@COindedpendent: As hundreds of thousands of people move to Colorado, a critical water supply report is years behind schedule

Lake Isabel photo credit Ray Schoch via the Colorado Independent.

From The Colorado Independent (Marianne Goodland):

Editor’s note: Marianne Goodland reports on water issues for this ongoing series: PARCHED, which looks at conservation, the role of agriculture and storage, as Colorado prepares for a looming water shortage brought on by population growth and climate change.

John Hickenlooper and his administration spent four years and millions of dollars working up Colorado’s first statewide water plan out of what he called an urgent imperative – a projection that water needs will exceed supply by 2050.

But those water supply projections, upon which the water plan was based, are now nine years out of date, raising questions about the current state of Colorado water, given the recent population boom and more evidence that climate change has become a larger problem for water supplies.

Mark Eiswerth, a water expert and economics professor at the University of Northern Colorado, points out that ”[e]ven if water providers are completely successful in implementing projects [already planned], state water experts predict that we will meet only about 80 percent of the forecasted needs in the municipal and industrial sectors by 2050.”

The Colorado Water Conservation Board [CWCB], the agency overseeing water supplies as well as the state water plan, won’t have new projections quantifying our water shortage until summer of 2018, despite its commitment in 2010 that it would update and refine the data “every few years.” In the meantime, Hickenlooper earlier this month appointed Becky Mitchell—the official who for the last five years has been responsible for compiling that data—to head the agency and carry his plan forward.

“Coloradans and our water communities are working like never before to solve our state’s challenges collaboratively,” Mitchell said at the time of her appointment. “The same kind of cooperation that led to Colorado’s Water Plan will fuel the long-running effort necessary to continue putting the plan into action.”

Mitchell’s appointment was welcomed by both lawmakers and environmentalists who work regularly with the state’s water board.
Mitchell “knows the plan inside out,” Kristen Green of Conservation Colorado, the state’s largest environmental advocacy group, told The Colorado Independent. “She’s great at being collaborative and reaching out to different stakeholders.”

State Sen. Jerry Sonnenberg of Sterling, who chairs the Senate Agriculture, Natural Resources and Energy Committee, said Mitchell would bring “the right balance of institutional knowledge and fresh ideas on how to meet the water demands of the state.”

The challenge ahead is immense. Sonnenberg, who also chairs a summer interim legislative committee on water, says the state needs to know what has changed over the last nine years. While, he says, he suspects supply and demand forecasts are still roughly in line with the last projections, the update “could force us to accelerate what we need to accomplish” to tackle the impending water shortage.

The population surge

Water planning is a complex numbers game that factors in current and projected population, climate patterns, water policies on the local, state and federal levels, and the competing needs of farmers, ranchers, city dwellers, businesses, oil and gas drillers, environmentalists, birders, anglers, rafters, kayakers and everyone else who relies on the health and vibrancy of Colorado’s rivers.
Hickenlooper – whose legacy as governor will be shaped largely by the unprecedented growth he has championed in the state – ordered the first statewide water strategy in 2013 out of a need for an informed, cohesive and clear plan forward.

The administration’s 540-page plan, released in November, 2015, is predicated on a 2010 report, known as the Statewide Water Supply Initiative, or SWSI, pronounced swa-zee. The first SWSI report came out in 2004 at a time when the state was in the process of developing its infrastructure around water planning. The most recent report, an update, was based on 2008 data about water supplies. Since then, Colorado’s population has surged from about 4.9 million to 5.6 million people in 2016. The state is growing by 100,000 people per year, and the population could reach close to 10 million people by 2050, according to both the water plan and the 2010 water supply report.

John Stulp, special policy advisor to the governor on water, said that population growth now appears to be slower than what the water plan and 2010 SWSI had predicted – more in line with a population of about 8.5 million rather than 10 million by 2050. That’s good news in terms of demand, but the state still needs to figure out how to provide water to the three million additional residents.

The 2010 report projected that the Front Range will continue to be the most populous area in the state, but that population on the Western Slope will double. With that kind of growth on both sides of the Continental Divide, the 2010 SWSI projected Colorado would be short about one million acre-feet of water by 2050 and cities and towns would have to at least double their water supplies. One acre-foot is about 326,000 gallons of water, or enough water to satisfy two families of four for a year.

In the nine years since the state compiled data for its 2010 report, Colorado also has weathered its most disastrous wildfires, a drought in 2012 and a 100-year flood later that same year. In 2015-16, the United States experienced the warmest winter ever recorded.
Turnover, burnout and bureaucracy

The water plan has been criticized as a “compendium of ideas” rather than an actionable plan forward. Some of Colorado’s top water experts see it as a political move to make Hickenlooper look like he’s on top of water issues, but without having to make tough decisions that could affect developers or could inflame longstanding water tensions between the east and west sides of the state. At the time the plan came out, Peter Nichols, a water attorney who sits on the Interbasin Compact Committee, a statewide water working group, said the plan had a lot of nice words but without a lot of action tied to them.

The CWCB is supposed to update policy-makers with new SWSI reports every few years. But that hasn’t happened since 2010. In 2016, the Colorado General Assembly authorized the CWCB to take $1 million out of its construction fund to update the SWSI report. At the time, the CWCB said the update would be done by mid-year 2017. Meaning now.

CWCB officials now say the report is more likely to surface around June 30 of next year.

The reason for the latest delay differs, depending upon whom you ask.

Minutes from a February 2016 meeting of a group of Denver-area water agencies, city and county officials, and representatives from agriculture, recreational, environmental and municipal water users, show that contractors had been selected for the SWSI update and “work will begin very soon.” “…Delivery targeted for mid-2017,” the minutes read. That was before the legislature had even approved the $1 million to update the report.

