Climate Science Glossary

Term Lookup

Enter a term in the search box to find its definition.

Settings

Use the controls in the far right panel to increase or decrease the number of terms automatically displayed (or to completely turn that feature off).

Term Lookup

Settings


All IPCC definitions taken from Climate Change 2007: The Physical Science Basis. Working Group I Contribution to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Annex I, Glossary, pp. 941-954. Cambridge University Press.

Home Arguments Software Resources Comments The Consensus Project Translations About Donate

Twitter Facebook YouTube Pinterest MeWe

RSS Posts RSS Comments Email Subscribe


Climate's changed before
It's the sun
It's not bad
There is no consensus
It's cooling
Models are unreliable
Temp record is unreliable
Animals and plants can adapt
It hasn't warmed since 1998
Antarctica is gaining ice
View All Arguments...



Username
Password
New? Register here
Forgot your password?

Latest Posts

Archives

New report: U.S. dams, levees get D grades, need $115 billion in upgrades

Posted on 9 March 2021 by Guest Author

This is a re-post from Yale Climate Connections by Jeff Masters, PhD

The American Society of Civil Engineers (ASCE) gave America’s infrastructure a C- grade in its quadrennial assessment issued March 3. ASCE gave the nation’s flood control infrastructure – dams and levees – a D grade. This is a highly concerning assessment, given that climate change is increasingly stressing dams and levees as increased evaporation from the oceans drives heavier precipitation events.

U.S. dams need $93.6 billion in upgrades

The group’s 2021 report card gave the nation’s 91,000-plus dams a D grade, jus as they had received in each of its assessments since the first one was issued in 1998. Drawing upon the latest data from the Association of State Dam Safety Officials, ASCE estimated the cost of rehabilitating all U.S. dams at $93.6 billion, of which $27.6 billion is needed for federal dams. Over half (56.4%) of U.S. dams are privately owned. The cost to rehabilitate deficient high-hazard-potential dams, whose failure would result in loss of life, is estimated at nearly $20 billion. Over 2,300 dams in the U.S. are in this category. The average age of America’s dams is 57 years.

The report identified one program that can help address existing funding needs – the High Hazard Potential Dam Rehabilitation Program authorized in the 2016 Water Infrastructure Improvements for the Nation Act. The goal of this program is to help fund the repair, removal, or rehabilitation of the nation’s non-federal, high-hazard-potential dams. In federal fiscal year 2020, Congress appropriated  $10 million for the program, less than 0.1% of the state dam safety group’s needs estimate, and a quarter of the $40 million Congress had authorized for the program.

Oroville DameFigure 1. Debris fills the Feather River from the damaged spillway of California’s Oroville Dam, the nation’s tallest dam, after its near-collapse in February 2017. The Oroville incident forced the evacuation of nearly 190,000 people and cost $1.1 billion in repairs. (Image credit: California Department of Water Resources)

A 2019 story by the Associated Press reported that the most recent U.S. fatalities from a dam failure were in March 2019, when the 92-year-old Spencer Dam on the Niobrara River in Nebraska failed, killing one person. The most recent previous dam failure fatalities involved seven people killed on Hawaii’s Kauai Island in 2006 after the earthen wall of the Kaloko Reservoir collapsed.

At least five fatal dam failures occurred in the 1970s – Teton Dam, Idaho (14 deaths), Kelly Barnes, Georgia (39 deaths), Buffalo Creek coal slurry impoundment dam, West Virginia (125 deaths), Rapid City, South Dakota (238 deaths), and Johnstown, Pennsylvania (84 deaths). These failures ushered in the modern dam safety era. AP reported that many states have problematic private dams whose owners can’t be identified. In 2018, for instance, Rhode Island listed 32 high- or significant-hazard dams with safety concerns and unknown owners.

A 2019 YaleEnvironment360 story by Jacques Leslie reported that “many people living on property that would be flooded if a dam fails are unaware of that possibility, in part because federal officials blocked public access to inundation maps after the September 11, 2001, terrorist attacks. In recent years, some states have again made the maps available. California requires that prospective buyers be informed if a property is in an inundation zone, a practice that should be far more widespread.” The 2021 ASCE report card recommended initiating a public awareness campaign that would alert residents of the location and condition of dams in their area.

