Colorado lawmakers approved seven major new water bills this year, including one that approves millions in more funding for the Colorado Water Plan, another that makes restoring streams easier, and a third that creates a high-profile Colorado River task force.
The 2023 General Assembly, which adjourned May 8, also approved four others that address water wise landscaping, water use in oil fields, โdonโt flushโ labels for the disposable wipes that plague water systems, and one giving more muscle to an interim legislative committee whose job is to evaluate water problems and propose laws to fix them.
Two of the bills, the labeling requirement, as well as the legislative committee changes, have been signed into law by Gov. Jared Polis. The five remaining bills await his signature.
Funding Water Projects
Each year the Colorado General Assembly considers the Colorado Water Conservation Board (CWCB) โprojects bill,โ which this yearโSenate Bill 177โappropriates $95 million from three sources: CWCBโs construction fund, severance taxes on oil and gas production, and sports betting revenue. No general fund tax dollars are used. An important part of the funding goes to support grants for projects that help implement theย state water plan.
A major difference in this yearโs bill is the amount of money coming from sports betting. Last yearโs bill appropriated $8.2 million from that source, the first time since the passage of Proposition DD in 2019, which legalized sports betting and authorized the state to collect up to $29 million in taxes on gambling proceeds, with over 90% of that going for water. SB 177 triples that amount, appropriating $25.2 million to fund projects that help implement the state water plan. Sen. Dylan Roberts, D-Avon, a bill sponsor, noted that sports betting revenue provides critical funding โthat never existed before for water.โ As he pointed out, โthat number keeps growing every year which is positive for our water future.โ
Construction of Beaver Dam analogue Photo courtesy of the Rio Grande Headwaters Restoration Project.
Stream Restoration
Senate Bill 270ย allows minor stream restoration activities to proceed without having to secure a water right. Its intent is to promote the benefits natural stream systems provideโclean water, forest and watershed health, riparian and aquatic habitat protectionโby mitigating damages caused by mining, erosion, flooding and wildfires. Minor stream restoration activities include stabilizing stream banks and beds, installing porous structures that slow down water flow and temporarily increase surface water area, and rechanneling streams to recover from wildfire and flood impacts.
At the billโs initial hearing in the Senate Agriculture & Natural Resources Committee, Sen. Roberts, committee chair and a bill cosponsor, emphasized that stream restoration activities โhelp promote recovery from natural disasters like fires and floods.โ He also noted the bill could โhelp access federal dollars that are available in sort of a once-in-a-lifetime opportunity right now that could be used for these very valuable projects.โ
Another bill cosponsor, Sen. Cleave Simpson, R-Alamosa, a water right holder and water conservation district manager, recognized โthe value and importance of healthy rivers and streams and what it means to all water users.โ
As introduced, SB 270 would have created a โrebuttable presumptionโ that a stream restoration project does not cause material injury to a vested water right. It was amended in committee after testimony by several witnesses who expressed concern over the billโs potential impacts on water rightsโloss of water due to evaporation and infiltration into soils, and delayed timing of delivery downstream. They all expressed support for the concept of stream restoration and with the amendments adopted, pledged to work together in the future to strike a balance between stream restoration benefits and protecting water rights.
Updated Colorado River 4-Panel plot thru Water Year 2022 showing reservoirs, flows, temperatures and precipitation. All trends are in the wrong direction. Since original 2017 plot, conditions have deteriorated significantly. Brad Udall via Twitter: https://twitter.com/bradudall/status/1593316262041436160
Colorado River Drought Task Force
Faced with two decades of drought in the Colorado River Basin, Senate Bill 295 creates a task force to make legislative recommendations that will help water users most directly affected by drought and aid the state in meeting its commitments under the Colorado River Compact. The task forceโs focus is on reducing water demand and on ensuring that any effort to achieve that goal by fallowing irrigated farmland must be done on a voluntary, temporary and compensated basis.
The task force is made up of 17 voting members representing agricultural, municipal, industrial, conservation, environmental and tribal stakeholders from across the state, with the state engineer serving in an advisory capacity. It includes a sub-task force to study and make recommendations on tribal matters comprised of five members, including representatives from the Southern Ute Indian Tribe and the Ute Mountain Ute Tribe. The task force and sub-task force must report any recommendations, which are to be made by majority vote, to the General Assemblyโs Water Resources and Agriculture Review Committee by Dec. 15, 2023.
Testimony in the Senate Agriculture & Natural Resources Committee raised concern with the billโs timing. Several Front Range municipal water providers said the stateโs primary focus should be on supporting federal efforts to force lower basin statesโprimarily California and Arizonaโto reduce their river use since they have consistently exceeded their compact allocations while the Upper Basin states have never fully utilized theirs. Sen. Roberts, the billโs sponsor, acknowledged that but emphasized โThere is drought happening in Colorado right now โฆ The purpose of the task force isnโt just to consider interstate obligations, itโs also to make recommendations surrounding drought mitigation and drought security.โ
Others worried that the bill might split the stateโs West Slope and East Slope water users, but lawmakers pledged the task force would seek cooperative solutions. โThis bill is going to codify a collaborative path forward on some difficult issues facing the Western Slope and the entire state,โ said Rep. Marc Catlin, R-Montrose.
This home is part of the City of Auroraโs water-wise landscape rebate program. Aurora City Council last month passed an ordinance that prohibits turf for aesthetic purposes in all new development and redevelopment, and front yards. Photo credit: The City of Aurora
Water-Wise Landscaping
Senate Bill 178ย is designed to reduce barriers to residents in homeowner association (HOA)-governed communities (roughly half the stateโs population) who want to plant landscapes that use less water than bluegrass lawns. To encourage HOAs and owners of single-family detached homes to work together in planting landscapes that conserve water, improve biodiversity, and expand the amount of food grown in private gardens, SB 178 requires HOAs to adopt three pre-planned water-wise landscape designs that homeowners can install if they want to replace non-native turf. It doesnโt preclude other designs with HOA approval. Although the bill removes some aesthetic discretion, HOAs retain the authority to reject designs for safety, fire or drainage concerns.
Water Conservation in Oil and Gas Operations
House Bill 1242 seeks to reduce freshwater use in oil and gas operations and increase recycling and reuse of produced water, which is water in or injected into the ground and coproduced with oil or natural gas extraction. It is often disposed off-site but can be recycled and reused if properly treated.
The bill requires oil and gas well operators to report periodically to the Colorado Oil and Gas Conservation Commission on the volume of freshwater and recycled or reused produced water used, produced water removed for disposal, and produced water recycled or reused in another well and removed for recycling or reuse at a different location. The commission will use this data in adopting rules by July 1, 2024 to require a statewide reduction in freshwater use and a corresponding increase in recycled or reused produced water in oil and gas operations.
The bill also creates the Colorado Produced Water Consortium in the Department of Natural Resources to make recommendations to the General Assembly and state agencies by Nov. 1, 2024 on legislation or rules necessary to remove barriers to recycling and reuse of produced water. The consortium consists of 28 members that will work with state and federal agencies, research institutions, colleges and universities, non-government organizations, local governments, industries, environmental justice organizations and members of disproportionately impacted communities in conducting its work and making recommendations.
Disposable Wipes and Water Quality
Aimed at reducing sewer backups and water pollution in Colorado, Senate Bill 150 requires a manufacturer of disposable wipes sold or offered for sale in the state, and a wholesaler, supplier or retailor responsible for labeling or packaging those products to label them โDo Not Flush.โ Disposable wipes include baby, cleaning and hand sanitizing wipes made of materials that do not break down like toilet paper when flushed. They end up clogging pipes and releasing plastics into waterways, costing water utilities a lot of money to fix.
Water Resources and Agriculture Review Committee
Senate Bill 10 turns the interim Water Resources and Agriculture Review Committee into a year-round committee. The committee will meet at the call of the chair, conduct hearings and vet issues as they come up instead of having to wait until after each session adjourns. It will not duplicate the functions of existing standing committees, but will continue to recommend bills to the Legislative Council, which will refer them to relevant committees for action.
Larry Morandi was formerly director of State Policy Research with the National Conference of State Legislatures in Denver, and is a frequent contributor to Fresh Water News. He can be reached at larrymorandi@comcast.net.
Click the link to read the article on the NOAA website (Michelle L’Heureux):
Given the relatively high probabilities for El Niรฑo in our teamโs April 2023 ENSO update, I decided to team up with some of my scientific colleagues, Antonietta Capotondi (NOAA Physical Sciences Laboratory and University of Colorado, Cooperative Institute for Research in Environmental Sciences) and Aaron Levine (@afzlevine, University of Washington, Cooperative Institute for Climate, Ocean, and Ecosystem Studies), to explain why making ENSO forecasts during the Northern Hemisphere springtime generally makes us want to skip the forecast. But we, of course, cannot because if a decent-sized El Niรฑo is going to form, it is probably going to form in the spring or summer. Which means as much as weโd like to punt on ENSO forecasts in the spring, we have to issue Watches when the tropical Pacific starts pushing in that direction (as we recently did, footnote #1).
This is not the first blog rant post on the lower predictability of springtime ENSO forecasts (here, here, here). And it will probably not be our last! Researchers in the ENSO community are well aware of the forecasting challenges during the spring and are hard at work trying to better understand precursor patterns and fix model biases that may make it easier to predict ENSO in the future.
So, whatโs the big deal in the spring? Especially when it comes to predictions of El Niรฑo? It comes down to uncertainty in two of the main ingredients that give rise to El Niรฑo.
In the spring, it is difficult to know whether surface west-to-east (โwesterlyโ) wind anomalies across the tropical Pacific Ocean will continue through the summer and persist long enough to reinforce the developing El Niรฑo.
The heat in the subsurface tropical Pacific Ocean is a necessary precursor for El Niรฑo but it is not always sufficient.
Letโs focus on #1 first: the persistence of the surface winds. Dr. Capotondi hasย published researchย exploring the relationship of surface winds across the tropical Pacific with ENSO. She used a very detailedย satellite-based wind datasetย for her analysis and found that theย interannualย changes in the surface winds areย theย key ingredient for triggering El Niรฑo (footnote #2). Without persistence of these tropical winds, many El Niรฑo events struggle to achieve lift off and can fizzle. It is this interannual wind variability that determines whether you get a major El Niรฑo (e.g. 1997-98) or anย El Niรฑo โbustโย (e.g. 2014).
Letโs examine the figures below to visualize this. Starting in March 1997, westerly wind anomalies (warm colors) began to form over the western tropical Pacific Ocean (left panel). In the 1997 case, the interannual variability in the winds (middle panel) was especially strong and long lasting, extending over a year and shifting very gradually eastward with time. A major El Niรฑo event formed and peaked during the 1997-98 winter.
During 1997, the evolution of the surface zonal wind anomalies (in meters per second) along the equatorial Pacific Ocean. Red shading indicates anomalous westerly (from the west) winds, while blue shading denotes anomalous easterly winds. The left panel emphasizes winds that are relatively short-term (the filter isolates periods more than 5 days). The right panel emphasizes the โinterannualโ winds that are longer-term and more persistent (the filter isolates periods greater than 250 days). On average, the surface winds across the tropical Pacific are easterly, so westerly anomaliesโdepartures from average conditionsโcan weaken the Walker Circulation. But only if they persist do they lead to El Niรฑo. See Capotondi et al. (2018) for more details on the calculation and data. Figure provided by Antonietta Capotondi and modified by Climate.gov.
Now letโs look at the same period of months during 2014, which, in the spring, wasย predictedย to be a potentially major El Niรฑo event. Right on cue, similar to 1997, the westerly wind anomalies began early in the calendar year and lasted through April (left panel below). However, for some unknown reason, the westerly winds began dissipating and the interannual wind variability was very weak-to-nonexistent for the rest of 2014 (middle panel below).
During 2014, the evolution of the surface zonal wind anomalies (in meters per second) along the equatorial Pacific Ocean. Red shading indicates anomalous westerly (from the west) winds, while blue shading denotes anomalous easterly winds. The left panel emphasizes winds that are relatively short-term (the filter isolates periods more than 5 days). The right panel emphasizes the โinterannualโ winds that are longer-term and more persistent (the filter isolates periods greater than 250 days). On average, the surface winds across the tropical Pacific are easterly, so westerly anomaliesโdepartures from average conditionsโcan weaken the Walker Circulation. But only if they persist do they lead to El Niรฑo. See Capotondi et al. (2018) for more details on the calculation and data. Figure provided by Antonietta Capotondi and modified by Climate.gov.
Bottom line: if the surface westerly wind anomalies fizzle out and do not continue to recur and intensify throughout the year (the interannual variability), then El Niรฑo can similarly fail to get going. Unfortunately, we can only see this interannual wind variability after the year is over (and we are looking back at the previous year). In the midst of the spring/summer, we do not know whether these winds are random-random or are going-somewhere-random (they are considered mostly forecastable out to 7-10 days). Not ideal, we know.
This brings us to #2: The presence of above-average oceanic heat in the tropical Pacific Ocean. Dr. Levine recently started a 3-yearย NOAA Climate Program Officeย (CPO) fundedย research projectย on the topic of El Niรฑo false alarms, which are El Niรฑo events that were confidently predicted to happen, but then failed to do so for some mysterious reason. Dr. Levine provided the figure below which displays the many different climate forecasting models that are part of theย North American Multi-Model Ensembleย (NMME).
Model forecasts (light gray lines: means from the North American Multi-model Ensemble) and observations (black lines: ERSSTv5 temperature data) of ENSO as measured by the Niรฑo-3.4 index. Years are selected based on the nine largest April values of subsurface warm water volume anomalies (0-500 meters below the surface) of the tropical Pacific Ocean (120E-80W). Subsurface data based on TAO buoys. Figure provided Aaron Levine and modified by Climate.gov.
Each panel in the figure shows 9 different ENSO forecasts made during the month of April. These forecasts all have one major thing in common, which is the presence of above-average temperatures within the subsurface (0-500 meters below the surface) of the tropical Pacific Ocean (footnote #3). The majority, or 6 of the 9 April forecasts, had elevated chances of El Niรฑo events developing later in the year. Another way to express this is that enhanced oceanic heat in the spring can make it more likely an El Niรฑo could form, but itโs not a guarantee either.
Now letโs look closer at those 6 April forecasts that were predicted to become El Niรฑo events (1982, 1990, 1997, 2014, 2015, 2018). Out of that group, 4 of the 6 became El Niรฑo events and 2 failed to form (1990, 2014). Interestingly, of the ones that became El Niรฑo events, the ultimate strength was mostly underestimated, meaning that the El Niรฑos ended up becoming stronger in the winter than the majority of model ensembles predicted in April. So, while bust potential is a risk, there is also limited evidence that models can still be somewhat conservative with forecasting peak intensity!
On the net, while the tropical Pacific precursors of El Niรฑo are currently evident this spring, there is a certain amount of forecast uncertainty that will not go away. Come this summer/fall, we will see whether the conditions weโre seeing this spring were, in fact, sufficient to become a bona fide El Niรฑo (and potentially a significant one). Watch this space.
Footnotes
(1) So, if spring forecasting is such a challenge, then why do the current probabilities seem so high? As Emily laid out in her recent blog post and in the official ENSO discussion, we are currently seeing some of the required precursors of El Niรฑo: (a) recurrence of westery wind anomalies across the equatorial Pacific and (b) emergence of above-average ocean heat content. Morever, many of the state-of-the-art climate models we consider (such as those in the NMME) are providing peak chances of El Niรฑo in excess of 90%. However, because we know the objective model guidance tends to be overconfident this time a year (here and here), the chances in the official outlook are slightly lower (peaking in the mid-80%).
(2) What are these interannual winds? Interannual in our lingo are the โyear-to-yearโ changes. Retrospectively, we can examine the part of the winds that were the most persistent, lasting over a span of at least 8 months (greater than 250 days in this study).
(3) Aaron is examining the 9 cases with the largest April tropical Pacific subsurface ocean heat content anomalies since 1980 via the NOAA PMEL website showing measurements from the TAO buoys.
As of May 1, snow-water equivalent (SWE) values remain above to much-above normal for the majority of the region, especially in Utah. April precipitation and temperatures were below to much-below normal for the region. Streamflow volume forecasts are above to much-above average for the Upper Colorado River and Great Basins, and the inflow forecast for Lake Powell is 172% of average, continuing to provide much-needed water after record-low water levels. Regional drought conditions significantly improved during April and now drought covers only 32% of the region, driven by wetter conditions in Utah. Neutral ENSO conditions are expected to persist throughout the spring, and there is an increased probability of above average temperatures for parts of Utah and Wyoming during May, and parts of Utah and Colorado from May-July.
April precipitation was below normal for much of the region. Less than 50% of normal April precipitation occurred in northern Wyoming, particularly in Big Horn County, eastern Utah, particularly in Carbon and Emery Counties, and northeastern Colorado. Record-dry conditions occurred in east-central Utah, mostly in Carbon County. Areas of above normal precipitation occurred in southwestern to central Wyoming from the Upper Green River to western North Platte Basins, and southeastern Colorado along the Arkansas River Basin. An area of much-above normal precipitation occurred in Lincoln and Uinta Counties in southwestern Wyoming.
Regional temperatures during April were below normal. Large portions of Colorado, Utah, and Wyoming experienced much-below normal temperatures, particularly in Wyoming where temperatures were 6 to 10 degrees below normal. Record-cold temperatures for April occurred in the Upper Green River region of southwestern Wyoming and northernmost Utah, mostly in Rich County.
Regional snowpack is near to much-above normal for the entire region except for the Arkansas River Basin where May 1 SWE is slightly below normal at 81%. Much-above normal SWE exists for much of the region, including northeastern Wyoming, southwestern Colorado, and all of Utah, with a staggering 1,256% of normal SWE for the Six Creeks Basin on the Wasatch Front and 953% of normal SWE for the Southeastern Utah Basin. Extremely high percent normal SWE is driven by continued deep snowpack at low elevation sites. For example, the Louis Meadows SNOTEL site (6,700 feet) in the Six Creeks Basin is at 9,933% of normal because May 1 median SWE is 0.3โ and current SWE is 29.8โ. Statewide percent median SWE was 139% for Colorado, 249% for Utah, and 140% for Wyoming. As of May 1, snowpack is generally near normal east of the Continental Divide in Colorado and in northern Wyoming, and above normal on the West Slope of Colorado and in southern Wyoming.
Seasonal streamflow volume forecasts are above average to much-above average for most regional river basins. Streamflow forecasts are highest for the Great Basin where forecasted volumes are 132-451% of average. Below normal (60-90%) seasonal streamflow volumes are forecasted for the South Platte and Arkansas Basins, and near-normal (90-110%) volumes are forecasted for the Big Horn, Powder, Snake, Upper Colorado (mainstem), and Yellowstone River Basins. Above normal seasonal streamflow (110-130%) is forecasted for the Rio Grande and Upper Green River Basins, and much-above normal streamflow (>130%) is forecasted for the remaining regional river basins, with streamflow forecasts reaching above 300% for sites in the Provo/Utah Lake, Sevier, Six Creeks, Virgin, and Weber River Basins. Seasonal streamflow forecasts for most large Upper Colorado River Basin reservoirs are much-above normal, leaving only Fontenelle with an above normal forecast of 113% and Green Mountain with a below normal forecast of 84%. The inflow forecast for Lake Powell is 172% of normal.
Regional drought conditions were mixed, with improvement throughout most of Utah and degradation throughout the Front Range and south-central portion of Colorado. At the end of April, drought covered 32% of the Intermountain West, down from 45% at the end of March. Drought conditions significantly improved in Utah; drought covered 65% of the state at the end of March, decreasing to 19% at the end of April. Drought conditions slightly improved in Wyoming, from 37% to 30% coverage by the end of April. Drought conditions worsened in Colorado, increasing in coverage from 36% to 44% by the end of April. Pockets of extreme (D3) drought remain in southeastern Wyoming and Colorado and developed in south-central Colorado. Exceptional (D4) drought continues in southeastern Coloradoโs Baca County.
West Drought Monitor map May 2, 2023.
Neutral ENSO conditions continued in April and are expected throughout the spring. In some regions of the Pacific Ocean, sea surface temperatures warmed to above average, indicating a shift towards El Niรฑo in the coming months. There is a 62% chance of El Niรฑo developing during May-July, and a greater than 80% chance of El Niรฑo by the fall. There is an increased probability of above normal temperatures during May in western Wyoming and northern Utah. The May-July NOAA seasonal forecasts predict an increased probability of above normal temperatures in southeastern Utah and southern Colorado.
Significant April weather event. Little Cottonwood Canyon (LCC) experienced a historic avalanche cycle in early April caused by historically deep snowpack (903โ of snowfall at Alta), intense snowfall, and rapid warming. From 4/3 – 4/5, upper LCC received 63โ of snow with 4.5โ of SWE. Temperatures were very cold during the storm, including a record minimum temperature at the Alta Guard site of 1F on 4/6. By 4/10, the maximum temperature warmed to 56F, a daily record. A daily record temperature of 56F was also set on 4/11 and concluded a full three days without below freezing temperatures, which increases the risk for wet slab avalanches.
High snowfall and warm temperatures caused very dangerous avalanche conditions, resulting in the closure of LCC Road from 4/2 – 4/13 with a brief opening on the morning of 4/7 to allow people to leave the canyon. The length of this canyon closure is unprecedented. Two distinct avalanche cycles occurred during the 12-day canyon closure. The first avalanche cycle occurred during and immediately after the storm. The second avalanche cycle was a wet avalanche cycle that began around 4/9 and was caused by rapidly warming temperatures and the lack of below freezing conditions at night. Many dozens of avalanches occurred naturally or as a result of avalanche mitigation efforts in avalanche paths that impact the road or infrastructure in LCC. Avalanches buried the road in 15-20 locations up to 30 feet deep and several hundred yards wide. Some paths hit the road multiple times. Many avalanche paths that ran have a historical avalanche frequency of more than 50 years and these paths enlarged their run-out zones, mowing down mature aspen, fir, and oak trees. One path, Coalpit #4, ran so large that the avalanche crossed Little Cottonwood Creek and traveled upslope to hit the road. Another slide occurred on 4/6 where a slide path across the road from Snowbird slid naturally and buried the edge of the beginner ski slope while the ski area was open. Snowbird immediately closed the resort and performed a probe line search of the area to ensure no one was buried. Fortunately, no one was injured in the incident.