By Sept. 8 of that same year, progress appeared to have come to a halt. Minutes from the same working group’s meeting said that “[ e]verything with SWSI is on hold. There is no staff. No technical work has started.” According to the meeting’s minutes, those remarks came from the CWCB’s Craig Godbout, a program manager in the agency’s water supply planning section, which was then headed by Mitchell.
Mitchell disputes that work came to a standstill, stating that one of the biggest holdups has been navigating the state’s contracting rules. In attempting to put together an elaborate series of contracts to handle the SWSI update, Mitchell said, the CWCB ran into delays due to the state’s procurement rules, and the approval process was more complicated than the CWCB anticipated.

In addition to contractors, volunteer members of select groups, known as basin roundtables, are also responsible for much of what will happen with the next SWSI update.

These nine groups, set up by state law, include more than 300 representatives from counties, water providers, agricultural, municipal, industrial, environmental and recreational interests. Each roundtable covers a major river basin in the state – eight in all – plus a separate one for the Denver metro area.

The role of the roundtables, established in state law, is critical in every aspect of the state’s water planning. The roundtables are responsible for knowing the water situation in each of their nine areas and coming up with projects to satisfy water issues as well as the implementation plans for those projects. Those implementation plans formed the technical background for the state water plan.

Stulp told The Independent that roundtable members wanted to provide some of the technical expertise for the next update. Choosing who would participate slowed things up, he says, adding that he thinks the SWSI process is now “back on course.”

Mitchell and the CWCB’s former director, James Eklund, noted that the basin roundtables have seen turnover — and some burnout in membership. Once the SWSI was updated in 2010, Stulp says, the roundtables used that information to develop their own basin implementation plans. When the water plan was done, work on the SWSI update began, and once that’s done, the basin plans will in turn be updated, and the cycle repeats.

Mitchell says that despite the churn, the cycle works. SWSI is the technical piece that the basin roundtables rely on as they plan projects to solve a variety of water issues in their own areas. The water plan then is the status report, which asks “are we doing what we say we would do?” she said.

Greg Johnson, a program manager in the CWCB’s water supply planning section, is in charge of putting together the 2018 SWSI. “We wish we had more control over the timing,” he told The Independent last week. “But coming off the water plan, people, especially at the basin roundtable level, had put in thousands of hours of effort and it was hard to ask them to get back on that train for the SWSI” just three months after the water plan was rolled out.

Sonnenberg sees the delay in updating SWSI as a reflection of a lack of interest by the Hickenlooper administration and its appointees on the water board. His committee needs the update as it maps out priorities for the water plan for the next five years.

Part of the delay, he said, is due to turnover at the CWCB, which most recently included its former director. Eklund left in April to join the law firm of Squire Patton Boggs as a water law and infrastructure expert. Sonnenberg pinned the delay on Eklund, saying there during his tenure there was “a lack of interest in following through.”

Eklund chose not to respond to Sonnenberg’s criticisms, saying they had a good relationship while he was at the CWCB and that Sonnenberg had been very helpful on water issues. He noted that Sonnenberg had either been consulted on or a proponent of every major piece of water legislation.

What we learned from SWSI 2010

The 2010 report found that Colorado’s rivers generate about 16 million acre-feet of water every year—that’s 5.2 trillion gallons a year. On paper, that sounds like an abundance. But two-thirds of that water doesn’t stay in Colorado. If flows out of state under agreements drawn up decades ago with neighboring states that rely on our water.

The report pointed out that 80 percent of the state’s water is on the Western Slope while 80 percent of the population is on the Eastern Slope, including most of the state’s irrigated agricultural lands. Those farms and ranches use about 89 percent of the state’s consumed water, which doesn’t flow back to streams, rivers or aquifers.

The 2010 report also looked the state of the Colorado River – the biggest source of water for our state, and for the entire Southwest. The report included a review of environmental and recreational water supply and demand, municipal and industrial water supply and demand, and the water needs of ski resorts, breweries, and the state’s energy sector, based on electrical generation as well as oil and gas fracking.

The supply gap could be eased by changes in state water policy and efforts by the nine roundtable groups to address issues such as how the agriculture industry uses its water, additional storage from new or expanding existing dams and reservoirs, and conservation efforts, which have proven most successful during times of drought when Coloradans feel the squeeze.

Without its own data projecting the effect of climate change on water supplies, the water board drew data from experts such as the state’s climatologist and the Colorado Water Institute at Colorado State University in forming the state water plan. It warned, for example, about decreased water supply resulting from “dust on snow,” a phenomenon that occurs when wind pulls dust from deserts or other areas without vegetation and deposits it on mountain snowfields. That in turn increases solar radiation, “which speeds up snowmelt and leads to earlier spring runoff” by as much as three weeks, the water plan said.

Out of the 91 occurrences of dust-on-snow tracked since 2005, 10 took place in 2013 alone. If these dust-on-snow events continue at or near the same rate, the Colorado River alone would be short 750,000 acre-feet of water. That’s twice the amount of water used by Denver every year, the report warned.

What will the 2018 SWSI look like?

Stulp said the updated SWSI will be based more on technical data than the 2010 report, which looked at water supply gaps driven by the natural cycle of how water is generated and consumed in Colorado. The update will, instead, look at water supply and demand as a structural gap – based on the equation of how much new demand the state will face, minus the water projects already being planned statewide.

The updated report also will include updates on extreme weather conditions from drought to flooding and on the condition of Colorado’s rivers and streams. Improved water flows help both preserve fish and other wildlife habitats, as well as improved conditions for recreational activities, such as fishing or rafting.

“It’s amazing how fast six or seven years goes by,” Stulp said, referring to the 2010 SWSI.

