It’s a giant court case that has been technically going on for 40 years, but actually goes back to territorial days. A class-action lawsuit usually involves thousands of people against a small group of defendants. This involves thousands of people fighting each other.
“I don’t think it’s hyperbole to say that it’s the most complex case in American history,” said Rhett Larson, the water attorney with the Kyl Center for Water Policy. “Yeah, it’s a complete mess.”
A water market could improve Arizona’s water management. If a clearinghouse or escrow was set up, people could buy and sell water through that escrow for nature or cities or mining.
“Once we have effectively priced water in a market, then maybe we’re reaching efficient water allocation,” Larson said. “Right now, we can’t do that because nobody knows who owns what.”
Until the legal cases, collectively called the general stream adjudication, is resolved, Arizona can’t have an effective water market because people can’t buy and sell water until who owns what has been resolved. The Kyl Center works on the general stream adjudication every day. Ideally, the courts will ultimately make a decree. But not everyone is in a hurry to see the case cleared.
“So a lot of the work that’s happening behind the scenes is to find ways, if not necessarily to resolve it, to at least allow small people who want to settle out of it and don’t want to pay their lawyers for decades, just to be able to settle out, take some water and leave — and for the others to at least have a faster, smoother process,” Larson said. “But there’s a lot of skepticism of that too, because if you’re going to get ground up into hamburger in the end — do you really want it ground up faster?”
The center has a group of stakeholders who meet several times a month to negotiate. Larson said the work is promising. “We’ve made a lot of progress in the last 18 months,” he said. The Kyl Center acts as a mediator to avoid litigation.
Before worrying about conserving water, people need to worry about understanding water, Larson said.
“Imagine a resource as important as water, to not know who owns it,” he said. “A lot of these assured water-supply designations are based on assumptions on who owns what water that might not be true when the adjudication is decided.
“So people are like, ‘Oh yeah, we have a hundred years of assured water supply!’ And you always feel like going, ‘You don’t know for sure that you own that water until the court says you do.’ … But I don’t know, I still hope that there’s something that will sort of stoke the fire in people’s willingness to resolve the stream adjudication.”
Diamonds and water
When economist Adam Smith wrote "The Wealth of Nations," he wrote about the water-diamond paradox. Here’s a little tiny, shiny rock that people will pay out the nose for, but it does nothing. And over here is a substance that’s everything, but nobody wants to pay for.
It’s something Larson wonders about.
“I think it’s probably for a lot of reasons, partially because it falls for free out of the sky and people think, ‘Why should I pay for that?’ ” he said. “It’s partially because people think of water as a human right, as a fundamental right. I mean, how can you charge me for something that I absolutely need in order to live? And because, you know, in this country we tend to take it for granted. You turn on your taps and clean water comes out all the time, and you just assume this is a part of your life and it doesn’t cost much money.
“For some reason we will pay quadruple the amount of its price for movie popcorn, but the idea that you would pay full value for your water is just crazy!”
As the canal manager and the cattleman said at the water council meeting, pricing is on a lot of minds.
“We need to price water in a sane way to communicate to people this is a high-value commodity,” said Pat Gober, a research professor in ASU’s School of Geographical Sciences and Urban Planning who studies water resources management, decision-making under uncertainty and urban climate adaptation.
Video by Charlie Leight/ASU Now
Water is super-cheap in Arizona. SRP charges $90 a year for irrigation. If you look at a Phoenix water bill closely, most of it goes to sewage fees, garbage fees and some taxes. Very little of it is actually water.
The city of Phoenix Water Services Department spends $175 million annually on operations and management. Of that, $24 million is spent on actual water. The capital improvements budget is $130 million.
“The cost is in the infrastructure,” water services director Kathryn Sorensen said. A section of the redwood water pipes that used to supply the city in the 1920s sits in the lobby outside her office in City Hall, as if to underscore the point. Phoenix has 7,000 miles of water lines spread across 540 square miles. (Now multiply that around the West.)
