Partners deploy underwater robots to improve hurricane science

September 9, 2013

A fleet of underwater robots is descending into waters off the east coast to collect data that could help improve storm intensity forecasts during future hurricane seasons. Several regions of the NOAA-led U.S. Integrated Ocean Observing System (IOOS®) are partnering to deploy 12 to 16 autonomous underwater robotic vehicles, also known as gliders, from Nova Scotia to Georgia.  

The gliders will be available through the peak fall Atlantic storm season to collect data on ocean conditions, which will help improve scientists’ understanding of hurricanes and pave the way for future improvements in hurricane intensity forecasts.  

“When storms are moving along our coasts, lives depend on accurate forecasts,” said Zdenka Willis, U.S. IOOS program director. “The unmanned gliders will allow us to collect data even in the middle of the storm and eventually provide this information to NOAA’s National Weather Service to help improve forecast precision so decision makers can keep people safe.”

Scientists will deploy the first gliders in the fleet in early September and continue deploying from different locations throughout the next two to three weeks. Each glider will be deployed for three to eight weeks, collecting data into October.

The underwater gliders can travel thousands of miles and continuously collect and send back ocean data. They can operate for several months at a time and can dive repeatedly to collect three-dimensional ocean observations.

Rutgers University is leading this combined science mission involving all three of the east coast IOOS regions: Northeast, Mid-Atlantic and Southeast. In addition to glider data, the mission will use satellite, moored buoy and coastal radar data. During the mission, the gliders will also collect acoustic data about fish and mammal migrations to improve the understanding of their behaviors.  

Collected glider data will go through NOAA’s National Data Buoy Center to NOAA’s National Weather Service, the U.S. Navy and other data users for modeling. Data from the glider missions will also be public and available on the IOOS Glider Asset Map and at http://www.ndbc.noaa.gov/gliders.php

In addition to NOAA funding, provided through the IOOS regions, other funding sources for the project include the Office of Naval Research, the Environmental Protection Agency, NASA, a private donor from the University of Delaware, and Canada’s Ocean Technology Network.

IOOS is a federal, regional and private sector partnership working to enhance the ability to collect, deliver and use ocean information. IOOS delivers the data and information needed to increase understanding of our ocean and coasts so that decision makers can act to improve safety, enhance the economy, and protect the environment.

NOAA’s mission is to understand and predict changes in the Earth's environment, from the depths of the ocean to the surface of the sun, and to conserve and manage our coastal and marine resources. Join us on Facebook, Twitter, Instagram and our other social media channels.

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Atlantic hurricane season closes with 19 named storms (The Christian Science Monitor)

The curtain has fallen on the 2011 Atlantic hurricane season – one that enters the record books in a four-way tie for the third-largest number of named storms on record.

The others: the 1887, 1995, and 2010 seasons.

Tropical Storm Arlene started things off in late June. By the time Nov. 30 arrived, the roster ended with 19 named storms, ending with Tropical Storm Sean in early November.

Indeed, the season might have topped 19 named storms, but forecasters at the National Hurricane Center in Miami didn't catch a blink-and-you'll-miss-it storm in early September that quickly reached tropical-storm status, only to weaken hours later. It spent its brief life well off the US East Coast.

Forecasters noticed the storm as they performed their usual season's-end review of data on Atlantic-basin activity. The review also led to Tropical Storm Nate's promotion to Hurricane Nate.

Although the number of named storms was well above the long-term average of 11, the number of hurricanes and major hurricanes were only slightly above average, according to the center's post-season analysis.

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Still, for much of the US East Coast, it was a season to remember.

In late August, Hurricane Irene moved out of the eastern Caribbean and up along the US East Coast. It made landfall three times as it slid up along the East Coast: at Cape Lookout, N.C., at Little Egg Inlet, N.J., as a hurricane, and finally near Coney Island as a tropical storm.

The storm's winds and heavy rains assaulted a landscape along much of the coast and deep into New England whose trees were laden with leaves and whose roots were clinging to soils already saturated from previous rain storms. Storm-felled trees and limbs left 4 million customers without electricity.

From Maryland and Delaware through Maine, 10 states saw record flooding along rivers and streams from Irene's downpours, according to the US Geological Survey, which monitors stream flows.

"Irene broke the 'hurricane amnesia' that can develop when so much time lapses between land-falling storms," said National Weather Service director Jack Hayes in a statement.

All along its path from the Caribbean northward, Irene inflicted an estimated $10.1 billion in damage; the storm reportedly killed 56 people.