The outflow at the bottom of Navajo Dam in New Mexico. Photo: Brent Gardner-Smith/Aspen Journalism
From email from Reclamation (Susan Novak Behery):
BUREAU OF RECLAMATION
NAVAJO UNIT FORECAST FOR
SPRING OPERATIONS
May 9, 2023
High snowpack in the San Juan River Basin this year has led to an above-average inflow forecast into the Navajo Reservoir. The latest most probable inflow forecast from the Colorado Basin River Forecast Center has increased to 160% of average inflows due to snowmelt runoff from April through July.
The forecast now allows for a spring peak release as recommended by the San Juan River Basin Recovery Implementation Program (SJRIP). The release will ramp up slowly, peaking at 5,000 cfs for 21 days before ramping back down. The currently planned schedule is below. As this operation is entirely dependent on weather, inflows, and on-the-ground conditions, please stay tuned for updates and changes.
The current schedule for planned changes is below. A notice will be sent out prior to each release change.
Date
Day
End of Day Release (cfs)
Notes
5/9/2023
Tue
500
5/13/2023
Sat
800
5/15/2023
Mon
1200
5/18/2023
Thu
2000
Begin ramp up
5/19/2023
Fri
3000
5/22/2023
Mon
4000
5/23/2023
Tue
4600
5/24/2023
Wed
4800
5/25/2023
Thu
5000
Hold at 5,000 cfs for 21 days
6/14/2023
Wed
4800
Begin ramp down
6/15/2023
Thu
4500
6/16/2023
Fri
4000
6/17/2023
Sat
3000
6/18/2023
Sun
2800
6/19/2023
Mon
2500
6/20/2023
Tue
2000
6/21/2023
Wed
1500
6/22/2023
Thu
1200
6/23/2023
Fri
1000
6/24/2023
Sat
800
6/25/2023
Sun
500
This operation is subject to changes in river flows and weather conditions and will be coordinated daily with local, state, and federal agencies to ensure objectives are met in a safe manner.
Areas in the immediate vicinity of the river channel may be unstable and dangerous. Please use extra caution near the river channel and protect or remove any valuable property in these areas.
For more information, please see the following resources below:
Bureau of Reclamation:
Susan Behery, Hydrologic Engineer, Reclamation Western Colorado Area Office: sbehery@usbr.gov or 970-385-6560
Workers construct a post-assisted log structure or PALS, on the Brush Creek Valley Ranch and Open Space south of the town of Eagle. These structures mimic large woody debris like a downed cottonwood and are designed to promote and restore natural stream functioning in areas that have been degraded. Photo courtesy of Eagle County Open Space
Colorado lawmakers may pass a stream-restoration bill this session, but it wonโt be the one proponents and environmental groups were hoping for.
A bill aimed at making it easier for stream-restoration projects that mimic beaver activity to take place has been gutted after stakeholders couldnโt reach an agreement, underscoring how difficult it is for environmental interests to gain a toehold under Coloradoโs system of water law.
An original draft of Senate Bill 270 clarified that restoration projects do not fall under the definitions of a diversion, storage or a dam; are presumed to not injure downstream water rights; and do not need to go through the lengthy and expensive water-court process to secure a water right or augmentation plan.
Project proponents would have had to file an information form with the Division of Water Resources (DWR) showing that projects would stay within the historical footprint of the floodplain before it was degraded and didnโt create new wetlands. Anyone, including downstream water users who believed the project would injure their water rights, could then challenge the project plans by filing a complaint.
โBeaver Dam Analoguesโ or โTemporary Wood Grade Structures,โ or TWGS, (pronounced like twigs), are designed to help back up water and create a lively wetland habitat that encourages healthy biodiversity not just for the cutthroat, but the entire ecosystem. They are being employed in whatโs called โProcess-Based Restoration.โ These man-made structures are relatively easy and straightforward to make. They are built with natural resources such as wooden posts, willow branches, aspen branches, and rocks. Though they are simple to create, Remshardt said โweโre not as good at building themโ as the beavers. Photo courtesy Rio Grande Headwaters Restoration Project
The types of projects that the original bill aimed to address are known as low-tech, process-based restoration and include things such as beaver-dam analogs (BDAs). These temporary wood structures consist of posts driven into the streambed with willows and other soft materials woven across the channel between the posts.
By pooling water on small tributaries in the headwaters, these process-based restoration projects act as if rehydrating a dry sponge and restore watersheds to a more natural condition before they were degraded by human activities. These projects can improve water quality, raise the water table, and create a buffer against wildfires, drought and climate change. The idea is that by creating appealing habitat in areas that historically had beavers, the animals will recolonize and continue maintaining the health of the stream.
But theย watered-down version of the billย that made it out of committee and is up for a second reading in the House on May 3 no longer addresses these types of projects. After amendments removed language referring to these projects, the bill now only includes minor stream-restoration activities such as bank stabilization or restructuring a channel to recover from wildfire or flood impacts.
โThe stuff that got taken out was the projects that would reconnect the channel and the floodplains and push water out of the channel in a way that would saturate the meadow and potentially change the hydrology,โ said Kelly Romero-Heaney, assistant director for water policy at the Colorado Department of Natural Resources (DNR). โThose projects are very much intended to maximize the ecological uplift from a stream restoration project. They are also the projects that gave the most heartburn to the water community.โ
DNR staff and environmental groups were theย proponents of the original legislation. If stream-restoration projects were required to secure a water right and spend money on an expensive augmentation plan, in which water is released to replace depletions that it causes, it could discourage these types of projects. Currently, proposals are evaluated by division engineers, who determine whether an augmentation plan is needed.
Two PALS on the Brush Creek Valley Ranch and Open Space south of the town of Eagle help restore natural stream functioning in areas that have been degraded by ranching and grazing. Eagle County Open Space installed 13 on a half-mile stretch of Brush Creek last fall. Photo courtesy of Eagle County Open Space
Agricultural concerns
Some agricultural water users were concerned that keeping water on the landscape for longer could potentially injure their downstream water rights by slowing the rate of runoff and creating more surface area for evaporation.
โAny time youโre talking about water and changing things in the water system, you run the risk of impacting water rights and the doctrine of prior appropriation, which is my guiding star when it comes to water issues,โ state Sen. Cleave Simpson, a Republican, said at a Senate Agriculture and Natural Resources Committee hearing April 13. Simpson, a sponsor of the bill, is a rancher who represents District 6.
Prior appropriation is the cornerstone of Colorado water law in which the oldest water rights have first use of the river.
Austin Vincent, general counsel and director of public policy for the Colorado Farm Bureau, said the original bill would have placed an unfair and expensive burden on water rights holders to file a complaint and prove they were being injured by a stream-restoration project.
โIt takes money to get an attorney and an engineer to prove your water right was injured,โ he said. โThe Farm Bureau is happy we are having this conversation, but we need to make sure this policy is done right. With the prior appropriation system being the law of the land here in Colorado, we need to make sure thatโs not eroded.โ
Pitkin County Commissioner Kelly McNicholas Kury testified at the committee hearing, expressing the countyโs strong support for the original draft of the bill.
โOur western rivers are the lifeblood of our state and they are in crisis,โ she said. โWe should all be committed to restoring our rivers to a healthy and thriving state.โ
Pitkin County has funded a summer program with the U.S. Forest Service for a beaver inventory in the headwaters of the Roaring Fork River, which could be the first step toward reintroducing the animals.
During negotiations on bill amendments, some groups had floated the idea of a cap that would place a limit on how much new surface area of water that restoration projects were allowed to create. But a too-small cap didnโt appeal to environmental groups.
โThe cap became the dynamite stick in the water community dialogue,โ said Abby Burk, western rivers region program manager for Audubon Rockies. โIf we had gone forward with these caps, we would have caged stream restoration, so it was better to pause.โ
Legislators have said they plan to revisit the issue in the interim committee and perhaps again next session with a new bill addressing process-based restoration projects.
This PALS on the Brush Creek Valley Ranch and Open Space south of the town of Eagle mimics a downed cottonwood. The Division 5 Engineerโs office said these post-assisted log structures donโt injure downstream water rights. Photo courtesy of Eagle County Open Space
Eagle County project
Staff from Eagle County Open Space learned firsthand the issues that can arise with stream-restoration projects, when they planned for 13 beaver-dam analogs to restore a half-mile section of Brush Creek that had seen intense ranching and grazing. The creek had been straightened and disconnected from its floodplain, and the riparian and aquatic habitat was impaired.
County staff submitted their plans to DWR, which told them they would have to get a plan for water replacement, or augmentation, to replace the water that would be evaporated from the small ponds created by the project.
โIt appears the BDAs associated with this project will result in a series of impoundments in ponds/pools that will result in additional evaporation from increased surface area that will injure downstream water rights,โ the response from DWR reads.
Getting an engineer to model the amount of water lost, then implementing a plan to replace that water was cost-prohibitive for the county, said Peter Suneson, open-space manager for Eagle County.
โModeling a leaky beaver dam is doable, but youโre going to end up throwing a lot of money at it and you still have to find water to put back in the creek,โ he said.
Instead of the BDAs, Eagle County instead moved forward with another low-tech, process-based project that DWR did not have a problem with: post-assisted log structures (PALS). These mimic large woody debris โ a downed cottonwood tree, for example โ that is affixed to a streambank and extends into the channel but does not span the entire waterway.
According to DWR, as long as PALS do not funnel water away from a diversion structure such as an irrigation headgate and do not impound water, they will not injure downstream users.
โWe got 13 PALS in last fall and we are going to do that again this fall,โ Suneson said.
It was exactly these types of projects that drafters of the original bill were hoping to make exempt from the water-court process, but which remain evaluated on a case-by-case basis by division engineers. But as drought and climate change have tightened their grip on Colorado, resulting in less water to go around, even restoration projects that everyone agrees are beneficial to the environment can be contentious.
โThe entrenched interests like to see the status quo protected and preserved and those newer types of water uses, whether it be recreational or environmental, are at the end of the line,โ said Drew Peternell, director of Trout Unlimitedโs Colorado Water Program. โItโs a tough uphill battle to pass legislation that allows water to be used for those newer values.โ
Aspen Journalism is a nonprofit, investigative news organization that covers water, environment and social justice.
A beaver dam on the Gunnison River. Photo: Brent Gardner-Smith/Aspen Journalism
The storm system responsible for the floods in Fort Lauderdale from April 12 through April 13, 2023. Date: 12 April 2023. Source: https://worldview.earthdata.nasa.gov
Click the link to read the article on the NOAA website (John Bateman):
So far, 2023 stands out for the remarkable warmth that covered many parts of the U.S., with some states seeing their warmest JanuaryโApril period on record.
The first four months of the year have also been marked by seven separate billion-dollar disasters that have struck the nation, according to scientists from NOAAโs National Centers for Environmental Information.
Below are more takeaways from NOAAโs latest monthly U.S. climate report:
Climate by the numbers
April 2023
The average April temperature across the contiguous U.S. was 51.4 degrees F (0.3 of a degree above the 20th-century average), ranking the month in the middle third of the 129-year climate record.
Maryland and Delaware ranked second warmest on record for April while New Jersey ranked third warmest on record. Connecticut, Florida, Massachusetts, New Hampshire, New York, Pennsylvania, Rhode Island, Vermont and Virginia each saw their top-10 warmest Aprils on record.
Conversely, below-average temperatures covered the Northwest to the central Rockies and northern Plains, and parts of the southern Plains. North Dakota ranked 10th coldest on record for the month.
The average precipitation for the month was 2.40 inches โ 0.12 of an inch below average, which places the month in the middle third of the historical record.
Arizona, Missouri, Nebraska and New Mexico saw their third-to-sixth driest Aprils on record, respectively. Meanwhile, Delaware ranked seventh wettest, North Carolina eighth wettest and New Jersey saw its 10th-wettest April on record.
A map of the United States plotted with significant climate events that occurred during April 2023. Please see the story below as well as the full climate report highlights at http://bit.ly/USClimate202304offsite link. (Image credit: NOAA/NCEI)
Year to date | January through April 2023
The average U.S. temperature for the year to date (YTD) was 40.9 degrees F (1.8 degrees above average), ranking in the warmest third of the climate record.
Delaware, Florida, Maryland, New Jersey, North Carolina, Pennsylvania and Virginia each had their warmest JanuaryโApril YTD on record. Connecticut, Massachusetts, New Hampshire, New York, Rhode Island, South Carolina and West Virginia each had their second-warmest such YTD, while 14 additional states ranked among their warmest 10 January-to-April periods on record.
The average precipitation for the first four months of 2023 was 10.22 inches (0.74 of an inch above normal), ranking in the wettest third of the JanuaryโApril record.
Wisconsin saw its wettest such YTD on record, while Michigan ranked fourth wettest and Utah ranked seventh wettest. On the dry side, Maryland ranked 13th driest on record for this four-month period.
Other notable climate events in this report
Seven separate billion-dollar disasters struck this year: Through the end of April 2023, the U.S. was struck with seven separate weather and climate disasters, each with losses exceeding $1 billion, including:
Five severe weather events.
A Northeastern winter storm/cold wave.
A California flooding event.
The total cost of these events exceeds $19 billion and resulted in 97 direct and indirect fatalities. The number of billion dollar disasters so far in 2023 is significant. Only 2017 and 2020 had more during this timeframe, with eight separate disasters recorded in the January-April period.
This U.S. map is plotted with seven billion-dollar weather and climate disasters that occurred in the first four months of 2023. For details, please visit the website, ncdc.noaa.gov/billions. (Image credit: NOAA/NCEI)
An active severe weather month: Several notable weather systems produced severe thunderstorms and a number of tornadoes that impacted portions of the U.S. in April 2023:
April 1: A 700-yard-wide EF-3 tornado that touched down in Delaware was the widest tornado in the state’s history. The same tornado was equal in strength to one that struck Delaware on April 28, 1961โ the strongest tornadoes recorded in the state.
April 19: A tornado outbreak occurred across areas of the southern and central Plains. A total of 29 tornadoes, including two EF-3 tornadoes, was confirmed by the National Weather Service, causing heavy damage and loss of life.
April 30: A state of emergency was declared after a rare EF-3 tornado touched down in Virginia Beach, destroying more than 100 structures.
Parts of Florida inundated with flooding: In less than a 24-hour period, more than 25 inches of rain fell at the Fort Lauderdale Airport on April 13. The event, deemed a 1,000-year event by the National Weather Service, smashed the previous one-day record of 14.59 inches of rain set on April 25, 1979.
Waters from a creek in Parachute continue to rise and threaten nearby residences, a town official said.
Town Manager Travis Elliott said Thursday [May 4, 2023] morning that the flow of Parachute Creek is currently at its highest it has been in nearly 50 years. The creek runs from the high country north of town into the Colorado River.
During a high runoff season in 1976, the creek reached a depth of 9.47 feet. As of 11 a.m. Thursday, a monitor showed the creek had reached a depth of 9.42 feet deep. The creek also reached a flow of 1,120 cubic feet per second, as of 3 p.m. Thursday.ย
Sandbags surround a residence in Parachute during May 2023 as flooding continues to threat buildings. Town of Parachute/Courtesy
The rising water level has caused flooding in multiple spots throughout town, which is threatening up to 16 buildings and residences. This includes neighborhoods along Cardinal Way, near Grand Valley High School, Cottonwood Park and Russey Avenue on the north side of Interstate 70.
โIn some places it looks like the swamplands of Louisiana,โ Elliott said. โBut, overall, I think we are in good shape thanks to the generosity and resiliency of our community members.โ
There have so far been no indications of evacuations. Community members have spent this past week setting up sandbags and barriers in the hopes of keeping the rising water levels at bay.
โWeโve gone through about 1,000 sandbags,โ Elliott said.
Structures being directly threatened by water include sheds, shops and various outbuildings, as well as homes. One residential basement is already flooded in three feet of water, Elliott said.
The city is also concerned the rising waters could reach the bottom of local bridges while the city is monitoring its sewer lift station at the wastewater treatment plant.
One Cardinal Way resident, Brandon Renck, said his backyard is currently being threatened by water.
โThatโs definitely swirling around our house,โ he said. โSome of the neighbors down the street have it worse than us. Itโs definitely scary.โ
Renck said his backyard is adjacent to Parachute Creek and the water damaged his landscaping. He also said he had a โreally nice fence that got swept away.โ
โWe have a row of sandbags on our property,โ he said. โIf it gets high onto our grass, it would get to our back door.
We have friends we can stay with. Other than that, thereโs not a whole lot that we can do.โ
Mayor Tom Rugaard said, instead of going to practice, he brought members of his wrestling team to help put up sandbags. The Grand Valley Fire Protection District, Grace Bible Church, other high school kids and various residents have helped with mitigation efforts. The Garfield County Sheriffโs Office, its emergency manager, and the city of Rifle have made it clear theyโre on standby, ready to help when necessary, the town said.
On Tuesday, the town had at least 40 volunteers helping fill sandbags, some as young as six as well as senior citizens.
โItโs been really cool, and Iโm really proud of the people in our area who have come out of the woodwork to help the people in need,โ Rugaard said.
โItโs really nice to be a part of a community that jumps in and helps others out.โ
While the help has been nice, Rugaard did express some frustrations over the lack of data keeping for creeks and other elements.
Drone footage of flooding in Parachute in May 2023. Town of Parachute/Courtesy
โWe have all these agencies that watch the Colorado River for us, but as far as tributaries? Thereโs not a lot of information out there,โ he said. โThereโs tools out there, but it would be nice to know how much snowpack is left and how thatโs going to affect us yet.โ
Elliott said thereโs cooler weather in the forecast, which can hopefully help bring down the rising levels of Parachute Creek.
โWe know thereโs a lot more coming,โ he said. โItโs all a matter of how fast it melts.โ
Hereโs a drone video of the flooding:
Garfield County is providing sandbags to residents in unincorporated areas who may be at risk of flooding as the local snowpack melts and rivers and streams rise. Up to 20 filled sandbags may be available on site at Garfield County Road and Bridge locations or residents can pick up 50 empty sandbags that they can fill off site.
The bags area available from 8 a.m. to 4 p.m. at the Rifle Road and Bridge campus, 0298 County Road 333A, and by appointment only from 7 a.m. to 3 p.m. at the Glenwood Springs facility, 7300 Highway 82. Residents of unincorporated western Garfield County can also pick up unfilled sandbags at the De Beque Fire Protection District station, 4580 U.S. Highway 6. Those bags can be filled at the Cowboy Chapel at the corner of county roads 204 and 211, just north of De Beque.
Residents living within cities or towns should contact those municipalities directly for assistance with issues related to potential flooding. Contact Garfield County Road and Bridge at (970) 625-8601 for more information or to schedule an appointment to pick up sandbags at the Glenwood Springs location.
Visit garfield-county.com for local updates on flood conditions and possible impacts and sign up for Garfield County Emergency Communications Authority (GarCo911) alerts at garco911.com/.
Ponderosa Gorge, Dolores River. Boating is popular on the Lower Dolores River, which is being considered as a National Conservation Area. Photo credit RiverSearch.com.
The Dolores River in southwestern Colorado can be one of the best rafting destinations in the country when it has enough water. It offers gorgeous scenery in the high desert of the Colorado Plateau and history dating back to the ancient Anasazi, who used it as a highway to and from Mesa Verde not far to the south. There are many years when the Dolores is not runnable for commercial rafting outfitters because of insufficient water, though. When they can operate there, as they will this year thanks to Coloradoโs abundant mountain snowfall this past winter, rafters and outfitters rejoice. The last time the Dolores could support rafting was in 2019…
Mcphee Reservoir
When snowpack is meager, runoff from the upper Dolores is stored in McPhee Reservoir near the town of Dolores for agricultural needs. This year, thanks to the great snowpack at its headwaters in the shadow of the 14,246-foot Mount Wilson near Telluride, there will be some left over for recreation, which happens down river from the reservoir…
With rafting season beginning this week for many outfitters in the state, the snowpack in nearly every Colorado river basin is near normal or above, some way above normal. The San Miguel, Dolores, Animas and San Juan basin this week stood at 88% above normal, and the adjacent Gunnison River basin was 71% above normal. Drainage in the northwest part of the state โ which includes the Yampa, White and Green rivers โ is 41% above normal, and the Colorado River headwaters is 24% above normal. Colorado rafting companies are expecting good things. The Arkansas basinโs overall snowpack stands at only 78% of normal, but its flows can be augmented by diversions from places in the high country where snowpack is better. Those water management decisions are made primarily for other purposes, such as agriculture, but rafters get to recreate on that water first. The Arkansas is Coloradoโs most popular river for rafting by far…The Blue River, north of Silverthorne, may be runnable this year.
Click the link to read the release on the USDA website:
The U.S. Department of Agriculture (USDA) and the State of Colorado are continuing and strengthening their Conservation Reserve Enhancement Program (CREP) partnership to support and empower Coloradoโs agricultural producers and landowners in reducing consumptive water use and protecting water quality, while conserving critical natural resources. Specifically, the newly revised Colorado Republican River CREP project, now available through USDAโs Farm Service Agency (FSA) and the Colorado Department of Natural Resources, will offer producers a dryland crop production practice on eligible cropland. This option will give producers meaningful tools to continue farming as they work toward permanently retiring water rights and conserving the Ogallala Aquifer for future generations.
โThis project is an example of how targeted and thoughtful federal-state partnerships can help address local natural resource concerns,โ said FSA Administrator Zach Ducheneaux. โThe Colorado Republican River Conservation Reserve Enhancement Program (CREP) will help us meet an intertwined and complex set of challenges head-on, providing opportunities for producers to keep working lands working while reducing their water use and adapting climate-resilient agricultural practices. With the new dryland crop production practice provided through this agreement, producers with eligible land will have both the authority and access to the necessary technical assistance to successfully transition away from irrigated production while maintaining soil health and wildlife habitat. I am deeply grateful for the State of Coloradoโs commitment to not just reaching an agreement but reaching the right agreement and strengthening a long-term partnership that will support Colorado producers into the future.โ
Through the revised Colorado Republican River CREP, USDA and the State of Colorado will make resources available to program participants who voluntarily enroll in CRP for 14-year to 15-year contracts. This CREP provides participants with two ways to enroll eligible land. Producers can enroll eligible land in โCP100, Annual Crop Production, Non-Irrigated.โ This practice transitions irrigated cropland to non-irrigated crop production and establishes complimentary wildlife habitat in and along the cropland. Additionally, participants within the Republican River CREP project area may enroll eligible land in โCP2, Permanent Native Grasses,โ โCP4D, Permanent Wildlife Habitat,โ and โCP23 or CP23A, Wetland Restoration.โ These conservation practices remove cropland from agricultural production and convert the land to an approved conservation cover.