The CWCB’s Johnson said the 2018 SWSI will rely on the roundtable expertise through four technical advisory groups, dealing with agriculture, municipal and industrial water uses, planning scenarios, and environmental and recreational water supply. The technical groups will act as peer review over the analysis provided by the contractors, who are now setting up the methodology, figuring out what models to use, how to quantify socio-economic factors, such as land use and population density, and then “crunching the numbers.” The technical groups will review that information in September.

One of the biggest differences for next year’s SWSI, Johnson added, will be its inclusion of an elaborate series of scenario planning. That planning will take into account population growth, social values and climate change. “Let’s imagine different futures and how the variables will change” that future, he said.

“We want to come up with something that is scientifically defensible. In the end we will get a better product.”

Johnson laid out a timeline for completion of the 2018 SWSI with the CWCB board at its monthly meeting last week in Crested Butte. The methodology development, which is being done by contractors, will continue through November, with technical evaluations to wrap up in late spring. A final report, according to Johnson, should be issued by June 30, 2018.

The ticking clock

When Hickenlooper issued the order for the water plan in 2013, lawmakers felt they had been left out of the process. In response, in 2014, they passed a bill that sternly claimed that the purpose of the water plan is to determine state policy on conservation and development of water resources, and that the General Assembly “is primarily responsible for guiding the development of state water policy.”

That work is left mostly to the legislature’s 10-member interim Water Resources Review Committee, which will begin its summer schedule in August.

During 2015, the water committee traveled around the state, gathering public input on drafts of the water plan and coming up with their own views on how the plan should look. Since then, lawmakers’ roles have been largely confined to passing bills to come up with the money to start implementing the plan, although those bills ($5 million in 2016 and $10 million in 2017) have said little about exactly how that money would be spent.

The late SWSI update isn’t a big deal to Rep. Diane Mitsch-Bush of Steamboat Springs, a Democrat who sits on the water committee. She said that she doesn’t think the delay would make a difference but acknowledged that the information would be important because lawmakers can’t just rely on assumptions about the state’s water supply and demand.

Sonnenberg said that during the water committee meetings in August he wants lawmakers to meet with the water board to discuss what’s going on with the SWSI.

“It’s important we have the updates so we can see if we’re on same trend or if we have drastic changes,” he said.”[But]growth in Colorado has been fairly predictable.”

This is Colorado, Sonnenberg said, and people love coming here. Between 2008, when the last SWSI update was issued, and 2016, 700,000 new residents settled in this state. By next summer, another 100,000 are expected.

Aspen City Council wades into water shortage scenarios

Scenario A, worst-case:

This scenario is intended to represent assumptions with a combined 1 in 100 probability of occurring.
Climate change is at the worst end of consideration, at 6 weeks peak, 50 percent combined flow and ET impacts. Weighted average demand growth rate is 1.2 percent, resulting in a 2065 treated water demand of approximately 6,320 acre-feet. And flow adjustment factors are at their expected values.

Scenario B, no-growth

Climate change is at the worst end of consideration, at 6 weeks peak, 50 percent combined flow and ET impacts. Demand growth rate is zero; current treated water demand of approximately 3,500 acre-feet continues through 2065. And flow adjustment factors are at their expected values.

Scenario C, intervention

Climate change is at the worst end of consideration, at 6 weeks peak, 50 percent combined flow and ET impacts. Demand growth rate is zero, no outdoor usage during shortages; effective treated water demand during shortages is 2,280 acre-feet. And flow adjustment factors are at their expected values.


ASPEN – Whether Aspen needs to build a reservoir to meet water demands in 2065 may depend in part on whether it wants to keep irrigating its municipal golf course during an apocalyptic drought.

According to a water attorney and an economist working for the city on a risk analysis of future water shortages, Aspen may find itself unable to meet domestic water demands — including both indoor and outdoor water use — anywhere from two out of 25 years in an optimistic scenario to 19 out of 25 years in a worst-case scenario.

The most optimistic scenario can be achieved, in theory, if the city limits outdoor watering by its customers and also stops diverting water from Castle Creek to irrigate the 148-acre municipal golf course and other nearby open space.

Outdoor water use accounts for about 60 percent of current demand for city water.

The members of the Aspen City Council took a sip of such concepts Monday at a work session on the results of a water demand study.

Aspen Mayor Steve Skadron said he expects the council to now spend “several months” grappling with the city’s future water needs as part of an exercise to identify alternatives to maintaining conditional water rights for two large reservoirs on upper Castle and Maroon creeks.

Aspen trees near the site of the proposed Maroon Creek Reservoir. The City Council has acknowledged the pristine nature of the Maroon Creek location and is openly looking for water storage alternatives, including at the city golf course and Cozy Point Ranch.

Climate wildcard

Monday night, George Oamek, an economist with Headwaters Corp., presented three scenarios from a risk analysis he’s been developing for the city.

He told the council that his model is packed with uncertainties, mainly around the severity of climate change, but also around the amount of flow in Castle and Maroon creeks and the future demand from Aspen’s water customers.

“We’ve got just a tremendous amount of variability in the existing information that gets translated into our analysis,” Oamek said.

“There is so much uncertainty,” concurred council member Ann Mullins.

“Climate change is everything,” Oamek said. “And it’s the thing we know the least about.”

Oamek also said his model includes a 1-in-100 chance that the factors will line up to cause havoc, which he said is a common risk assumption for municipal water providers and in floodplain mapping with its concept of a “100-year-flood.”

“Frankly, water planners are risk adverse,” he said.

In Oamek’s “worst-case” scenario, runoff would come six weeks earlier in the spring and there would be half as much water flowing in Castle and Maroon creeks, the city’s primary sources of water.

