Click the link to read the article on the Big Pivots website (Allen Best):

May 26, 2026

Dissonance exists between life-close-to-normal policies regarding urban water use and the growing crisis on the river

Casually surveying the urban landscapes in much of Colorado’s Front Range, you’d never know that the Colorado River — the source for roughly half the water of the cities — has deteriorated to its most pitiful shape of perhaps the last century.

Oh, yes, some utilities — notably Denver Water and Aurora Water, which together serve 1.9 million residents — have imposed rigorous stage-one drought watering restrictions. Outdoor irrigation is allowed twice per week and never during the heat of day. Other water utilities that tap Colorado River water, however, have asked only for voluntary cutbacks, if any at all.

Jeff Lukas, a water consultant with several decades invested in climate change work, says this seeming aloofness of some cities will not persist indefinitely. That is certainly true if the record heat and abnormal dryness of the past winter continues into 2027. They may have no choice.

“I think Front Range cities will be asked, whether nicely or not, to reduce their Colorado River diversions,” said Lukas in a May 11 webinar. “The mechanism for that is unclear, but I think it’s going to happen.”

Water rights of the Front Range cities — and many of those on the Western Slope, too — are junior to the Colorado River Compact. It was negotiated in 1922, making diversions more recent than that junior.

Problems in the basin were becoming apparent in the 1990s. The warming climate in this century has provoked changes. By all accounts, they have not been enough.

Lukas, as a dendrochronologist at the Institute of Alpine and Arctic Research in Boulder 20 years ago, was teasing out evidence from tree rings to understand the climates of the Colorado River Basin during the last 1,200 years.

Later, as a scientist with the Western Water Assessment, Lukas co-authored (with Liz Peyton) a 2020 report called Colorado River Basin Climate and Hydrology: State of the Science. That 500-page report integrated more than 800peer-reviewed studies to help water managers understand physical processes, climate risks, and forecasting tools across the basin.

In 2024, with the state climatologist, Russ Schumacher, and several others, Lukas turned out the 100-page volume called “Climate Change in Colorado.”

Based in Lafayette, Lukas now works as a consultant. At Lukas Climate Research and Consulting, he specializes in the overlapping areas of climate hazards, water resources, and ecosystems.

Lukas, in a presentation he titled “Running dry on the Colorado River: The roots of the crisis & its implications for the Front Range,” explained the big picture and Colorado’s Front Range part in it.

Defined by the Continental Divide, Colorado has an inverse relationship between its eastern and western slopes. About 90% of the state’s residents live to the east, nearly all at the foot of the Rocky Mountains, whereas 80% of the state’s precipitation originates on the west side, in the headwaters of the Colorado River and its tributaries.

Colorado itself provides 50% to 60% of the water in the entire Colorado River, depending upon the year. This year has been a terrible year everywhere in the basin, Colorado included.

Lukas explained that “islands of moisture” provide nearly all the water in this 244,000-square-mile basin. The high mountains constitute these islands. Some places deliver more than others. Buffalo Pass, near Steamboat, famously has had prodigious volumes of snow. This snow, when melted, can produce 50 inches of water.

It takes 20 inches or more of precipitation in these mountain islands to produce meaningful runoff. Even then, it doesn’t all end up in the Colorado River. In Colorado and the three upper-basin states, he said, 16% of the rain and snow that falls becomes water in the Colorado River. In the hotter lower basin, the figure is 3%.

“The atmosphere takes back most of what it giveth, even in the wetter upper basin,” he said.

Evaporation and transpiration are the pickpockets of this water. Heat produces evaporation, and we’ve had plenty of that this year.

Temperatures during November through April were the warmest on record in Colorado for that span of months. March heat was exceptional. This produced runoff in the rivers that in most cases may surpass that of May or June, the traditional times for peak runoff. Peak runoff has been trending earlier by several weeks during the last few decades, but this was a leap of about two months.