Through both enrollment options, producers will earn an annual rental payment and cost share on eligible components of the practice.ย
Crop residue November 4, 2021. Photo credit: Joel Schneekloth
The dryland crop production practice is unique because producers will be able to keep these lands working while they implement conservation-minded agricultural practices including no till farming, cover crop installation and wildlife-friendly harvesting. USDAโs Natural Resources Conservation Service (NRCS) will work with eligible producers to develop conservation plans which include an approved annual crop rotation, minimum crop residue requirements, and management practices that support erosion mitigation and wildlife habitat. Unlike continuous and general CRP enrollment, participants with land enrolled in the CP100 may earn additional income from crops harvested from this acreage.
โBy leveraging this CREP program, we can combine significant long-term reduction of consumptive water use and conservation-based dryland crop production when drought and water conservation resource concerns exist, as they so currently do,โ said Kent Peppler, FSAโs Colorado State Executive Director. โThis approach showcases that when we work to promote both production and conservation hand-in-hand, we have the capacity to create unique partnerships that benefit our economies, landscapes, and communities.โ
Dan Gibbs, Executive Director, Colorado Department of Natural Resources, highlighted the positive impact this agreement will have on conservation efforts in the basin. Gibbs said, โWe are excited about the outcome of this collaborative effort with the U.S. Department of Agricultureโs Farm Service Agency. This agreement will help Colorado continue to advance its conservation efforts that are leading the basin toward a sustainable future in agriculture. The dryland production alternative provides more options that attract greater participation in the reduction of irrigation while helping preserve the economy and culture of the local region.โ
โThrough partnership with DNR and USDA, Colorado farmers and ranchers will have the opportunity to continue production while focusing on conservation efforts,โ said Kate Greenberg, Coloradoโs Commissioner of Agriculture. โThis agreement dovetails with CDAโs STAR Soil Health program, which helps bring financial and technical assistance to producers interested in expanding or introducing new climate smart practices into their operations,โ said Colorado Commissioner of Agriculture Kate Greenberg. โFarmers and ranchers are experiencing first-hand the impacts of drought and climate change. Tools such as dryland CREP that focus on farmer-led solutions to healthy soils and water conservation are key to mitigating these effects in agricultural landscapes and providing producers options.โ
Interested farmers, ranchers, and agricultural landowners are encouraged to contact FSA at their local USDA Service Center to learn more or to participate. Find contact information at farmers.gov/service-locator.
More Information
Currently, CREP has 35 projects in 27 states. In total, more than 784,800 acres are enrolled in CREP. The Colorado Republican River CREP is part of USDAโs broader effort to leverage CREP as an important tool to address climate change and other natural resources challenges while expanding opportunities for producers and communities, especially those historically underserved by USDA. In December 2021,ย USDA announced improvementsย to the program as well as additional staff to support the program.ย
USDA touches the lives of all Americans each day in so many positive ways. Under the Biden-Harris administration, USDA is transforming Americaโs food system with a greater focus on more resilient local and regional food production, fairer markets for all producers, ensuring access to safe, healthy and nutritious food in all communities, building new markets and streams of income for farmers and producers using climate smart food and forestry practices, making historic investments in infrastructure and clean energy capabilities in rural America, and committing to equity across the Department by removing systemic barriers and building a workforce more representative of America. To learn more, visit usda.gov.
USDA is an equal opportunity provider, employer and lender.
Glen Canyon Dam just upstream from Lee’s Ferry where the Upper Basin ends and the Lower Basin begins. Colorado, New Mexico, Utah and Wyoming, which make up the Colorado Riverโs upper basin, launched the System Conservation Pilot Program late last year, offering money to farmers and others willing to forgo their water use this year. So far the program has struggled, with few people applying. The granted applications amount to less than 2% of the smallest amount of water federal officials hope to save throughout the entire Colorado River Basin. Photo credit: Simon Morris
Click the link to read the article on The Denver Post website (Conrad Swanson). Here’s an excerpt:
One way to save massive amounts of water from theย drying Colorado Riverย โ state and federal officials had hoped โ was to effectively buy water this year from farmers and ranchers with a $125 million conservation program. But very few are taking the offer. Or those willing to sell were turned away.
โItโs a comical mess,โ Shaun Chapoose, chairman of northeast Utahโs Ute Indian Tribe, said. โThey ainโt fixing nothing.โ
Colorado, New Mexico, Utah and Wyoming, which make up the riverโs upper basin, launched the System Conservation Pilot Program late last year, offering money to farmers and others willing to forgo their water use this year, restarting a water-saving initiative thatย ran just a few years ago. This time around, though, the program is slated to spend twice as much to save a fifth less water, Colorado River officials say. Between the four states, 88 applications came in offering to save some water, Chuck Cullom, executive director of the Upper Colorado River Commission, said. The commission approved more than 80% of them…
If each of the programโs approved applications works out as expected the upper-basin can expect to save about 39,000 acre-feet at a cost of about $16 million, Cullom said. Thatโs less than 2% of the smallest amount of water federal officials hope to save. Cullom said the program came together quickly because of dire conditions on the river. That timing made it difficult for farmers to participate. And he said potential participants werenโt clear on how best to apply or what kind of money they could expect in return for their water…
The concept is fairly simple. A farmer, rancher or even a city holds the rights to a certain amount of water that theyโre allowed to draw from the Colorado River (or its tributaries) in a given year. The System Conservation Pilot Program had $125 million to dole out, offering them to use less. A farmer growing corn will use a certain amount of water in a typical year. But if theyโre willing to grow barley instead, which might use two-thirds as much water, the state could pay them for the difference theyโve saved. Or they could offer not to grow anything, saving more water and theoretically earning even more money from the program. Expand that offer throughout each of the four upper-basin states and the hope is that enough people sign up to conserve a substantial amount of water. The more water left in the Colorado River, the higher the levels stay at lakes Powell and Mead, the more water thatโs available to generate hydroelectricity, irrigate crops in Arizona and California and flow into major cities like Los Angeles, Las Vegas and Phoenix.
This winter, Professor Jessica Lundquist is co-leading the Sublimation of Snow (SOS) project in Colorado’s Rocky Mountains. Photo credit: Mark Stone/University of Washington
A single snowflake hadnโt yet fallen when a team of civil and environmental engineering snow researchers descended on a small town in Coloradoโs Rocky Mountains this past fall. But that was intentional โ they were preparing for the coming winterโs mission to answer a longstanding research question: What happens to snow after it falls?
The researchers are investigating a phenomenon known as sublimation, which is the transition of snow directly from a solid state into water vapor, skipping the liquid stage. This is similar to the behavior of dry ice, in which frozen carbon dioxide vaporizes. Currently the largest source of uncertainty in snow modeling, sublimation has the potential to be an important insight for water resources management, especially estimating future water reserves.
Professor Jessica Lundquist and scientist Steve Oncley (MS Atmospheric Sciences โ83), who leads NCARโs Earth Observing Laboratory, set-up a sensor to measure blowing snow. Photo credit: Mark Stone/University of Washington
โSublimation is an extremely hard thing to measure. Lots of people have tried and come to different conclusions,โ says Professor Jessica Lundquist, who is co-leading the Sublimation of Snow (SOS) project. โThis will be the first time itโs been looked at with this level of detail in a mountain region.โ
In one of the largest efforts to date โ the combination of three field campaigns, plus additional research organizations โ the UW team is collaborating with researchers around the country to leverage expertise and equipment. In early October, Lundquist and graduate students Danny Hogan and Eli Schwat arrived at the Rocky Mountain Biological Laboratory (RMBL), located north of Crested Butte, Colorado. They deployed equipment and planned for data collection, which the graduate students will conduct on-site this winter.
โIt takes this kind of effort to solve something this difficult. Itโs a question of scale โ we need both tiny and big measurements,โ Lundquist explains. โItโs exciting when you see so many different people and agencies come together and say โWeโll work together as a team.โโ
Funded by a National Science Foundation grant, the SOS project is led in collaboration with alumna Julie Vano (CEE Ph.D. โ13), research director for Aspen Global Change Institute. In addition to SOS, participating field campaigns are the National Oceanic and Atmospheric Administrationโs SPLASH project and the U.S. Department of Energyโs SAIL project. Also involved are the National Center for Atmospheric Researchโs Earth Observing Laboratory, the Swiss Federal Institute for Forest, Snow and Landscape Research (SLF), and the Swiss Federal Institute of Technology Lausanne (EPFL).
The East River Valley, northwest of the historic town of Gothic, home to the Rocky Mountain Biological Laboratory. The mountain with the pointed peak in the distance is Mount Crested Butte. Photo credit: Mark Stone/University of Washington
The Colorado River watershed is an ideal site to study sublimation, as the phenomenon occurs more often in dry climates. In recent years, there have also been unexplainable decreases in the riverโs flow, which people in seven states depend upon for drinking water. In 2021, the Colorado River snowpack was estimated at 80% of average, but streamflows ended up being only 30% of average. The researchers speculate that the discrepancy may in part be explained by sublimation.
โForty million people depend on the Colorado River, and snow is the biggest input in the water resource equation,โ Hogan says. โWe donโt really know how much water is being lost from sublimation definitively.โ
Current models used to predict sublimation rely on a fundamental theory, developed in flat cornfields in Kansas in the 1950s, that has proven to be inaccurate in more complex terrain, such as mountainous regions. Models based on this theory vary widely in terms of how much snow is predicted to sublimate, ranging from 10-90%.
โA simple way to explain why the theory in the prairie doesnโt apply in complex terrain is to imagine a river flow โ it behaves well over smooth ground, but if you introduce bumps to the river bed, the flow becomes complicated,โ Schwat says.
To improve future models, the researchers are working to better understand the precise combination of conditions that lead to sublimation, which tends to occur during low temperatures, low humidity and when both strong sunlight and wind are present. Since sublimation impacts snow on the surface and likely the snowflakes blowing above, the researchers will be paying close attention to the top layer of snow. Theyโll also be investigating the characteristics of the turbulent air motions above โ which can fluctuate widely depending on wind and other conditions.
โStudies show that when snowflakes are picked up by the wind and blown around, they may sublimate, so blowing snow is not necessarily just deposited elsewhere,โ Schwat explains.
he NCARโs Integrated Surface Flux System team sets up sonic anemometers on two separate towers, which will be used to measure turbulent air motions. Photo credit: Mark Stone/University of Washtington
Project leaders, Professor Jessica Lundquist and alumna Julie Vano (CEE Ph.D. โ13), from left, set-up a snow pillow. Photo credit: Mark Stone/University of Washington
A skyward view of a 65-foot tall tower with Steve Oncley, (MS Atmospheric Sciences โ83), who leads NCARโs Earth Observing Laboratory, in the foreground. Oncley is connecting sensors to data loggers. Photo credit: Mark Stone/University of Washington
In a mountain valley located about a mile from RMBL, the UW team deployed an array of sensors, including โsnow pillows,โ which weigh the snow to monitor the amount of water in the snowpack. Four towers, up to 65 feet tall, were installed by collaborators for meteorological measurements, such as wind speed. Other instrumentation includes X-Band Radar, Doppler Lidar and terrestrial laser scanners to measure and track blowing snow.
โFew studies have the unique combination of instruments that we have here, both in terms of variety and sheer quantity,โ Hogan says. โWeโll be able to see how well the theoretical equations and relationships play out when we have measurements at so many levels.โ
Winter observations
In January, the graduate students will return to Colorado to oversee field observations through mid-March. They will stay on-site in cabins, as RMBL is only accessible via cross-country skiing during winter months.
NCAR engineer Chris Roden instructs the winter residents, Danny Hogan and Eli Schwat (from left), on how to troubleshoot potential system issues during the winter with the equipment that will be recording meteorological measurements. Photo credit: Mark Stone/University of Washington
โItโs a unique spot where we are staying, about four miles from the town of Crested Butte, so itโs ski in and ski out, which makes for more of an adventure feel to the field work,โ Hogan says.
In addition to maintaining the field equipment, the graduate students will gather measurements during various weather conditions. In late January, the students will be joined by Lundquist, Vano and collaborators for two weeks of intensive observations. In addition to better understanding the process that leads to sublimation, the researchers hope to discern what types of measurements and instrumentation can best predict snow sublimation in a mountain valley.
To highlight the importance of the project to people whose water comes from mountain regions, as well as the larger science community, Vano and her team at the Aspen Global Change Institute are already working on outreach. Through the creation of videos and other educational materials, they hope to bring more visibility to the often overlooked topic.
โItโs in this intersecting space between hydrology and atmospheric sciences,โ Vano says. โHopefully through this work there will be a greater awareness of what snow sublimation is and the value and excitement of doing this type of research.โ
Click the link to read the article on the 9News.com webite (Keely Chalmers). Here’s an excerpt:
More and more homeowners are doing away with a traditional turf lawn in order to conserve a lot of water.
“The average American uses 160 to 180 gallons of water per day and then here in Colorado, about half of that is used on our outdoor irrigation,” according to Jessica Thrasher withย Colorado State University.
Over the last year, she and a team of volunteers installed rain gardens across the Front Range as part of a pilot program. It’s a simple and attractive way to save not just a little but a lot of water.ย More than 300 people applied for the program…The Colorado Water Centerย even has tutorial on its websiteย showing, step-by-step how to build your own rain garden. In addition, Colorado’s Turf Replacement program went into effect last summer. It offers funding to communities so they can replace turf in order to reduce outdoor water usage.
On Tuesday [May 2, 2023], New York lawmakers passed a law that, for the first time, authorizes the New York Power Authority โ the largest state public power authority in the U.S. โ to build renewable energy projects to help reach the stateโs climate goals.ย
The new Build Public Renewables Act, passed as part of New Yorkโs annual budget, is a culmination of four years of organizing by climate and community organizations, and has been heralded as a major win by energy democracy, environmental justice, and labor groups.
โThis will enable us to build renewable energy projects with gold-standard labor language, ensuring that the transition to renewable energy benefits working people and their families,โ Patrick Robbins, an organizer with the grassroots Public Power NY Coalition, told Grist.
The new law directs the New York Power Authority to plan, construct, and operate renewable energy projects in service of the stateโs renewable energy goals. Under New Yorkโs 2019 Climate Leadership and Community Protection Act, the state aims to generateย 70 percentย of its electricity from renewables and cut overall greenhouse gas emissions byย 40 percentย by 2030.
The Build Public Renewables Act includes several provisions to prioritize clean energy access for low- and middle-income customers, organized labor, and a just transition for workers displaced from fossil fuel projects. It requires the New York Power Authority to establish a program allowing low- and moderate-income electricity customers in disadvantaged communities to receive credits on their monthly utility bills for any renewable energy produced by the power authority.
The new law also stipulates that workers or contractors hired for these new renewable energy projects must be protected by a collective bargaining agreement. And it instructs the public power authority to enter into a memorandum of understanding with labor unions to uphold and protect pay rates, training, and safety standards for workers supporting the operation and maintenance of such projects. Candidates who have lost employment in the oil and gas sector will be prioritized for those positions. Beginning in 2024, the authority will also be authorized to allocate up to $25 million each year toward worker-training programs for the renewable energy sector.
Activists applaud a provision to phase out so-called peaker power plants owned by the New York Power Authority by 2030 and replace them with renewable energy systems. These small natural gas power plants quickly start and stop during times of peak energy demand, typically in the summer, when air-conditioning use ramps up. They are also a major source of pollution and sickness for nearby communities.
In a 2021 report, a coalition of state environmental justice groups found thatย 78 percentย of residents living within one mile of the plants are either low income or people of color. The report also found that peaker plants contribute up to 94 percent of New Yorkโs nitrogen oxide pollution, a key component of smog, on high-ozone days.
The law had been introduced โ and failed to pass โ the last two consecutive years before finally passing this year. New York state Assembly Member Sarahana Shrestha, elected this past November, was a key force in pushing the legislation through the state assembly. Before serving in the assembly, she was an organizer with the Public Power NY Coalition and the New York chapter of the Democratic Socialists of America, helping to rally around the Build Public Renewables Act. She ran on a climate campaignaligned with the public power movement, which aims to shift energy utilities from the traditional investor-owned, private model to public ownership and democratic governance.
To Shrestha, the new law addresses โfundamental questions like who should own energy, who should serve energy, at what cost, and what kind of energy should we be making, and who should be deciding those things.โ
The bill prevailed despite opposition from groups including the Independent Power Producers of New York, a trade association of energy companies working in renewables and fossil fuels, and the Alliance for Clean Energy New York, a coalition of renewable energy businesses.
In a joint letter to New York Governor Kathy Hochul, the two organizations and four other groups stated that having the public power authority build renewables โdoes not create a level playing field with the private sector.โ They also raised concerns that the law does not address ongoing barriers to clean energy development in New York, such as delays in connecting to transmission systems and permitting.
Proponents of the law argue that industry resistance was outweighed by broad support from community-based organizations, environmental justice groups, and unions representing more than 1 million workers in New York.
Another factor in the lawโs successful passage was last yearโs Inflation Reduction Act, President Joe Bidenโs landmark climate spending legislation. The federal law provides newly expanded tax credits for renewables and makes them available to tax-exempt public power entities like the New York Power Authority.
Shrestha and other advocates hope that the new Build Public Renewables Act will inspire similar legislation in other states โ and theyโre already seeing local Democratic Socialists of America chapters and other advocacy groups reach out.
โThe reason I am excited about this win is not because our work is done, but now it means we can start our work,โ Shrestha said.
Rio Grande overbanking May 3, 2023 finally topped my little bike trail north of Albuquerqueโs Central Avenue Bridge. ~4k cubic feet per second. Photo credit: John Fleck/InkStain
Click the link to read the article on the InkStain website (John Fleck):
We have a chance this year to watch a fascinating intersection of climate-change driven changes in the Rio Grande through Albuquerque as filtered through both physical infrastructure and what we call the โinstitutional hydrographโ.
THE TL;DR
Dust on snow is likely to accelerate Rio Grande headwaters snowmelt, meaning all that stored water comes off earlier. With nowhere to store it (see below, itโs an issue of both rules and physical infrastructure problems), weโll be operating this year in a run-of-the-river situation on the middle Rio Grande through Albuquerque. Even though thereโs still a lot of snow right now, once it comes off weโll be down to base flow on the Rio Grande. Absent good summer rains, the river could dry through Albuquerque again this year.
Weโve got that going on this year in the Rio Grande headwaters. From this morningโsย Downtown Albuquerque News:
THE PHYSICAL PLUMBING: EL VADO DAM
In the โbefore timesโ (before the creation of the Middle Rio Grande Conservancy District in the early 20th century, which led to the construction of El Vado Dam) communities in New Mexicoโs Middle Rio Grande depended on the run of the river. When the runoff dwindled in the summer, they couldnโt irrigate. (This is part of the reasoning behind our argument in the new book that claims that there once were ~125,000 acres irrigated in the Middle Valley are not credible.) Construction of El Vado allowed communities to do the classic โdams move water in timeโ thing โ store some of the big spring peak and stretch it out through summer.
El Vado Dam and Reservoir. Photo credit: USBR
El Vado is busted, though, unusable while it undergoes repairs. As Dani Prokop reported last month, the repairs are dragging:
That means no storage (other than a little bit in Abiquiu Reservoir for Native American communities) for irrigators, which means that once the snow is melted, the river will dwindle.
THE INSTITUTIONAL PLUMBING: ARTICLE VI
Even if El Vadoย wasnโtย broken, though, weโd sorta be in the same bind thanks to Article VI of theย Rio Grande compact, which saysโฆ.
New Mexicoโs compact debt to Texas โ the net weโve underdelivered in recent years โ is 93,000 acre feet. So even if El Vado wasnโt broken, any water we were able to store up to 93,000 acre feet would have to stay there. (This is why the Middle Rio Grande Conservancy District has reduced its diversions this year to 80 percent of what the district otherwise be sending down its canals โ to get more of that water to Elephant Butte Reservoir, to try to reduce compact debt, so they can usefully store water once El Vado is fixed. This is a whole other blog post, because the discourse around this has been fascinating as I do the โembedded writerโ thing at MRGCD for my book research.)
HYDROLOGY IN THE 21ST CENTURY: UNDERSTANDING THE RULES
I was down at the Rio Grande yesterday morning to record an interview about western water stuff with a crew from Italian public television. (The were neat! It was fun!) A bosque walker asked what we were doing and Luca, the TV guy, explained that they were interviewing the professor (pointing to me). The woman asked if I was a hydrologist. No, I replied, I do water policy.
Thatโs the thing. To understand the flow in the river we were standing next to, you need to understand the physical science โ climate, hydrology, and such. But then, crucially, you needs to think about how the actual wet water is filter through the systemโs human-built physical plumbing, which then requires understanding who it all is filtered through the rules.
A NOTE ON SOURCES, METHODS, AND BUSINESS MODELS
At this point in a post like this, I often drop in a thanks to my supporters, who make this work possible, including the Utton Center and Inkstainโs contributors. But Iโd also point you to the linked information sources above โ Downtown Albuquerque News is subscription-supported and one of my favorite local news reads, and Source NM (Dani Prokopโs employer โ sheโs doing great water stuff, invaluable to the community). Information is a public good, and as my economist friends like to point out, because of the free rider problem, public goods are under-provided.
A mountain lion feasting on a bull elk on the National Elk Refuge. Photo credit: Rocky Mountain Elk Foundation
Click the link to read the article on the WyoFile website (Christine Peterson):
One day about a decade ago, professional tracker and cougar researcher Michelle Peziol took a group of graduate students from Teton Science School on a walk through an aspen grove near Jackson. GPS in hand, Peziol led the class to an area where a collared mountain lion had been spending time.
As the bright sun illuminated the early summer grass at the site, Peziol noticed an almost perfect circle of darker-green grass. She looked around. Nothing obvious would have caused the grass in that precise location to be richer and more robust. Then she remembered: A lion had killed a deer in that spot the prior year. Could the remains of that deer kill have fertilized the soil?
Ten years later, Peziol and four other researchers published the answer: Yes, it could.