“As those water lines age, they’re going to have to be replaced if we’re going to continue to have reliable water supplies,” she said. “The cost of that is enormous. We estimate, very roughly, that the replacement cost of the city of Phoenix utility — if you were just to go out and build it starting from scratch — is about $15 billion; $11 billion of that is in pipelines. It’s the cost of the infrastructure that’s going to matter in the future. It’s an enormous cost. And our infrastructure is aging.”
Sorensen is an economist by training.
“I’m intellectually fascinated with the idea and the questions around resource allocation: Who gets what? Of course the most valuable resource here in Arizona is water,” said the Phoenix native. “It’s a very natural fit for me. I knew at a very early age that this is exactly what I wanted to do. I’m one of those of people blessed to have their calling as a career.”
Phoenix has tiered water rates. The more you use, the more you pay. There is also seasonal pricing; water costs more in summer.
“That’s really one of the ways you’re going to get conservation,” Sorensen said.
She knows the cost of water will go up.
“Of course,” she said. “The cost of everything increases over time. When you talk about water, it absolutely will become more expensive, particularly Colorado River water.
“The impact of that in terms of the end customer will kind of vary. Different cities have different supply portfolios. A city that is more dependent on Colorado River water and a city that is more dependent on Salt and Verde water might expect a different mix on the impact of those costs.”
Agriculture, which uses 67 percent of the water in Arizona, according to the Department of Water Resources, began to pay more in the mid-1990s, when Grady Gammage Jr. served on the board of the Central Arizona Project.
“Historically, water has been free to farmers,” Gammage said. “What they pay for is the delivery cost. In California, the Imperial Irrigation District is still delivering water to farmers at something like $6 an acre-foot. When I was at CAP, we started charging $30 an acre-foot. The questions were could farmers afford it or not?
“The farmers’ view at that point was they had long-term rights to water; they owned the water. It was just getting delivered through the canal. But the contracts they had signed for that delivery required them to pay for the canal at the fully loaded cost of it, and they couldn’t afford that. So we re-cut a deal where they don’t have long-term rights to water anymore. Water is in a kind of limited spot market every year.”
He once sat with a bunch of farmers who told him, “We have to be assured we’ll have water every year, and that the price will never vary.”
“I said, ‘Are you ensured that the price of seed will never vary every year? Or that the price of insecticide will never vary every year? Or gasoline or diesel fuel?’ ‘Well, no, but that’s different. Water is different.’ No, it’s not. It’s a commodity, like those other commodities,” Gammage said.
“So what the CAP does now is it tries to price agricultural water at the cost of getting it here, but on a sort of rolling average so the farmers know three or four years in advance how much water there is going to be, and what it’s going to cost, and that can be adjusted. That was hugely revolutionary. They all thought that would destroy agriculture in Arizona, and it’s worked out pretty well. The price had gone up fairly dramatically over time.”
There’s a trade-off between how much you pay for water and how much you pay for food, said John Sabo, a professor in the ASU School of Life Sciences. We eat a lot of stuff because it’s cheap and available. We eat baby greens in the dead of summer because water is cheap.
“That’s what farms are sitting on: this resource that’s only going to go up in value over time,” Sabo said. “It’s going to force them to become more efficient.”
Farms may sell expensive water to cities and use that increased revenue to install things like drip irrigation or switch from low-value crops like alfalfa to high-value crops such as strawberries. We’re not going to get to the point where lettuce is $15 a head, though.
“No, because people won’t eat it if it’s that expensive,” Sabo said. “Remember when avocados were $4 each? We only had guacamole during the Super Bowl. … I think it’s more that we’ll be focused on eating seasonal things that are cheap, but not all year round.”
ASU ecologist John Sabo speaks at the Southwestern Regional Water-Energy Nexus meeting Sept. 8. He says there’s a trade-off between how much people pay for water and how much they pay for food. Photo by Charlie Leight/ASU Now
It’s not like farmers are acting like drunken sailors. In central Arizona, farmers are required by state law to use water-conservation practices like lining canals, laser-leveling fields and other best management practices. Farmers are legally required to be at least 80 percent efficient, according to the Department of Water Resources.
“Agriculture has become more efficient,” Porter said. “We can grow a lot more food with the same amount of water we used 30 years ago.”
“We really have a lot of water (in Phoenix),” Porter said.
Water usage in the city has fallen 30 percent in 20 years.