Runoff for April through July — a time that normally accounts for 70% to 80% of annual streamflows — this year will likely deliver no better than 20% to 40%. In its May report, the Bureau of Reclamation said April flows into Lake Powell were 40% of the average during the last 30 years and it expects flows in May to sink to 9% of that average.

Can it get any worse? Count on it, said Lukas.

“We should expect not every year to look like 2026 from here on out, but more years in the future will look like 2026. And somewhere down the pipe, not as far in the future as we would like, there will be a year worse than 2026 for the Colorado River.”

This is so very different from what was assumed by the delegates from the seven basin states who gathered in 1922 in Santa Fe to apportion the Colorado River.

The role of reservoirs

Taking the big, long-term view, Lukas pointed out that the overall story of the Colorado River is one of modifications needed to suit human uses. “It’s all about smoothing out the natural variability in the availability of water over space and over time.”

Reservoirs are the primary means by which humans have been able to “smooth out the natural variability.”

The Colorado River Basin has 60 million acre-feet of storage. That’s four times the annual flow. Five-sixths of the storage capacity is found in the desert in two vessels: lakes Mead and Powell. The headwaters have many reservoirs but they are relatively small. The total storage capacity is 2,000 times more than the volume of Dillon Reservoir.

Since 2000, stored water in those two big buckets, Mead and Powell, has declined from 49 million acre-feet to 16 million acre-feet as of May. Of that, 9 million lies at elevations below the lowest outlets. These are called dead pools.

Those delegates in 1922 who crafted the Colorado River Compact, the legal document that provided the basis for nearly all these dams and aqueducts subsequently built, assumed annual flows of 17 million to 18 million acre-feet. They were overly optimistic. The 20^th century average was 15.2 million acre-feet.

Now comes the 21^st century, and the average at Lee Ferry has dipped to 12.2 million acre-feet. This has implications for the Front Range cities but also farms. If Colorado must reduce its diversions to accord with the compact, those rights dated before 1922 will be exempt from reductions. The giant transmountain diversions have come more recently, as have many of the diversions for towns and cities on the Western Slope.

Accumulating evidence fingers human-caused climate change with large amounts of responsibility for declined flows. Lukas said his rule of thumb is that the role of greenhouse gases overall are responsible for two-thirds of lower flows.

As for the mechanics of this shift, rising heat is one important “knob,” said Lukas. As the atmosphere warms, it reduces “runoff efficiency” even more, sending water into the atmosphere instead of into streams and then rivers. Accumulating evidence fingers human-caused climate change with responsibility for most and possibly all of increased temperatures.

Precipitation has declined about 5% since 2000, with a larger reduction in spring, an important time of year to get moisture. Here, the link to the warming climate is less clear. “It seems increasingly likely that climate change is changing the dynamics of storm tracks and the persistence of, say, high-pressure systems over the interior West,” said Lukas. “That is, at least in part, responsible for why we’ve had less precipitation since 2000.”

The Colorado River, though, had problems even before the warming climate began throwing sharp elbows in water volumes. The reservoirs of the Colorado River Basin were 92% full in 1999, a wet decade overall. Even then, however, the Colorado River had ceased to reach the Pacific Ocean. There were too many straws inserted.

Less than 12% of the river’s flow goes to urbanized and industrial uses. Lukas pointed out that cities have become more efficient in their use of water. The rule of thumb for Denver and other Western cities is that one acre-feet of water meets the needs of a three households on an annual basis. That compares with two households a few decades ago.

Mining of fossil fuels and minerals uses a small amount. Evaporation from reservoirs and rivers and other “system losses” accounts for about 15%.

That takes us to agriculture. It uses 75% of the river’s water in the Colorado River for irrigation on 5 million acres. Some of that land lies outside the basin itself. That includes the South Platte and Arkansas River valleys of eastern Colorado.

