By Greta
Jochem on Jun 5, 2018
The rain
started to fall in Ellicott City, Maryland on the afternoon of May
27. Nearby tributaries of the Patapsco River were already dangerously
swollen from last month’s steady precipitation. The storm intensified, and
floodwaters soon tore through Ellicott City’s main street, submerging the first
floors of buildings, sweeping away cars, and killing at least one person.
The storm was a so-called
“1,000 year flood,” meaning it had a 0.1
percent chance of occurring this year. But this “exceptionally
rare” event is deja vu for residents — they’re still picking up the pieces
from a similar flood
that destroyed the area back in July 2016.
After that big flood, Robin
Holliday spent months rebuilding her business, HorseSpirit Arts Gallery. She
didn’t expect a flood like that to happen again, but she also didn’t think
the proposed
watershed management plan was strong enough. Discouraged, she started
to think about leaving. The recent flood solidified her decision.
So what’s behind the propensity
for floods in Ellicott City? Part of the problem is its vulnerable
location: the town lies at the foot of a hill where river branches meet the
Patapsco River. And, of course, climate
change makes storms wetter and increases the frequency of severe,
record-breaking weather. But there’s another thing people are pointing out:
concrete.
When hard,
impermeable concrete replaces absorbent green spaces, it’s much easier
for floodwaters to overwhelm stormwater drainage. “That’s what happened in
Ellicott City,” says Marccus Hendricks,
an assistant professor at the University of Maryland School of Architecture,
Planning, and Preservation.
In Ellicott City, development
has flourished.
“Nearly one-third of the
Tiber-Hudson sub-watershed that feeds into historic Ellicott City is now
covered by roads, rooftops, sidewalks and other hard surfaces that don’t absorb
water,” the Baltimore Sun wrote
in 2016.
In a press
release, the Sierra Club’s Maryland Chapter called for a stop to development
in the Tiber-Hudson watershed: “We may not have control over severe weather
events (except by fighting climate change), [but] we can take ownership over
the role that development played in this disaster.”
At a recent press
conference, a local county official said that Howard County, home
to Ellicott City, has been taking steps to prepare for more floods.
“We’re focusing on making sure
that what has been approved is being done by the code and by law, making sure
that stormwater regulations are being abided by,” said Allan Kittleman,
the Howard County executive. Since the flood in 2016, he said the county
has designed and engineered more stormwater retention facilities, but larger
projects will take time.
This is far from the first
time that development and asphalt have had a violent run-in with climate
change. Last summer, Hurricane Harvey drenched sprawling Houston with trillions
of gallons of water and caused
$125 billion in damage. The area saw a 25
percent increase in paved surfaces between 1996 and 2011, according to
Texas A&M professor Samuel
Brody. Brody found that every square meter of Houston’s pavement cost
about $4,000 more in flood damage.
And, rapidly developing or
not, our cities are full of these paved surfaces. In the majority of the
country, surfaces like pavement or brick make up just 1
percent of the land. Yet in cities, hardscapes account for upwards of 40
percent of land area.
Environmental change coupled
with development will likely make this issue one of major national importance,
Brody tells Grist.
“Every week, there’s some
urbanized area that floods. We look up and say, ‘Oh that’s never happened
before and it’s never going to happen again.’ But if you look at the big
picture, it’s happening all the time with increasing severity.”
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