The Next Generation Water Observing System provides high-fidelity, real-time data on water quantity, quality, and use to support modern water prediction and decision-support systems that are necessary for informing water operations on a daily basis and decision-making during water emergencies. The headwaters of the Colorado and Gunnison River Basin provide an opportunity to implement the NGWOS in a snowmelt-dominated system in the mountain west.
The USGS Next Generation Water Observing System (NGWOS) is generating integrated data on streamflow, groundwater, evapotranspiration, snowpack, soil moisture, water quality, and water use. When fully implemented, the NGWOS will intensively monitor at least 10 medium-sized watersheds (10,000-20,000 square miles) and underlying aquifers that represent larger regions across the Nation.
The USGS has selected the headwaters of the Colorado and Gunnison River Basin (Upper Colorado River Basin) in central Colorado as its second NGWOS basin. This decision was based on rigorous quantitative ranking of western basins, input from USGS regions and science centers, and feedback from targeted external stakeholders in the west.
The Upper Colorado River Basin is important because nearly all flow in the Colorado River originates in the upper basin states and runoff from the Upper Colorado River Basin is nearly three times that of other basins in the area. Thus, the Upper Colorado River Basin is particularly critical for downstream users.
Long-term drought conditions facing the Upper Colorado region, interstate ramifications of the drought, water-quality issues, stakeholder support, and alignment with Department of Interior and USGS priorities make the Upper Colorado an ideal basin to implement the USGS’s integrated approach to observing, delivering, assessing, predicting, and informing water resource conditions and decisions now and into the future. Of note, a newly released (October 2019) Federal Action Plan for Improving Forecasts of Water Availability includes a milestone to pilot long-range water prediction in the Upper Colorado River Basin, an activity that will greatly benefit from the newly selected USGS NGWOS basin.
An integrated data-to-modeling approach in the Upper Colorado River Basin will help improve regional water prediction in other snowmelt dominated systems in the Rockies and beyond. The approach is useful for addressing issues of both water availability and water quality and for evaluating the effects of both short-term climate perturbation (for example, fire, insect mortality, drought) and long-term climate change.
Water Resources Challenges in the Colorado River Basin
The Colorado River supplies water for more than 40 million people and nearly 5.5 million acres of farmland across the western United States and Mexico. The Colorado River and its main tributaries originate in the mountains of western Wyoming, central Colorado, and northeastern Utah. The large amount of snowmelt that feeds the Upper Colorado is central to water availability throughout the Basin. In 2019, urgent action was required to prevent previously developed rules from potentially reducing Colorado River water allocations to Arizona, Nevada and Mexico due to declining water levels in the two largest reservoirs within the Colorado River Basin—Lake Powell and Lake Mead. A Colorado Drought Contingency Plan was signed in April 2019.
Dense array of sensors at selected sites
Increased spatial and temporal data coverage of all primary components of the hydrologic cycle
New monitoring technology testing and implementation
While the ink was still drying on the final draft of the Colorado River Drought Contingency Plan (DCP), policy makers in Colorado were turning their attention to the bigger challenge ahead.
With the agreement’s signing in May 2019, the state and its neighboring upper Colorado River Basin states of New Mexico, Utah and Wyoming were granted the ability to bank conserved water in Lake Powell and other upper basin reservoirs in case of a future water crisis—but only if the states agree on an upper basin demand management program. Getting all the parties on the Colorado River to agree to that so-called “drought pool” in Lake Powell was difficult, but designing the demand management program to get water into the pool will be much harder. Determining when to release water from the pool could also prove challenging.
Demand management is water conservation on such a large scale that it reduces the amount of water drawn from the river in a significant, measurable way. If the upper basin states develop a demand management program, they will collectively use less water, then track, deliver and bank those savings in upper basin reservoirs. That water could be sent downstream when flows are low to meet the upper basin’s commitment to the lower basin states and Mexico, as outlined under the 1922 Colorado River Compact and subsequent agreements.