Over half of that water — about 9 million acre-feet — gets used to grow feed for livestock, mainly alfalfa and pasture grass.

Might cities want to cut deals with farmers to “share” the water? This discussion has been underway for at least 15 to 20 years. Some pilot projects in Colorado and elsewhere have been launched to see what this might look like. A strong proponent has been James Eklund, a water attorney in Denver. Others question how this is done and, for that matter, whether we want to do it. But certainly, water for urban uses has higher monetary value than growing hay to feed cattle.

Why the restraint of cities?

As for the Front Range cities, the big question is whether they are planning for a river that produces even less than it does now.

In 2024, Andy Mueller, the general manager of the Colorado River Water Conservation District, suggested the need to start planning for a river that may deliver less than 10 million acre-feet in coming decades. Some thought then that the state engineer, Jason Ullman, needed to start sorting through this matter of junior vs. senior rights. Jim Lochhead, a former water attorney on the Western Slope and later CEO of Denver Water, pushed back, saying it was premature given the huge amount of work that would be required. See: “Heading for the Colorado River Cliff,” Big Pivots, Oct. 20, 2024.

At the Zoom session on May 11, I asked Lukas about the modest watering restrictions by Front Range water providers. He had previously described mixed signals from the water utilities. If 2027 is dry again, expect more uniformity around drought restrictions. “But it’s pretty weird right now,” he said.

With the attention to the Colorado River in the news media, it seemed like a perfect opportunity for the water utilities to mount more aggressive campaigns. Any idea why they had not, I wondered.

The utilities, he said, are reluctant to deliver regulations that produce discomfort around outdoor water-use restrictions. They don’t want to do this unless absolutely necessary.

Part of this is because of experiences during the covid epidemic. A lesson to public servants during that time made them more reluctant to push the public to do things they don’t want to do. “You only want to exercise that authority, that public legal authority, sparingly and only when it’s clear that is what is really necessary.”

Revenue was another consideration. Water infrastructure is expensive, and the money to pay for it comes from charges for water use. By imposing limits, you reduce revenue and hence must charge more for water. The conundrum is that reducing use doesn’t necessarily mean you pay less. In some cases, less water may require more infrastructure. This is a hard message to convey.

“What you’re seeing is a dissonance between the circumstances and what’s happening, at least this year,” he said.

Or at least right now. We have had rainy weather in May. Some meteorologists think we may end up with healthy rainfall this summer. If instead the summer is like the winter, very hot and dry, I expect the utilities might pick up their game.

Jeff Lukas presented in a session called Zoom at Noon. You can see the hour-long presentation here. The passcode is %ACg9*XU

Click the link to read the article on the Sibley’s Rivers website (George Sibley):

May 26, 2026

This is the cover of a new book I’ve just published, Storm in My Head, a collection of poetry written over the 60 years I’ve been living in the headwaters of the Colorado River, since 1966. My 60-year celebration. Those of you who prefer your literature in sprints and strolls over the marathon essays I impose on you might enjoy this book. I’m in the process of getting it distributed, and it may eventually be in a bookstore near you or on Amazon; but for the time being, if you are interested, an email to me, george@gard-sibley.org, will initiate a response on how to get a little money to me (10 bucks plus shipping) to get an inscribed copy wending its way to you.

End of advertisement – back to the river….

Romancing the River – Elephants in the River

The Colorado River situation is moving toward replacing the existing ‘Interim Guidelines’ for managing the river system with a new set of interim guidelines for managing the river system. This new set is devised mostly by the Bureau of Reclamation, which is growing a little desperate to avoid the embarrassment of having its river system cause the flow of the river to stop – ‘dead pool’ – behind one or another of its big dams, in a river management system built for a considerably larger Colorado River – now as mythic a river as the biblical four that flowed out of the Garden of Eden.

All this makes me think I’ll briefly abandon my historical update of Frederick Dellenbaugh’s Romance of the Colorado River, and try to sort through what has been happening recently in the present, most of which we’ve been reading or hearing about in the media.