The city of Aspen’s diversion structure on Castle Creek.

Water rights portfolio

The city owns two large senior diversion rights on Castle Creek tied to the historic Castle Creek-Midland Flume. The city has an 1892 decree allowing it to divert 60 cfs. On top of that, it has another right from 1892 for 100 cfs, giving it the ability to divert 160 cfs from Castle Creek.

The city’s streamwide diversion dam is just downstream of Midnight Mine Road and the water is sent via a pipeline to the city’s water treatment plant on a knoll above Aspen Valley Hospital.

Water from Maroon Creek is also sent via pipeline to the treatment plant and the associated 10 acre-foot Leonard M. Thomas Reservoir, which serves as a forebay to the treatment plant, holding water from both Castle and Maroon creeks.

The city owns a 3.4 cfs diversion right on Maroon Creek with an 1893 decree date and another 65 cfs diversion right with a 1949 decree date that, notably, includes an 1892 appropriation date. The city’s streamwide diversion dam on Maroon Creek is located at the T-Lazy-7 Ranch.

The water rights from Castle and Maroon creeks give the city a portfolio of “paper” rights adding up to 228.4 cfs, which is a much larger amount than the city runs through its water treatment plant, even in dry, high-demand, years.

According to a water availability study from Wilson Water adopted by the city in June 2016 as a planning document, the city in the last big drought year of 2012 brought between 2.38 and 9.4 cfs of water into its water treatment plan from Thomas Reservoir. The peak intake of 9.4 cfs was in June.

The city’s pipeline from the Castle Creek diversion limits the amount of water that can be sent from Castle Creek to the treatment plant to 25 cfs and the pipeline from Maroon Creek can move up to 27 cfs.

The city’s diversion rights are separate from its two conditional water storage rights higher on Castle and Maroon creeks.

Those rights, as currently decreed with a 1971 date, are for storing 4,567 acre-feet of water just below the confluence of East and West Maroon creeks in the Maroon Creek Reservoir, and for storing 9,062 acre-feet of water in the Castle Creek Reservoir two miles below Ashcroft.

The combined storage capacity of the potential reservoirs, as currently decreed, is 13,629 acre-feet. The reservoirs, notably, would be located above the city’s two downstream diversion dams.

And both the city’s diversion rights and its conditional storage rights are separate from rights it owns in three irrigation ditches on Castle Creek, downstream from its diversion dam. The headgates for the three ditches on Castle Creek are near the Marolt housing complex.

The city calculates the instream flow at a location below the headgate of the Marolt Ditch, as it is the lowest of the three ditches.

The city of Aspen's Leonard M. Thomas Reservoir, next to the city's water treatment plan, can hold water from both Castle and Maroon creeks.
The city of Aspen’s Leonard M. Thomas Reservoir, next to the city’s water treatment plant, can hold water from both Castle and Maroon creeks.

Supply down, demand up

In his presentation to the City Council, Oamek said his worst-case scenario assumes that demand for treated water would be 6,320 acre-feet of water a year, up from about 3,500 acre-feet today.

The assumption includes a negligible 0.4 percent growth rate in the permanent population in Aspen’s water service area, and a 2 percent growth rate for the part-time population and commercial sector.

That assumption does seem to run counter to Aspen’s past ability, and plans, to lower water demands while the population rises, which may be why the three scenarios also include a no-growth-in-demand scenario, where demand is held flat at current levels, regardless of potential population growth.

For example, a 2014 water efficiency plan from Element Consulting and WaterDM projects the city will, by 2035, “reduce treated demand by about 583 AF — an overall 14 percent reduction in demand.”

And the city has been making solid progress on reducing water demand. In 2012, city staffers told the council the city had reduced water consumption by “over two-thirds over the last 19 years.”

But the water efficiency plan does raise a cautionary note about the city’s lack of storage.

“On an annual basis, the dry year yield of the City’s water rights appears to be more than sufficient to meet current and forecast future demands,” the plan says. “However, the city does not have storage to regulate the timing of supply to match demands, and therefore is vulnerable to peak demand shortfalls in dry years when physical streamflow conditions are limited, or in emergencies such as a fire or landslide when one or more particular water supply sources may become unavailable.”

A graphic in Aspen's draft water efficiency plan shows that the city has generally been using less water over time.
A graphic in Aspen’s draft water efficiency plan shows that the city has generally been using less water over time.

Setting aside the downward demand trend, the most draconian scenario developed by Oamek assumes a near doubling of demand in a much hotter and drier world.

And it shows the city might not be able to meet all municipal water demands — including both indoor and outdoor use — in 19 of 25 years.

“There are frequent shortages for Aspen’s potable supply during that period,” Oamek said.

In 15 of those years, water shortages could be greater than 100 acre-feet of water.

In four of those years, water shortages could be greater than 1,000 acre-feet.

And in one of those years — think the drought year of 1977 — shortages could be greater than 2,000 acre-feet.

“Over 1,000 acre-feet … that would definitely cause some hardship,” Oamek said. “A lot of these shortages, they are not occurring during the irrigation season, or during the summer where you might be able to reduce outdoor use, or work some deals with the irrigators.

“The shortages are occurring kind of in the shoulder season, occurring in late summer, early fall, and also during the winter. And those shortages may be a little harder to mitigate through the utilization of outdoor sources.”

The well-watered Aspen golf course, which sits between Castle and Maroon creeks.

No outdoor watering

The picture gets brighter in Oamek’s “intervention scenario,” the least demanding of the three scenarios.

Runoff would still come six weeks earlier, and there would still be half as much water flowing down Castle and Maroon creeks.

