Day: May 5, 2024

Reclamation announced $21 million from the Bipartisan Infrastructure Law for endangered species recovery and conservation in the #ColoradoRiver Basin #COriver #aridification

“Biologists weighing, measuring and tagging endanged fish pulled from the decades-old Old Charley water control structure, Ouray National Wildlife Refuge, Utah.” – Reclamation photo by David Speas.

Click the link to read the article on the Bureau of Reclamation website:

May 3, 2024

WASHINGTON – The Bureau of Reclamation today announced a $21 million investment from President Biden’s Investing in America agenda for endangered species recovery and conservation in the Colorado River Basin. Project funding from the Bipartisan Infrastructure Law will support the Upper Colorado River Endangered Fish Recovery Program, the San Juan River Basin Recovery Implementation Program and the Lower Colorado River Multi-Species Conservation Program.

“This funding from the Bipartisan Infrastructure Law will aid us in fulfilling our mission of safeguarding and responsibly managing water resources,” said Commissioner Camille Calimlim Touton. “With this investment, each of our programs will have the opportunity to advance initiatives aimed at protecting species affected by drought, contributing to environmental sustainability.”

The Upper Colorado River Endangered Fish Recovery Program and San Juan River Basin Recovery Implementation Program work to recover endangered and threatened fish in the Upper Colorado River Basin while water development proceeds in accordance with Federal and state laws and interstate compacts. The Lower Colorado River Multi-Species Conservation Program was created to balance the use of the Colorado River water resources in Arizona, California and Nevada with the conservation of native species and their habitats.

The selected projects are:

  • Colorado: $1.2 million for the Upper Colorado River Endangered Fish Recovery Program to design a fish exclusion feature at Lake Catamount, roughly 8.5 miles south of Steamboat Springs. The feature will prevent nonnative Northern pike from escaping downstream to critical habitat for threatened and endangered fish in the Yampa River.
  • Utah and Colorado: $2.6 million for the Upper Colorado River Endangered Fish Recovery Program to address needed repairs that will improve performance and efficiency at the Ouray National Fish Hatchery’s Grand Valley and Randlett units in Colorado and Utah, respectively, and enhance production of threatened and endangered fish for stocking purposes at Wahweap State Hatchery in Utah. Utah: $1 million for the Upper Colorado River Endangered Fish Recovery Program to replace the water control structure at Old Charley Wash, a floodplain wetland near the Green River that provides habitat for rearing threatened and endangered fish.
  • New Mexico: $5.2 million for the San Juan River Basin Recovery Implementation Program to design and construct a fish passage structure on the San Juan River roughly 17 miles west of Farmington, New Mexico. The structure would allow threatened and endangered fish to migrate upstream beyond an Arizona Public Service Company diversion weir that currently limits fish passage.
  • Arizona, California: $10 million for the Lower Colorado River Multi-Species Conservation Program to build rearing ponds for native fishes at the Yuma Meadows Conservation Area.
  • Arizona: $1 million for the Glen Canyon Dam Adaptive Management Program to study fish entrainment at Glen Canyon Dam.

This funding builds on a previous $20 million investment announced in 2022 for environmental projects.

Through the Bipartisan Infrastructure Law, Reclamation is investing $8.3 billion over five years for water infrastructure projects, including rural water, water storage, conservation and conveyance, nature-based solutions, dam safety, water purification and reuse, and desalination. Since Bipartisan Infrastructure Law was signed, Reclamation has announced more than $3 billion for more than 440 projects.