A new paper in the journalย Springer Natureย outlines how mountain lions in the Tetons create areas with more protein-rich grasses that nourish big game when the leftovers of carcasses they kill and consume decompose. Lion researcher Mark Elbroch calls it a version of โgardening to hunt,โ but to Wyoming Game and Fish large carnivore section supervisor, Dan Thompson, the results further illustrate just how connected every species โ from lions to deer to beetles to grass โ are to one another.ย
โAs far as mountain lion management, [this research] reinforces their role in the ecosystem,โ Thompson said. โItโs important because weโre one of the few places in North America where itโs still occurring like it used to.โ
As hunters and outfitters fret about predators killing big game like mule deer after a particularly harsh winter, researchers say projects like this highlight how much more there is to learn from the role each species โ predators included โ play on the landscape.
Killing, eating and stealing
Each of Wyomingโs large carnivores come with a buffet of preconceived notions about how it kills, what it eats and its role on the mountains and plains of Wyoming. Some generalities prove true: Wolves tend to kill in packs while mountain lions and grizzly bears, for example, are solo hunters. But while many assume the large predators kill and eat only live, big game, science is increasingly proving otherwise.
Of the meals that lions kill, they share (often not willingly) with hundreds of other species on the landscape.ย
โEverything from weird things like flying squirrels and mice to the usual suspects, like bears and eagles and turkey vultures,โ said Elbroch, one of the paperโs co-authors and the Puma Program director for Panthera, a global wild cat conservation organization. โWhat that really speaks to is how energy moves in the system and how it strengthens an ecosystem by creating all these new links and food webs.โ
This doesnโt mean cougars kill game and simply move along, Thompson said. Lions will eat as much as they can.
โThereโs no evolutionary benefit of killing for fun,โ Thompson said. โThereโs no benefit in wasting food.โ
But the research shows that even goopy bits of carcasses that seep into the earth before they are consumed can produce surprising results years later. After years of mapping GPS location data and collecting soil samples, Peziolโs team began to piece together a picture of how those carcasses influence the quality of the soil itself.ย
Connections from the ground up
Finding answers to big ecological questions requires more than a field season or two, Peziol said. It takes years of collecting information from the same locations and, in the case of this study, returning to the University of Washington with a U-Haul full of dirt.
Once Peziol and Elbroch decided to investigate the connections between lions and vegetation, Peziol began the long process of collecting thousands of samples from the Wyoming mountains.
The work began with lion collars, which sent location points to a satellite every one to two hours. If a lion stayed in a location for more than four hours, it could mean it was eating or napping. So Peziol started trekking to those locations to find out. If it had killed and cached an animal, Peziol took soil samples from directly underneath the carcass as well as 10 feet away in areas with the same conditions like sunlight and slope.
She repeated the process every three months for a year, then twice a year for three years. When vegetation began to grow at the carcass site, she plucked samples of those plants and samples from the same nearby species, again growing in similar conditions.
A U-Haul of dirt, thousands of individual samples and 13 undergraduate students analyzing soil and plant quality later, she could prove that plants growing where carcasses decomposed had higher quantities of protein.ย
While the same benefits may arrive from species hunted by humans โ if the carcasses remain in the woods and arenโt schlepped to a landfill โ the lion affected areas tended to be located in certain zones where mountain lions preferred to hunt.
That means pockets of better-quality vegetation proliferate in select areas on the landscape, Elbroch said, potentially drawing even more big game to those areas.
โTo use trendy science language, we were able to definitively show that mountain lions were ecosystem engineers, and that they were creating habitat for other species,โ Elbroch said.
However, knowing if, in fact, deer and elk return to those areas because of the better vegetation would entail more research not of lions, but of deer and elk themselves.
The study results remind Thompson of migrating salmon and how their decomposing bodies change water pH and add to soil nutrients, which then boosts vegetation growth that attracts more grazing animals that then bring more predators.ย
โItโs more than lions killing deer,โ Thompson said. โItโs very easy to try to simplify the reality of whatโs happening on the landscape, and by doing so we donโt give credit to these very intricately woven natural occurrences happening around us.โTagged:WyoFile App
Christine Peterson has covered science, the environment and outdoor recreation in Wyoming for more than a decade for various publications including the Casper Star-Tribune, National Geographic and Outdoor…ย More by Christine Peterson
Click the link to read the article on the NRDC website (Brian Palmer):
There was more bad news on the honeybee front last week. A U.S. Department of Agriculture report found that honeybee losses in managed coloniesโthe kind that beekeepers rent out to farmersโhit 42 percent this year.
That number grabbed most of the headlines, but there was more troublesome data below the fold. The magic number in beekeeping is 18.7 percent. Population losses below that level are sustainable; lose any more, though, and the colony is heading toward zero. A startling two-thirds of beekeepers in the USDA survey reported losses above the threshold, suggesting that the pollination industry is in trouble.
For the first time, the USDA reported more losses in summer than winter. Experts canโt explain the reversalโespecially since the colony collapse disorder epidemic that peaked several years ago seems to have abated. The summer losses may have a single, unknown cause, or a group of known and intensifying causes, such as pesticides or mites.
Today the White House followed the USDA’s report with its long-awaited plan to help maintain and grow the pollinator population, including building pollinator gardens near federal buildings and restoring government-owned lands in ways that support bees. Itโs a good first step.
Albert Einstein is sometimes quoted as saying, โIf the bee disappears from the surface of the earth, man would have no more than four years to live.โ Itโs highly unlikely that Einstein said that. For one thing, thereโsย no evidenceย of him saying it. For another, the statement is hyperbolic and wrong (and Einstein wasย rarely wrong). But there is a kernel of truth in the famous misquote.
Bees and Agriculture
Bees and humans have been through a lot together. People began keeping bees as early as 20,000 BCE, according to the late and eminent melittologist Eva Crane. (Yes, someone who studies bees is a melittologist.) To put that length of time into perspective, the average global temperature 22,000 years ago was more than 35 degrees Fahrenheit cooler than today, and ice sheets covered large parts of North America. Beekeeping probably predates the dawn of agriculture, which occurred about 12,000 years ago, and likely made farming possible.
How important are bees to farming today? If you ask 10 reporters that question, youโll get 11 answers. Some stories say that bees pollinate more than two-thirds of our most important crops, while others say itโs closer to one-third. A spread of that size indicates a lack of authoritative scholarship on the subject. My review of the literature suggests the same.
The most thorough and informative study came back in 2007, when an international team of agricultural scholarsย reviewedย the importance of animal pollinators, including bees, to farming. Their results could encourage both the alarmists and the minimizers in the world of bee observation. The group found that 87 crops worldwide employ animal pollinators, compared to only 28 that can survive without such assistance. Since honeybees are by consensus the most important animal pollinators, those are scary numbers.
Look at the data differently, though, and it’s clear why the misattributed Einstein quote is a bit of an exaggeration. Approximately 60 percent of the total volume of food grown worldwide does not require animal pollination. Many staple foods, such as wheat, rice, and corn, are among those 28 crops that require no help from bees. They either self-pollinate or get help from the wind. Those foods make up a tremendous proportion of human calorie intake worldwide.
Even among the 87 crops that use animal pollinators, there are varying degrees of how much the plants need them. Only 13 absolutely require animal pollination, while 30 more are โhighly dependentโ on it. Production of the remaining crops would likely continue without bees with only slightly lower yields.
OK, So Can We Live Without Bees?
The truth is, if honeybees did disappear for good, humans would probably not go extinct (at least not solely for that reason). But our diets would still suffer tremendously. Theย variety of foodsย available would diminish, and the cost of certain products would surge. The California Almond Board, for example, has been campaigning to save bees for years.ย Without bees and their ilk, the group says, almonds โsimply wouldnโt exist.โ Weโd still have coffee without bees, but it would become expensive and rare. The coffee flower is only open for pollination for three or four days. If no insect happens by in that short window, the plant wonโt be pollinated.
There are plenty of other examples: apples, avocados, onions, and several types of berries rely heavily on bees for pollination. The disappearance of honeybees, or even a substantial drop in their population, would make those foods scarce. Humanity would surviveโbut our dinners would get a lot less interesting.
La Veta Pass โ the highest still-operating freight railroad pass on the continent at 9,242 feet — on U.S. Route 160 in southern Colorado. The pass lies on the border between Huerfano County to the east and Costilla County to the west. The elevation is 9,413 feet. The two signs in the picture are parallel to the highway on the south side. By Jeffrey Beall – Own work, CC BY 3.0, https://commons.wikimedia.org/w/index.php?curid=37517201
MINTURN, Colo. โ A billionaire New York developer and Colorado agricultural landowner who launched a full-blown railroad war in his pursuit of Union Pacificโs dormant Tennessee Pass rail line from Pueblo to Eagle County is no longer trying to acquire any part of the approximately 200-mile stretch of tracks.
โMr. Soloviev has no further interest in purchasing the Tennessee Pass Line; he has instead purchased the San Luis Valley Line,โ Colorado Pacific Railroadโs general counsel William Osborn said of Stefan Soloviev, chairman of the Soloviev Group and Crossroads Agriculture โ the 26th largest landowner in the U.S. with farming, ranching, and renewable energy in Colorado, New Mexico and Kansas. Crossroads has an estimated 400,000 acres of farmland in production.
Asked if this means Soloviev is no longer pursuing an east-to-west rail connection to move his grain to West Coast ports for transport to Asia, thereby breaking upย Union Pacificโs โmonopoly strangleholdโย on freight transport through Colorado, Osborn said, โI canโt comment on that.โ
Solovievโs Colorado Pacific Railroad, which also owns the Towner Line in southeastern Colorado, previously confirmed that its newly acquired San Luis Rio Grande railroad does not have a westward connection to the nationโs main rail grid.
Soloviev previously offered Union Pacific up to $10 million for the Tennessee Pass Line, which has been dormant but not abandoned since the Union Pacific, Southern Pacific merger in 1997, and said that to get local support he would pay for once-a-day passenger service from Pueblo to Minturn and recreational trails on the rail right-of-way along the Arkansas River.
But he made it clear his primary purpose in pursuing the Tennessee Pass Line, which connects to Union Pacificโs active central corridor line at Dotsero before heading west through Glenwood Canyon, was to move freight, estimating it would cost him $278 million to refurbish just 160 miles of the Tennessee Pass Line.
Photo shows Tennessee Creek near the confluence of the East Fork Arkansas River in winter with snow on the Continental Divide of the Americas. The report evaluates current and emerging snow measurement technologies for the Western United States. Photo: Reclamation
First trains in a quarter century possible
Colorado Pacific may simply be waiting on the results of legal wrangling between Eagle County and several environmental groups suing to overturn federal approval of the Uinta Basin Railway โ an 88-mile short line that would connect the oil fields of northeastern Utah to the main rail network and send up to 10, two-mile-long trains a day along the Colorado River into Denver.
Besides arguing that such an increase in oil production would beย โfanning the flamesโ of climate change, Eagle County attorneys say the Uinta Basin Railway would ratchet up pressure on federal rail regulators and railroad companies to reopen the Tennessee Pass Line โ a far more direct route to Gulf Coast refineries and one that avoids the Denver metro area altogether.
โIt doesnโt necessarily change our position,โ Eagle County Attorney Bryan Treu said of the news Soloviev is no longer pursuing the Tennessee Pass Line. โApproval of the Uinta Basin proposal makes the TPL line reopening much more viable, whether it is Soloviev or someone else. With or without the TPL line, 350,000 barrels of waxy crude oil running daily within feet of the Colorado River remains a concern for Eagle County.โ
Eagle County Commissioner Matt Scherr said he was not surprised Colorado Pacific is no longer trying to acquire the Tennessee Pass Line: โIf Soloviev just wants to use the rail, he doesnโt care who operates it.โ
Nor does Scherr think Solovievโs announced lack of interest decreases the chances of trains for the first time in a quarter century rumbling along the line through Eagle County towns like Minturn, where he was once mayor, and then west through Avon, Edwards, Eagle and Gypsum.
โNo, just because of common carrier rules, I think that that should always be a concern,โ Scherr said of federal law that requires railroad operators to carry any and all kinds freight, including some forms of hazardous materials, at reasonable rates.
On Wednesday, the U.S. Court of Appeals, D.C. Circuit, in Washington, D.C., heard oral arguments on a petition for review of the U.S. Surface Transportation Boardโs approval of the Uinta Basin Railway. Essentially, Eagle County and the Center for Biological Diversity argue the STB didnโt adequately consider the potential climate, wildfire and oil-spill impacts.
โThe oral arguments went well โฆ and long. Itโs hard to read the tea leaves from the judges based on their questions, but they clearly knew the issues and had hard questions for all sides,โ said Eagle Countyโs Treu. Oil trains would increase on active tracks along the Colorado River in the northwest corner of the county, while the dormant Tennessee Pass Line runs right along the Eagle River.
A schematic of rail lines in Colorado, including the Tennessee Pass Line between Pueblo and Dotsero in Eagle County. (Colorado Pacific Railroad)
Elected leaders decry oil train project
Union Pacific has an agreement with Texas-based Rio Grande Pacific to pursue a revival of passenger service and โlimited freightโ along the Tennessee Pass Line from Parkdale, a point just west of the active Royal Gorge Route Railroad, to Sage, a point just east of the mainline connection at Dotsero. Such a route would not connect to the nationโs active rail network.
Rio Grande Pacific, which in Colorado wants to operate on the Tennessee Pass Line as Colorado Midland & Pacific, also is the operator of the proposed Uinta Basin Railway in Utah. A Colorado spokeswoman for Rio Grande Pacific did not return an email requesting comment.
โThe Midland group is saying they would just want to do passenger, but the numbers donโt work to restore the track. Weโre pretty skeptical about that,โ Minturn Mayor Earle Bidez said. โI mean, if they want to do tourist trains, passenger to Leadville and back, itโll be over and $40 or $50 million to restore track, but I canโt help but think that once they get in, then theyโre going say, โOK, yeah, weโve got some agricultural products we want to get through this way,โ and then theyโre going to say, โOK, we want to get this waxy (crude) stuff coming up this way.โโ
Rio Grande Pacific has consistently said it is not interested in the Tennessee Pass Line for moving oil, even trying to get the U.S. Surface Transportation Board to approve its expedited lease on the line with language excluding the transport of oil โ something the STB did not allow. The STB has approved the transport of oil that would be the primary purpose of the Uinta Basin Railway.
Asked about the Uinta Basin Railway project, including its potential spillover pressure to reopen the Tennessee Pass Line to avoid a surge in oil trains through the state-owned Moffat Tunnel at Winter Park and down into Denver, Conor Cahill, a spokesperson for Gov. Jared Polis, replied:ย โThe governor continues to share a number of the concerns that our Colorado communities and Coloradoโs recreation and tourism industry have raised with the proposal. He continues to monitor this issue and evaluate the stateโs role given largely federal actions to date.โ
Both Colorado U.S. Sens. Michael Bennet and John Hickenlooper, both Democrats, have urged far more environmental scrutiny of the Uinta Basin Railway and the rejection of the projectโs request for tax-exempt funding through the U.S. Department of Transportation. So has Polisโ successor in the 2nd Congressional District seat that includes most of Eagle County, U.S. Rep. Joe Neguse.
โI think one could certainly make the argument the (Uinta Basin) railway project and the local opposition that has developed and that of course Sen. Bennett and I are articulating at the federal level is perhaps a harbinger of things to come when you think about all of these rail lines across northwest and central Colorado, that, of course, defined our state for a century, in terms of our stateโs formation, but now pose some real risks and challenges in terms of our future,โ Neguse said at a water event last month in Minturn, a former railroad town in Eagle County off the backside of Vail Mountain.
Coloradoโs lease with Union Pacific to operate the state-owned Moffat Tunnel expires in 2025. The Colorado Department of Transportation hasย previously expressed interestย in the state purchasing the Tennessee Pass Line if it were to become available.
Study after study has shown that as the climate warms, more and more Centennial State snowmelt is lost through evaporation and other processes before it can find its way into our rivers, streams, and reservoirs. So weโll need bigger than average snowpacks each winter just to keep reservoir levels and river flows from falling furtherโand unless everyone gets serious about tackling the climate crisis, thatโs simply not going to happen. Oneย recent studyย from researchers at New Mexicoโs Los Alamos National Laboratory found that Colorado could see a 50 to 60 percent reduction in snow within 60 years. When those same researchers used pattern recognition programs to group subregions of the Colorado River Basin by how each sector will respond to climate change, they found something disturbing: By 2080, much of western Colorado could experience aridity similar to Arizonaโs…
Whatโs even more alarming is that, in many ways, the future is already here. This past June, the Bureau of Reclamation, which manages the Colorado River through a network of reservoirs, announced that the seven states in the Colorado River Basin had 60 days to devise a plan to reduce the amount of river water they use annually by two to four million acre feet, as much as a third of the waterwayโs annual flow…
Meanwhile, water levels are still dropping and the ripple effects of whatever compromise is reachedโor isnโt reachedโwill be felt far beyond that river basin, including in Denver, which gets much of its water from the Western Slope. There is some cause for hope, however. From new cash crops that arenโt nearly as thirsty to science-fiction-worthy technology for forecasting droughts, there are ways to decrease demand and stretch supply. โYou need to have as many tools in your toolbox as possible,โ says Greg Fisher, demand planning and efficiency manager at Denver Water. โThis is Colorado. Even if you could take the drought and the Colorado River [crisis] out of the equation, weโre still a water-constrained state with a growing population. People need to appreciate what water is for. Itโs for life, safety, and health. I think anything beyond that is discretionary, and I donโt know if weโre at the point where we can afford discretionary use.โ
When an unexpected rainstorm leaves you soaking wet, it is an annoyance. When a drought leads to fires, crop failures and water shortages, the significance of weather becomes vitally important.
If you could control the weather, would you?
Small amounts of rain can mean the difference between struggle and success. For nearly 80 years, an approach called cloud seeding has, in theory, given people the ability to get more rain and snow from storms and make hailstorms less severe. But only recently have scientists been able to peer into clouds and begin to understand how effective cloud seeding really is.
In this episode of โThe Conversation Weekly,โ we speak with three researchers about the simple yet murky science of cloud seeding, the economic effects it can have on agriculture, and research that may allow governments to use cloud seeding in more places. Katja Friedrich, a professor of atmospheric and oceanic sciences at the University of Colorado, Boulder in the U.S., is a leading researcher on cloud seeding. โWhen we do cloud seeding, we are looking for clouds that have tiny super-cooled liquid droplets,โ she explains. Silver iodide is very similar in structure to an ice crystal. When the droplets touch a particle of silver iodide, โthey freeze, then they can start merging with other ice crystals, become snowflakes and fall out of the cloud.โ
While the process is fairly straightforward, measuring how effective it is in the real world is not, according to Friedrich. โThe problem is that once we modify a cloud, itโs really difficult to say what wouldโve happened if you hadnโt cloud-seeded.โ Itโs hard enough to predict weather without messing with it artificially.
Cloud seeding is usually done by planes equipped with devices โ like the one attached to the wing of this plane โ that spray silver iodide into the atmosphere. Zuckerle/Wikimedia Commons, CC BY-SA
In 2017, Friedrichโs research group had a breakthrough in measuring the effect of cloud seeding. โWe flew some aircraft, released silver iodide and generated these clouds that were like these six exact lines that were downstream of where the aircraft were seeding,โ she says. They then had a second aircraft fly through the clouds. โWe could actually quantify how much snow we could produce by two hours of cloud seeding.โ That effect, according to research on cloud seeding, is an increase in precipitation of somewhere around 5% to 20% or 30%, depending on conditions.
Measuring the effect on precipitation โ whether rain or snow โ directly may have taken complex science and a bit of luck, but in places that have been using cloud seeding for long periods of time, the economic benefits are shockingly clear.
Dean Bangsund is a researcher at North Dakota State University who studies the economics of agriculture. โWe have a high amount of hail damage in North Dakota,โ said Bangsund. For decades, the state government has been using cloud seeding to reduce hail damage, as cloud seeding leads to the formation of more pieces of smaller hail compared to fewer pieces of larger hail. โIt doesnโt 100% eliminate hail; itโs designed to soften the impact.โ
Every 10 years, the state of North Dakota does an analysis on the economic impacts of the cloud seeding program, measuring both reduction in hail damage and benefits from increased rain. Bangsund led the last report and says that for every dollar spent on the cloud seeding program, โwe are looking at something that is anywhere from $8 or $9 in benefit on the really lowest scale, up to probably $20 of impact per acre.โ With millions of acres of agricultural fields in the cloud seeding area, that is a massive economic benefit.
Both Freidrich and Bangsund emphasized that cloud seeding, while effective in some cases, cannot be used everywhere. There is also a lot of uncertainty in how much of an effect it has. One way to improve the effectiveness and applicability of cloud seeding is by improving the seed. Linda Zou is a professor of civil infrastructure and environmental engineering at Khalifa University in the United Arab Emirates.
Her work has focused on developing a replacement for silver iodide, and her lab has developed what she calls a nanopowder. โI start with table salt, which is sodium chloride,โ says Zou. โThis desirable-sized crystal is then coated with a thin nanomaterial layer of titanium dioxide.โ When salt gets wet, it melts and forms a droplet that can efficiently merge with other droplets and fall from a cloud. Titanium dioxide attracts water. Put the two together and you get a very effective cloud-seeding material.
From indoor experiments, Zou found that โwith the nanopowders, there are 2.9 times the formation of larger-size water droplets.โ These nanopowders can also form ice crystals at warmer temperatures and less humidity than silver iodide.
As Zou says, โif the material you are releasing is more reactive and can work in a much wider range of conditions, that means no matter when you decide to use it, the chance of success will be greater.โ
This episode was written and produced by Katie Flood. Mend Mariwany is the executive producer of The Conversation Weekly. Eloise Stevens does our sound design, and our theme music is by Neeta Sarl.
Rafters make their way down Clear Creek in Idaho Springs. Colorado’s rivers are expected to be running high after an epic winter. Photo credit: Sara Hertwig via Metropolitan State University of Denver
Coloradoโs bountiful snowpack is beginning to melt, and stream and river flows are rising. If current predictions for spring runoff stay on track this could be the longest stretch of boatable days seen on Coloradoโs rivers in over a decade, including a rare opportunity to float southwestern Coloradoโs spectacular 240-mile-long Dolores River.
โWe havenโt seen this kind of season since 2011,โ said Erin Walter, a hydrologist for the National Weather Service based in Grand Junction. โAll the basins are doing well.โ
The Dolores Basin, in southwestern Colorado, has the highest snowpack in the state, at 254% of average. The Gunnison River Basin stands at 169%, the upper Yampa Basin is at 152%, while the combined Animas, San Miguel, San Juan and Dolores are collectively at 192%. The lowest snowpack numbers are in the South Platte Basin at 98% and the Arkansas Basin at 78%.