But demand for city water is projected at 2,280 acre-feet a year, as the scenario assumes the city will curtail the use of treated waters for outdoor purposes during a drought.

“During times of shortages, we set outdoor usages to zero,” Oamek told the council, explaining that would drop annual demand in the model to about 2,200 acre-feet, down from 3,500 acre-feet.

In that scenario, there might be 14 years out of 25 when there are water shortages, but only in five of those years would the shortages be over 100 acre-feet, and none would produce shortages over 1,000 acre-feet.

One of the city’s irrigation ditches that carries water from Castle Creek toward the city’s golf course.

No ditch water

Cindy Covell, the city’s water attorney with Alperstein and Covell, then told the council she asked Oamek — the day of the council work session — to run another scenario where the city also stopped diverting water it controls into three irrigation ditches on lower Castle Creek, downstream of the city’s diversion dam to its treatment plant.

“I was thinking, if you were going to run a scenario that involved no outdoor irrigation – you’re telling your customers they can’t water their lawns – you probably are going to have a hard time taking irrigation water down those ditches and irrigating your golf courses and your parks,” Covell said.

Oamek ran a calculation — not a full model run — and said curtailing irrigation drove the number of years with indoor water shortages down to just two years out of 25, and in only one of those years was the shortage greater than 100 acre-feet.

In 2012, the city diverted up to a total of 20.5 cfs into the three Castle Creek irrigation ditches, with the highest diversion rate in June, according to the Wilson Water study.

The city has diversion rights in the Holden Ditch of 25.9 cfs with a 1952 decree, in the Marolt Ditch of 13.6 cfs with a 1934 decree, and in the Si Johnson Ditch of 2.55 cfs with a 1936 decree, according to an agreement with the Colorado Water Conservation Board. That adds up to a “paper” portfolio of 42.05 cfs worth of irrigation rights.

“To some extent you already have a bucket of water, which is the downstream irrigation ditches,” said water attorney Paul Noto, who represents three clients opposing the city’s conditional storage rights in water court, and was asked to comment at the work session by the mayor.

“Tonight we talked about what’s the worst-case scenario, [and] might I suggest that we look at priority irrigation under those ditches,” Noto said. “So perhaps we say, at the golf course we want to keep our fairways and greens green, but maybe we don’t irrigate the rough if the streamflows are below x.”

Noto also pointed out to the council that almost all of their municipal water comes from Castle Creek, and that the water in Maroon Creek is now primarily diverted to power the city’s small hydropower plant on the banks of Maroon Creek.

Maroon Creek, below the diversion, at about 12 cfs during a minimum stream flow demonstration in 2011.

Maintaining instream flows

Maintaining instream flows is a challenge in each of the scenarios presented, as there are dry years when it’s hard for the city to reach its goal of leaving enough water in Castle and Maroon creeks to maintain the environmental flows while also meeting all municipal water demands.

“Worst-case, maximum growth, there is a lot of damage to the instream flows,” Oamek said, noting the annual instream-flow shortages were over 10,000 acre-feet in the worst year in the model.

The city has a policy of maintaining minimum, or instream, environmental flows in Castle and Maroon Creeks.

The Colorado Water Conservation Board holds an instream flow right in Castle Creek for 12 cfs and a right in Maroon Creek for 14 cfs. The state defines that level of flow as the amount of water needed to protect the environment “to a reasonable degree.”

Both of the CWCB’s instream flow rights are junior to the city’s senior diversion rights on Maroon and Castle creeks.

The city, based on the recommendation of a consulting biologist, recently increased its minimum flow target on Castle Creek to 13.3 cfs. As such, the combined minimum instream flow level in Castle and Maroon creeks that the city seeks to maintain is 27.3 cfs.

The city’s policy of voluntarily honoring the state’s junior instream flow rights is centered on a 1997 agreement with the CWCB to protect 12 cfs of flow on Castle Creek. The agreement does not technically extend to Maroon Creek, although the city’s stated policy does.

However, the agreement with the state also includes a provision that allows the city to exempt itself from the policy during periods of “extraordinary drought,” which are not defined.

The provision gives the city latitude to meet its municipal demands and “invade,” as Oamek put it, the junior minimum instream flow rights held by the state, as necessary.

This map from 1984 is one of the few ever published that puts the Maroon and Castle creek reservoirs into the context of the city’s overall water system.

Need a bucket

Staff in the city’s Water Department continue to point out to the City Council that Aspen likely needs some amount of water storage in the future.

“In our integrated water supply system, there are alternatives to storage than can help mitigate our shortages, things like re-use, conservation, ag transfers … but even though these combined can minimize the shortages, storage is still needed because of timing issues,” Margaret Medellin, a utilities portfolio manager for the city told the council Monday night. “To really make these other mechanisms work, we still need a bucket to be able to augment and … re-time the water.”

That message has gotten the attention of Mayor Skadron.

“As we proceed, my goal would be to ensure a sufficient water supply for future generations and to ensure that their options are open,” he said.

He also asked during the meeting, “Does a scenario exist in municipal water planning where storage is not needed beyond just what nature provides?”

“Historically, that’s how Aspen has operated,” Medellin replied. “Aspen has very little storage and has historically operated as a direct-flow water provider. And in areas maybe that are wetter, back East, it is not as problematic.

“And I think the concern is as we are starting to see runoff happening earlier, the demand being extended and happening later into the system … [and] what has worked historically for Aspen, we aren’t convinced is going to work for the next 50 years.

“Even though that it is something that other communities can do, and something that Aspen has done, as we are looking into our models going forward, we’re not convinced that it’s something that is sustainable here,” Medellin said.