“We serve 400,000 more people than we did 20 years ago, with the same water,” Sorensen said. “Tremendously successful.”
Las Vegas pays residents to rip out lawns. Tucson has paid out $1.7 million on rebates for rain-harvesting systems. Not all those programs work. A lot of systems have been installed in Tucson, but there’s no decline in demand. In fact, they may be using twice the water they used before. Phoenix hasn’t paid for anything like that, but it’s hitting comparable demand reduction to cities in the region.
“I’m a big fan of the way the city of Phoenix has dealt with landscape issues, which is primarily about education, not about discouraging landscaping through rate adjustments or about paying people to tear out grass,” Gammage said.
What’s causing the drop in demand? Less turf, fewer pools being built, and more efficient appliances. One positive effect of the Great Recession Sabo pointed out was people couldn’t afford to buy new homes, so they remodeled. Remodels almost always involve kitchens and bathrooms, and new appliances are built to be water-efficient. Sorensen expects water use to continue to drop.
“We’re very proud of the way our residents have really embraced a desert lifestyle,” she said. “That’s what it is. Phoenix focuses on the long game when it comes to conservation. We’ve been doing it full-force since the mid-80s, decades before other communities figured out this was important.
“I know it sounds strange, but we don’t want our customers reacting to hydrologic events. We don’t want them reacting to the water levels in Lake Mead or the fact it’s been a 15-year drought, or any of those things. We want them to save water and use water efficiently because it will always be hot and dry here. That’s the mentality we need them to embrace. This is not a condition. This is not something to react to. This is how to live every day. That strategy has been successful in Phoenix.”
In-home efficiency is becoming about as good as it gets, Gammage thinks. And tearing out irrigated tall trees and lush lawns would be a terrible mistake.
“I think we need to be much more discriminating about the appropriate uses of water in the urban environment in the desert,” he said. “There are parts of metropolitan Phoenix where retaining the historic landscape — lush grass and trees — is important because it’s the heritage of Phoenix. … In the newer subdivisions we shouldn’t have grass in the front yards, where it isn’t used.”
But in making decisions like that, whether in Phoenix or in other arid cities, there’s a dilemma, Gammage said: “You wind up allowing the lush landscape to be preserved for the affluent people, and the lower-income people don’t get it.”
He’s a fan of Tempe Town Lake. It’s an amenity, a gathering place, and a place for recreation that is open to everyone.
“It’s a good use of water,” he said, adding that it “creates ambience and gathering space in the urban fabric.”
Tempe Town Lake draws fans in such water experts as Grady Gammage Jr., who praises it as an amenity that offers activities to a wide segment of the population. Photo by ASU
Phoenix has a huge amount of give when it comes to water supplies, said Porter, the directorWhite is also a Senior Sustainability Scientist, Julie Ann Wrigley Global Institute of Sustainability; director, Decision Center for a Desert City, Julie Ann Wrigley Global Institute of Sustainability; professor, School of Community Resources and Development, College of Public Service and Community Solutions; affiliated faculty, Center for Biodiversity Outcomes, Julie Ann Wrigley Global Institute of Sustainability. of the Kyl Center. The Salt River reservoirs are at half capacity, and not every SRP city uses all their supplies. We’re far from living on a knife’s edge, she said.
“We talk about a supply gap, and we worry about where we’re going to get water, but we actually — if we stopped growing, and didn’t have any more demand, we wouldn’t have a water problem. Even with all the scary threats to our water supply out there, we wouldn’t be having conversations about a water-supply problem,” said Porter, who added that the issues are sustaining growth.
Bull in a china shop
One of the challenges is getting two of the main players — scientists and those making decisions in government — talking to each other.
“I think, for some reason, and I don’t think it’s either side’s fault, policymakers and scientists aren’t communicating at all,” Porter said. “In a lot of disciplines there’s an expectation when they publish a paper in a scholarly magazine, someone at the legislature is going to pick it up and read it and act on it. Of course it’s absurd to think that if you think about how busy elected officials are and the demands on their attention.”
There isn’t the beginning of the communication needed, she said, but “there are places at ASU where there are much more deliberate efforts to make those communications happen.”
