Cutter Reservoir

CUTTER CANYON – Cutter Reservoir is an incongruous sight.

The 10ish miles of dirt road it takes to reach it, up San Juan County Road 4450, is not suggestive of water. Thanks to oilfield money, the road is good as northwest New Mexico washboard dirt roads go. )We counted 21 well pads between the reservoir and the main highway.) But it is the sort of dusty that makes your mouth feel parched.

There are signs, until there aren’t, and Lissa and I got lost when we missed the turn, not having been attentive enough to the available maps and GPS advice on our devices, but eventually we rounded a corner and saw a big earthen plug in the arroyo ahead, parked at the foot of the dam and walked up the dirt road leading up the river right side of the dam. 

 

Cutter Canyon
Cutter: No Swimming, Dangerous Waters

Cutter is part of the Navajo Indian Irrigation Project, approved by the United States Congress on June 13, 1962 – PL 87-483 – as a “participating project” in the Colorado River Storage Project (CRSP, we call them “crisp projects”). It sits downstream of the much larger Navajo Reservoir, if you can call a tunnel through desert sandstone a “stream”. With a surface area of just 64 acres, it’s a tiny thing, and with the dirt road access not as popular as Navajo among the local fishing and boating set, but we found a family from Farmington out on a Sunday morning, fishing near the outlet works. Dad was delighted that we actually cared, and stood on top of the dam pointing to the remarkable irrigation works – canals, tunnels, siphons – that carry Cutter water toward the Navajo Agricultural Products Industry farms (yeah, we do pronounce it “nappy”) on the mesas to the west. At 72,000 acres, NAPI is the largest single-ownership farm in the Upper Colorado River Basin (maybe in the entire Colorado River Basin? please jump into the comments if you have any help on that question).

Water from Navajo Reservoir is staged at Cutter Reservoir before being shipped on the Navajo farmers, and (the reason for our visit) it’s also the holding tank for water to be delivered via the Cutter Lateral, a part of the Navajo-Gallup Water Supply Project. This is one of the last big engineering projects in the Colorado River Basin, finally delivering on a promise made to the region’s indigenous communities in the negotiation of the 1948 Upper Colorado River Basin Compact and the 1962 law that authorized Navajo Reservoir.

It’s a remarkable bit of water in the desert.

Cutter Reservoir, near Farmington, New Mexico

I’m fine, thanks for asking.

Cutter Reservoir

Two friends in recent days have kindly asked about my well-being, noting that I haven’t posted anything on the blog since July 5. I’m fine, busy focused on the book Eric Kuhn and I are writing about the history of our hydrologic understanding of the Colorado River, and the interplay between science, politics, and policy. Eric’s amazing to work with, both because he’s the smartest person I know about the river, and also the nicest. We’re having a blast. But I only have one brain, and need all its writing cells focused on the book.

A lot on my mind that I would have been writing about had I not been so deep into the nuances of Water Supply Paper 556 and such like:

  • camping as a child at Navajo National Monument, watching my father watercolor and sketch, thinking about how those very early experiences shaped the way I go about interacting with my world
  • Cutter Reservoir, an amazing weird little bucket of water 10 miles down a dirt road in the high desert of northern New Mexico
  • Lee’s Ferry, where there’s a new gauge on the Paria since the last time I was there, and where there’s a story to be told about measuring water
  • the critical role of Colorado River water in the Rio Grande, where until our monsoon finally cranked up in recent weeks essentially all the water flowing through Albuquerque in the Rio Grande was imported San Juan-Chama water, how weird is that? I need to carve out some time to write about that.
  • The difference between “policy” as set out by elected policymakers – the Albuquerque city council – and policy as actually carried out by traffic engineers (this will be for Better Burque as soon as I get the time)
  • We had an amazing batch of students graduating this summer, working on
    • the governance struggles to bring water to western Navajo
    • governance on the Rio Chama
    • groundwater along the riparian strip through Albuquerque, and its relationship to river flow and cottonwood recruitment
    • citizen science in Nepal
    • public attitudes toward potable reuse of municipal wastewater

See you soon.

 

John

While I have your attention….

Kayak on the Colorado River Delta pulse flow, 20-mile monitoring site, March 28 2014

I’ve had quite a burst of new readership in the last few months, people apparently interested in the challenges facing the Colorado River, the people who use it, and the natural systems that depend on it. Thanks for that, and welcome!