However, a 2016 water supply report done by Wilson Water and adopted by the City Council in June of 2016 as a planning document, painted a different picture and found that no storage was necessary – even after factoring in available climate change projections.

The Wilson Water study found that “the results of this analysis indicate the city can always provide sufficient potable and raw water supplies under these modeled demand and hydrology scenarios.

“Existing water supply infrastructure and water rights portfolio developed and managed by the City do not appear to be limiting factors in this evaluation.

“However, during drought periods, physical water supplies may limit the city from satisfying desired ISF (instream flow) bypasses. These modeled ISF deficits are forecasted to occur during drought periods in only the climate scenarios with very low late summer and winter streamflow conditions.

“Most ISF deficits occur at a frequency of 5% of the time or 1 out of 20 years. The predicted average daily ISF deficits are relatively small and can be managed utilizing the existing water supply tools the city has in place and/or is actively developing,” the Wilson Water study said.

And recently completed water-efficiency plans for Basalt, Carbondale, and Glenwood Springs found that those three nearby cities have adequate water supplies for the future without significant storage “buckets.”

A portion of the gravel pit in Woody Creek operated by Elam Construction. It’s hard to capture the scale of the gravel pit, but the little yellow speck in the back edge of the pit is a large dump truck.

Shortage into storage

Medellin also told the council one of the next steps is to convert the shortage numbers from the Headwaters risk analysis to potential storage numbers.

“It’s not a one-to-one conversion,” Medellin said, noting that the storage figure is always larger than the shortage number.

She said a “reservoir operations model” will be used to “apply a reservoir efficiency factor to account for losses and reservoir integrity.”

“What that means is all of the water that we put into a reservoir, we’re not going to get that back out,” she said. “So there is a factor that is commonly added to account for that. Then the next step is going to be to determine what volume of conditional storage rights we need to satisfy that requirement.”

Covell, the city’s water attorney, further explained the process.

“You look at your streamflows, and you say, how often can I fill up this reservoir?” she said. “And on the eastern slope, you might not be able to fill it up more than once every five years. So you say, if I need to be sure I’ve got to have 100 acre-feet of water in storage, I might have to fill up 600 acre-feet, because when I need that 100 acre-feet some of the water will have evaporated and I won’t be able to top it off again because my water right won’t be available.

“And that’s a, maybe, overly simplistic example, but when you’re trying to figure how much storage capacity you need, you have to figure out when you are going to be able to put water in, how much of it’s going to evaporate, and when you’re going to need to take it back out,” Covell said.

Medellin added that the engineering firm Deere and Ault of Longmont is now making calculations for both in-situ and surface water reservoirs, and the storage needs will be based on the representative period of years in the model being used by Headwaters.

The property next to the Elam gravel pit and the Woody Creek raceway that the city of Aspen has put under contract. The city is investigating the site as a place for potential water storage, either underground or above ground.

Settlement talks

It’s not clear yet how the scenarios presented Monday may change the city’s negotiating position with the 10 parties opposing its ongoing efforts in water court to maintain conditional water storage rights for reservoirs on Castle and Maroon creeks.

Last week, the city announced it now intends to transfer its water rights from Castle and Maroon creeks to two potential reservoir sites in Woody Creek, including on land it now has under contract near the Elam gravel pit, and the gravel pit itself.

“The impetus for the purchase is to seek a way to transfer decreed storage rights to locations other than the decreed locations on Castle Creek and Maroon Creek,” the city said in a July 19 press release titled “Aspen City Council to Purchase Land for Possible Alternate Site for Water Storage.”

“Since 1965, the city has held decreed water storage rights at sites in Maroon and Castle Creek Valleys but the nature of these pristine locations has made it a priority for the city to first seek other ways to address potential water shortages and to seek alternate locations for water storage,” the city stated.

And Skadron was quoted in the release as saying “securing Aspen’s water future is an essential task of today’s city council. It is council’s responsibility to look out for the welfare, safety, and health of the community and we take that very seriously. In addition, our commitment to protecting our environment is also a priority and this land purchase is a way to both protect the community and preserve Castle and Maroon valley wild lands.”

The city also said in the press release about the Woody Creek options that “other alternatives for water storage are still being explored, including in-situ reservoirs at the Aspen Golf Course, Cozy Point Ranch, the portion of the city-owned Maroon Creek golf course, and other upper valley locations.”

A second settlement conference with the opposing parties in the two water court cases is set for Aug. 2 and a status conference with the water court referee is Aug. 8.

Editor’s note: Aspen Journalism is collaborating with The Aspen Times on coverage of rivers and water. The Times published a version of this story on July 25, 2017.

More precipitation due to climate change = greater runoff and worsening water quality

Satellite imagery of a toxic algal bloom on Lake Erie in 2011. The image is gorgeous, but microcystis aeruginosa, the green algae pictured here, is toxic to mammals.
NASA Earth Observatory via Popular Science.

From Popular Science (Kendra Pierre-Louis):

When we think about how climate change will impact water, we “tend to think about droughts or flooding or extreme rainfall,” says Anna Michalak. “But the linkages between climate and water quality are potentially just as strong as climate and water quantity.”

Michalak, who heads up a lab in Department of Global Ecology at the Carnegie Institution for Science on the campus of Stanford University, published a study today in Science suggesting that because climate change will lead to more rain in some places, water quality around the world will decline.

To explain how rain can kill water quality, let’s start with a refresher on the Gulf of Mexico: an aquatic dead zone has developed there every summer for the past 32 years. In 2016, the dead zone spanned 6,000 square miles (roughly the size of the state of Connecticut). This year the National Oceanic Atmospheric Administration (NOAA) predicts it will reach the size of New Jersey, or around 8,700 square miles. The source of the Gulf’s woes is the Midwestern Corn Belt, where nitrogen from fertilizers runs off of the farms into streams and rivulets, causing what’s known as eutrophication. Eutrophication, in short, happens when there are too many nutrients in the water.