โThis is definitely one for the record books,โ said Kestrel Kunz, of American Whitewater. โAs a boater Iโm excited. This healthy snowpack is something that everyone can be excited about, regardless of whether youโre a river runner, rancher or restaurant owner.โ
With that healthy snowpack and higher water comes danger, especially for beginning boaters. Rivers are faster and colder, the difficulty of rapids increases and there is more debris โ like fallen trees โ in the water and low bridges to watch out for. โSince the pandemic more people have gotten into river recreation so a large part of the population hasnโt seen these kinds of flows,โ said Kunz. โWe have to make sure people are accessing the flows and making good decisions about river safety.โ
One of the epicenters of this seasonโs higher flows is Almont in the Gunnison River Basin where the East, Taylor and Gunnison rivers come together. The peak flow of the combined rivers may reach a 100-year high, according to the National Weather Service.
โHigh water is a good problem to have,โ said Dirk Schumacher, outfitting manager for Three Rivers Rafting in Almont. โThe projections weโre looking at right now, the riverโs going to be high. High but not un-runnable. At normal flows, these are very straightforward Class 3 rivers. At higher water โฆ everything just happens a lot faster.โ
Schumacher was referring to a river flow rating system in which flows are rated from Class 1 to 5, with 5 being the highest intensity.
Despite the lower snowpack numbers in the Arkansas River Basin, Arkansas Headwaters Recreation Area park manager Tom Waters is optimistic. โWeโre looking at a really good year,โ Waters said. โItโs going to be a promising season for rafting and the fishery. I think weโll see high water but we donโt anticipate really high water or really extended high water. People are already fishing and floating here.โ
Dolores River watershed
But it is the southwestern corner of the state, on the Dolores River, that is generating the most excitement, said Andy Neinas of Echo Canyon Outfitters in Canon City.
โThe Dolores is a gem among gems,โ Neinas said. โBut itโs a river that never runs. There hasnโt been a meaningful boating season on the Dolores in 10 years or longer. This year Americans are going to get to see a wonderful resource that has not been available to them.โ
How fast or slow the snowpack melts will determine much about the length or brevity of the upcoming boating season. Unusually warm temperatures could send the snowpack rushing downriver all at once creating dangerous conditions and shortening the boating season. Depending on geography, the runoff can begin in early spring, and will have run its course by late summer.
Erin Walter, of the National Weather Service, said a number of variables come in to play, including rain, dust, wind, warm or cold temperatures and soil moisture content.
Dust carried by high winds in April tinted much of Coloradoโs snowpack with a distinctive red coloring. โWhen it collects on snow, dust, being darker, absorbs the solar radiation rather than reflecting it and increases the rate of snow melt. Weโve also had several years of drought and the soil can suck up a lot of that moisture as well,โ she said.
Graham Sexstone, research hydrologist for the U.S. Geological Survey (USGS), says the next 30 days will shape the rest of the rafting season.
โA lot depends on the weather over the next month,โ Sexstone said. โMany of the USGS stream monitors are showing high flows already and the snowpack above 11,000 feet hasnโt even started to melt. The real runoff hasnโt begun.โ
Dean Krakel is a photographer and writer based in Almont, Colo. He can be reached atย dkrakel@gmail.com.ย
The Dolores River, below Slickrock, and above Bedrock. The Dolores River Canyon is included in a proposed National Conservation Area. Photo: Brent Gardner-Smith/Aspen Journalism.
Yes, that diagram again. I was chastised by readersย last weekย for using it โ partly for the โAntiqueโ in the diagramโs title, but also for not adequately explaining what the diagram shows. I apologize for the latter. These posts tend to run long and demand a lot more of readers than the 15-second attention span for which Americans are derided. But just to keep them down to a couple thousand words or so, I find myself having to go through some things too quickly in order to get to whatever point I was aiming for. Brevity unfortunately is not the soul of my wit.
But having a sense of the structure and infrastructure of our big dams is critical to understanding what is going on along the Colorado River these days, where it is easy to confuse the river itself (which is experiencing chronic low flows but is not โdrying upโ) with the โriver management systemโ (which really could dry up critical stretches of the river under the current management regime). The โriver management systemโ is the integrated set of physical structures along the river for storing the riverโs water and distributing it to users โ and the operating systems whereby those structures are managed.
The โSupplemental Environmental Impact Studyโ the Bureau of Reclamation is doing now is basically an analysis of its own operating systems for the big structures on the Colorado River, and how those systems might be radically changed with an equitable distribution of impacts on humans โ systems that could have been changed gradually over the past several decades, the past century even, to reflect undeniable evolving realities, both natural and cultural, but now must be done with radical surgery โ the call for an almost-immediate reduction in Lower Basin uses of two million acre-feet.
This might be what life in the Anthropocene will mostly be on many fronts: learning how to live well enough with the world we have imposed on the world we found here. A recreated world where some cultural works were done naively and maybe profligately, under assumptions now needing correction โ which one might hope we will learn to begin sooner rather than later โ or too late, period.
Graphic via Holly McClelland/High Country News.
So it is fitting to look critically at what weโve done along the โFirst River of the Anthropoceneโ โ trying not to fall into hypocritical analysis, gnawing on the hands that feed us. And on that spectrum of critical analysis, I do need to explain, if not defend, using a diagram that calls the โplumbingโ of a major element in the management system weโve imposed on the Colorado River โantique.โ
I will say first that I do not necessarily think of โantiqueโ as a derogatory term (although that was probably intended by the creators of this diagram). If an automobile is fifty years old and still running, it qualifies for an โantiqueโ license plate; thatโs cool, an achievement for those who kept the car functional. I think of the word as more descriptive than judgmental: an antique is an artifact whose time is past but which reflects that time, something old but with an element of class, something that summons memories of a previous time, a time we want to remember but not necessarily carry forward.
So, being more than 50 years old at this point โ is Glen Canyon Dam an antique? We can start with an examination of its โplumbing,โ which says something about its life and times. (My doctor uses colonoscopies for a similar analysis.)
1983 – Color photo of Glen Canyon Dam spillway failure from cavitation, via OnTheColorado.com
One piece of plumbing not shown on the diagram is the damโs spillways โ two huge โdrainsโ up at the 3,700-foot elevation, near the damโs 3,715-foot crest (for context, 583 feet above the original streambed). The purpose of the spillways is to keep the reservoir from filling to the point where it would go over the crest. Glen Canyonโs spillways have only been used once, in 1983, when a very wet May and hot June caught the dam managers unaware, with the reservoir already too full to perform its flood-control function. The spillways proved to be not up to the task of getting the flood waters past the dam; the water pouring down them caused a cavitation problem โ a million tiny โair-hammersโ beating on the concrete with enough cumulative force to break it up. The managers knew there was a problem when large chunks of concrete, then sandstone, started washing out the bottom of the spillway outlets. That threatened the integrity of the dam itself; it was necessary to close off the spillways, lining the top of them with sheets of plywood four feet high and praying that the water would stop rising before it topped the plywood. It did stop in time, and the dam was saved. The spillways were rebuilt, hopefully resolving the cavitation problem, and have not been used since โ and at this point, given the projections about climate change, it is hard to imagine the reservoir ever being that full again. The spillways alone might qualify as โantiques,โ built for a river that needed them (once) but may no longer exist. (Oh great river gods, please make me eat my words!)
During the 1983 Colorado River flood, described by some as an example of a “black swan” event, sheets of plywood (visible just above the steel barrier) were installed to prevent Glen Canyon Dam from overflowing. Source: Bureau of Reclamation
For the dam managers, however, to โspillโ water at all is a mark of bad management; their ideal is for every gallon of water contained by the dam to be released through openings 210 feet below the spillways, at hydropower generation level, the 3,490-foot elevation (see diagram). Those openings into the dam drop the water through pentstocks a couple hundred vertical feet to turbines in generators the size of small houses; on its way to its designated use downstream, the water generates electricity. The higher the reservoir level, the more pressure the waterโs weight exerts in pushing the water through the turbines; with the reservoir at high levels, the Glen Canyon generators can produce annually up to five billion kilowatt-hours of electricity. In 2022, however, with the reservoir level only around 35 feet above the pentstock inlets, it only produced 2.6 kilowatt-hours. (Bureau figures)
The Bureauโs semi-panicky call in 2022 for massive reductions in use basin-wide was based on projections forward of another couple water years like the 2020-22 period; under the current river management regime, the level of the reservoir would have dropped below the level of the pentstock intakes in a couple years, and year-round power generation would have been impossible.
The back of Glen Canyon Dam circa 1964, not long after the reservoir had begun filling up. Here the water level is above dead pool, meaning water can be released via the river outlets, but it is below minimum power pool, so water cannot yet enter the penstocks to generate electricity. Bureau of Reclamation photo.
Even if that were to happen, however, it would still be possible to move water downstream from Powell Reservoir, through river outlet works with intakes 120 feet lower down in the dam, at the 3,370-foot elevation. The river outlets there are four big pipes, each eight feet in diameter, with a total flow capacity of 15,000 cubic feet per second โ when thereโs a lot of water in the reservoir to push water through them. If the water pressure stayed at that level, and all four tubes worked 24/7/365, it would be possible to move around 10 million acre-feet (maf) through the dam annually and down to Mead Reservoir, roughly the amount the Bureau has been releasing from Mead for Lower Basin and Mexican use โ plus the system losses for which no one has wanted to claim responsibility.
That 10 maf leaving the system at the lower end obviously becomes problematic if only 6-8 maf are flowing into the system at the upper end, as has been the recent situation. For one thing, the Bureau is not sure the outlet works can stand that kind of constant use; they are getting old, and may not have been built for constant use anyway. So if the Bureau were able to keep only three tubes running all the time, with one in maintenance mode, the amount of water that could be moved at full pressure would drop to just about the Upper Basinโs Colorado River Compact commitment โ 7.5 maf plus the Upper Basinโs share of the Mexican obligation (750,000 af).
But as the water level in the reservoir dropped closer to the outlet works intakes โ 6-7 maf inflow minus 8 maf outflow equals a storage decrease of 1-2 maf/year โ the water pressure through the tubes would also drop, and below the 3,430-foot elevation, it would no longer be possible to push the full Upper Basin commitment to the Lower Basin and Mexico through the tubes.
Map credit: AGU
Worst case โ if the reservoir level dropped below the 3,370-foot elevation, it would no longer be possible to move any water at all past the dam, even though there would still be just under two million acre-feet left in storage โ the โdead pool.โ At that point, the Lower Basin states would either have to do something completely nonconstructive like sue somebody (Upper Basin states? Interior Department? The Bureau?), or argue about which states should pay how much to Upper Basin water users to let their water (not federally controlled) flow to Powell to try to raise the level back above the 3,370-foot elevation. And most of the Upper Basin water rights junior to the Compact are not a bunch of rugged individualist farmers and ranchers; they are the big transmountain diverters โ Coloradoโs Front Range cities, the Santa Fe-Albuquerque corridor, the Salt Lake basin, who are already โlawyered up.โ
The ramshackle โLaw of the River,โ grounded in appropriation law and followed to the letter of the laws, would have nothing to offer to relieve that situation; it is easier to imagine Paolo Bacigalupiโs โWater Knifeโ war commencing.
That is an overview of Glen Canyon Damโs plumbing โ pretty standard for a big 20th century dam, designed to operate optimally when the reservoir is more than two-thirds full and able to maintain a full power head in releasing water through the turbines for โ oh yeah, not primarily power generation, but the damโs main job of providing dependable water for agricultural and domestic users downstream. A specific warning in the Colorado River Compact (IV(b)).
Now to the question: is Glen Canyon Dam an โantiqueโ? I think, at this point, given the prognostications for the future of the regional water supply, we could truly say that the dam was built for a different era, a different river โ some of which river may have existed only in the minds of the dam builders. The โHassayampa romance,โ carried along, like Deacon Holmesโ wonderful one-hoss shay, โfor a century to the dayโ โ the day the Bureau finally abandoned its paper surplus calculations and called a shortage.
In addition to working on new river operation protocols, the Bureau now has a team working on ways to possibly modify the dam, undoubtedly at considerable cost, maybe enlarging the outlet works, maybe generating some flow of electricity through openings lower in the dam, and maybe constructing tunnels to bypass the dam entirely, leaving Mead Reservoir as the riverโs major storage.
The latter concept could relieve a problem that the dam has created for โtodayโs riverโ through the Grand Canyon: the beaches and sandbars that are essential as night stops for the billion-dollar Grand Canyon recreational boating industry are eroding away, with no replacement sand and silt getting past the dam. This is being dealt with now by occasional staged โfloodsโ like the one just recently: pouring 200,000-plus acre feet of water over 2-3 days down through the Grand Canyon to stir up sediment that has slumped from the beaches down into the riverbed, in hopes that it will be redeposited on a beach downstream. Ultimately this mostly just escalates the passage downstream of all the beach material with only irregular and inadequate deposits of new material from side streams. That this ultimate losing effort was done in April 2023, with Powell Reservoir under 30 percent full, but anticipating a runoff thatย mightย get it all the way up to half-full or only half-empty, depending on your psychological inclinationโฆ. Thereโs an underlying desperation there that is not goimng to let us look back on this period with any pleasant sense of nostalgia. But we might look back on antiquities like Glen Canyon Dam as a reminder of the consequences of operating on assumptions and standards not fully grounded in demonstrable reality.
A problem with this analysis, however, is that for better or worse, it evaluates Glen Canyon Dam out of context. To really understand why we have Glen Canyon Dam at all, it is necessary to see our riverโs physical structures in the larger context of the less visible political and legal infrastructure that led us to pile five million yards of concrete (with internal plumbing) in the riverโs path in that particular place. That is another great story in the evolution of this mixed bag we call America. Up next in a couple weeks; stay tuned.
Delph Carpenter’s original map showing a reservoir at Glen Canyon and one at Black Canyon via Greg Hobbs
Click the link to read the release on the NRCS website:
Denver, CO โ May 4th, 2023ย โ In addition to above normal snowpack across much of the state, primarily in Western Colorado, lower elevation snowpack were particularly plentiful leading to substantial early season runoff in some basins. Along with this low elevation snowmelt, significant flooding has already been observed in the Yampa and Dolores basins with still much more snowmelt to come. While much of Western Colorado experienced above normal April streamflow volumes this was not the case across the entire state. NRCS Hydrologist Karl Wetlaufer commented โPeak snowpack and streamflow forecasts for the full April-July runoff period vary widely across the state this year. While much of Western Colorado should expect a continuing trend of above normal streamflow, much of the Arkansas and South Platte basins are forecasted for well below normal seasonal runoff volumes.โ Portions of the Colorado River headwaters and portions of the Rio Grande River basins are also anticipated to have below normal streamflow over the coming month.
May 1, 2023 Colorado streamflow forecast. Map credit: NRCS
Reservoir storage has begun to improve in the basins with the biggest deficits, namely the Gunnison and the combined San Miguel-Dolores-Animas-San Juan River basins, with most other basins holding near normal storage values. With several months of snowmelt runoff still to come, it is anticipated that reservoir storages will be changing considerably as the season progresses. Given the high degree of variability in streamflow forecasts across the state it is recommended to pay close attention to forecasts and changing conditions in your local area throughout the spring and summer.
Statewide snowpack, as measured at SNOTEL sites, peaked on April 8thย prompting the start of the primary snowmelt runoff season. As days get longer and the sun gets higher in the sky, snowmelt rates have the potential to continue to accelerate. Hydrologist Wetlaufer notes โThis is an incredibly important time of year for water resources. Conditions can change quickly and is important to monitor changing conditions closely over the coming months depending on the needs of water resource management in a given basin.โ Wetlaufer continued โIn a year like this, some areas may need to be planning activities such as reservoir management with flood potential in mind while in areas with lesser streamflow forecasts conservation may need to be the focus.โ While plentiful streamflow are certainly good news from a strictly water supply standpoint in the greater Colorado River Basin (above Lake Powell) it is important for everyone in Colorado to be mindful of flood potential and those associated hazards.
May 1, 2023 Colorado reservoir storage. Credit: NRCS
A photo captured on May 3, 2023 shows the Dolores River flowing underneath a CDOT bridge structure located on Colorado Highway 141 at mile point 88.5. River flow rates are nearing 10-year flood event levels. (Courtesy photo/CDOT)
The Colorado Department of Transportation is strongly considering closing Colorado 141 between Naturita and Gateway Friday evening, May 5, due to water levels on the Dolores River and extra caution over the structural integrity of the bridge at Roc Creek.
If the river reaches expected levels, CDOTย plans to close the highway at 5 p.m. Friday, with the highway remaining closed until the flood danger has subsided. According to a CDOT news release, the closure is dependent on various factors, including snowmelt and reservoir releases. As flow amounts fluctuate, the bridge over Roc Creek may require additional closures
โRiver flows in the area have not been observed at these levels in 18 years. With the flood event expected to peak this Friday, we are taking proactive and cautionary measures at this particular bridge. Engineers and maintenance personnel will be assessing the structural integrity throughout this high-flow event,โ Regional Transportation Director Julie Constan said in the news release.
For safety, CDOT has determined that the bridge structure at Roc Creek should be closed to traffic while peak water flows are occurring. The structure is located approximately 27.5 miles north of Naturita at mile point 88.5. The northbound closure point is located north of Naturita and the County Road CC junction at mile point 64. The southbound closure point is just south of Gateway, at mile point 110.
CDOT hydraulics engineers are closely watching forecasts, as well as tracking the anticipated releases from McPhee Reservoir in Montezuma County, CDOT spokeswoman Lisa Schwantes said.
โItโs going to be a combination of those things that really have an effect on how high the water flow is,โ she said. With respect to whether CDOT in fact closes 141: โWeโre leaning toward the side of caution.โ
The National Weather Service (NWS) has issued a flood advisory for the Dolores River due to the increased release of water from McPhee Reservoir. The flood advisory also includes the Dolores and San Miguel Rivers due to heavy runoff from snowmelt. The flood advisory is in place until further notice and covers Montrose County, as well as the counties of Montezuma, Dolores and San Miguel.
CDOT is less concerned that water will overflow the top of the bridge โ projections have the river hitting about 2 to 4 feet below. Rather, the concern is how the bridge structure might respond to a high flow at a rate not seen in close to 20 years, Schwantes said. There is some concern about the bridge piers, as well as large debris that could wash down and lodge beneath it.
โWeโre confident of the integrity of the bridge, but we donโt want anyone driving over it when those high peak flows are occurring,โ she said.
The northbound closure point is located north of Naturita and the County Road CC junction at mile point 64. The southbound closure point is just south of Gateway, at mile point 110.
Mcphee dam
The National Weather Service (NWS) has issued a flood advisory for the Dolores River due to the increased release of water from McPhee Reservoir. The flood advisory also includes the Dolores and San Miguel Rivers due to heavy runoff from snowmelt. The flood advisory is in place until further notice and covers Montrose County, as well as the counties of Montezuma, Dolores and San Miguel.
A pair of low pressure systems tracked from the Southeast northward along the East Coast, bringing a swath of widespread precipitation (2 to 4 inches, locally more) to much of the East Coast at the end of April. During the final week of April, the Southern Great Plains along with the Lower Mississippi Valley also received widespread precipitation with amounts exceeding 2 inches across southeastern Colorado, northern and eastern Oklahoma, and northeastern Texas. Late April was mostly dry across the Central to Northern Great Plains and Middle Mississippi Valley. Little to no precipitation was observed throughout the West where a significant warmup at the end of April resulted in rapid snowmelt, runoff, and flooding along streams and rivers. In contrast to these above-normal temperatures, cooler-than-normal temperatures occurred across the Great Plains, Corn Belt, and much of the East from April 25 to May 1…
Rainfall of 1.5 to 2 inches, or more, during the past week along with SPI at various time scales and soil moisture supported a 1 to 2-category improvement to southeastern Colorado. For similar reasons, a 1-category improvement was made to southwestern Kansas. However, 12-month SPI still supports D3-D4 across much of western and central KS. Wichita has only received 0.72 inches of precipitation from March 1 to April 30, which made it the 2nd driest March and April on record and the driest since 1936. Based on the NDMC’s short and long-term objective blends and CPC’s leaky bucket soil moisture, D1-D3 expansion was warranted for northern Kansas and south-central Nebraska. D3 was increased westward across west-central Nebraska following a very dry April. North Platte tied the driest April on record. Degradations were also made to southeastern Kansas based on 60 to 120-day SPEI. Abnormal dryness (D0) coverage increased in northeastern Wyoming based on recent dryness and declining soil moisture. A small improvement was made to the southwest corner of South Dakota, based on a local report that was consistent with VegDri and objective drought blends…
Colorado Drought Monitor one week change map ending May 2, 2023.
30 to 60-day SPI along with soil moisture indicators support an expansion of abnormal dryness (D0) and moderate drought (D1) across southeastern Montana. 30 to 90-day SPIs, recent warmth, and soil moisture led to a 1-category degradation in northwestern Montana. Following major improvements during the past few months across California and the Great Basin, no changes were made this week after little or no precipitation. Drought of varying intensity is designated for parts of Oregon and northern Idaho where precipitation averaged below-normal for the Water Year to Date (October 1, 2022 to May 1, 2023)…`
Balancing longer term SPIs and recent widespread rainfall (1 to 3.5 inches), a 1-category improvement was made to parts of Oklahoma and Texas. Improvements were also made to parts of central Texas along with the Texas Gulf Coast after more than 1.5 inches of rainfall this past week. CPCโs leaky bucket soil moisture and 90 to 120-day SPI supported a slight expansion of moderate (D1) to severe (D2) drought in west-central Texas. Based on soil moisture considerations and impact reports (very dry pastures), extreme (D3) drought was increased in coverage across the Texas Panhandle. The addition of abnormal dryness (D0) in east-central Tennessee was based on increasing 30-day deficits, SPEI, soil moisture, and 28-day average streamflows…
Looking Ahead
During the next five days (May 4 – 8, 2023), moderate to heavy precipitation (0.5-1.5 inches, locally more) is forecast for the Pacific Northwest, Great Basin, Northern Rockies, and higher elevations of California. An active weather pattern is expected from the Great Plains east to the Mississippi Valley with varying 5-day precipitation amounts forecast. Following a very wet end to April along the East Coast, drier weather is forecast to be accompanied by a gradual warming trend across the East.