Levee on Missouri RiverFigure 2. The L-550 levee on the Missouri River overtopping during the spring 2011 floods. (Image credit: USACE)

U.S. levees need more than $21 billion in upgrades

In spring 2019, the midwest U.S. experienced severe flooding, causing over $20 billion in damage. More than 80 Corps of Engineers levee systems were overtopped or breached, sometimes multiple times, and more than 700 miles of levees were damaged. Levee repairs were estimated at $1 billion. However, the Army Corps estimated that the levees prevented almost $350 billion in flood damages from October 2018 to September 2019. At least 17 million people live or work behind a levee, and U.S. levees protect $2.3 trillion in property, so the condition of these levees is critical. In addition, approximately 1,400 sites listed in the federal Toxic Release Inventory – including many EPA Superfund sites – lie in areas at high risk of flooding, according to a 2018 New York Times analysis.

In that context, the Civil Engineers’ 2021 report card grade of D for the nation’s 40,000 miles of levees is concerning. Drawing upon the latest data from the Corps of Engineers, the ASCE says in its report card that $21 billion is needed to improve and maintain just the moderate to high-risk levees in the Corps of Engineers portfolio. That is about 15% of the known levees in the U.S.

U.S. levees are, on average, 50 years old, many built using engineering standards less rigorous than current best practices. Encouragingly, fewer than 4% of U.S. levees are rated high or very high risk, down from 5% in 2017. However, 80% of high- or very high-risk levees have issues that likely would result in a breach prior to overtopping in an extreme flood, the report said.

The report card identified one program that can help address existing funding needs – the National Levee Safety Program. In federal fiscal year (FY) 2021 this program was funded at $5 million, just 0.02% of the $21 billion needed to repair just 15% of U.S. levees, and only 6% of its FY21 $79 million authorization.

Downpours graphicFigure 3. The change in heavy downpours (defined as the top 1% of precipitation events) from 1958-2016, from the 2018 U.S. National Climate Assessment. (Image credit: Climate Central)

Climate change is driving more precipitation and river flood damages

Increased precipitation in the U.S. in recent decades, partially the result of climate change, has caused an additional $2.5 billion a year in U.S. flood damages, according to a January 2021 study in the Proceedings of the National Academy of Sciences. The researches, climate scientists at Stanford University, found that between 1988 and 2017, heavier precipitation accounted for more than one-third of the $200 billion in damage. Causing heavier downpours, “Climate change may be exacerbating the cost of flooding,” the authors concluded.

In an interview with E&E News, study co-author Noel Diffenbaugh said that “there is real economic value in avoiding higher levels of global warming. That’s not a political statement. That’s a factual statement about costs. And it also shows that there’s real economic value to adaptation and resilience because we’re clearly not adapted to the climate change that’s already happened.”

U.S. river floods are increasing in frequency

The number of “extreme streamflow” events observed in U.S. river systems since 1910 has increased significantly, according to a December 2020 study from Dartmouth College.

‘We’re evacuating!’ Wedding interrupted when disaster strikes

Along rivers that observed significant changes in streamflow in recent decades, the incidence of extreme streamflow events has doubled in frequency since the 1950-1969 period. Evan Dethier, a postdoctoral researcher at Dartmouth and lead author of the paper, said in an interview with phys.org that “the shifts toward more extreme events are especially important given the age of our dams, bridges, and roads. The changes to river flows that we found are important for those who manage or depend on this type of infrastructure.”

Bob Henson contributed to this post

0 0

Printable Version  |  Link to this page

Comments

There have been no comments posted yet.

You need to be logged in to post a comment. Login via the left margin or if you're new, register here.



The Consensus Project Website

THE ESCALATOR

(free to republish)


© Copyright 2021 John Cook
Home | Links | Translations | About Us | Privacy | Contact Us