From the corn belt, the nutrients make their way to the Mississippi River and down to the Gulf. The combination of nitrogen and warm summer temperatures feeds the region’s algae, who for one brief moment become rock stars. They bloom brilliantly—then die all at once. When they die, bacteria feast upon their remains, sucking oxygen from the water in the process. Fish might not breathe air, but they do need oxygen to survive. So the speediest species leave in search of better aerated waters. Slower critters, like the Gulf Coast’s famed oyster, simply die. Their decaying remains feed the dead zone and help it grow, perpetuating the region’s loss of life. The process only slows when fall’s cooler temperatures help close that terrible feedback loop.

Along with lead study author Eve Sinha, a research student in Michalak’s lab, Michalak found is that increased rains caused by climate change will make this whole process worse. Why? Because more rain means more nutrients—the feedstock of this whole process—get washed into waterways. In the United States, this pattern will be especially strong in the corn belt and in the Northeast. Globally, this is likely to worsen eutrophication in India, China, and Southeast Asia.

#Drought news: D0 (Abnormally Dry) expanded over Front Range

Click here to go to the US Drought Monitor website. Here’s an excerpt:


An upper-level ridge of high pressure maintained its grip across the contiguous U.S. (CONUS) during this U.S. Drought Monitor (USDM) week. The ridge kept temperatures warmer than normal from coast to coast, with the highest temperature departures from the High Plains to Mid-Atlantic States. Weather systems moving in the jet stream flow rode over the top of the ridge, taking their surface lows and Pacific fronts along a northerly track into a trough over the eastern CONUS where they stalled out across the Midwest. Showers and thunderstorms developed as the fronts moved across the northern Plains and into the Midwest, but rainfall amounts were mostly below normal. Above-normal precipitation fell in places along the North Dakota/South Dakota border, from northeast South Dakota to northern Illinois, from the Ohio Valley to Mid-Atlantic States, and across parts of Nebraska and Kansas. Above-normal precipitation fell across parts of the southern Plains to Southeast as afternoon heating triggered convective storms, and a front near the end of the week sagged south. The Southwest Monsoon continued this week, bringing above-normal precipitation to much of the 4-Corners States and contracting drought and abnormal dryness. But drier-than-normal weather dominated the rest of the West, most of the Plains, much of the Midwest and South, and parts of the Mid-Atlantic and New England. Soils continued to dry out and crops suffered as drought and abnormal dryness continued to expand or intensify across the Plains, Midwest, northern Rockies, and Virginia…

High Plains

Half an inch or more of rain fell across parts of the Dakotas this week, but the rain did little to improve drought conditions, only holding off drought expansion or intensification. D0-D3 were pulled back in parts of South Dakota where rainfall amounts totaled 2 inches or more, D0 was pulled back in southeast North Dakota and southwest Minnesota, and D0-D1 were pulled back in parts of north central and south central Nebraska and north central Kansas.

But expansion occurred in other parts of the region. Much of Montana and parts of the Dakotas, Nebraska, and Kansas had no rain this week; some areas have been drier than normal for the last 2 to 3 months; and some drought indicators reflect dryness for the last 12 months. D3-D4 were expanded in northeast Montana, and D3 expanded in northwest South Dakota and was added in southeast South Dakota, where the Standardized Precipitation Index (SPI) was consistently at those dry levels for the last 1 to 9 months. D1-D4 expanded in northwest North Dakota where the SPI was consistently at those dry levels for the last 1-6 months. D0-D2 expanded across much of Nebraska, with collateral expansion of D1-D2 in adjacent South Dakota, D1 in adjacent Iowa, and D0-D1 in southeast Wyoming, and D0 expanded in parts of eastern Kansas and northeast Colorado, due to 30-90 day precipitation deficits and high evapotranspiration caused by excessive heat. Governors provided much-needed response to the dire drought impacts. Montana Gov. Steve Bullock issued an executive order declaring a drought disaster in 28 counties and five Indian reservations in the eastern part of the state. Nebraska Gov. Pete Ricketts issued an emergency proclamation, allowing the state Emergency Management Agency to address unmet drought needs, particularly those related to wildfires. According to July 23rd USDA reports, 92% of the topsoil moisture and 88% of the subsoil moisture were rated short or very short in Montana, 82%/81% of the topsoil/subsoil moisture was short or very short in South Dakota, 71%/66% in Nebraska, 67%/62% in North Dakota, 61%/58% in Wyoming, and 45%/41% in Colorado. More than half of the pasture and rangeland were rated in poor to very poor condition in North Dakota (75%), South Dakota (73%), and Montana (56%). In South Dakota, 37% of the corn crop, 34% of soybeans, 57% of sorghum, and 76% of the spring wheat were in poor to very poor condition. In North Dakota, 23% of the corn crop and 39% of the spring wheat were in poor to very poor condition. In Montana, 55% of the spring wheat was in poor to very poor condition. According to media reports, as of July 25th, the Lodgepole Complex wildfire in Montana was the largest wildfire in the CONUS…


In the Southwest, several inches of rain fell with monsoon showers and thunderstorms in much of Arizona and parts of New Mexico, with 1-2 inches common across parts of western Colorado. With SPI indicators in Arizona wet at several time scales from 1 to 6 months and longer, D1 in Yavapai County was deleted and D0 or D1 were pulled back in parts of the west and south. D0 or D1 were trimmed in parts of western New Mexico and southern Nevada. But other areas were not as fortunate, with below-normal precipitation common this week across parts of New Mexico, northern Nevada, and northern Utah, where D0 was expanded. USDA statistics indicate topsoil/subsoil moisture was short or very short in 62%/60% of New Mexico, 52%/42% of Utah, 35%/25% of Nevada, and 75%/75% of California, and 41% of the pasture and rangeland was in poor to very poor condition in New Mexico. No change to the depiction was made in California.