The Climate Prediction Centerโs 6-10 day outlook (valid May 9-13) favors below-normal temperatures across the West, while above-normal temperatures are more likely throughout the central and eastern U.S. Elevated probabilities for above-normal precipitation are forecast for the Pacific Northwest, northern California, Great Plains, Mississippi Valley, and Southeast. Near normal precipitation amounts are favored for much of the Great Lakes and Northeast.
US Drought Monitor one week change map ending May 2, 2023.
Just for grins here’s a gallery of US Drought Monitor maps for early May for the past few years.
Click the link to read the article on the Grist website (Jake Bittle):
For the first two decades of the 21st century, not even a once-in-a-millennium drought could deter real estate developers from building vast suburban tracts on the wild edges of Western U.S. cities. But in 2021, a reckoning appeared on the horizon. The Colorado River sank to historic lows, winter rains never arrived, and communities from California to Texas found their groundwater wells going dry after decades of overuse.
Western officials had seldom let questions about water availability get in the way of population growth, but suddenly they seemed to have no other choice. Faced with an unprecedented shortage, many local governments tried to pump the brakes on new developments. A small town in Utah halted all new housing permits, fearful that more homes would sap a local river. A suburb of Colorado Springs, Colorado, told developers that it could no longer allow new subdivisions to connect to the cityโs water system. Most significantly, the state of Arizona has all but paused new housing in some Phoenix suburbs, citing a shortage of groundwater.
This pivot to conservation was bad news for D.R. Horton, the nationโs largest homebuilding company. Buoyed by pandemic-induced demand for cheap, spacious housing across the West, Horton netted $6 billion constructing more than 80,000 homes last year alone. The company had long been able to assume that if it built a development, someone else would provide water for it โ usually a local government eager for tax revenue. All of a sudden, Horton had to find the water itself.
Luckily, there was a third party who could help.
In April of last year, Horton acquired Vidler Water Company, a tiny outfit whose dozen employees worked out of an unassuming faux-Mediterranean office park in Carson City, Nevada. Though Vidlerโs annual revenue was less than a tenth of a percent of Hortonโs, the real estate titan spent big to snap it up: The price tag on the acquisition was an eye-popping $291 million.
Vidler is an unusual company. It doesnโt actually deliver water to people, nor does it own any facilities for water treatment or desalination. Instead the company functions as a broker for water rights, finding untapped water in rural communities and marketing it to developers and corporations in fast-growing cities and suburbs. For 20 years, the company has bought up remote farmland and drilled wells in bone-dry valleys to amass an enormous private water portfolio, then made tens of millions of dollars by selling that portfolio one piece at a time.
This kind of business inevitably involves some guesswork, and often that guesswork looks like classic real estate speculation: You can make money by bringing water to places where people already want it, but you can make even more money bringing it to places where people will want it in the future. This is exactly what Vidler has tried to do, and it has led the companyโs critics to contend that its business model violates the anti-speculation spirit of Western water law.
Indeed, suspicions that Vidler is profiteering off a vulnerable public resource have made the company more than its share of enemies over the years: Top officials have been pilloried in courtrooms and threatened by rural residents, and an early executive once had to jump out a window to escape an angry crowd at a public meeting.
Hortonโs purchase of Vidler has no real precedent, but it is a clear indication of where the West is headed. The region has grown twice as fast as the rest of the United States since the 1950s, and national builders like Horton are relying on it to fuel future profits. If these companies want to capitalize on migration to the booming suburbs of Phoenix and Las Vegas, theyโll need to find creative new water supplies that will allow them to keep building even as regulators try to clamp down on unsustainable growth.
In this regard, Vidler is a pioneer. The company was the first in the West to make a business model out of finding and flipping water. In the past few years, a new crop of upstarts has sought to mimic this model, buying up water rights in rural areas and marketing them to developers and suburbs that need them for future growth.These companies include Water Asset Management, which has bought up agricultural land in Colorado to secure water rights, and the investment firm Greenstone, which organized a first-of-its-kind deal to move Colorado River water from farms in western Arizona to a city near Phoenix. Both companies boast former Vidler executives in top leadership positions.
Vidler still stands at the front of the pack, tapping water in hard-to-reach aquifers and pursuing aggressive litigation to push new construction forward. If the companyโs tactics become more common, the effects will be far-reaching โ not only could rural areas and desert ecosystems see their precious water siphoned off, but thousands of people will buy and occupy homes fed by water sources that may turn out to be unreliable. A major part of Vidlerโs strategy has been to pump water from small underground aquifers, squeezing every available drop from finite water banks that may someday run dry, especially as climate change contributes to the long-term aridification of the West.
Kevin Brown is the manager of a water utility in the southern Nevada city of Mesquite, where Vidler has been trying for years to build a pipeline that could bring new water to the city. The company has proposed tapping a virgin aquifer and using the water to supply new housing developments on the edge of town, but Brown doubts the pipeline is a good idea. Instead he has focused on reducing water usage across the city and recycling water where he can.
Vacant land in Lincoln County, Nevada, near the city of Mesquite. Vidler owns a large portfolio of water assets in the area that could enable further development. Grist / Mikayla Whitmore
โIn the world we live in, and the market we live in, if you put enough money against it, someone will make it happen,โ Brown told Grist. โIf these developers arenโt building homes, then theyโre going out of business. But at some point, somebody needs to say, โYou know what, we canโt grow anymore. Itโs not sustainable.โโ
In most Western states, water is public property regardless of whose land it flows through or sits under. Private entities can only own the right to use that water for a specific purpose. Individuals and companies can apply to use any unclaimed water source, but they have to convince the state government that they plan to put the water to a productive use. By the same token, owners can sell or lease their existing water rights to each other as long as the buyers keep using the water for something.
In this arrangement, the new breed of water brokers has found an opportunity to accumulate assets and generate profits. But the law requires them to tread cautiously.
At the turn of the 20th century, a Transcontinental Mining executive named Rees Vidler tried to dig a tunnel through the heart of the Colorado Rockies. It was supposed to link the mineral-rich mountain towns around Breckenridge with the young Denver metro area, but Vidler never completed the project. The shaft sat unused until an engineer bought it in the 1950s and repurposed it to move water rather than ore. He acquired the rights to river water on the Breckinridge side of the tunnel, built a water pipeline through the shaft, and proposed to sell the river water to people in the fast-growing cities around Denver. The engineer didnโt have any confirmed buyers for the water, but he could store it in a reservoir until he made a sale.
In 1979, the Colorado Supreme Court dealt a blow to that scheme. A judge ruled that the engineerโs water purchases were โgrounded on no interest beyond a desire to obtain water for sale.โ If Colorado allowed such purchases, it would โencourage those with vast monetary resources to monopolize [water] for personal profit rather than beneficial use,โ the court wrote. In other words, speculating on water was unacceptable. Judges in other states soon adopted similar rulings, creating a precedent that some legal scholars have called โthe Vidler doctrine.โ
Vidler tunnel entrance and exit, Summit County side of range. Date: [1900-1905]. Summary: An “X” on the image marks the spot of the Vidler tunnel portal in a gulch above timberline, Summit County, Colorado. Men pose near a log cabin in the foreground. Photo credit: Brandes, Juan F via Denver Public Library
About 15 years later, the Vidler tunnel and its water rights fell into the possession of one John Hart, a swashbuckling financier who was beginning a decades-long corporate takeover spree. Hart and his business partner had just taken over the Physicians Insurance Company of Ohio, or PICO. They transformed the moribund Midwestern insurance company into an umbrella corporation for buying and flipping distressed assets, including a Swiss railway operator, an Australian oil company, a million acres of rural land in Nevada, and a canola-seed crushing facility.
The Vidler tunnelโs history gave Hart an idea. He lived near San Diego, which relies in part on the Colorado River, and he could see that water was only going to get more valuable across the region, especially if real estate kept booming. Many farmers who had fallen on hard times were selling their irrigated land to developers, who repurposed irrigation water to supply new homes and golf courses. Hart wanted to profit from this slow transition away from agriculture, and he thought he saw a way to do it: Buy up water rights in the driest states, wait for the rights to rise in value, and sell them later on to developers that needed them for new housing. As long as the population of the West continued to increase, the price of water would increase as well โ and with it PICOโs investment profits.
By acting as a broker for water rights, the PICO subsidiary that Hart called Vidler Water Company could get around the anti-speculation doctrine invoked in its very name. The tunnel engineer had sought to hold onto his water rights and make money by selling water to people who needed it. Vidler would just buy and sell the water rights themselves. This amounted to an elegant form of arbitrage: If a water right was worth more to a developer than it was to a farmer, Vidler could profit by flipping the right from the latter to the former.
The only problem was that Hart didnโt know very much about the nitty-gritty details of water law, and he knew even less about the science of hydrology. In order for his plan to work, he had to find someone who could handle both. That someone was Dorothy Timian-Palmer, an engineer who had been Carson Cityโs municipal utilities director for around a decade before Hart poached her in 1997. Timian-Palmer declined to speak with Grist, but several sources who worked with and against Vidler described her as one of the nationโs foremost water experts.
โShe is the most knowledgeable person about water in the country,โ insisted Hart in an interview. He recalled how he and Timian-Palmer used to attend investment conferences where skeptical audiences heard the legendary oil tycoon T. Boone Pickens talk in vague and confused terms about his water investments. But when Timian-Palmer took the stage, introduced herself as a water engineer, and started rattling off facts about hydrology and hydraulics, all the attendees perked up and started taking notes.
โSheโs very smart, very shrewd, and very tough,โ said Paul Hultin, a lawyer who sued Vidler over one of its later projects in New Mexico.
Armed with an infusion of cash from PICO, Timian-Palmer and a small group of Nevada-based lawyers and engineers set about flipping water. They bought agricultural water rights along a river in Colorado and sold them to Denver-area developers. They bought tens of thousands of acres of farm- and ranchland in Arizona, Idaho, Nevada, and New Mexico and either sold the water rights to urban utilities, leased them back to farmers, or sold the land to developers. In one case the company made a fivefold profit after six years.
Credit: Grist / Jessie Blaeser
When developers wanted to use the water theyโd just acquired on former farmland, they could fallow the irrigated fields and start pumping water into their subdivisions and power plants, fueling further housing expansion. Marc Reisner, the journalist who wrote that โwater flows uphill towards moneyโ in his seminal book Cadillac Desert, also joined Vidler for a few years as a part-time political consultant, believing the companyโs projects could enable growth while avoiding the construction of harmful new reservoirs and dams.
In other cases, Vidler chose to sit on the water it acquired until its value went up. In California and Arizona, the company bought and stored water in so-called โunderground storage facilities,โ artificial aquifers that serve as subterranean reservoirs. The cities and farmers who typically use these kinds of water banks are usually trying to squirrel away water for use during dry years, but Vidlerโs goal was to profit on the gradual increase in water prices.
In Californiaโs agriculture-heavy Central Valley, for instance, the company took partial ownership of an artificial aquifer, then flipped its share to real estate developers and water utilities, making $25 million off the transaction in just a few years. In Arizona, meanwhile, the company built its own large storage facility west of Phoenix and filled it with more than 250,000 acre-feet of water from the Colorado River. (An acre-foot is equivalent to around 326,000 gallons, or roughly enough water to supply two homes for a year.) Vidler executives wrote in a 2004 financial statement that โcontinued growth of the municipalities surrounding Phoenixโ and โthe low level of Lake Mead,โ the largest Colorado River reservoir, were both โlikely to increase demandโ for the water.
No one has ever accused the company of breaking the law with these transactions, but its strategy clashed with the legal principles established in the 1979 ruling against the original Vidler tunnel scheme. In order for Vidler to secure new water rights, it had to identify a โbeneficial useโ for each water source it wanted to claim. The company would tell state regulators that it wanted to use each given water right to supply a power plant, or a suburban development, or a farm. In its own financial statements, though, the company made it clear that using water was merely incidental to the companyโs mission.
โVidler seeks to acquire water rights at prices consistent with their current use, with the expectation of an increase in value if the water right can be converted to a higher use,โ the company said in a 2001 annual report. โVidlerโs priority is to develop recurring cash flow from these assets.โ
Rural housing in Dayton, Nevada, east of Carson City. Vidler owns water rights in the area and has sought to market them to developers. Grist / Mikayla Whitmore
Kyle Roerink, a water-conservation advocate who runs the nonprofit Great Basin Water Network, told Grist that heโs observed Vidler trying to find ways around the โbeneficial useโ doctrine for almost a decade.
โItโs a model where youโre trying to squeeze blood, profits, and water from stone, and theyโve been pretty successful at it,โ he said. โ[Theyโre] pushing the boundaries and testing the limits of what the foundational principles of Western water law are. Itโs among the most dangerous elements of capitalism at play here.โ
Indeed, Vidlerโs loose regard for beneficial-use requirements has sometimes landed the company in hot water. In 1999, Vidler asked Nevada officials for permission to pump around 2,000 acre-feet of groundwater in Sandy Valley, a remote community of trailers and tumbleweeds about an hour southwest of Las Vegas. Vidler claimed to be applying for the water on behalf of a real estate company in Primm, a casino town on the California border. It laid out a far-fetched plan to build a pipeline that would move Sandy Valleyโs water down to Primm across 25 miles of mountains, allowing developers to build housing and a theme park. The state government gave Vidler only some of the rights it asked for โ but it amounted to almost as much water as the entire town of Sandy Valley used at the time.
When Sandy Valley residents heard about the project, they were furious. The areaโs aquifer was already overdrawn thanks to a number of irrigated farms nearby. Residents depended on shallow household wells for their water, and they were terrified that those wells would go dry if the state let Vidler take its share.
โVidler is a four-letter word here in Sandy Valley,โ Al Marquis told me when I visited the town in February. A retired real estate lawyer who sued to stop Vidler on behalf of his town, Marquis is a quintessential Sandy Valley personality: He wears a ten-gallon-hat, flies amateur planes, and writes books of what he calls โcowboy poetry.โ He recalled that a Vidler representative who showed up at a public meeting about the application found himself greeted by shouts and death threats from angry residents, who reminded him in no uncertain terms that nearly everyone in the valley owned a firearm.
In 2006, a judge overturned the state governmentโs decision to grant Vidlerโs application, ruling that the company hadnโt proven it could put Sandy Valleyโs water to beneficial use. Vidler claimed that the Primm real estate company needed the water to build apartments and a theme park, but the company couldnโt demonstrate that any of that development was really going to happen โ the main evidence it had was a one-page wishlist drafted by the real estate company itself. In the absence of a clear beneficial use, the judge wrote, Vidler had no claim to Sandy Valleyโs water, and the state had erred in giving the company permission to pump.
โIt appears to me that the company was formed for the sole purpose of speculating in and the hoarding of a public resource,โ Marquis told Grist. He hypothesized that Vidler never wanted the water for Primm at all, and instead just wanted to flip it to someone else later on. โI gotta give them credit, in that they had foresight.โ
Timian-Palmer and her fellow executives saw that the West didnโt have enough water, and they knew that was good news for Vidler: As drought got worse, the companyโs assets would only get more valuable.
As the nationโs housing market boomed in the early 2000s, Vidler evolved. Instead of just buying and selling water rights that were already in use, the company began to search for unclaimed groundwater in remote parts of Nevada. It drilled new wells to bring that water to the surface, built new infrastructure to move it toward big cities like Reno and Las Vegas, and marketed it to developers and utilities. If Vidler could sell a new water source for more than it cost to develop and transport the water, the company would turn a profit.
โThere seemed to be a void in terms of developing new supplies of water,โ said Hart, explaining the opportunity. โGovernments donโt really like to spend money for future citizens or future residents, and developers donโt want the upfront risk of having to go out to develop water for projects somewhere down the road.โ
Updated Colorado River 4-Panel plot thru Water Year 2022 showing reservoirs, flows, temperatures and precipitation. All trends are in the wrong direction. Since original 2017 plot, conditions have deteriorated significantly. Brad Udall via Twitter: https://twitter.com/bradudall/status/1593316262041436160
At the same time, major water sources like the Colorado River were showing signs of vulnerability as the region entered its current climate-fueled megadrought, lending more urgency to the search for untapped water.It could take years to secure regulatory approval for new groundwater pumping and even longer to build infrastructure to move that water around. Hart and Timian-Palmer were some of the only people in the West with the capital and expertise needed to pursue this kind of project.
The companyโs first major experiment was a public-private partnership with a massive rural county about an hour north of Vegas. Lincoln County is one of the most sparsely populated counties in the nation โ its population of 4,500 occupies a land area larger than Massachusetts โ but it also boasted a hoard of untapped groundwater, most of which no one had ever tried to use.This water sits in some of the stateโs shallowest and most remote aquifers, where it has accreted over thousands of years beneath chalk-white valleys.
In the late 1980s, Las Vegasโs powerful water utility filed applications for almost all of Lincoln Countyโs unused water, more than 100,000 acre-feet in total, and proposed to build a pipeline that could bring it to Sin City. Officials in Lincoln County were still trying to fend off the big city when Vidler showed up and offered to act as a white knight. The company said it would invest millions of dollars to find and pump the countyโs groundwater resources while also protecting those resources from Las Vegas. In exchange the company would get half the proceeds from any water the county sold.
Depending on whom you ask, this was either a boon for an impoverished rural county or a corporate takeover of a public resource. Wade Poulsen, the county employee who runs the water partnership, told Grist that Vidler had been โfantasticโ and claimed that the county โwould be nowhere without them.โ But conservationists allege that Vidler was mining Lincoln Countyโs resources for profit.
โVidler has turned Lincoln County into a water colony,โ said Patrick Donnelly, a conservation biologist with the nonprofit Center for Biological Diversity who has litigated against groundwater usage in Nevada. โThey own some serious water up there, and thereโs this ideology of, โThis water exists for us to benefit economically from it.โโ
The business thesis for the Lincoln-Vidler partnership was based on the assumption that the growth of Las Vegas would one day extend so far that it crossed the border into Lincoln County, more than 50 miles away from the cityโs downtown. In the heady days of the early 2000s housing boom, this seemed like a real possibility; a number of real estate developers had staked out housing projects that could use Lincoln Countyโs water.
Chief among them was Harvey Whittemore, a friend of the late Senator Harry Reid and powerful casino lobbyist, who agreed to buy 1,000 acre-feet of water rights from Vidler in 2005. Before he went to prison for campaign finance violations in 2014, Whittemore spent more than a decade trying to build a megadevelopment called Coyote Springs in Lincoln County, pitching it as a desert metropolis that would someday contain 160,000 homes.
Highway 93 near Coyote Springs, Nevada, where the casino lobbyist Harvey Whittemore tried to use Vidlerโs water to build a massive desert city. Grist / Mikayla Whitmore
He managed to build a golf course on the development site, but a regulatory battle subsequently derailed the project and Whittemore never used Vidlerโs water. Whittemoreโs green, which was designed by golf legend Jack Nicklaus, still stands by itself on an empty desert highway, flanked by a massive sign announcing the future site of Coyote Springs, which another company is still trying to push forward. A tortoise habitat sits just a few feet away.
โThey said at first they were gonna provide water for everybody, but the only people that [the Lincoln County partnership] ever actually tried to develop water for were [real estate developers],โ said Louis Benezet, a longtime county resident. He said the water district initially discussed agricultural projects and growth opportunities in the countyโs small towns, which were more attractive to county residents, but later focused on exporting water toward Vegas.
Timian-Palmer also pursued a similar strategy in fast-growing Reno in the early 2000s, targeting a property called Fish Springs Ranch about an hour north of the city. The land under the ranch contained enough groundwater for thousands of homes, and officials in the Reno area had long eyed it as a water source that could reduce the cityโs reliance on the Truckee River, which drains out of Lake Tahoe. Instead of asking the local utility to help with the costs, as past entrepreneurs had, Vidler used private capital to push the project forward.The company built a pipeline that snaked through 28 miles of hilly terrain, ending in a cluster of valleys that were primed for future construction.
It was a transaction only Timian-Palmer could have managed, and one that demonstrated Vidlerโs clout on water issues: Getting permission to build the project required conducting multiple federal environmental reviews, placating officials in multiple states, negotiating with the nearby Pyramid Lake Paiute Tribe, and passing a bill to ratify the details in Congress. Even after spending almost $100 million to permit and build the project, Vidler still stood to profit by selling the water to developers in Renoโs suburbs โ there were almost no alternative water sources in the valleys north of Reno, so Vidler would be able to set the price.
Alas, Hart and Timian-Palmer had terrible timing. Just as the companyโs projects in Reno and Vegas seemed to be taking off, the U.S. housing market started to wobble, led by a wave of foreclosures in Nevada and other Western states. When the market collapsed, builders and developers nixed all their suburban development projects, sold off their land, and pulled out of their agreements to buy water from Vidler. The company had moved heaven and earth to secure water for Nevadaโs future growth, but that growth seemed to evaporate overnight.
โWhen Vidler started construction on the pipeline project, essentially, all of the water was spoken for,โ said John Enloe, an official at the water utility that serves the Reno area. Enloe worked with Vidler on the pipeline project. โBy the time construction was completed, the Great Recession hit, and everyone backed out. There just wasnโt a need for the water.โ
Even as the housing market started to rebound from the Great Recession, Vidler spent much of the next decade running up against a very simple problem: The company had spent millions of dollars to develop new water resources across the West, paying to drill test wells and fill out lengthy water-right applications with the state government, but it couldnโt find buyers for all the new water it had developed.
That was in part because regulators had started to question the logic of growth. By the time the Western real estate market surged back to life in the late 2010s, the megadrought that gripped the region was well into its second decade. Major reservoirs in the Sierra Nevada and the Colorado River were bottoming out, and many rural communities were starting to see their wells go dry. This shortage had begun to stoke new concerns about overreliance on groundwater, and Vidler soon found itself facing new opposition from courts and regulators.
In a sign of its commitment to aiding development, Vidler fought back against these restrictions with a vengeance, litigating and lobbying to ensure its projects could move forward.
A case in New Mexico demonstrated how aggressive the company could be in snapping up water. In the early 2000s, as Vidler was looking to expand into the state, Timian-Palmer connected with a rancher named Rob Gately. Gately owned a large chunk of land in the mountains east of Albuquerque and was seeking to build a big suburban development on the empty parcel. The area was far from prime real estate: It boasted a few dozen houses scattered across a stretch of wind-blown desert, but nothing else in the way of commerce. At least one other proposed development had already fallen through. Even so, Vidler offered to help Gately secure water. It applied to the New Mexico state government for permission to pump 700 acre-feet of water from the area aquifer, spending almost $6 million during the application process.