Tropical storm Arlene and tropical storm Lee added a combined 46 fatalities to a season that would reach $11.6 billion in damages throughout the Atlantic, Caribbean, and Gulf of Mexico, and 120 casualties.

The season also showcased the advances forecasters have made in providing local emergency managers with timely warnings. Still, efforts are underway to extend storm-track forecasts another two days beyond the current 5-day outlook while reducing the uncertainties in the forecast.

In addition, researchers have placed a heavy emphasis on understanding the drivers behind rapid changes in storm intensity. Last-minute shifts in strength, up or down, ahead of landfall can have a profound effect on the extent of coastline that needs evacuation.

The efforts are being driven in no small part by analyses showing that between 1900 and 2005, damage from landfalling tropical cyclones in the US doubles every 10 years. Costs are rising as more people move to vulnerable coastal areas, triggering the construction of homes, factories, office buildings, and other assets needed to sustain them.

The Monitor's Weekly News Quiz for Nov. 27-Dec. 2, 2011

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The Science of the Fierce Santa Ana Winds (LiveScience.com)

Hurricane-force winds are whipping through much of the western United States today (Dec. 1), sparking wildfires, knocking out power and flipping semi-trucks — but there's no tropical storm driving the intense gusts.

In Southern California, these freakish winds are called Santa Ana winds, strong down-slope winds that blow through the Santa Ana Mountain passes at speeds of 40 mph (64 kph), according to the National Weather Service.

The current weather system is causing damage far outside of sunny SoCal, however, and the winds are among the worst in decades, meteorologists said. Widespread gusts as strong as those of Hurricane Irene at landfall are expected to continue into tomorrow (Dec. 2). Already, firefighters in California are responding to wildfires spread by the winds and a major stretch of interstate has been shut down because of toppled trucks.

The strong winds throughout the West Coast are caused by an extreme pressure change between the Northwest and Southwest regions. A sprawling high-pressure system following a cold front has created a difference in pressure that sends wind surging southward. In the Northwest, a strong high-pressure system built along with a clockwise flow of winds. In the Southwest, a low-pressure system developed along with a counter-clockwise flow. The tight so-called pressure gradient that formed between these systems is driving winds over mountains and through the California canyons.

The winds can be of tropical storm strength(winds less than 74 mph, or 119 kph) at lower elevations and hurricane-strength (74 mph or greater)above 1,000 feet (305 meters).

Winds this strong can topple trees onto power lines, knocking out power. Already today, 34,000 are without power in Northern California, 25,000 have lost power in Southern California and Los Angeles Airport lost power for an hour last night.

In Southern California, 80 mph (129 kph)wind gusts have been reported in higher mountain passes. Near Los Angeles, wind gusts of up to 40 mph have been reported and gusts of up to 80 mph have been seen in some canyons. Winds are so strong right now that Pasadena, Calif., firefighters are responding to calls of downed trees every 12 seconds, according to the Weather Channel.

Outside SoCal

The strong winds aren't just a Southern California thing. Near Sacramento, wind gusts of up to 40 mphhave been reported. At higher elevations, gusts have topped 100 mph (161 kph), said Bill Rasch, an NWS meteorologist in Sacramento. Rasch told OurAmazingPlanet that winds this strong aren't unusual for the area, but said "in general it's a pretty strong storm."

The winds aren't even confined to California. In Las Vegas, winds are gusting at 29 mph (47 kph). At Mammoth Mountain's summit, the winds topped 150 mph, equivalent to a Category 3 hurricane on the Saffir-Simpson Hurricane Scale.

The severe winds are even dangerous in Utah. Here, they are called simply "canyon winds," but the same phenomenon is at play. A high-pressure gradient east of the Rocky Mountains causes the winds to speed up going down the mountains. 

"By the time they hit the valley they're at an incredible speed," said Nanette Hosenfeld, a meteorologist with the NWS in Salt Lake City.

Wind gusts of up to 100 mph have been reported in Centerville, Utah. Interstate 15 has been completely shut down there because of flipped tractor-trailer trucks.

Wildfire hazard

The strong winds are a serious wildfire hazard in California. The NWS office in Los Angeles said there is "potential for high fire danger with rapid fire growth due to the strong offshore winds and low humidity values."

When the compressed winds are driven down mountain slopes they dry out and get hot.

"It can take a small fire and make it become a very large fire," said Julie Hutchinson, a battalion chief, with CalFire, the state's fire protection service. "If you get a fire started it can move very quickly."