That place is the Decision Center for a Desert City. A research unit of the Julie Ann Wrigley Global Institute of Sustainability, the center conducts climate, water and decision research, and develops tools to bridge the boundary between scientists and decision makers. The 12-year-old center has worked hard to become an example of how academia can work with policymakers.
Dave White is the director and principal investigator of the center.
“This is a problem that we have faced and hopefully overcome to a large degree,” White said. “When university researchers conduct research independent of collaboration with policymakers, they often miss critical inputs or critical perspective into the research, that if they were aware of these perspectives they could vastly improve the relevance of the research.”
For example, if a scientist talked to a policymaker before embarking on a study, they could set a geographic scope to a political decision-making unit. A study about the Phoenix Active Management Area instead of “greater Phoenix” “could potentially increase the relevance of the study,” White said. (Active Management Areas are five places identified by the state as being heavily reliant on groundwater.)
Dave White (speaking at the Southwestern Regional Water-Energy Nexus meeting on Sept. 8), director of the Decision Center for a Desert City, says the center involves its partners in designing the research. That helpls the results be relevent to policymakers. Photo by Charlie Leight/ASU Now
Research also needs to meet the timing of policymaking. Agencies have deadlines and deliverables, just like the private sector does.
All of which raises the question: Exactly what do public water officials want to know from academia? Where does the rubber hit the road? These six titles are a random recent sampling of what policymakers want to know, from papers written for the Decision Center for a Desert City.
- neighborhood microclimates and vulnerability to heat stress
- regional relationships between surface temperature, vegetation and human settlement in a rapidly urbanizing ecosystem
- determinants of small-area water consumption for the city of Phoenix
- residents’ yard choices and rationales in a desert city: Social priorities, ecological impacts, and decision trade-offs
- the impact of the Phoenix urban heat island on residential water use
- analysis of drought determinants for the Colorado River Basin
Kelli Larson, an associate professorLarson is an associate professor, School of Sustainability; associate professor, School of Geographical Sciences and Urban Planning, College of Liberal Arts and Sciences; Senior Sustainability Scientist, Julie Ann Wrigley Global Institute of Sustainability; center associate director and director of education and mentoring, Decision Center for a Desert City. in the School of Sustainability, said she saw some of the dread policymakers have of scientists early in the center’s history.
“There’s this new water center opening, and some of the language was to improve water resource decision-making, which, as a decision maker, you might be sitting there thinking, ‘We’ve been working on these issues for 10, 20, 30 years, and now there’s this new center, and they’re going to improve our decisions?’” Larson said. “It may burn relationships.”
The majority of the center’s “clients” tend to be technical staff at various agencies: water providers, planners, utility managers. Larson thinks about what they need and the policy implications. The center is proactive; it goes to decision makers, so they don’t have to navigate ASU to find the right people. Center staff — some of whom are former policymakers themselves — ask them what they’re working on, what their concerns are, what questions they have.
“It takes time to build those relationships, to build trust,” Larson said. “We’ve been quite successful with that. Part of why we’ve been successful at that is because we listen. I see the planners and the decision makers as experts in their own right. They’re not scientists per se, they’re not researchers, they’re not academics, but oftentimes they do do their own form of research, and they have their own knowledge base. There’s a lot they can offer to our understanding and insights, including informing our research agendas.
“When I first got here, I felt like we were outsiders trying to enter the water community, and now I feel like we’re a part of the water community,” she said. “That feels really good to see that unfold over 10 years.”
And people in government agree that it’s successful.
“They haven’t been (overbearing),” Sorenson said. “That’s exactly the reason we’ve been able to build such good relationships.”
“One of the things we do really well that a lot of universities are getting into, but we’re on the leading edge of, I’d say, is integrating people into the decision-making process from the beginning,” Sabo said. “We’re very good at understanding the institutional context and the decision-making context of water resources and doing the planning and interface with the science that allows people to contribute to that process.”
The Decision Center for a Desert City (DCDC) calls itself a boundary organization. It is a link between scientists and water-resource practitioners. The goal is to have a space — both physical and intellectual — that creates an institutional connection between the university and its partners.