For those who missed it, I’ve written a book that warned about what we’re now seeing….

As Lake Mead drops, rules kick in that require water users in Nevada, Arizona, and Mexico to remove less water from the system each year. But those reductions are modest, and Connor told me that the Bureau’s worst-case modeling showed that even with the agreed-upon reductions, Lake Mead could quickly drop past a point of no return, to levels at which the current rules would be no help in determining who was entitled to how much.

The book is called Water is For Fighting Over and Other Myths About Water In the West, published by the awesome folks at Island Press. Here’s what I said about how simple it is to solve the problem!

The solution is, in a sense, straightforward. Everyone in the Colorado River Basin has to use less water. It’s possible to apply a simple arithmetic wave of the arm and say, for example, that we could bring the system into balance if everyone used 20 percent less water than they are consuming today. We know from experience, from Yuma to Las Vegas to Albuquerque, that such reductions are possible, that water-using communities are capable of surviving and even thriving with substantially less water than they use today. But no one will voluntarily take such a step without changes in the rules governing basin water use as a whole to ensure that everyone else shares the reductions as well—that any pain is truly shared. We need new rules. Absent that, we simply end up with a tragedy of the commons.

OK, not simple. If we’ve learned anything in the last few months of Colorado River water management chaos, it’s that this is really hard work. But I laid out in the book what I think are important lessons about where the opportunities to use less water are, and what the new rules, and more importantly the process used to arrive at them, might look like.

For central Arizona farmers, coming to terms with the reality that a Colorado River allocation is not an entitlement

As Arizona wrestles with the reality that its Colorado River supply as measured in actual wet water rather than the “paper water” doled out by the Law of the River, we’re getting a lesson in the difference between an “allocation” of Colorado River water and an “entitlement”. The place to watch this play out right now is in Pinal County, the stretch of rural desert dotted with cotton fields and alfalfa between Phoenix and Tucson.

We’re hearing a lot of talk coming out of Arizona about a collaborative effort to settle conflicts and move forward in the lead-up to a public meeting scheduled for Thursday (June 28, 2018) in Tempe. Bret Jaspers characterized what’s happening now as a “reboot” of the tortured relationship between the Arizona Department of Water Resources and the Central Arizona Water Conservation District, the agency that manages deliveries of Colorado River water to central Arizona.

The meeting will be held in Tempe and live-streamed on the Internet. Commissioner of Reclamation Brenda Burman will be speaking to, in the words of the Arizona Department of Resources “discuss the risks to the system” which, as I wrote about a couple of days ago, involve crashing Lake Mead kinda soon.

Courtesy USDA Cropscape. Red is cotton, pink is alfalfa

Pinal County is not exactly prime desert farming real estate, lacking the ready access to Colorado River water that you see in the valleys of Yuma, Imperial, Palo Verde, or on the Colorado River Indian Reservation. With little surface flow and an aquifer that cannot sustain farming in the long run, the only real alternative is imported Colorado River water via the Central Arizona Project, the canal that pumps water up from the Colorado River. But that is very expensive water, tough to afford without subsidy if you’re growing alfalfa and cotton.

And so subsidize we have (see this from Michael Hanemann for a history of CAP subsidies). Everybody’s irrigation water is subsidized in the West, but the Pinal County farmers’ water is subsidized a lot. Here’s how:

For the purpose of understanding Pinal County’s role in the current discussions, the key subsidy to look at is the deal signed by the counties’ ag interests in 2004 as part of the Arizona Water Settlements Act. Faced with high water costs even under the then-existing subsidy regime, the water districts signed a deal to essentially give up stronger water rights to free up water to meet Indian water rights settlement in return for yet more subsidy. Here’s how CAP explains it:

Irrigation districts that relinquished their long-term CAP entitlements under the terms of the Arizona Water Settlement Agreement were relieved of their federal distribution system debt—often referred to as 9(d) debt. In addition, CAWCD agreed to provide a pool of excess CAP water, subject to availability, to the relinquishing subcontractors at energy-only rates through 2030. This pool, referred to as the Agricultural Settlement Pool, was sized at 400,000 acre-feet initially, declining to 300,000 acre-feet in 2017 and then to 225,000 acre-feet in 2024. (emphasis added)

In return for what has been estimated at $343 million in subsidies since the deal was signed in 2004, the Pinal County farmers agreed to cheap water when it was available, but importantly this water was subject to availability. If water runs short, they’re among the first to see their supplies cut. The farmers were compensated in return for taking on greater risk. At least that’s the way the rules are written, and that’s the deal the farmers’ representatives cut, to the tune of about $25 million per year in subsidy – from the taxpayers of the greater Tucson-Phoenix area to the farmers of Pinal County to grow mostly cotton and alfalfa.