Reports on the river’s flow after the Weirdest Winter Ever (at least in recorded time) have just gotten worse and worse; now the anticipated inflow to Powell Reservoir is 13 percent of the thirty-year average, from tributary runoffs that peaked as much as two months earlier than the usual early June. The Bureau of Reclamation’s 24-month projection indicates that, if last year’s releases from Powell were replicated this year, they might have to stop generating power by late summer to protect the power turbines – which in effect declares the remaining quarter of the reservoir’s potential storage ‘dead pool,’ since the only other way past Glen Canyon Dam is through four outflow tubes of questionable viability that the Bureau would like to use as little as possible.

The Bureau will address this with two emergency measures: first, by bringing a large quantity of stored water down the Green River from Flaming Gorge Reservoir, and second, by cutting releases from Powell Reservoir by close to two million acre-feet (maf) – which in turn will leave Mead Reservoir lower and diminish its power generation. This is an emergency plan that can nowise be considered long-range planning.

The Lower Basin states in turn have bumped up their willingness to take more shortages for the next couple years by roughly doubling shortages they have already agreed to accept – if the feds will pay them something for not using water that is not there. Their earlier cuts were basically just enough to finally start taking out of their individual allotments the system losses (mostly evaporation) they have been dismissing, with Bureau cooperation, as being met through ‘surplus flows’ that effectively disappeared when the Central Arizona Project came online in the 1990s.

The four Upper Basin states have responded by suggested that it might be time to bring in a facilitator or mediator to conduct the seven-state negotiations on future management planning. This launched an episode of fussing between the Lower and Upper Basins as to who first had that idea, with the other basin objecting to it. But no one seems to be totally opposed to the idea at this point, and it might happen. 

But basically it all seems to be in reaction to an ‘emergency’ water year, with no advance on more long-range planning – and there is no reason to believe that this year in just a one-shot emergency like the 1977 water year. It is just the most extreme year in an extreme period – the past quarter century – that is probably the shape of the future in the Colorado River region, and there are no more Flaming Gorge reservoirs to draw down for the next emergency year….

It’s probably important to remember a distinction: there is a river, the Colorado River, and we have overlaid on that river a management systemfor managing the river’s water for its human uses, a system whose parts either store water or distribute stored water to users. But we do not directly ‘manage’ the river itself, which runs according larger ‘operators’ – to global climate factors that we can inadvertently change but do not directly control, to what is happening to precipitation that falls in the river’s watersheds, and to how much what lives on the land (including us) interacts with the flow both on and below the land surface.

That last point – the water ‘on and below the land surface’ – strikes me as very important but largely ignored in the stalemated negotiations. You remember the metaphor of ‘the elephant in the room’: a big thing that everyone in the room is trying to ignore because to acknowledge it is to open a can of worms? (Sorry, mixing metaphors here.)

Well, we have ‘elephants in the river’ – or rather maybe in the ‘box’ containing the sacred Law of the River, through which we try to manage to the river. That’s the box that we’re all supposed to be ‘thinking outside of.’ Beginning to work ‘outside the box’ on anything will open a can of worms, but… are we going to have any choice, further down the road when it will be even harder if the elephants in the river continue to be ignored?

Trying to think in an integrated way of the water under the land as well as that on the land is one of our elephants in the river. We need to keep in mind the distribution of the freshwater all land-based life depends on (basically a solar-distilled three percent of the ocean’s water). In our times more than half of the freshwater on the planet is ‘banked’ in mountain glaciers and the ice sheets of the polar regions and Greenland – although this fraction is gradually diminishing under the changing climate. Of the remaining 35-40 percent, most of it is groundwater – water that soaks into the land, nurturing nearly all of the plant life that is the foundational food, fuel and housing supply for the animal kingdom (including us). This leaves only a small fraction of the water on the surface – lakes, wetlands, streams and rivers – and this is also a diminishing fraction, as the warming climate increases sublimation and evaporation from all waters exposed to the sun’s increasing power.