The compact stipulates that the upper basin states must not deplete the flow of the river at Lee Ferry below 75 million acre-feet based on a 10-year running average. Although the upper basin is a long way from running out of water, if the future brings more dry years and low reservoir levels, as is projected, it will become increasingly difficult to send water downstream while still meeting upper basin water needs. If the lower basin does not receive its share of water, a legal battle could ensue, threatening water rights in the upper basin—so the upper basin complies with the compact to maintain control over its own water supply.
The DCP lays out processes for how this might be achieved but is only in effect through 2026, at which time the federal government, in consultation with all Colorado River Basin states, will reconsider how the system should be operated.
Exploring demand management is just one of the upper basin’s commitments under the DCP—the other two elements include a new plan to move water from smaller upper basin reservoirs to Lake Powell, and finally, water supply augmentation. As a whole, the upper basin’s DCP aims to maintain storage volumes at Lake Powell, enabling continued hydropower generation, thereby funding continued operation of the reservoir system and use of Colorado River water in the upper basin. But demand management could be part of the upper basin’s strategy. So work is underway to determine what demand management might look like, if a program is developed. “There are still a lot of big ifs,” said Brent Newman, the former interstate and federal section leader for the Colorado Water Conservation Board, during a presentation in August.
Newman was addressing about a dozen people gathered in the Summit County Library in Silverthorne for the first meeting of the Economic and Local Governments Working Group on demand management. The group of county commissioners, lawyers, consultants and utility managers will spend the next year identifying critical issues for the feasibility of a demand management program.
As the meeting closed, the group filled three large boards with sticky notes of questions and possible problems with demand management, issues to be hashed out in the coming months. Similar brainstorming sessions are playing out across the state in eight other working groups, each dedicated to exploring demand management from a different perspective, like agriculture and the environment. Simultaneously, each of the other upper basin states is also examining how it could approach demand management. Unless all four upper basin states agree, there will be no demand management program.
This massive planning effort from four different states will cost millions of dollars and require tough negotiations. And while each upper basin state is putting its best foot forward to create a plan, there is no guarantee that conditions will get bad enough that it will be needed. There’s also no guarantee that a demand management plan will be adopted—and even if adopted, will it be adopted in time to make a difference?
The DCP and Colorado
Over the last 20 years, the Colorado River has experienced extreme drought, unprecedented in modern history. Now, states throughout the West are planning for a future with less water, and for good reason—modeling shows an increasing likelihood of water shortage in the basin. According to Phase III of the Colorado River Risk Study, an effort completed in June 2019, the upper basin faces a 45 percent chance of a water shortage in the next 25 years at current water use levels. If upper basin water use increases by just 11.5 percent, that risk doubles, creating a 90 percent chance of coming up short, the study says. Instead of tumbling unprepared into shortage, representatives from the seven states that rely on the Colorado River created the DCP to stave off a future water crisis by readying for dry times.
The objective of the DCP, which is really two plans, one for the upper basin and one for the lower, is to prevent water in the river system and its two primary reservoirs—Lake Powell and Lake Mead —from dropping too low. Reaching these critical levels would trigger a crisis-level response in the region with some states taking significant reductions in their water allocations and some areas losing access to clean power due to the loss of production from the reservoirs’ hydroelectric dams. The revenue earned from hydropower contracts is used to fund conservation for rivers and programs like endangered fish recovery. The loss in funding would also limit the government’s ability to run the dams and distribute any water remaining in storage.
The lower basin’s DCP laid out cuts in lower basin water use that are tied to projected reservoir levels. But the upper basin is in a different position. Its DCP gives the upper basin tools to manage its water supply in case of shortage, which should help it meet its obligations under the 1922 compact and avoid involuntary cutbacks. The first of these tools, which is really the basin’s first line of defense in protecting Lake Powell’s storage levels, is a new mechanism to move water from upstream reservoirs down to Powell when Lake Powell is facing a critically low level, what is known as the Drought Response Operations Agreement. The second is a 500,000 acre-foot storage pool in upper basin reservoirs, which the basin can use to store water from a demand management program, if such a program is deemed feasible and adopted. The third, known as augmentation, which is already in use, is a combination of cloud seeding to stimulate precipitation, and the control of phreatophytes like tamarisk and Russian olive, which are deep-rooted non-native plants that soak up water from riverways.