But Vidlerโs own models showed that water use from the new development would cause water levels in the aquifer to drop, endangering residential wells. โPeople are already having problems with water, and thatโs well-known here,โ said Joanne Hilton, a hydrologist who lives in the area around the proposed development site and relies on a household well.
By 2017, residents had taken Vidler to court in an attempt to stop the project. Several key executives had to take the stand, including Timian-Palmer and her longtime right-hand man, executive vice president Steve Hartman. During a series of testy depositions, it emerged that Vidler seemed to be stretching the truth about the โbeneficial useโ it planned for the water. The company claimed that Gately was the mastermind behind the development, but the Montana holding company he was using for the project had been dissolved and no one from Vidler seemed sure about where he was based.
During one deposition, the lawyer for the area residents asked Hartman if he could provide specifics about how Vidler wanted to use the water. Just what kind of development was Gately trying to build, and how much water would it need? Hartman struggled to answer.
โSo assuming that you get the permit and the case becomes final, then at that point you and Mr. Gately are going to sit down and talk about whatโs next, is that right?โ the lawyer asked.
โYes,โ Hartman said.
โAnd at this point you have no idea what that is?โ the lawyer asked.
โI do not,โ Hartman replied.
Two years later, the court tossed out Vidlerโs application, ruling that the project would have risked taking water away from area residents and would conflict with New Mexicoโs statewide goals for water conservation.
Faced with obstacles like these, Vidler had to go on offense. The company donated more than $275,000 to Nevada political candidates between 2008 and 2022, increasing its annual contributions in the years that followed the Great Recession. Hartman became a fixture in the Nevada legislature, lobbying on dozens of water bills, many of them concerned with obscure points of water law. During the present legislative session, as the company prepares to defend its water interests in Lincoln County, it has hired Nevadaโs premier lobbying firm, whose other clients include Amazon and Uber.
In recent years, Timian-Palmer and Hartman have tried to scrape value from Vidlerโs water assets wherever they can. They sold off some of their banked Arizona water to a golf course in a Phoenix suburb, making a more than threefold profit. They returned to Sandy Valley in 2016 to apply for water on a different patch of land, only to run into trouble once again with Marquis, who discovered that the company hadnโt told an area landowner it was going to apply for the water under his land. In litigation over the Coyote Springs development in Lincoln County, they conducted geological testing to prove that they should be able to tap an aquifer the state had deemed too vulnerable, alleging the existence of an underground fault they named โDorothyโs Fault,โ apparently after Timian-Palmer. They even went so far as to demand that Nevada cut off water deliveries to a town near a basin where Vidler had been prevented from pumping water, arguing that the town shouldnโt get to use water, either.
โTheyโre engaging in these processes for one reason and one reason only, and thatโs to one day make money,โ said Roerink, the water conservation advocate.
Neither Vidler nor D.R. Horton responded to extensive requests for comment on this story. Dorothy Timian-Palmer initially agreed to an interview in response to a request from Grist, but a Horton spokesperson later said that the company wouldnโt be participating in the story. After Grist visited Vidlerโs office in Carson City, a Horton spokesperson offered to respond to a list of questions, but company representatives failed to do so before publication.
Even as Vidler sought buyers for its water rights, PICO went through a shakeup: Shareholders grew dissatisfied with Hartโs high salary and with the slow return on their investments. They ousted Hart and replaced him with a new chairman who soon cut costs, selling off PICO subsidiaries. Vidlerโs assets were more difficult to cash out: The company had spent tens of millions of dollars on water projects like the ones near Reno and Albuquerque, and it wasnโt clear when those projects would start making money. The easiest way to make the companyโs shareholders whole was for another company to buy Vidler outright.
Timian-Palmer and her fellow executives started trying to find a buyer as early as 2017, when they hired a bank to solicit potential offers, according to a corporate filing. The bank contacted more than 150 different potential buyers, but none of them showed much interest. The main problem was that nobody seemed to be interested in acquiring Vidler wholesale. As the search continued, it became clear that Vidler needed a company that wanted to use its executivesโ water expertise, not just sell off the assets Timian-Palmer had acquired โ in other words, a company that needed Vidler as much as Vidler needed it.
It took a few more years and a millennium-scale drought, but in the final months of 2021, Vidler found a company that could finally make its development dreams a reality.
D.R. Horton is a tight-lipped company, and it didnโt say much about its purchase of Vidler. In a press release published on the day of the acquisition, the company noted that โVidler owns a portfolio of premium water rights and other water-related assets โฆ in markets where D.R. Horton operates.โ A few weeks later, when a stock analyst asked about the purchase on an earnings call, an executive replied that โwe put out pretty much what weโre going to say about Vidler in the press release.โ
Even so, the logic of the transaction was apparent: The places where Vidler owned substantial water rights were also places where Horton was building homes. At a shareholder meeting in 2021, Timian-Palmer told investors that Horton was โmoving like gangbustersโ in the north suburbs of Reno, planning multiple subdivisions that could purchase water from Vidlerโs long-dormant Fish Springs Ranch pipeline. The valleys north of Reno are now home to a horde of uniform subdivisions, most of them sandwiched against each other just off the freeway. Many of the largest belong to Horton. If the cityโs recent growth spurt continues, Vidlerโs pipeline will be the only available water source for future builders.
Horton is also building several developments east of Carson City on a fast-growing industrial corridor near a Tesla factory. In a 2021 financial statement, Vidler noted that โthere are currently few existing sustainable water sources to support future growth and developmentโ in that corridor, except for Vidlerโs own supplies. Horton also has numerous active projects in central Arizona, where Vidler has banked almost 300,000 acre-feet of water underground. Together, the two companies have everything they need to capitalize on the Westโs post-pandemic population boom.
Vidler has always operated more like a fixer than a financial trader, not just flipping assets but developing new water resources in the driest areas. Several sources who spoke to Grist theorized that this was why Horton paid so much to acquire the company.
โIf youโre a homebuilder, your best option is to do what Horton has done โ go out and find more supply,โ said Grady Gammage, a real estate lawyer who has represented Greenstone, another water broker founded by a former Vidler employee, and several homebuilders. โWhat Horton is likely thinking is that youโre faced either with doing a deal [to get new water], or trying to build that expertise in-house.โ
The future of the West depends on whether, and to what extent, these companies can secure these deals and expertise in the face of new regulatory restrictions and supply constraints.
Nowhere is this dynamic clearer than in the western suburbs of Phoenix, where developers and builders have thrown up tens of thousands of homes that rely on groundwater from fragile aquifers. Earlier this year, Arizonaโs new governor released a study that showed the area has much less water available than was previously thought. State law requires developers to show that proposed homes have a hundred-year water supply, and officials have now decreed that there isnโt enough groundwater in the area to provide for any more new subdivisions in the southern and western outskirts of the city.
This has left several gigantic development projects stuck in limbo, including ones with which Horton was involved. It has also forced developers and homebuilders to look for alternate sources of water, including from underground storage facilities like Vidlerโs. The companyโs biggest underground aquifer contains enough water to supply about 2,000 homes for a hundred years each.
โItโs a challenge to find other supplies right now, to say the least,โ said Spencer Kamps, vice president of legislative affairs at the Central Arizona Home Builders Association, which advocates for builders and real estate. โA number of investments have been made out in the area under the assumption that there was water available for growth.โ But many people in the industry now worry that those assumptions were mistaken.
You wouldnโt know it from visiting the area. Earlier this year, I presented myself as a potential home buyer in the Phoenix suburbs where the state has identified a groundwater shortage, touring several Horton developments. These developments are tight clusters of cookie-cutter homes, surrounded for the most part by empty desert or isolated alfalfa fields. Construction appears to happen rapidly: As I drove through the developments, I found myself slipping back and forth between streets full of finished homes with xeriscaped lawns and streets where construction crews were still hammering at open timber frames.
In speaking with Horton sales representatives on my tours, I asked about water access, saying Iโd heard there were issues in the area. The representatives brushed off my concerns, saying they โtry to stay out of politics,โ or that they โdonโt believe they would allow growth out hereโ if there wasnโt enough water.
That is far from certain. Timian-Palmer and her colleagues have spent decades finding water sources for suburban developments like these. While the homes they helped build will last for many decades, the water that supplies them may not. Without ample rain to replenish them, the small and fragile aquifers that Vidler has tapped could someday empty out, leaving future homeowners high and dry. This has already started to happen in rural parts of the West where agriculture is dominant, and it may ultimately happen to the suburban developments Vidler is now helping to build.
Mike Machado, a former California state senator who served on PICOโs board of directors between 2013 and 2017, said the companyโs business model makes him worried for the future of those developments.
โThe biggest challenge for Vidler is whether or not the resources they have are renewable,โ he told Grist. โItโs great to be able to have these resources, but if all youโre doing is mining them, at some point in time, youโre not going to have them. So that is creating a false sense of security for those that are relying on the resource.โ
Hortonโs sales representatives in Arizona have no such misgivings. For the moment, at least, the building boom is very much alive.
โIf we continue to grow out here, the people living here will have water,โ one sales representative told me. โWhat, are we just not gonna have water when we turn our faucet on?โ
Pump jack and noise barrier. Photo credit: Allen Best/Big Pivots
Click the link to read the article on the Big Pivots website (Allen Best):
Colorado 350 has set out to ask Colorado voters in 2024 to phase out new oil and gas leasing before 2031. Why so soon?
350 Colorado and associated groups coalesced as Safe & Health Colorado have launched an effort that members hope will result in a ballot proposal in the 2024 general election.
If successful, this ballot initiative would end new oil and gas permits issued on lands governed by state government before the end of 2030.
Micah Parkin
In an interview with Big Pivots, Micah Parkin, the executive director of 350 Colorado, said her group has been buoyed by polling that shows Coloradans are โvery concerned about the impacts of the climate crisis that we see in our state.โ Too, she added, โwe feel this plan aligns with what scientists around the world are calling for, to phase out fossil fuels and move toward renewable energy.โ
In 2021, Colorado was responsible for 3.7% of crude oil extraction in the United States, fifth among states. Texas was first at 42.4% and New Mexico second at 11.1%.
This is from Big Pivots 73 (April 27, 2023). Please consider subscribingโor, just maybe a donation?
Colorado ranked seventh in natural gas production. It is responsible for 4.9% of the nationโs production.
โWe really need to be dealing with our contribution to the climate crisis,โ she said.
An additional impetus is more localized. Oil and gas drilling has a substantial contribution in creating high ozone levels during summer months.
Organizers have created two, overlapping draft proposals, unsure which one they will eventually seek to put before voters. They will use polling to evaluate which one is most likely to be approved.
One measure would specifically target oil and gas operations that use hydrofracturing technology, i.e. โfracking,โ and the other more broadly all oil and gas drilling.
Both proposals have been submitted to the Legislative Council as required by state law. The state agency is required by law to โreview and commentโ on initiative petitions, basically to ward off confusions and make sure the proposals conform to state law.
In their first draft, the proponents said they wanted to phase out and discontinue the issuance of new oil and gas operation permits by the stateโs Colorado Oil and Gas Conservation Commission by Dec. 31, 2030. The Legislative Council asked whether those permits would be effective beyond this deadline or would there be expiration dates?
The reviewers at the Colorado Capitol also suggested using โgases,โ the more familiar spelling, instead of โgasses.โ
And then the law requires a single title for the bill? What would that title be?
The Legislative Council also recommended addressing the loss of severance taxes on oil and gas extracted, as those severance taxes are used to fund a wide variety of programs in Colorado, half to water projects and other natural resource management programs, and the other half to local governments.
The draft language also calls for a โstate program to explore transition strategies for oil and gas workers.โ
Legislative council reviewers responded: โIs the new program intended to merely โidentifyโ funding sources for workers and communities to access on their own OR is the program intended to provide funding to assist workers and communities?โ
Ballots for the November 2024 election wonโt go out until October 2024, still more than 17 months away. Why the effort now?
Parkin points to the necessary legwork, including signatures for petitions for the measure, whatever is finally chosen, to go on the ballot. โIt will be more affordable and there will be less competition with other campaigns.โ
Why not seek a legislative remedy instead of going directly to voters?
โWe actually have been proposing it as legislation, and there was a legislator willing to cover it, but was unable to get leadership approval to move a bill forward. It was a bill just to study the phase-out, what it would be like. And our governor (Jared Polis) really has not shown much interest in reining in the oil and gas industry. The Colorado Oil and Gas Commission has permitted more than 5,000 wells since he has been in office (starting in January 2019), about 1,000 a year. He really has shown no interest. We have talked with different staff members and have gotten no interest, even though (the oil and gas sector) is a massive source of greenhouse gases and runs in opposition to our emission goals and our air quality goals.โ
Downsides? โIt takes a lot of effort, itโs expensive, and it takes a lot of fundraising. Unfortunately we donโt have the money of the fossil fuel industry.โ
Allen Best is a Colorado-based journalist who publishes an e-magazine called Big Pivots. Reach him atย allen.best@comcast.netย or 720.415.9308.
Click the link to read the article on The Denver Post website (Conrad Swanson). Here’s an excerpt:
Coloradoโs legislative leadership promised this year that the stateโs water problems would be the โcenterpieceโ of conservation efforts but their keystone proposal focused on the Colorado River and widespread drought plaguing the West is to study the issue further. At such a late stage in the drying American West, water experts tell The Denver Post that creating another study group amounts to procrastination while time is running out. And, they say, itโs unlikely that evaluating the drought โย exacerbated and made permanentย by climate change โ yet again will yield any new ideas.
Lawmakers introduced the bipartisan bill,ย SB23-295, late in their session. It is on its way to clearing the Senate and heading to the House of Representatives. Behind the measure are Western Slope Sens. Dylan Roberts, an Avon Democrat, and Perry Will, a New Castle Republican, Speaker of the House Julie McCluskie, and Marc Catlin, a Montrose Republican. The bill would create a 16-member task force, plus an advisory member, consisting of a cross-section of water users including representatives of the Department of Natural Resources, the Colorado Agriculture Commission, members of the Ute Mountain Ute and Southern Ute tribes, water commissions and environmental organizations.
On a day in late May [2022] when wildfire smoke obscured the throat of an ancient volcano called Shiprock in the distance, I visited the Ute Mountain Ute farming and ranching operation in the southwestern corner of Colorado. Photo credit: Allen Best/Big Pivots
Officials in Colorado could be doing far more, though, than convening another task force, Dan Beard, a former U.S. Bureau of Reclamation commissioner, said. He lambasted the proposal.
โIt isnโt a flop, itโs a belly flop,โ Beard said.
Once formed, the task force would begin meeting by July and by December recommend ways Colorado could counter drought in the Colorado River Basin and related inter-state commitments. The group would have broad leeway for the types of recommendations it could offer…While Colorado isnโt the biggest water user in the Colorado River Basin, it could still contribute meaningful water savings, [Dan] Beard said. For example, lawmakers could work to curb the amount of water piped out of the basin, Beard said. Major urban centers along the Front Range (like Denver) draw water from the river and move it across the Continental Divide to their taps. Farmers and Ranchers east of the divide also rely on Colorado River water. Trans-basin water transfers like those are problematic because all the water taken out of the basin is lost to the Colorado River forever. On the contrary, water used within the basin to irrigate crops will ultimately flow back into the river if itโs not absorbed by the plants.
Colorado transmountain diversions via the State Engineer’s office
Routt County Emergency Management is warning residents to expect flooding Thursday, May 4, into Friday, May 5, with the Yampa River anticipated to reach its highest level yet this season. Emergency Operations Manager David โMoโย DeMorat told Routt County commissioners on Monday, May 1, that the river had hit 6,500 cubic feet per second, and warm temperatures are expected to continue through the week, which could cause the river to reach 7,000 cfs by Friday. DeMorat said this amount of water for the Yampa River is considered โaction levelโ flooding by the National Weather Service. Action levels generally require municipalities to keep a closer eye on flooding and have potential mitigation plans and flood warnings in place…
To gauge what flooding will look like, the county uses snow-water equivalent gauges that provide estimates for the amount of snowmelt that could occur three to four weeks out. This looks at the amount of snow on the ground, but cannot predict at what rate it will melt. Because of this, no exact estimates can be given, as it is ultimately the weather and the freeze-and-thaw cycle that will determine at what rate the snow melts.
DeMorat explained to commissioners that these gauges show areas north of Steamboat and the Stagecoach Reservoir currently have the highest potential for flooding. Three snow-water equivalent gauges stationed north of Steamboat have helped emergency management identify these regions as problem areas for flooding due to the snowpack that could melt. All three are north of Steamboat with one near Dry Lake, one near Lost Dog Creek and another slightly farther northwest. DeMorat noted these locations range from 165-185% of the average snowpack. He told commissioners that Stagecoach Reservoir is another area of concern with 140% of its average snowpack.
Alongside the problem areas DeMorat named, the National Weather Service issued a flood warning for Elkhead Creek, particularly where the creek meets the Yampa River. This flood warning began on Monday and will end Friday unless communicated otherwise by the National Weather Service.
Street-side swale and adjacent pervious concrete sidewalk in Seattle, US. Stormwater is infiltrated through these features into soil, thereby reducing levels of urban runoff to city storm sewers. By U.S. Environmental Protection Agency – U.S. Environmental Protection Agency, Washington, D.C. “Managing Wet Weather with Green Infrastructure:Municipal Handbook:Green Streets” Document No. EPA-833-F-08-009, Public Domain, https://commons.wikimedia.org/w/index.php?curid=5921077
Click the link to read the article on the NOAA website:
The Mid-Atlantic Regional Integrated Sciences and Assessments (MARISA), a NOAA CAP/RISA team, principal investigators Jordan Fischbach, Debra Knopman, and Klaus Keller published a new tool to mainstream green infrastructure planning in the publication, โRhodium-SWMM: An open-source tool for green infrastructure placement under deep uncertainty.โ Green infrastructure measures are stormwater management practices that mimic natural hydrological processes that are used to mitigate negative impacts of urban development and climate change adaptation. While these practices are increasingly being used, there is a challenge to evaluate their effectiveness due to some deep uncertainties and require navigating tradeoffs between multiple objectives. Advanced decision-making tools and methods such as Robust Decision Making (RDM) and Many-Objective Robust Decision Making (MORDM) have been applied to green infrastructure sparingly, but there has still been a lack of open-source tools to support decision-makers.
The MARISA investigators have developed Rhodium-SWMM that connect two open source tools: the Stormwater Management Model (SWMM) and Rhodium, a Python library for MORDM. This new open-source Python library provides an interface for taking SWMM files and applying them to a wide range of parameters identified as uncertainties or levers. . It helps to efficiently search and sample GI decision alternatives and identify vulnerabilities in the system for better multifunctional solutions to future changes.
Debris and mud covers roads, trails, train tracks in Glenwood Springs https://t.co/ClIkWC56DB
— Summit Daily News (@SummitDailyNews) May 2, 2023
Click the link to read the article on The Summit Daily website (Cassandra Ballard). Here’s an excerpt:
After a quick weather jump from cold to warm over the past week, there have now been multiple areas of mud and debris flow throughout Glenwood Springs and the surrounding area due to the rapidly melting snow on Red Mountain and elsewhere. On Tuesday morning, a major debris flow blocked access to the wastewater treatment facility in West Glenwood, along with covering the Union Pacific Railroad train tracks in West Glenwood, causing a freight train to get stuck…
On Monday, local trails on Red Mountain and at Wulsohn Mountain Park, and on the higher trails of the South Canyon trail system were closed from mud flows, and the city was urging people to stay off the closed trails…
In addition, Garfield County emergency management officials reported late Monday that County Road 127 (3 Mile Road) was covered with water and mud and a private bridge was washed out at the half mile mark due to flooding on Three Mile Creek. Several residences were also being impacted. And, the Colorado Department of Transportation was reporting mudflow activity in Glenwood Canyon near Interstate 70.
Hi all, and thank you for joining Audubon Rockies and conservation photographer Dave Showalter for his multimedia journey through the living Colorado River! In his new book, Living River: The Promise of the Mighty Colorado, Dave shares the beauty of the watershed and a story of resiliency and resolution to continue the work for healthy watersheds. You can watch last weekโs virtual book launch event recording here.
The Colorado River existing management guidelines are set to expire in 2026. The states that draw water from it are about to undertake a new round of negotiations over the riverโs future. The use of the river will be renegotiated amid climate change, reduced snowpack, and water shortages, presenting an opportunity to ensure universal access to clean water for more than 30 federally-recognized Native tribes and make the allocation of the Colorado equitable as well as sustainable.
This May is a critical time to be a voice for the river, as the United States Bureau of Reclamation seeks public comment on the Draft Supplemental Environmental Impact Statement (SEIS) to the 2007 Interim Guidelines. This SEIS evaluates different scenarios to better balance water supply in the Colorado River watershed, which will impact ecosystem health in the Grand Canyon and other areas.
The stories, art, and lifeways that deepen our relationships to water are what build the collective voice for healthy rivers that benefit wildlife and people. The Mighty Colorado changes everything it touches, including us. Here are a few ways you can join the Living River conversation:
*Audubon members, as a special thank you, get a 20% discount by using the code “LIVINGRIVERLOVE” at checkout from Mountaineers Books.
Attend another book launch event or encourage a friend to attend one. The Living River book tour is traveling the West and has both in-person and virtual events.
Take action by May 30 and urge the Bureau of Reclamation to recognize the important links between human health, stable communities, and the environment and also implement measures that better balance water supply and protect the Grand Canyon ecosystem.
Presently, there is less water in the Colorado River system than at any time in recorded history, threatening the vitality of its ecosystem. But wherever there is water, there is abundant, dynamic life. As Dave Showalter says: โThe river is not dying. She flows with the same pure purpose as before we arrived.”
Thereโs no giving up on the Colorado for riverkeepers engaged in riparian restoration. The hard work ahead requires widespread engagement in our future, which begins with all of us asking: Where does our water come from, and who does it connect us to?
All my best and hope to see you downstream,
Abby
Updated Colorado River 4-Panel plot thru Water Year 2022 showing reservoirs, flows, temperatures and precipitation. All trends are in the wrong direction. Since original 2017 plot, conditions have deteriorated significantly. Brad Udall via Twitter: https://twitter.com/bradudall/status/1593316262041436160
Streamflows in the Roaring Fork basin are down from last week.
Aspen Journalism is now compiling real time streamflow data. At Stillwater, located upstream of Aspen, the Fork ran at 39.7 cfs on April 24 at 1:30 pm. In terms of trends, the Fork ran at 40.1 cfs or 65.7% of average on April 23 after reaching 65.6 cfs on April 19. Thatโs down from 55.2 cfs and 117.4% of average, on April 16.