“We don’t operate in consultancy mode,” White said. “We involve the partners we work with in the design of the studies. The partners are involved in constructing the framing of the problem, they’re involved in constructing the research questions themselves, in designing and carrying out the research studies, and then interpreting and utilizing the results.”
The "bathtub ring" is visible above Lake Mead at Hoover Dam. Photo by Charlie Leight/ASU Now
Sorensen and Tom Buschatzke, the director of the Arizona Department of Water Resources — the state’s two most influential water leaders — sit on DCDC’s advisory board. They, along with the National Science Foundation, which has invested $18 million in the center, evaluate the center every two years. White sits on the mayor’s water advisory board.
Science should fill in the gaps and provide evidence for alternatives. It’s a fine line to walk, White said.
“If you just throw your hands up in the air and say, ‘This is ridiculous!’ that’s not going to get you very far,” he said. “If you want to have policy-relevant work, then you need to understand how did the system converge this way. ... It’s not up to us to make those decisions. It’s up to us to help to diagnose what the consequences of different decisions are.”
Water Sim and the Decision Theater
Because water problems tend to be extremely complex, that makes it difficult for non-water professionals and elected officials to understand them. DCDC has created two opportunities to make them visual.
Water Sim is a software program that models system dynamics. You can fiddle around with various scenarios to see how an El Nino or a thin snowpack will affect water. It’s a systems model; it takes a lot of data usually collected separately — like water supply, demand, climate, population and policy data — and puts it together. Users can change one variable and see how it affects the rest.
ASU’s Decision Theater provides meeting rooms with large-format ultra-high-definition displays and on-site computer systems, tools and personnel that can provide specialized geographic information systems, systems modeling, business intelligence, and 3-D spatial modeling and simulation, among other capabilities.
With water problems, the importance of visualization really ratchets up.
“A picture is worth 1,000 words, right?” Sorensen said. “One of the things that’s been really constructive is to work with DCDC on the Decision Theater. You can bring in policymakers and elected officials and instead of having to sit there and lecture them for three hours on the background of a problem and why it matters and why they should care about it, the Decision Theater helps them visualize it. You can tell the story much easier in a way that makes sense and in a way that’s compelling to them.”
What policymakers say
Water is immensely complex, even if it’s your field, even if you have a PhD. If you really take a look at water problems, what you’ll find is they’re wicked problems. They’re extremely complex. The low-hanging fruit has already been picked.
“The solutions that are left to us to face the challenges of a changing climate and global uncertainty are few and far between, difficult to achieve, and they tend to be incremental in nature,” Sorensen said. “And yet ahead of us are enormous risks. As a policymaker, someone who has to actually make sure 1.5 million people in the middle of the desert have water, finding your way through that path is extremely difficult. You have to make decisions at different times with relatively little information and huge amounts of uncertainty.
“That’s kind of ASU’s focus: How do you make good decisions in such an uncertain world with such wicked problems ahead of you? It has been a really useful and collaborative partnership. We’ve been thrilled to have been involved with it. … Water wonks are always a little bit nervous when academics forge their way into policy arenas, but I would say for the most part it’s been tremendously successful. It’s been a benefit to us, and hopefully to ASU as well.”
And many people across many fields at ASU are working to make that happen.
“A place like the Global Institute of Sustainability and DCDC help to serve as a glue for all of us, so that our efforts are bigger than just one professor’s efforts,” said hydrologist Enrique VivoniVivoni is an associate professor, School of Earth and Space Exploration, College of Liberal Arts and Sciences; sustainability scientist, Julie Ann Wrigley Global Institute of Sustainability; affiliated faculty, Center for Biodiversity Outcomes, Julie Ann Wrigley Global Institute of Sustainability. said. “I think we’re starting to make inroads in increasing our reputation, and attracting great students and doing interesting projects and generating a niche that we can become world leaders in.”
The water series
Part 1: The current situation and how we got here.
Part 2: Science and research.
Part 3: Law, policy, challenges — and some good news.
Top photo: The Mike O’Callaghan-Pat Tillman Memorial Bridge on U.S. 93 soars above the Colorado River spillway from Hoover Dam. Photo by Charlie Leight/ASU Now