Over the next several years, the upper basin will use these tools and determine whether to bank water for shortage. While the upper basin’s work is just beginning, it could shift the way water has been managed in the West for more than a century.
This possible shift matters to water users across Colorado, that’s why the scene of the demand management workgroup in Summit County yielded three boards covered in questions and concerns. The Colorado River starts as snow high in Colorado’s Rocky Mountains. In the spring, it melts down into a web of tributaries that flow across the upper basin states into the river’s mainstem. Each of the basin states relies heavily on water from the river, but Colorado, in particular, plays an outsized role in how the Colorado River water system works. Colorado snowmelt contributes about 70 percent of the total flow of the Colorado River.
But Colorado also gets the lion’s share of the upper basin’s water—it can use 51.75 percent of the upper basin’s allocation per the Upper Colorado River Basin Compact of 1948. Colorado’s average annual consumptive use of Colorado River water is about 2.5 million acre-feet, according to the Colorado River Risk Study. And though only about 20 percent of the state’s population lives in the greater Colorado River Basin—which in Colorado includes not only the Colorado Basin but all West Slope rivers such as the Gunnison, Yampa, White, San Juan, San Miguel, and other smaller tributaries—more than 570,000 acre-feet of Colorado River water is piped across the Continental Divide each year, reaching the Rio Grande, South Platte and Arkansas basins. More than 80 percent of the state’s population lives along the Front Range, where transbasin diversion water accounts for about 60 percent of water use. Users of Colorado River water range from municipalities to farmers to industrial users like oil and gas operations.
If a severe water shortage resulted in the upper basin not meeting its compact obligations, water rights across the state would be at risk of curtailment. Although no curtailment procedure has been decided upon, water rights adjudicated after 1922, the year the compact was signed, are often considered to be more at risk than pre-1922 rights. In Colorado, transbasin diversions serving the state’s population center constitute more than half of the state’s post-compact depletions, which means that Front Range municipal water users, though geographically disconnected from the Colorado, have an extreme interest in protecting the river and Lake Powell reservoir levels—thus in seeing the upper basin DCP succeed. If the actions in the upper basin’s DCP aren’t sufficient to protect reservoir levels in Lake Powell and if releases below Lee Ferry were too low and violated the compact, a compact deficit could result and lead to involuntary curtailment.
Drought Response Operations Agreement
Rather than a step-by-step plan, the upper basin’s DCP is all about process. The new elements of the DCP, the Drought Response Operations Agreement and demand management, are plans to create a plan if conditions warrant it. The plan first lays out strategies to maintain water levels in Lake Powell during a drought. If those operations are not enough, the agreement describes how water from the three federal storage projects in the upper basin—Fontenelle in Wyoming, Flaming Gorge in Wyoming and Utah, Navajo in New Mexico and Colorado, and the Aspinall Unit which is composed of Blue Mesa, Crystal and Morrow Point reservoirs in Colorado—could be used to bolster storage volumes in Lake Powell.
The agreement does not designate how much water will be sent downstream or specify which reservoir will make the release, it simply says those negotiations will begin once the Bureau of Reclamation’s 24-month study models indicate that Lake Powell might fall below the target elevation of 3,525 feet mean sea level.
The three reservoir units, along with Glen Canyon Dam in Arizona, were authorized with the Colorado River Storage Project (CRSP) Act in 1956 to stabilize the upper basin’s water supply against variability in the Colorado River. Since the CRSP units were built, their water has been used to fulfill water rights throughout the upper basin, satisfy increasing water demand, and meet environmental standards for river flows. The U.S. Interior Secretary oversees the reservoirs and determines their operations every year.
While the original CRSP Act was designed with the idea of storing and releasing water to meet the compact agreements, it does not clarify the states’ roles in this process. By laying out this process in the Drought Response Operations Agreement, the upper basin states and the federal government clarified how they would interact—hopefully avoiding future conflict—if reservoir releases become necessary to protect Lake Powell storage.
“But if we have 10 years of hydrology just like this [year], it may never come to pass”, says Amy Haas, the executive director and secretary of the Upper Colorado River Commission.