Palisade High School Fish Hatchery releases 1,000th razorback sucker into #ColoradoRiver — The #GrandJunction Daily Sentinel #COriver

Students from Palisade High School kissed good-bye to hatchery-raised juvenile razorback suckers before releasing them into the Colorado River last month (May 2023). The fish are listed as endangered under the Endangered Species Act, but populations have recovered enough that U.S. Fish and Wildlife Service has proposed to downlist them to threatened. CREDIT: HEATHER SACKETT/ASPEN JOURNALISM

Click the link to read the article and for the photos on The Grand Junction Daily Sentinel website (Nathan Deal). Here’s an excerpt:

May 4, 2024

The Palisade High School Endangered Fish Hatchery program hosted its fourth annual razorback sucker release Friday at Riverbend Park. Students in the program, partnering with the U.S. Fish and Wildlife Service, released 370 razorback suckers into the Colorado River — a single-year record for the program — to surpass 1,000 fish released in the past four years. Many of the fish released, as always, received smooches before being released into the river, as is PHS Endangered Fish Hatchery tradition.

“Our fish release days are always kind of bittersweet. We definitely grow attached to our fish like our pets, so we’re excited to release them, but at the same time, we’re going to miss seeing them every day,” said Palisade Fish Hatchery Teacher Patrick Steele. “We know this is what we’ve been working all year for. The whole purpose of this is to help to recover this population of endangered razorback suckers. When you get to this point, it’s exciting.”

Electric vehicles are suddenly hot − but the industry has traveled a long road to relevance

Everything old is new again. Simon Skafar/E+/Getty Images

Hovig Tchalian, University of Southern California

In 2023, more than 7% of cars sold in the United States were electric vehicles. In some parts of the world, such as Norway, EVs make up a whopping 20% of cars on the road. In California, where I live, almost 60% of people looking for a car in 2021 said they would at least consider getting an EV.

This upswing in demand comes after years of flagging sales. As recently as 2010, fewer than 100,000 cars on U.S. roads were EVs. That number crossed the 1 million mark in 2018, up more than 80% over the prior year.

What explains this seemingly unexpected surge over the past few years?

The key word here is “seemingly.” And the answer reveals an interesting history that most people are completely unaware of.

I teach entrepreneurship at the USC Marshall School of Business, and I’ve been studying the EV market for more than a decade. When I ask students, “How long have EVs been commercially available?” most of them will answer five years, or 10, perhaps 20. One person might point to an EV launched by General Motors in the 1990s whose name they can’t seem to remember.

But occasionally, a precocious person – usually in the back row – will raise a hand and answer, “Since the early 1900s.”

That’s almost the right answer.

Electric vehicles and the long road to adoption

EVs are a new old technology. Most people don’t know that they’ve been commercially available since as far back as the 1890s. Back then, there was a fight over how best to power a car, or what business professors would call a battle for “dominant design.” The options were internal combustion engines, electric and – as unlikely as it sounds – steam. Yes, that’s how long it’s been since that battle was first fought.

Almost 40% of vehicles on the road in the early 1900s were electric. But after Henry Ford’s first Model T, which used an internal combustion engine, left the production line in 1908, they all but disappeared. EVs have been trying to make a comeback ever since. Like the precocious person in the back of my classroom knows, they’ve been the “next big thing” for more than 100 years.

So, what factors help explain why EVs lost the battle for dominant design back then – and why do they appear to have a fighting chance today?

The ‘cool factor’ − but so much more

Those who point to the Tesla Roadster as the first modern EV point to its reputation as fun, sporty and cool. And they’re right: The Tesla Roadster did make EVs cool – if expensive, at over US$100,000 dollars at its launch in 2008.

But there are many more factors that explain the rise in demand and, more importantly, broad adoption of EVs.

One reason for the rise in demand starting in about 2010 is better and more widely available charging infrastructure. In the U.S. in 2009, there were fewer than 500 public and private charging stations nationwide; today, there are more than 100 times as many. That has helped allay consumers’ “range anxiety,” that nagging fear that you’ll run out of “juice” before you can get to a charging station.

But many other factors are also at play: the right set of models and options made available by manufacturers, improved battery and charging technology and the right mix of government regulations and incentives. All have led to healthy consumer demand.

Technology adoption: It takes a village − and time

Apart from those technical and economic factors, current studies and my own ongoing research also suggest that the social conversation around EVs – what everyone in the world says and thinks about them – has also taken a turn for the better.