But the conversation right now, as Arizonans struggle with how to deal with shortage on the Colorado River, suggests that as that “subject to availability” shifts from the abstractions of white papers and legal documents to a risk of actual wet water cutbacks, thinking about the Pinal County farmers has shifted to treating that water as an allocation of water subject to availability based on the variability of the system (the way the classic structure of prior appropriations works) to an entitlement to a firm supply. The resulting discussions involve considering whether farmers should be compensated should supplies run low and they can’t get the water. Here’s the key bit from Bret Jaspers’ KJZZ piece last week, quoting Central Arizona Project general manager Ted Cooke:

One sticky subject is what to do about farmers in central Arizona, who would take a big hit under the current rules.

“How do we find a way to make things less painful for them?” Cooke asked. “Not completely painless, but less painful.”

This is not the only issue to be sorted before Arizona comes to terms on a Colorado River Drought Contingency Plan (or my new favorite moniker, a Use Less Water Plan – ULWP, pronounced “uhlp”). The Pinal bit is one piece of a deeper argument over who in Arizona gets to decide what happens to the state’s “excess” Colorado River water (an increasingly weird term).

But the fate of Pinal County farmers gets to the heart of our struggle to figure out how to live within a shrinking Colorado River supply.

 

New USBR modeling suggests a bigger risk of Colorado River shortage than y’all might think

The conventional calculation of Colorado River shortage risk, which people like me frequently report, shows a 51 percent chance of Lake Mead dropping into “shortage”, below the magic trip line of elevation 1,075 at which mandatory cutbacks kick in, in 2020. But a new approach to modeling risk, which lots of folks (*cough* me *cough*) think more accurately represents the changing climate, shows a significant risk of a much quicker drop in Lake Mead’s levels, blowing quickly past 1,075, with a greater than 50 percent chance of dropping below 1,050 sometime in 2020. Absent actions to reduce water use, Lake Powell has a greater than one in four chance of dropping near power pool (the level at which it could no longer generate electricity) by the mid-2020s.

It is to the Bureau of Reclamation’s credit that they’re not only running the new modeling methodology in parallel with the more traditional approach, but that they’re doing this in a very public way, presenting both last week at the Basin States principals meeting in Santa Fe as part of the federal effort to get negotiations over water use cutbacks back on track.

Here’s the Mead graph showing the traditional modeling approach (the blue) and the newer “stress test” (shown in red):

 

I like this graph (kudos to Carly Jerla and the other wizards at the Bureau for coming up with such a clear visualization) because of how intuitively it shows how different the answers are when you use the two different approaches. Especially visually striking is the probability “cloud” showing the statistical range of possibilities. The old blue approach shows a decent chance of wetness refilling reservoirs. The newer red approach not only offers no such blue bits of optimism, but shows some statistically credible chances of Lake Mead seriously tanking very soon.

The difference between the two modeling approaches gets to the heart of the importance of the “period of record” you use to analyze river flows in support of decision-making.

The traditional (blue) approach uses historic river flows from 1906 to 2015 as the basis for a statistical simulation of the range of possible futures given current reservoir levels. This is classic “stationarity” – assume the future will be like the past. The specific model then uses what’s called the “index-sequential method” (ISM), which is a bog standard way of modeling the statistics of river flows.