The agreement also sets ground rules for how those negotiations would play out. First, any water releases from the reservoirs would need to fit within the existing records of decision and biological opinions, including each reservoir’s existing environmental impact study in accordance with the National Environmental Policy Act (NEPA). Any reservoir releases also must come with a plan to refill the water that was released to Lake Powell once hydrological conditions improve. The agreement also stipulates that if a facility makes a release one year, the other two facilities will be considered first if further need arises, before tapping the same reservoir twice.
The Drought Response Operations Agreement is the first plan of attack for the upper basin in case of a shortage. While this could be executed without too much controversy, there are still some concerns with the agreement.
The first concern is that while the agreement places three of the upper basin’s federal water storage projects on the table for water releases, both the Aspinall Unit and Navajo Reservoir have very little additional water available each year. This puts a burden on Flaming Gorge as the reservoir most likely to make a release. The second issue is that, while all of the states’ attorney general’s offices call for actions taken under the Drought Response Operations Agreement to fit in existing NEPA permitting, some believe that a new environmental impact study under NEPA might be required before releases can be made to Lake Powell. Even with these issues, the Drought Response Operations Agreement is mostly uncontested. It’s the second element of the Upper Basin DCP—demand management—that could mark a paradigm shift in Western water law.
When people think of water conservation, they typically think of home-grown efforts to take shorter showers. But with a demand management program, the upper basin states would work collectively to use less water and bank those savings in Lake Powell or other CRSP reservoirs. If necessary, that water could be sent to the lower basin to comply with the compact. Although this may seem like a common-sense solution, it’s complicated by the laws surrounding water rights.
“The reason that it is a problem legally is that our whole water law framework is set up to encourage maximum utilization of water,” says Anne Castle, senior fellow at the University of Colorado’s Getches-Wilkinson Center for Natural Resources, Energy, and the Environment and former assistant secretary for water and science with the Department of the Interior. “So the way our laws work is that if you’re not using your full entitlement of water then other people get to use it.”
Because of the legal framework surrounding Western water, water conservation is not simply a matter of turning off the taps. Large-scale conservation only occurs when conserved water is accounted for and, in the case of demand management, that water must also reach its target area without being diverted by a downstream user, a process known as shepherding. This is more complicated when moving water through multiple states, as the water authorities in each state must shepherd the water downstream. Calculating the quantity of conserved water is also challenging. Some of the water saved through demand management will evaporate or be lost through transit as it moves down the river, and lost water isn’t considered conserved.
These legal and technical issues must be solved before a demand management program is implemented, but the DCP didn’t create a program, the DCP simply makes exploring such a program possible.
Before diving into the details of how to conserve water, the upper basin needed the ability to bank its savings in a CRSP reservoir. While there is room in Lake Powell—which has been hovering at around 50 percent full—prior to the DCP, any water in Lake Powell was considered unused by the upper basin and therefore was subject to release to the lower basin. But the DCP authorized a pool of up to 500,000 acre-feet for the upper basin to store water in CRSP reservoirs to be used, if needed, to comply with the compact. This water can be tracked and accounted for, and cannot be called for by the lower basin.
“This is a big change to the Law of the River, and a new wrinkle in the way the river is managed,” says Newman, who was leading the demand management work for the CWCB. “But there is a lot to do before one drop of water can be stored in that pool.”
First, each state must assess the feasibility of a demand management program. The states are considering everything from specifying how much water each state would need to contribute to the pool, to identifying what laws to modify, if any. Each state also needs to ensure that water users participating in the program can do so voluntarily and temporarily and will be compensated for the water they conserve. The costs of such a program are still unclear, but the four-year System Conservation Pilot Program, which ended in 2018 and can be likened to demand management, paid an average of $205 per acre-foot for conserved water. The pilot program was implemented on the ground in various places, including with the Grand Valley Water Users Association, where 10 members took more than 1,000 acres of land out of production and, in 2017, received $560 per acre to help make up for the crops they would have grown otherwise. That year, the project returned an estimated 3,200 acre-feet of water to the Colorado River—a drop in the bucket.