Yet that is also the fraction of freshwater over which nearly all the human squabbling is happening. For a long time, until the last century-plus, that was all the water that most of the animal kingdom could access, but now we have – and use, not wisely – pumps that make the groundwater accessible too.

We also know that most of that small fraction of surface water is pretty intimately connected to the groundwater. A river is not just a drain for water that failed to soak into the ground; as a river runs through its low-elevation course in a watershed, it constantly interacts with the groundwater, gaining water when the land is wet and the ground is full of water, and giving water to the land, as gravity permits, when the land is dry.

This knowledge ought to drive us toward thinking of groundwater and surface water as a single water source – not just our awareness that pumping the land dry will also diminish the river, but also our awareness that irrigating the chronically dry lands from the streams and rivers not only grows more plants and animal foods that the dry land could – but some of that irrigation water also sinks below the root zone to recharge the groundwater. The city of Gunnison, where I live, bought a ranch adjacent to the city because the city leaders knew enough about alluvial water to know that their groundwater supply (several relatively shallow wells) depended on keeping that ranch under irrigation from the river — water mostly cleaned by the ground it passes through.

But back to the Colorado River, the fraction of the water that does not soak into the land is a larger fraction than you would find in gentler lands primarily because most of the water falls on mountains in winter as snow, which melts in a relatively short time period as the weather warms, too fast for all of it to sink into land that is often too steep or too rocky for absorbing it anyway. But even in that ‘runoff period,’ scientists are learning that a lot of the water in the stream in the ‘spring flood’ season is groundwater flowing in from saturated lands.

Despite knowing all this, however, we persist in fighting over the fraction of freshwater that flows in the river’s watersheds through the year in the Colorado River region (natural basin plus out-of-basin extensions), and pay little in a basin-wide way to the use and abuse of groundwater. Only Colorado – to the best of my knowledge – has tried statewide to legally integrate the use of surface waters and groundwater: since 1969 all groundwater users had to acquire water rights, in the same priority system with surface water users. And – before there was easy access to computers and spreadsheets – all groundwater uses going back almost a century were also integrated into that priority system, a massive ‘can of worms’ to negotiate.

What’s been happening in Colorado for 35 years then is the beginning of the intelligent management of an integrated surface-and-groundwater supply – apparently far too intelligent for the Trumpish agri-industrialists of the two largest Colorado River water users, Southern California and Arizona. Arizona was forced to develop a groundwater management plan (1970) for the areas of Arizona that would be served by the federal Central Arizona Project, in order to get Congress to pass the project; but the rest of the state has been pumping groundwater at prodigious rates, with surface subsidence as evidence of collapsing emptied aquifers that are lost forever. Most of California’s groundwater overpumping is up in the Central Valley, not ‘served’ by the Colorado River, but as Colorado River flows inexorably diminish in a warming world, there will be growing temptations to pump in the Imperial and Coachella Valleys.

I have not found figures for the amount of unregulated groundwater ‘mining’ that goes on in the Colorado river region, but the number and volume of aquifers that have collapsed and been lost due to water-mining would probably go a long way toward filling Mead and Powell Reservoirs. And if you pause for a second and think about it, storing water underground is probably better than storing it in open reservoirs under a desert sun.

That is not the only elephant in the Colorado River – and most of them lead back, one way or another to the Colorado River Compact. The ‘temporary’ two-basin division that has clearly become toxic. Acknowledgement that the compact commission’s original goal of a seven-state division is not just possible now, but has been realized, to everyone’s discontent, making the two-basin division nothing but a battleground. Acceptance of the fact that the diminished river will continue to diminish so long as we continue to put greenhouse gases into the atmosphere faster than the planet can absorb them. Acknowledgment of the fact that as the planet warms, surface storage in big desert reservoirs is a bad idea that will get worse. Acceptance of the fact that the reconvening of a compact commission is overdue, to formalize the seven-state division and its appropriative consequences. And maybe the biggest worm-can of all: are some reasonable, even moral, limits on the appropriation doctrine possible?