You can find all the featured stations from the dashboard with their real-time streamflow on thisย webpage.
Credit: Laurine Lassalle/Aspen Journalism
The USGS sensor on the Roaring Fork river below Maroon Creek recorded the Fork running at 138 cfs on April 23, or 98.6% of average. Thatโs down from 164 cfs on April 16.
At Emma, below the confluence with the dam-controlled Fryingpan, the April 23 streamflow of 364 cfs represented about 78.3% of average. Thatโs down from 412 cfs, and 101.7% of average, on April 16.
The transbasin diversion that sends Roaring Fork basin headwaters to Front Range cities was flowing at 13.7 cfs on April 23, up from 5.9 cfs on April 16.
Meanwhile, theย Crystal Riverย above Avalanche Creek, which is not impacted by dams or transbasin diversions, flowed at 195 cfs, or 70.1% of average, on April 23. Last week, the river ran at 244 cfs, or 123.9% of average.
How many people does it take to get the Colorado-Big Thompson Project ready for the peak delivery season? For the Northern Water Operations Division, the answer is โฆ just about everyone.
Crews have been working throughout the winter to maintain the 80-year-old infrastructure and make the necessary repairs. Sometimes just decades of freeze-thaw action will create the need for repairs and replacements.
Why work so hard in the winter? Because water users expect consistent and reliable deliveries throughout the spring, summer and fall, meaning there isnโt room on the schedule to make repairs during warm, long days.
Map of the Colorado-Big Thompson Project via Northern Water
Registration includes access to the Watershed Summit, happy hour, refreshments, and entrance to Denver Botanic Gardens on June 22, 2023.This year, we’re excited to offer add-on optional experiences for those looking for somethingย special before the main event:Guided tour of water-wise gardens by Denver Botanic Gardens horticulturists: $10 (75 spots available)Eat within your watershed: Locally sourced lunch prepared byย SAME Cafรฉ: $20 (25 spots available)The Watershed Summit, or โShedโ as it is affectionately known, has become a Colorado tradition, gathering a range of stakeholders to discuss current and future water challenges and opportunities facing the state. This yearโs event will convene diverse voices and creative points of view toย explore waterย efficient landscaping, how youth environmental education is bridging geographical divides, federal involvement in western water issues, and so much more!ย
Shed โ23ย returns to a fully in-person event at Denver Botanic Gardens, concluding with the ever-popular happy hour event sponsored by Stem Ciders and Howdyย Beer.
This event is produced through a collaborative partnership between the One World One Water Center (a joint initiative of Metropolitan State University of Denver and Denver Botanic Gardens), Aurora Water, the Colorado Water Conservation Board, Denver Water and Resource Central.
We hope you’ll join us this summer for the return of the Watershed Summit!
CONTEXT: Iโve long been intrigued by Rico, a former mining town of about 300 people in the western San Juan Mountains in southwestern Colorado. On paper, Rico looks a lot like Silverton: It was platted in the 1870s on Ute land as a mining hub and flourished during its early years; it sits at about 9,000 feet in elevation, surrounded by high mountains; and it was serviced by a railroad built by Otto Mears.
Yet Rico, just 20 miles as the crow flies from Silverton, ultimately followed a far different trajectory. The 1893 Silver Panic hit both towns hard initially, but Silverton ultimately recovered and its mining industry continued to support a fairly healthy population until the early 1990s. Rico, not so much โ the population in 1890 was about 4,000; by 1900 it had shrunk to 811 and continued to ebb, bottoming out at just 75 in 1980.
Prior to mining, snowmelt and rain seep into natural cracks and fractures, eventually emerging as a freshwater spring (usually). Graphic credit: Jonathan Thompson
Mining in Rico didnโt collapse after the Silver Panic by any means. Throughout the decades, big and little firms gouged and tunneled, drilled and blasted, stoped and mucked, milled and smelted in the Rico Mountains. Sulfide-bearing iron pyrite โ the active ingredient in acid mine drainage โ is abundant here. So much so that in the 1950s the Rico-Argentine Mining Company and Vanadium Corporation of America began mining pyrite to produce sulphuric acid at a plant at the St. Louis Tunnel. The acid was used mainly for uranium processing at mills in surrounding lowlands. In 1980 Anaconda, a subsidiary of Atlantic Richfield, bought the Rico Argentine Mine site and surrounding lands with an eye toward molybdenum mining, but never actually pulled any ore out of the ground.
All of the mining activity permanently scarred the land, sullied the waters of the Dolores River, which passes through town, and contaminated town soils with lead. But it was never enough to revive the townโs early glory or population. Rico lost the Dolores County seat to the powerful Dove Creek pinto bean and Grange lobby in the 1940s, and the Rio Grande Southern railroad abandoned the community shortly thereafter.
Silverton, meanwhile, held onto its branch of the Denver & Rio Grande Western railroad, helping that town to become the backdrop of many a mid-century western film and a major tourist attraction. And the relatively prosperous mining industry there had left behind infrastructure to support the new economy. Despite its scenic location, mining history, and proximity to public lands, Rico never developed a strong tourist economy โ perhaps by design. In 1990 Silvertonโs population was about 800; Ricoโs was roughly one-eighth of that. But what Rico lacked in economic development it made up for with a rough and rustic sort of charm.
Over the years, various entities have hatched economic development schemes. In the 1980s, the Rico Development Corporation bought most of the Anoconda/Atlantic Richfield land and other property, compiling 1,800 acres of patented mining claims and hundreds of in-town lots (and in so doing took on responsibility for water treatment at the old Rico-Argentine mine site, which didnโt end so well). Real estate developer Rico Renaissance acquired the land in the mid-1990s and worked with Rico officials to come up with a grand plan to revive, spiff-up, and build out the infrastructure needed to substantially grow the old mining town. Meanwhile, economic exiles from Telluride โ 26 miles and one mountain pass away โ began moving in and opening a few businesses, including a live music venue that attracted folks from around the region.
Rico Renaissanceโs plans fell apart in 2007 for various reasons, and they tried to sell the land to Bolero Mining, which wanted to build a molybdenum mine nearby, to the dismay of some and delight of other locals. The effort failed, in part because the global financial crisis diminished demand for minerals, in part because opening a new mine in this day and age ainโt easy. As if to drive home the point, in 2011 the Environmental Protection Agency ordered Atlantic Richfield Company (ARCO) to clean up the Rico-Argentine Mine site just north of town; it had been oozing high concentrations of zinc and other heavy metals into the Dolores River since the mid-1990s. The company has spent at least $63 million on the effort so far, even though it never made any money off of the property.
What was left of Rico Renaissance became Disposition Properties, which continued to toy with developing the properties, but never progressed very far. Meanwhile Ricoโs population has continued to grow, albeit slowly, and real estate prices have climbed. There are no homes in Rico listed for sale on Zillow, just a couple of lots priced around $200,000. But a 12-bedroom log-cabin monstrosity a handful of miles downriver from town is priced at $2.95 million. Still, the place isnโt what Iโd call gentrified in any pervasive way; it retains its small-town funkiness. I passed through there last Fourth of July and was delighted to see the aftermath of a down-home parade and just dozens of folks milling about the sidewalks eating burgers (as opposed to the thousands that mob Silverton on the Fourth).
Map via The Land Desk.
Last April, Disposition finally threw in the towel and put 181 parcels covering 1,146 acres on the market for $10 million. Telluride Properties, the listing agent, marketed the property โ and its potential โ aggressively. It touted its geothermal properties (hot springs resort), the space for 300 new homes, potential for a land swap with the Forest Service, a parcel for a riverside lodge, and so on. It even suggested the possibility of building a chairlift, perhaps to access a Silverton Mountain-esque backcountry ski area. It did not mention the Superfund site or lead contamination; lack of infrastructure; floodplains and other geologic hazards; or Ricoโs 2004 master plan objective of avoiding a โpredominant resort character.โ
Many locals were not amused. A resort and hundreds of new homes would certainly bring jobs and money to the area, but it would also completely overwhelm the existing community and smother its scrappy spirit. Rico townsfolk only needed to look around the region to see that amenity-economy-based prosperity has its downsides, ranging from housing crises to the widening abyss between the ultra-wealthy and everyone else.
Rico still may get gentrified, but the threat of it becoming a glitzy destination resort appears to have subsided. On April 5, the Dolores County clerk recorded a real property transfer and a special warranty deed conveying dozens of Disposition Propertiesโ parcels to Atlantic Richfield. While the property transfer document remains under wraps โ itโs labeled a โsensitive documentโ โ the warranty deed includes a list of what appears to be all of Dispositionโs remaining properties. The transfer fee is listed as $778.94, indicating that the sale price was about $7.79 million.
We werenโt able to get in touch with anyone at Atlantic Richfield โ now the valleyโs largest landowner โ about the purchase or their intentions. We can rest assured, however, that they arenโt going to be building a Rico Mountain mega-resort. Rico Town Manager Chauncey McCarthy said the mining company likely will hold onto contaminated and mining-impacted claims in order to remediate and reclaim them (which is probably why they bought the property in the first place). They may sell off other parcels and have expressed an interest in working with the town to make use of the in-town properties. The Montezuma Land Conservancy reportedly wanted to buy the property and put conservation easements on some parcels while possibly building affordable housing on others. Those kinds of scenarios seem far more likely now.
Rico, undoubtedly, will continue to grow. But what that growth looks like and how fast it will occur seems now to be far more within the control of the community and its residents.
CONTEXT: The Nevada firm and its many associated companies (Blackstone, Anson, etc) has been staking claims like crazy in the region, as reported by the Land Desk over the last six months or so, and has big plans to extract and mechanically process lithium. Last September, the Moab BLM office approved A1โs proposal to drill two exploratory wells (actually, to reopen abandoned oil and gas wells for exploratory purposes) near the road to Dead Horse Point State Park and Canyonlands National Parkโs Island in the Sky unit. Southern Utah Wilderness Alliance appealed the decision.
The Utah BLMโs acting state director Anita Bilbao decided to set aside the permit. Bilboa ordered the Moab Field Office to re-open its analysis to โaddress SUWAโs concerns regarding a reasonable range of alternatives and to complete additional analysis regarding the cumulative impacts to water quantity.โ
A1/Anson also has the Green River Project in the worksย north of the aforementioned wells. In March, the company announced it hadย filed a notice of intentย with the BLM to drill three exploratory wells there.
Prior to 1921 this section of the Colorado River at Dead Horse Point near Moab, Utah was known as the Grand River. Mike Nielsen – Dead Horse Point State Park
Mauna Loa is WMO Global Atmosphere Watch benchmark station and monitors rising CO2 levels Week of 23 April 2023: 424.40 parts per million Weekly value one year ago: 420.19 ppm Weekly value 10 years ago: 399.32 ppm ๐ท http://CO2.Earthhttps://co2.earth/daily-co2. Credit: World Meteorological Organization
The LMDT is west of Hwy. 91 north of Leadville. Forest, wetlands, and a small neighborhood are located nearby. Photo credit: Reclamation
Click the link to read the release on the Reclamation webiste (Anna Pereaย and Elizabeth Smithย ):
LOVELAND, Colo. โ The Bureau of Reclamation announces a $56 million investment from the Presidentโs Investing in America agenda for the construction of a replacement Leadville Mine Drainage Tunnel Treatment Plant. Originally built in 1991, the plant removes heavy metals from contaminated water caused by mining operations in the Leadville area. It has since reached its service life, and this investment from the Bipartisan Infrastructure Law will ensure the plant continues to protect water supply
The Department of the Interior recently announced a nearlyย $585 million investment from the Bipartisan Infrastructure Lawย for infrastructure repairs on water delivery systems. Funds will support 83 projects across all five Reclamation regions, including the Leadville Mine treatment plant.
Since 1991, the treatment plant has operated to remove lead, zinc, manganese, iron, and other heavy metals from contaminated water that flows from the 2-mile-long Leadville Mine Drainage Tunnel. The plant sends 650 million gallons per year of treated, clean water to the headwaters of the Arkansas River in accordance with Environmental Protection Agency guidelines.
โThe replacement of the treatment plant represents one of the key priorities that the Bipartisan Infrastructure Law is intended to accomplish, protecting our water supplies for people and the natural environment,โ said Jeff Rieker, Eastern Colorado Area Office Manager. โThis funding will allow us to replace aging infrastructure that is critical for continued protection of the water resources of the Arkansas River, benefitting both the river itself, as well as the people who rely on it for a wide range of activities and uses.โ
At present, the treatment plant has surpassed its expected service life of roughly 30 years. Over the next several years, Reclamation will construct a new treatment plant that incorporates knowledge gained over the past three decades, focuses on safety and improves the plantโs visual impact.
โThe new plant will provide a longer service life and continue Reclamation’s commitment to community safety and producing clean water for the Arkansas River,โ saidย Plant Supervisor, Jenelle Stefanic. โThere will also be more maneuverability within the floor plan and additional safety features such as fall protection and noise reduction technology.โ
Prior to mining, snowmelt and rain seep into natural cracks and fractures, eventually emerging as a freshwater spring (usually). Graphic credit: Jonathan Thompson
His rich baritone and gift for melodies made him one of the most popular artists of the 1970s with songs like โThe Wreck of the Edmund Fitzgeraldโ and โIf You Could Read My Mind.โ
Gordon Lightfoot, the Canadian folk singer whose rich, plaintive baritone and gift for melodic songwriting made him one of the most popular recording artists of the 1970s, died on Monday night in Toronto. He was 84…
Mr. Lightfoot, a fast-rising star in Canada in the early 1960s, broke through to international success when his friends and fellow Canadians Ian and Sylvia Tyson recorded two of his songs,ย โEarly Morning Rainโย andย โFor Lovinโ Me.โ When Peter, Paul and Mary came out withย their own versions, and Marty Robbins reached the top of the country charts with Mr. Lightfootโsย โRibbon of Darkness,โย Mr. Lightfootโs reputation soared. Overnight, he joined the ranks of songwriters like Bob Dylan, Phil Ochs and Tom Paxton, all of whom influenced his style…When folk music ebbed in popularity, overwhelmed by the British invasion, Mr. Lightfoot began writing ballads aimed at a broader audience. He scored one hit after another, beginning in 1970 with the heartfelt โIf You Could Read My Mind,โ inspired by the breakup of his first marriage. In quick succession he recorded the hits โSundown,โย โCarefree Highway,โย โRainy Day Peopleโย andย โThe Wreck of the Edmund Fitzgerald,โย which he wrote after reading a Newsweek article about the sinking of an iron-ore carrier in Lake Superior in 1975, with the loss of all 29 crew members…
For Canadians, Mr. Lightfoot was a national hero, a homegrown star who stayed home even after achieving spectacular success in the United States and who catered to his Canadian fans with cross-country tours. His ballads on Canadian themes, likeย โCanadian Railroad Trilogy,โย pulsated with a love for the nationโs rivers and forests, which he explored on ambitious canoe trips far into the hinterlands. His personal style, reticent and self-effacing โ he avoided interviews and flinched when confronted with praise โ also went down well. โSometimes I wonder why Iโm being called an icon, because I really donโt think of myself that way,โ Mr. Lightfoot told The Globe and Mail in 2008. โIโm a professional musician, and I work with very professional people. Itโs how we get through life.โ
[…]
Gordon Meredith Lightfoot Jr. was born on Nov. 17, 1938, in Orillia, Ontario, where his father managed a dry-cleaning plant. As a boy, he sang in a church choir, performed on local radio shows and shined in singing competitions. โMan, I did the whole bit: oratorio work, Kiwanis contests, operettas, barbershop quartets,โ he told Time magazine in 1968…Mr. Lightfoot, accompanying himself on an acoustic 12-string guitar, in a voice that often trembled with emotion, gave spare, direct accounts of his material. He sang of loneliness, troubled relationships, the itch to roam and the majesty of the Canadian landscape. He was, as the Canadian writer Jack Batten put it, โjournalist, poet, historian, humorist, short-story teller and folksy recollector of bygone days.โ
Strong winter snowpack has water managers optimistic
A parade of snowstorms through the American West this winter has water managers across the region cautiously optimistic about the near-term water supply.
According to data from the Natural Resources Conservation Service, the Upper Colorado River watershed is at about 113 percent of its annual average for precipitation. Further downstream in the Colorado River Basin, other tributaries such as the Gunnison River and San Juan River are showing even larger snowpack totals compared to historic averages. For communities throughout the basin, that is great news.
The above-average snowpack in the Upper Colorado River Basin means there is a strong chance that the Colorado-Big Thompson (C-BT) Project reservoirs will fill this summer, too. Thatโs good news for residents of Northern Colorado who depend on the supplemental water supply that it delivers, but itโs not as good for Windy Gap Project participants. They have an agreement with the U.S. Bureau of Reclamation that allows them to use available capacity in Lake Granby to store Windy Gap water for future delivery, but if Lake Granby is full of C-BT Project water, no storage capacity is available for Windy Gap water.
With the construction of Chimney Hollow Reservoir, Windy Gap Firming Project participants will have the opportunity to capture and store water for multiple-year deliveries with greater frequency and flexibility in years when Lake Granby would otherwise be full of C-BT Project water. The construction of reservoirs helps moderate the ups and downs of annual precipitation and has enabled Coloradoโs population and food production systems to grow and prosper for more than a century.
Map of the Colorado-Big Thompson Project via Northern Water
Glen Canyon Dam released higher flows over the past three days, with a peak discharge of over 40k cfs. This experiment aims to rebuild beaches, disrupt invasive fish breeding, and increase invertebrate abundance and diversity.
Updated Colorado River 4-Panel plot thru Water Year 2022 showing reservoirs, flows, temperatures and precipitation. All trends are in the wrong direction. Since original 2017 plot, conditions have deteriorated significantly. Brad Udall via Twitter: https://twitter.com/bradudall/status/1593316262041436160
On April 11, the Bureau of Reclamation released a draft Supplemental Environmental Impact Statement (SEIS). The SEIS is a mechanism to adjust the current operating guidelines for Glen Canyon (Lake Powell) and Hoover Dams (Lake Mead), providing tools for Reclamation to adapt to potentially dry years in the next few water years. Several news outlets, includingย The Colorado Sun,ย Politico,ย Colorado Politics, andย AP News, covered the release with commentary from CWCB experts. CWCB Director and Colorado Commissioner Becky Mitchell is seeking public input to inform Coloradoโs response to the SEIS.ย Share your feedback.ย
High snowpack in the San Juan River Basin this year has led to an above-average inflow forecast into the reservoir. The latest most probable inflow forecast from the Colorado River Basin Forecast Center is for 150% of average inflows from snowmelt runoff.
While most of the releases will be made to recover reservoir storage, Reclamation is planning to conduct a channel maintenance release from Navajo Dam. ย The release will ramp up slowly, peaking at 5,000 cfs for at least 11 days before ramping back down. This operation is expected to begin the last week of May and last through the third week of June. The exact schedule dates are to be determined as they will be timed to coincide with the peak on the Animas River. ย A notice with the final start date will be sent out approximately one week prior to beginning this release. ย Please stay tuned for updates…
For more information, please see the following resources below:
Bureau of Reclamation:
Susan Behery, Hydrologic Engineer, Reclamation Western Colorado Area Office: sbehery@usbr.gov or 970-385-6560
Earlier this month, Colorado Senator Dylan Roberts, House Speaker Julie McCluskie, Senator Perry Will, and Representative Marc Catlin introduced bipartisan legislation โ โSenate Bill 23-295, Colorado River Drought Task Forceโ โ to create a task force to make legislative recommendations to address the historic drought conditions on the Colorado River. The task force will be responsible for generating legislative recommendations that:
Proactively address climate-driven drought impacts on the Colorado River and its tributaries;
Avoid disproportionate economic/environmental impacts to any region of the state, ensuring acquisition of agricultural water rights is voluntary, temporary, and compensated;
Provide for collaboration among the Colorado River Water Conservation District, Southwestern Water Conservation District, and the State of Colorado in the design and implementation of drought security programs;
Explore ways new programs can benefit the environment and recreation;
Evaluate sources of revenue for the acquisition of program water; and
Establishes the Tribal Sub-Task Force to ensure there is appropriate space and time for their unique consideration.
A three-decade long drought threatens the Colorado River. Just last week, and previous years before, our allies at American Rivers listed it number one on their top endangered rivers in the United States. Coloradoโs water security is decreasing as a result. These diminishing supplies are threatening our drinking water, agriculture, and environmental and recreational opportunities.
More flexible tools, that could be recommended by the task force established in SB23-295, can help Colorado communities respond to threats and impacts of drought exasperated by a warming climate and over allocation. Without clear action in the immediate future, these problems will only get worse.
Reach out to your legislator today to let them know you support action to make Colorado more resilient in the face of drought and climate change.
If you have lived in Denver for a few years or longer, you probably know that the efficient way to water landscapes is to follow Denver Waterโs summer watering rules, which begin every year on May 1 and run through Oct. 1.
But what about those thousands of people who have moved to the City and County of Denver in recent years?
As it turns out, they are pretty familiar with Denver Waterโs rules too.
Best practices for efficient, healthy outdoor watering are not just a Denver thing. They are the same best practices youโll find utilities advocating for in California, Texas, Arizona, Illinois and Florida โ the states where many of Denverโs newcomers came from.
How did we figure that out? We looked at federal census data (specifically the 72,490 people who moved in between 2012 and 2016) to learn which five states, and which county in each of those states, were the biggest suppliers of our recent round of new neighbors in Denver.
Then we looked at a sampling of the water providers in each of those counties to see what they advise their own customers to do.
Hereโs what they all said:
There is no need to water when itโs raining, Mother Nature can handle it. And if itโs windy, it is best to hold off on watering.
When using a hose to wash the car, or water the lawn or trees, always use a shut-off nozzle in order to use only what you need, right when and where you need it.
Allowing water to run off onto sidewalks or the street wastes water.
Watering in the cooler parts of the day, between 6 p.m. and 10 a.m., cuts down on evaporation.
So, when it comes to outdoor watering, there’s no need for a native versus transplant turf battle. Instead, let’s raise a cool glass of safe, clean tap water to everyone who knows the best way to water landscapes efficiently.
And if you need a refresher on the ins and outs of Denver Waterโs annual summer watering rules, check out denverwater.org/BestPractices for more information. Youโll find all kinds of efficiency tips there for water use inside and out.