That program and the Colorado River Water Bank Workgroup, which started in 2009 and has since evolved, gave Colorado a head start into considering some of these questions. But there’s more to learn, says Taylor Hawes, Colorado River Program Director for The Nature Conservancy, who has long been involved with these water banking discussions.
Even after years of studies, the workgroup made the most significant progress when the System Conservation Pilot Program put water banking to the test on the ground. So Hawes recommends piloting demand management. “It’s in our best interest to have a program up and running, to see what the kinks are and what the critical needs are, to be in a better position to negotiate for that,” Hawes says. Negotiations to determine what will happen in 2026 could begin next year, so there’s reason for Colorado and the other upper basin states to get practice. “We could easily overcomplicate it. We need to be really systematic in our thinking on how to work through these issues. It is feasible so I hope we can put a plan in place and start to test it a little bit to make sure it can work for all sectors in the long run.”
In addition to the technical logistics, the upper basin states must account for attitudes about demand management. “There’s a general curiosity about what demand management will or could be,” says Kelsea Macilroy, a Ph.D candidate in Sociology at Colorado State University. Macilroy, in a project for The Nature Conservancy, spoke with 34 West Slope agricultural stakeholders in May 2019 to hear about perceptions and barriers to demand management. She heard from an equal number of people who said they would never participate in a demand management program and people who were excited about it. She heard people question if demand management is an opportunity, a burden, or both.
She also unveiled cultural beliefs that shape how the West Slope responds to the idea of demand management. “When the demand management conversation arises, it triggers these historical injustices,” Macilroy says, like loss of other natural resource industries such as logging in southwestern Colorado, for example. “I heard, almost unanimously, people referencing buy and dry. Not only that water could be taken away but that a way of life is under attack. That this is just the next thing that threatens the way that we live that’s coming from the Front Range,” she says.
But Front Range water managers are eager to share in demand management. “From a Front Range perspective, this problem of reducing demand is not a Front Range [versus] West Slope issue. It’s a whole state issue. It’s an upper basin issue,” said Jim Lochhead CEO/manager of Denver Water at the Society of Environmental Journalists conference in October 2019. Denver Water, which receives about 50 percent of its supply from Colorado River sources developed after the 1922 compact and serves about a quarter of the state’s entire population, has a lot to lose if supplies are curtailed without a plan in place. Thus, the utility plans to cut water use along with other water users if a demand management program is created. “Our participation is not just funding someone else to use less water,” Lochhead says. “Our obligation is to participate equitably with other geographic regions in Colorado to create wet water that will get to Powell.”
Questions around demand management are deep and many, but for the time being, each state has separated to internally assess whether a program is feasible. In Colorado, the process is with the CWCB’s nine workgroups. The CWCB has $1.7 million for demand management at its disposal, which will be used for meeting logistics, for commissioning some consulting work to study feasibility for demand management, and for other relevant needs. This first round of funding expires in June 2020.
As every state conducts its own process, interstate issues are also being discussed through the Upper Colorado River Commission. If any one state decides that demand management is not feasible, it could serve as a veto for the entire basin.
While there is no hard deadline for the formation of a demand management program, the DCP agreements expire in 2026, and the availability of the 500,000 acre-foot conservation pool arrangement for upper basin use is only guaranteed until then.
If the states reach consensus and create a program, it will be reviewed by the lower basin, and subject to approval from the Upper Colorado River Commission and the Department of the Interior. The DCP also requires the upper basin to create a plan for verifying the amount of water conserved by demand management. The plan could then move forward only if the Upper Colorado River Commission determines that conservation is necessary in order to maintain compact compliance.
If the region has another series of wet years, the plan may never go forward. But in the face of climate change, many believe demand management is critical.
Brian Werner 38 Years With Northern Water,
A Celebration at the Source and Heart
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A special thank you goes out to everyone who helped us celebrate the career of our long-time Public Information Officer Brian Werner during his retirement reception yesterday. It was obvious at the event, as it is elsewhere, you've made an impact and touched many lives, Brian. pic.twitter.com/xq5YvWDoS7