We’ll look at some of these other elephants in future posts here – which I think is where the ‘romance of the Colorado River’ is today. I also think we will never have a workable resolution to our current river-system problems until we take on the elephants and bump our own consciousness of water in the arid regions up a notch from the naive ‘conquest of the desert.’

Click the link to read the article on the KVNF website (Brody Wilson). Here’s an excerpt:

May 19, 2026

A special mid-year West Slope Water Summit brought together water managers and community leaders to address a dire water year. Projected inflows into Lake Powell are expected to be well below half of normal — and negotiations over the river’s future remain unresolved.

A special mid-year West Slope Water Summit convened this week in Montrose — called early because the situation couldn’t wait until November. Montrose County Commissioner Sue Hansen organized the gathering after attending the Colorado River District’s State of the River address. She told attendees it was time to step up the urgency.

“This year is the first year that I am not optimistic,” Hansen said. “This is unprecedented and perhaps sobering for all of us.”

[…]

“The Lower Basin has put out, maybe you guys have heard of this, bridge proposal a couple weeks ago that in my opinion is a joke,” she said.

Her frustration centers on the math. The proposal calls for reducing water use by 3 million acre-feet over two years. But Flinker says that’s nowhere near enough — the river needs cuts of at least that much every single year. At the heart of the standoff is a hard reality. There is currently much less water in the river than we have been using, and no one anticipates that changing any time soon.

As Flinker puts it, “Well, I can speak for myself and you probably have the same opinion. Who wants to reduce their water usage? Right? No one. And the Lower Basin has used over 10 million, close to 11 million, acre-feet out of this river every year, much above their allocation. They don’t want to use less – especially when it’s not a little less – it’s like half, right?”

Click the link to read the article on the Aspen Journalism website (Heather Sackett):

May 12, 2026

An environmental organization is floating a concept that could help the Colorado River system during extremely dry years like this one and keep the nation’s two largest reservoirs above critical thresholds.

Boulder-based Western Resource Advocates has released a concept paper that explores the idea of a flexible pool of water that can be moved wherever it’s needed most among the basin’s biggest reservoirs.

Water users in the Lower Basin states — California, Arizona and Nevada — currently have about 3.2 million acre-feet stored in Lake Mead through voluntary conservation and efficiency measures. Water users bank water in this pool, known as the Intentionally Created Surplus, and can take this water back out again to use under certain circumstances.

The paper’s authors — John Berggren, a regional policy manager with Western Resource Advocates, and Kevin Wheeler, principal and engineer with Water Balance Consulting — used the ICS pool as an example to explore how the idea would work. They say that if the ICS pool could be moved from Lake Mead to Lake Powell, the U.S. Bureau of Reclamation could have a buffer to more easily protect Glen Canyon Dam infrastructure, minimize the need for large releases from upstream reservoirs and reduce the risk of litigation among the seven basin states that share the Colorado River. 

“If you took a million or two million acre-feet out of Mead in the form of a conservation pool and moved it to Powell, then you could protect Powell without having to do all the DROA and the 6e releases,” Berggren said. “This is a perfect year where we would like to have the flexibility to move this water wherever it’s needed most, in this case in Powell.”

Berggren is referring to the actions that the federal government is taking this year: releasing up to 1 million acre-feet from Flaming Gorge Reservoir to prop up Powell, as well as reducing releases down to just 6 million acre-feet from Powell instead of the originally expected 7.48 million acre-feet. Projections from Reclamation show the reservoir falling below 3,500 feet by this summer if these actions aren’t taken, jeopardizing the ability to make hydropower at Glen Canyon Dam.