In Southern California, the brush-covered hills are a big wildfire risk, Hutchinson said. Many areas of brush-covered hillsides have been sloughing off moisture in preparation for winter and are dangerously dry. Many areas are parched and battling a drought.

If a fire were to get out of hand, firefighters would not be able to use aircraft to fight the flames. Once the winds are above 35 mph (56 kph), firefighters must rely solely on boots on the ground, Hutchinson said.

Downed power lines are another big fire hazard. Los Angeles firefighters put out a 2-acre grass fire that burned overnight today at Occidental College sparked by downed power lines.

You can follow OurAmazingPlanet staff writer Brett Israel on Twitter: @btisrael. Follow OurAmazingPlanet for the latest in Earth science and exploration news on Twitter @OAPlanet and on Facebook.

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Six months after Japan's tsunami, residents worry their plight is fading from view (video) (The Christian Science Monitor)

Minami-Sanriku, Japan – As memorial services were held across the northeast coastal regions to mark six months since the March 11 earthquake and tsunami, recovery from the vast disaster is proving to be painfully slow in many places.

Some of the worst-hit towns still resemble wasteland. More than 80,000 people remain in temporary accommodation. The nuclear crisis at Fukushima triggered by the tsunami is ongoing, and the new industry minister resigned over the weekend after making disparaging comments about the city.

“We pray for the lost lives and for the missing to be found as early as possible. We hope that people can return to this town and we can hear cheerful voices again,â€

RELATED: IN PICTURES: Japan's nuclear fallout

Mr. Sato had been in the town hall along with 130 staff when the tsunami struck. He was one of only 10 survivors when the 50-ft. waves came across the roof of the building and washed away 20 of the 30 people who had made it that far.

Most of the residents of the town returned for the service from other areas, as Minami-Sanriku remains largely uninhabitable. Thousands of tons of debris were piled into mountains of wood, earth, metal, and concrete along the waterfront.

A boat rests on the second floor of the former city hospital, facing away from the sea, where the tsunami deposited it as the huge wave pulled back to where it came from after obliterating 95 percent of the town.

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Recognizing sacrifices Red steel girders are all that is left of the town’s disaster response center where a young local government worker, Miki Endo, famously stayed at her post sounding an alarm and urging residents to evacuate, until the tsunami engulfed the building and she went missing.

People came from as far as Tokyo to pay their respects at the small makeshift shrine that has appeared in the shell of the building, dedicated to Ms. Endo’s sacrifice. Some residents of Minami-Sanriku want the remains of the building to be turned into a permanent monument to her heroism.

A cluster of 20 prefab housing units behind the Bayside Arena, where Sunday morning’s service was held, is now home to a fraction of the town’s people who lost their homes on March 11.

Kaeko Gyoba was in a club for Minami-Sanriku’s elderly residents with her husband when the earthquake struck. They made it up to the fourth floor and were spared as the waves swept through the three stories below, but left the building standing when the waves receded. It was one of the few buildings spared in the entire town.

“We spent two nights up there until a Self-Defense Force helicopter was able to land at the elementary school nearby and get us out,” says Ms. Gyoba.She stayed with relatives near Tokyo after the disaster, but she returned last month to be with the rest of her family, who now occupy five of the small, flimsy-looking temporary houses.

“It’s very tough living here, I just can’t get used to it. There’s nowhere in the town to shop, you need a car to go anywhere, and I worry how cold it will be in the winter,” says Gyoba. “And none of the family have jobs now. They all worked on the ocean, farming seaweed and oysters. Everything was swept away.”

Fading from public consciousness? Despite the nationwide attention that the six-month memorials have been receiving, some of those still struggling to put their lives back together feel they are gradually fading from people’s consciousness in the rest of the country. There is also anger at politicians in Tokyo who they see as more concerned with partisan fighting than focusing on helping the region’s recovery.

Even the leadership contest to replace former Prime Minister Naoto Kan – heavily criticized for his handling of the crisis – was seen as a self-indulgent distraction by many in the region. His replacement, Yoshihiko Noda, has already lost his trade and industry minister, only eight days after being sworn in.

On his first visit to the disaster zone last week, Trade Minister Yoshio Hachiro joked with a reporter accompanying him on the trip about infecting him with radiation by wiping his jacket on the journalist after coming out of the no-go zone around the Fukushima nuclear plant. The minister went on to describe the area around the stricken facility as, “really like a town of death.”

Hachiro’s behavior provoked outrage not just among residents of Fukushima, but across Japan’s north-east coast. For many, the minister’s attitude betrayed a lack of real empathy from Tokyo politicians with the victims of the triple disasters, and his tearful apology afterward convinced few.