The new approach (red), which has come to be known as the “stress test”, is based on the view of some water managers and scientists that the old full-record approach is understating risk, because the past climate – especially in the case of the Colorado River that exceptionally wet first quarter century of the record – is putting more water in the river in your simulations than we can realistically expect any more because of a warming climate. The stress test still uses the ISM, but instead of the full record, it uses 1988-2015, which seems more like a modern climate than the full thing back to 1906.

the debut of the “stress test”

The “stress test hydrology” was pioneered by Eric Kuhn of the Colorado River District and John Carron of Hydros Consulting (disclosure I have worked with both of these people and Eric and I are writing a book about, among other things, the importance of the choices of the period of record used in the analyses that underpin today’s Law of the River). Eric and John began developing the technique in 2013 in response to then-Interior Secretary Sally Jewell’s call for the development of more robust drought contingency planning in the Colorado River Basin, and Eric first talked about it at the 2013 meeting of the Colorado River Water Users Association. (see Homer Simpson, right)

It’s important to understand that neither the full period of record, nor the stress test,  is “right” in any objectively specifiable way. The question for water managers is whether the method you’re using is giving you an honest feel for the range of futures you have to manage for. It seems pretty clear to me that the red lines are telling us something really useful about the risks of climate change in our near term decision making that the blue lines miss, and that they are a more helpful way of thinking about what we should expect than the blue lines. In including these model runs in the presentation done by Bureau staff and Reclamation Commissioner Brenda Burman at Tuesday’s Basin States principals meetings, federal officials are sending a similar signal.

The point of all this is to inform decisions about getting the stalled “Drought Contingency Plan”, which would reduce water use and protect levels in Lake Mead and Lake Powell, back on track. Here’s a red line/blue line representation of the risks of Mead hitting 1,025, a level at which deep cuts will be inevitable. The solid line is the risk without a DCP, the dotted lines are the risks with various flavors of DCP:

And lest we forget, those of us in the Upper Basin face risks, too. Here’s the blue line/red line risk of Lake Powell reaching 3,490, which is the point at which Glen Canyon Dam can no longer generate electricity – a trip line we in the Upper Basin prefer not to approach, let alone cross:

Rio Grande at Embudo – “slouching towards intermittency”

A shape with lion body and the head of a man,
A gaze blank and pitiless as the sun,
Is moving its slow thighs, while all about it
Reel shadows of the indignant desert birds.

– William Butler Yeats

A friend sent me a note last night with the memorable subject line – “slouching towards intermittency” – along with a report from the USGS noting that the agency’s famed Embudo gauge on the Rio Grande, oldest in the system, had slipped below 175 cubic feet per second.

Yesterday’s daily average reported flow for the gauge – 178 cfs – is the lowest for that date in a history (with a data gap of a few years in the early 20th century) going back to 1895.

slouching towards intermittency – Embudo on the Rio Grande

At these low levels it is too much, despite their excellent work, to expect the sort of precision from the USGS stream gaugers to unequivocally call this “the lowest flow”, but within the margin of error it is statistically indistinguishable from the lowest flows ever recorded at this point in the year on New Mexico’s Rio Grande.

1902, 2002, and 2018.

When people find out how cheap their water is, they use more of it

The conventional wisdom (and by “conventional wisdom” I guess I mean “what Fleck thought until just now”) is that giving water users better information about their usage and the price they’re paying could be a useful water conservation tool.

Well, maybe not, according to some interesting new research by Daniel A. Brent of Pennsylvania State University and Michael Ward of Monash University. Brent and Ward ran an experiment with Yarra Valley Water, which serves greater Melbourne, to see how better informing customers about their water use and cost might change their behavior.

Melbourne, water nerds will remember, became kinda famous for its conservation behavior during the Millenium Drought. So this isn’t some water-wasting high GPCD test case like Beverly Hills or St. George. This is a place where people have been taking water conservation seriously.

Brent and Ward ran a large survey and behavioral experiment trying to understand what people already know (or thought they knew) about their water use and its cost. Then they provided the utility’s customers with actual data about their water use and cost:

Half of our sample of 30,000 single family homeowners are randomly sent a survey that asks questions about the water bill and the costs of water-use activities (e.g. the cost of taking a shower), and subsequently provides the correct information. Results show that consumers have poor information about the marginal price of water and overestimate the costs of using water. Respondents are relatively better informed about their total bill and water consumption. In aggregate, respondents increase water use in response to the survey, potentially due to learning that water is cheaper than they previously thought. Increased consumption is concentrated among low users who are more likely to over-estimate the costs of using water. (emphasis added)

Brent and Ward are presenting their findings this week at the Inaugural JEEM Conference in Environmental and Resource Economics.