This is a pivotal moment for the Colorado River Basin’s 40 million water users, with a historically bad snowpack and streamflows pushing reservoir levels to new lows and management into crisis mode. The seven states that share the river have not been able to reach an agreement for how reservoirs will be operated and shortages will be shared after the current framework expires this year. The feds are poised to step in with their own management rules, but the actions they are allowed to legally take may not go far enough to keep the system from crashing.

An invisible pool

Berggren’s paper lays out a surplus pool that would be flexible and “operationally neutral,” and would be separate from the rest of the stored water in both reservoirs. That means it wouldn’t count toward calculations of how much water is in Lake Powell or Lake Mead for the purpose of determining how water shortages would be shared. 

There isn’t a way to physically move water upstream, but according to WRA, water could be transferred between reservoirs through adjustments to dam releases and careful accounting. A pool could be “moved” from Mead to Powell by holding back water in Powell. It could be moved back to Mead by increasing releases from Powell.

The concept paper does not advocate for taking such actions this year, presenting them as a potential strategy to be used under a new river management framework that is being hashed out between the states that share the river and the federal government.

“There are a lot of concerns about operational neutrality, but we’re trying to show that it’s actually not that scary and can provide benefit with less risk than the current options,” Berggren said.

Reservoir levels in Mead currently determine how deep cuts to the Lower Basin states are; as Mead is drawn down, it triggers deeper cuts. Some water experts have said the ICS pool allows Lower Basin water users to game the system. By leaving their water in the ICS pool, it keeps reservoir levels artificially high and lets water users avoid taking deeper cuts. If the ICS pool had remained separate from the rest of Lake Mead, shortage triggers and mandatory conservation would have happened earlier. 

Making this pool “operationally neutral,” or invisible to reservoir operations, fixes this issue.

In a proposal submitted to the federal government May 1, the Lower Basin states expressed support for this concept, but they did not lay out a plan to implement it. 

“The goal is to achieve operational neutrality of ICS,” the submittal reads. “The Lower Division States will continue to determine when and how to convert ICS to operational neutrality at higher elevations in Lake Mead.” 

They also said the long-term goal is to create an operationally neutral common pool of new water savings to be strategically deployed at low elevations to help delay and offset additional reductions to the Lower Basin. 

Some experts say there are concerns and unanswered questions about these types of pools. The dividing line where water delivery is measured from the Upper Basin (Colorado, New Mexico, Utah and Wyoming) to the Lower Basin is Lee Ferry, just downstream of Lake Powell. Water measured at this location determines whether the Upper Basin remains in compliance with the 1922 Colorado River Compact. Moving water between reservoirs would have to deal with this issue.

“You would just have to agree on the rules of when is it considered a delivery at Lee Ferry and when isn’t it a delivery at Lee Ferry,” said Colorado River expert and author Eric Kuhn.

Another problem is that removing the ICS pool from reservoir accounting would leave a 3.2-million-acre-foot hole in Lake Mead that would need to be filled. 

“It’s hard to get there because there isn’t a way to make ICS operationally neutral unless you impose the shortages that would occur if the ICS weren’t there,” said Kathryn Sorensen, director of research and professor of practice at the Kyl Center for Water Policy at Arizona State University. “I don’t know how else you can do it. You have to pay the piper.”

Lower Basin proposal

Last week, the Lower Basin states submitted a proposal to Reclamation to operate the reservoirs through 2028 that includes more conservation. This short-term deal could provide a temporary fix while states continue to hammer out a long-term strategy to share the river. 

The Lower Basin states are proposing to cut another 700,000 acre-feet of water per year through 2028, on top of the 1.5 million acre-feet they had already promised. California and Arizona will each take another 300,000 acre-feet of cuts and Nevada will take a cut of 100,000 acre-feet. The proposal does not include any mandatory conservation from the Upper Basin. 