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Atlantic's first 2011 hurricane, Irene, tracks toward Cape Canaveral (The Christian Science Monitor)

Hurricane forecasters have posted hurricane and tropical-storm warnings for the island of Hispaniola and the southern Bahamas as hurricane Irene, the Atlantic season's first hurricane, crossed Puerto Rico overnight Sunday.

Irene emerges as the 2011 Atlantic hurricane season is nearly a third of the way through its peak August-to-October period. Within that span, activity peaks on average from early to mid-September.

As of 11 a.m. Eastern Daylight Time Monday, the National Hurricane Center's track forecast puts the center of Irene roughly 120 miles east of Florida's Cape Canaveral by Friday evening, with landfall currently forecast to occur just south of Charleston, S.C., at about 8 a.m. Saturday. The intensity forecast upgrades Irene to a major hurricane, with winds in excess of 110 miles per hour, by the time it reaches the central Bahamas Thursday morning. It currently is expected to make landfall as a major hurricane.

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Errors are large, however, in track forecasts this far in advance. The track's "error" cone also include the possibilities that the storm could swing west and move up the Florida peninsula. Or it could track farther east than its current path indicates, pushing it closer to North Carolina's outer banks by Saturday morning.

Irene appeared as a tropical storm early Saturday evening from a cluster of thunderstorms some 175 miles east of Martinique. By early Monday morning, the center of the storm had arrived over Puerto Rico. But instead of weakening as it encountered the island, as often happens to a storm, it strengthened to a Category 1 hurricane, with maximum sustained winds of 74.8 m.p.h.

Although a formal analysis will come later, it appears that based on the storm's path, "the island was just too small" to deflate Irene, says Dennis Feltgen, a spokesman for the National Oceanic and Atmospheric Administration's National Hurricane Center in Miami.

Irene was strengthening as it approached Puerto Rico, he says, and the storm's path took the eye overland but close to the island's north coast, missing the highest, most potentially disruptive terrain.

The storm's path also left much of Irene's circulation over warm water, so Irene kept spinning up. Forecasters say they expect additional strengthening.

Irene is the ninth named storm in the 2011 Atlantic Hurricane season – a season busier so far than were 2009 and 2010.

IN PICTURES: Hurricane Irene

By this time in August 2009, the season had produced three named storms, only one of which was a hurricane. But it was a strong one – hurricane Bill reached Category 4, with maximum sustained winds of more than 131 m.p.h. It spent most of its time in the open Atlantic, skirting Nova Scotia as a weak hurricane and Newfoundland as a tropical storm.

The 2010 season saw five named storms by this time in August, two of which were a Category 4 storm. Both formed in August. One, hurricane Earl, kept much of the US East Coast on edge as skirted the shore from North Carolina's outer banks to finally make landfall in Nova Scotia as a Category 1 hurricane.

One key factor behind the differences: conditions in the tropical Pacific, forecasters say.

In 2009, El Niño conditions had taken hold by July. A large pool of warm water had migrated from the western tropical Pacific to the east, off the coast of Central and northern South America. That migration altered atmospheric circulation patterns in ways that increase the amount of wind shear over the tropical Atlantic.

Wind shear shows up as changes in wind speed and direction with altitude, and when a season's average conditions include strong shear, hurricanes have a tough time forming.

El Niño's opposite, La Niña, appeared in 2010, reducing shear and establishing general atmospheric conditions that favor hurricane formation.

This year, conditions in the tropical Pacific are in a neutral phase, which also tend to make formation more likely than during an El Niño year.

In addition to their high levels of street cred as natural hazards, tropical cyclones also figure into seasonal drought forecasts as drought busters. Drought has gripped much of the southern tier of the US for months, with "extreme" to "exceptional" conditions spanning Arizona, New Mexico, Texas, Oklahoma, and much of Louisiana. Drought at lesser intensities also span much of the rest of the Southeast.

Forecasters had expected some relief for parts of southern Texas and the Southeast with the coming of the hurricane season. But air over Texas has been so dry that when tropical storm Don made landfall along Texas' Padre Island, Don dropped a paltry two-thirds of an inch of rain along the coast, far less than forecasters expected based on experience with past tropical storms or weaker tropical depressions.

By contrast, tropical depression Harvey, which made its second and final landfall along the Mexican state of Veracruz Monday morning after crossing Guatemala, was dumping between two to four inches of rain along its path, with some locations expecting to get as much as 10 inches.

IN PICTURES: Hurricane Irene

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