No rain fell this week across most of the Northwest and northern Rockies, with only a tenth of an inch or two tenths recorded at coastal stations in Oregon and Washington, and at a few stations in the Rockies. The continued dryness further eroded soil moisture, with USDA reports indicating topsoil/subsoil moisture short or very short across 71%/44% of Washington, 62%/51% of Oregon, and 52%/47% of Idaho. A fifth of the pasture and rangeland was rated in poor to very poor condition in Washington (22%) and Oregon (20%). D0 was added to the interior coastal area of Washington where streamflow and modeled soil moisture were below normal, and D0 expanded across western Montana and parts of north central Idaho, and D1 added to the mountains of northwestern Montana, where 2-3 month dryness was acute and growing worse. Numerous large wildfires have broken out in this area…

Looking Ahead

In the 2 days since the Tuesday morning cutoff time of this week’s USDM, heavy rains moved across parts of the northern and central Plains and Midwest, and monsoon showers and thunderstorms brought additional rain to parts of the Southwest. For July 27-31, 1-2 inches of rain is forecast for parts of the Midwest to Mid-Atlantic region, coastal Southeast, and Southwest to southern High Plains. Rainfall amounts may be locally as high as 3 inches from the Midwest to Mid-Atlantic, as high as 5 inches in the coastal Southeast, and as high as 6 inches in the central Rockies to southern High Plains. Less than an inch is predicted for much of the Plains, Northeast, Great Lakes, and Lower Mississippi Valley, while no rain is expected for most of the Far West and parts of the northern and southern Plains. Temperatures are predicted to be warmer than normal in the West and cooler than normal in the East. For August 1-9, odds favor drier-than-normal weather in the Northwest, northern Plains, and Upper Mississippi Valley, and wetter-than-normal weather across the Southwest, southern Plains, and Southeast, as well as parts of Alaska. The Northeast likely will start out drier than normal but end up wetter than normal. Odds favor warmer-than-normal temperatures for Alaska, the West, northern Plains, and parts of the East Coast, and cooler-than-normal temperatures for the southern Plains to Ohio Valley.

So what do the prognosticators think is in store for Colorado for the next 3 months? Hot with above average precipitation in W. Colorado and equal chances for average precipitation E. of the Great Divide.

Three month temperature outlook through October 31, 2017 via the Climate Prediction Center.
Three month precipitation outlook through October 31, 2017 via the Climate Prediction Center.

How Lakewood keeps it green when the heat is on – News on TAP

Local park district reduces water use by 28 million gallons annually after irrigation technology upgrades.

Source: How Lakewood keeps it green when the heat is on – News on TAP

How Austin, Texas got Water Wise Using Data

Your Water Colorado Blog

headerlogo At the most recent Colorado WaterWise Lunch n’ Learn, Robb Barnitt talked about the success of Austin Water’s pilot program with Dropcountr.

Ever forgotten to lock the front door or close the garage when leaving the house? Luckily there are home security apps that will fix that for you, but what if a faucet is leaking in your home or the hose outside is still on? There’s an app for that, it’s called Dropcountr.

Colorado WaterWise, an organization that serves as a leader in efficient water use in Colorado, featured Dropcountr during their most recent Lunch n’ Learn on July 13 with a presentation from Robb Barnitt explaining how the app saved 41 million gallons of water in Austin, Texas. The Dropcountr app gives homeowners and water utilities access to real-time water-use data in an organized format.

Austin Water tested Dropcountr with their users and saved 41 million gallons…

View original post 449 more words

Volunteers Wanted to Restore Watershed in South Park, August 2, 2017

Upper South Platte Basin

From the Public News Service:

Volunteers and U.S. Forest Service staff are headed back into South Park’s Farnum Roadless area to restore critical watershed, native plants and wildlife habitat.

Misi Ballard, Wild Connections board member and broadband leader for the group “Great Old Broads for Wilderness,” led an effort earlier this month, checking on a project south of Tarryall Reservoir, and will be helping close off national forest lands damaged by illegal motorized recreation on Aug. 2, a week from today.

“The Pike-San Isabel is basically Denver’s backyard,” she said. “Within an hour of the metropolitan area, you can be in a wilderness – and as such, it gets pounded, every weekend.”

More than 2,000 square miles in the Pike and San Isabel national forests have been set aside exclusively for motorized off-road recreation, and Ballard said people often aren’t aware they’ve entered protected areas. Volunteers will be posting signs and fencing, and reseeding to help the land heal.

Ballard noted that unauthorized “bogging” – where jeeps and other all-terrain vehicles ride around in muddy areas – not only puts fish populations at risk but also pollutes drinking water. The Upper South Platte River watershed and South Park’s North Fork Valley supply water to 60 percent of communities along the Front Range.

“Our water is only as good as our headwaters,” she said. “There is no redundancy in Denver Water’s system. Things happen in the upper reaches of the South Platte watershed, and it impacts Denver’s water.”

Once people understand why closures are important, she said, they tend to follow the rules.

“There’s been a lot of positive comments on the closures,” she said, “especially from hunters, saying that they have had bad hunts for many years because of the presence of motorized recreation.”

Ballard said helping restore wilderness areas is fun and a way for her to give back for the many years she’s enjoyed Colorado’s outdoors.

Those who’d like to join her and other Great Old Broads for Wilderness in their efforts can call 817-939-4239.