“It was a monumental undertaking in a very short time frame to come up with all of this,” said JB Hamby, California’s lead negotiator. “We need a bridge to the future, and we welcome and look forward to an opportunity for a full seven-state deal where all states are part of the solution.”

The Lower Basin proposal also says that this year’s release from Flaming Gorge to prop up Powell should be as close to the maximum amount of Reclamation’s range of 1 million acre-feet as possible. The proposal also calls for increasing releases from Lake Powell if hydrology and projected reservoir levels improve.

“The intent under improved hydrology is to share the benefits of improved hydrology between both basins,” the proposal reads. 

Colorado’s negotiator, Becky Mitchell, said in a prepared statement that the Lower Basin’s proposal for water-use reductions is a good first step but they still call for too much water to be released out of Lake Powell and other Upper Basin reservoirs.

“The Lower Division States’ proposal would also drain the Upstream Initial Units with limited opportunities for recovery,” Mitchell’s statement reads. “Lake Powell should properly be viewed as a savings account for the Lower Basin: The Lower Basin’s own resiliency depends upon it. The entire Basin should support sustainable, supply-driven operations at Lake Powell that rebuild storage.”

Upper Basin officials have proposed a mediator to help move the needle on talks about future management to try to get to a seven-state deal.

Berggren said that although the concept of a flexible, floating pool doesn’t solve the basic supply-and-demand problem on the Colorado River, it’s still an important tool for future management. 

“There are a bunch of other things needed, including Lower Basin users and Upper Basin users using less water overall,” Berggren said. “This is just one component. But it helps provide some benefit in dry years like this one.”

Click the link to read the article on the AZCentral website (Brandon Loomis). Here’s an excerpt:

May 14, 2026

Key Points

• The U.S. Bureau of Reclamation is now seeking a 10-year water-sharing plan for the Colorado River states, adjusting cutbacks every two years.
• A worst-case scenario being modeled could slash water shares for Arizona, California and Nevada by 40%.
• The Lower Basin states have proposed their own conservation plan, which could cover the first two years of the new federal framework.

Unable to get Colorado River states to hash out a new 20-year deal to share in worsening water shortages, the U.S. Bureau of Reclamation has told them it’s now aiming for a 10-year plan with prescribed cutbacks to be reassessed every two years. Federal officials informed the seven states of their new preference late last week, and Arizona’s lead negotiator made it public on Wednesday, May 13, during a meeting of a committee representing the cities, tribes and other water users who meet to develop a unified state position.

The shift to what could effectively become five two-year plans carries both opportunities and risks for Arizona. On the one hand, state Water Resources Director Tom Buschatzke said, it means a proposal that the Lower Basin states — Arizona, California and Nevada — recently submitted to boost their conservation through 2028 could cover the first two-year term if federal officials agree. That would keep water moving through the Central Arizona Project Canal, an economic lifeline that is at risk under some other scenarios. On the other hand, a move to bite-size plans “has us in a room negotiating for the next 10 years,” Buschatzke said at a meeting of the Arizona Reconsultation Committee. “That’s not something that creates the certainty that we’ve heard some people desire.”

[…]

New rules are necessary because the shortage-sharing guidelines that covered the last 20 years expire this fall — and because the river keeps shrinking along with a paltry snowpack in the Rocky Mountains. A deepening shortage has increased the stakes, keeping a consensus deal out of reach…In pitching their new 10-year “framework,” federal officials also informed the states that they intend to at least model the potential effects of a 3 million acre-foot annual reduction to what the three Lower Basin states could pull from Lake Mead. That worst-case scenario would slash 40% from what the century-old Colorado River Compact promised those Lower Basin states, and it could dry up the CAP Canal. It’s nearly twice the reduction that those states offered in their recent proposal…A 10-year program with a broad menu of potential guidelines that update every two years allows flexibility to adapt to both the changing hydrology and the potential for a political breakthrough on a consensus deal, [Alex] Smith said.