte blanche by the federal government to develop the West after the Civil War and push Indigenous populations off the land. All of those industry regulations have changed, Flynn said, except mining.
That’s led mining to be viewed as the top use of public lands by regulators who give it more weight than conservation or recreational activities, he said.
“You don’t have to actually demonstrate that there are any minerals in a mining claim, you don’t have to provide any evidence that there is a mineral there at all,” said John Hadder, the executive director of Great Basin Resource Watch, an environmental group based in Nevada that monitors mining claims. “You can just be suspicious—and there’s a lot of suspicion going around.”
Most of Nevada is completely reliant on groundwater, an increasingly scarce resource. Without water, companies hunting critical minerals can’t mine, Hadder said, so they look to acquire water rights from other users, typically by buying up farms and ranches, changing the economics and demographics of a community. When the mines are developed, they can impact local streams, groundwater levels and the quality of the water as toxins seep into aquifers and surface supplies over the years. Now, with the clean energy transition gaining traction, there’s a new mining boom, prompting increasing concerns over how local ecosystems will be impacted. In Nevada alone, there are more than 20,000 mining claims related to lithium, the biggest of which are, of course, drawing controversy.
A large-scale evaporation pond at the Silver Peak lithium mine on Oct. 6, 2022. The evaporation process can take a year and a half to complete. (David Calvert/The Nevada Independent)
Now, Canada-based Rover Metals is looking to drill a lithium exploration project near the Ash Meadows National Wildlife Refuge, a wetland habitat in Nevada near the California border that supports a dozen endangered and threatened species and is one of the most biodiverse places on the planet, which environmentalists call “the Galapagos of the desert.”
“Nevadans almost more than any other state have had to wrestle with the availability or lack thereof of water for development for its entire history,” said Mason Voehl, the executive director of the Amargosa Conservancy, an environmental group that has helped lead the push to protect the refuge. “This is sort of compounding that already really complex challenge.”