Technology adoption is influenced by what’s known as “peer effects” – the desire to compare oneself with others. That’s because people engage in “social comparison” by paying attention to what others like them are doing and, more importantly, how those other people might view their behavior. The same is true, for instance, of solar panel adoption, another technology that, like EVs, has both personal and social benefits.

As I noted earlier, the coolness factor has a positive impact on EV adoption. Driving a cool car matters because that coolness is visible. And when a car has been uncool for so long, a fundamental – and positive – change in its public perception can substantially affect demand and adoption.

My research and other studies suggest that a turning point may have come in the mid- to late 2010s, when both public attitudes and charging technology and infrastructure began to improve. It takes a village to birth a market.

The challenge of EV adoption is a reminder that many of our technologies aren’t just tools or devices – they’re ways of getting things done. Technology comes from the Greek word “techne,” which means a practice, a set of habits and a way to accomplish a goal.

Much of our technology, from early word processing software to today’s streaming services, depends on collective social behaviors and how they change – or, in many cases, don’t.

For example, the standard “qwerty” keyboard is not intuitive. But because it set the standard, it became the dominant design. It’s now too efficient, and too socially embedded, to allow for easy replacement.

New technologies can’t even look too different from what we’re used to or they would make it too hard for us to adopt them. That’s why EV charging plugs look like – you guessed it – gas pump nozzles.

In other words, cool technologies need to be in line with existing behaviors and customs, or they’ll have to travel a long road toward establishing new ones. Without this alignment, new tech will sit on a shelf for a long time but never succeed – like EVs almost did.

This article was updated on Feb. 20, 2024, to clarify that 20% of automobiles in use in Norway are EVs.

Hovig Tchalian, Assistant Professor of Entrepreneurship, University of Southern California

This article is republished from The Conversation under a Creative Commons license. Read the original article.

#Snowpack, river levels below median despite ‘good’ March — The #PagosaSprings Sun #SanJuanRiver #ColoradoRiver #COriver #aridification

Colorado Drought Monitor map April 30, 2024.

Click the link to read the article on the Pagosa Springs Sun website (Clayton Chaney). Here’s an excerpt:

May 2, 2024

On April 30, the National Weather Service (NWS) released its drought outlook for May, which states “the last 4 weeks brought improvement to areas of drought in most of the Rock- ies and Intermountain West.” The outlook depicts much of New Mexico still with areas of persistent drought along with small portions of southern Colorado, including Archuleta County…According to the U.S. Drought Monitor, as of noon on April 30, all of Archuleta County is in an abnormally dry stage, with southwestern parts of the county in a D1 Level Moderate drought. For more information and current drought information, visit https://droughtmonitor.unl.edu/CurrentMap/StateDroughtMonitor.aspx?fips_08007…

The state’s snowpack was at 114 percent of median on April 9, but, as of April 30, the state’s snowpack had fallen to 91 percent of median…

As of 11 a.m. on Tuesday, April 30, the Wolf Creek summit, at 11,000 feet of elevation, had 21.8 inches of snow water equivalent, according to NRCS. The Wolf Creek summit was at 63 percent of the April 30 snowpack median. The San Miguel, Dolores, Animas and San Juan river basins were at 64 percent of median, according to the NRCS. The median snowpack peak date is April 2…

The South Platte basin had the highest snow water equivalent in the state at 104 percent of median as of Tuesday, April 30…

According to the U.S. Geological Survey (USGS), the San Juan River was flowing at a rate of 538 cubic feet per second (cfs) in Pagosa Springs at 11 a.m. on Tuesday, April 30. Based on 88 years of water records, the median flow for that date is 712 cfs, with a record high flow of 2,090 cfs in 2019. The lowest recorded flow for that date is 127 cfs in 2002…

As of April 30 at 11 a.m., the Piedra River was flowing at a rate of 577 cfs, which is below the median flow rate of 813 cfs for that date, according to the USGS. The record high flow rate for that date was set in 1973 at 3,270 cfs, while the record low was set in 2002 at 97.7 cfs.

San Juan River Basin. Graphic credit Wikipedia.