“Bombogenesis”: Watch as a Storm in the North Atlantic Explodes into a Powerful Cyclone

By Tom Yulsman | April 17, 2015 9:34 am

Want to cook up a nice meteorological stew called “bombogenesis” (otherwise known as explosive growth of an extratropical cyclone)?  Here’s the recipe:

Take a low pressure system mix in a big dollop of heat coming off the Gulf Stream. Now, move the developing storm into the North Atlantic where you’ve got relatively warm air to the southeast and frigid, polar air to the northwest. Stir…

The video above shows what you wind up with: Explosive growth of a cyclone in the North Atlantic. (Technically speaking, bombogenesis occurs when the central pressure of a storm drops 24 milibars in 24 hours or less, and that most definitely occurred here.)

SEE ALSO: ‘Weatherbomb’ Storm From 38,000 feet”

The video is based on infrared and water vapor data acquired by the Meteosat Second Generation on April 15 and 16. Called the “RGB Airmass” product, the data and the false-color scheme are designed to help meteorologists monitor the evolution of extratropical cyclones and jet streaks.

The cyclone in question develops toward the upper left corner of the frame, off the coast of Newfoundland in Canada. As the storm develops, it grows an eye-like feature.

Here’s another view, acquired by NASA’s Terra satellite on Thursday: Read More

Seen From Space: High Winds Kick up Big Dust Storm in Nevada and California

By Tom Yulsman | April 15, 2015 10:58 am
dust storm

An animation of satellite images shows the advance of a dust storm across Nevada on Tuesday, April 14, 2015. (Images: NASA Worldview. Animation: Tom Yulsman)

Last week I shared a dramatic animation showing a massive sand storm sweeping across the Arabian Peninsula and across the sea to India and Pakistan.

dust storm

Source: NASA

Yesterday, the action shifted to the desert southwest of the United States: People from southern California to Utah experienced high winds and blowing dust — including the dust storm seen in the animation above. (To get your geographic bearings, click on the thumbnail at right.)

In terms of size, there was no comparison. Even so, winds gusting over 70 miles per hour and kicking up clouds of dust and sand caused mayhem on roads throughout the region. That included a 17-vehicle pileup on Interstate-80 in Tooele, Utah resulting in one fatality and at least 25 injuries. Read More

Winter Postcard from Antarctica: A Green Auroral Lightning Bolt From the Blue

By Tom Yulsman | April 11, 2015 12:04 pm
lightning bolt

The aurora australis lights up the winter sky over the U.K.’s Halley research station. (Photograph: © Thomas Welsh)

A green lightning bolt zapping a British habitation module on Mars?

Well, of course not. It’s actually a display of the aurora australis setting the winter sky on fire above the Halley Research Station in Antarctica.

The aurora australis is the Southern Hemisphere’s version of the aurora borealis. You can call them the “southern lights.”

The photo above is the second ‘postcard from Antarctica’ sent by Thomas Welsh, the station’s winter manager. I posted the first one on March 26. It includes photos, a summary of some of the research that’s done there, and a fascinating account of what it’s like to winter over on an Antarctic ice shelf, cut off from the rest of the world.

In his email to me this morning, Tom was short but sweet:

Here are some aurora photos, as promised. It was an incredible and very humbling display.

Cheers,

Tom

Humbling indeed: Read More

Odds of El Niño Continuing Through Summer Upped to 70%

By Tom Yulsman | April 9, 2015 9:52 am
odds

During March, above average sea surface temperatures spread into the eastern Pacific Ocean along the equator. (Source: NOAA)

In its monthly update, the U.S. Climate Prediction Center today said the odds of El Niño continuing into Northern Hemisphere summer have increased to 70 percent.

This is up from 50 to 60 percent last month.

According to the report:

By the end of March 2015, weak El Niño conditions were reflected by above-average sea surface temperatures (SST) across the equatorial Pacific (Fig. 1), and by the expected tropical atmospheric response.

During an El Niño, trade winds ease, allowing warm surface waters in the tropical Pacific to move eastward, toward South America. This tends to alter weather patterns in far flung parts of the world.

You can see abnormally warm surface waters migrating eastward along the equator in the animation above. It starts on March 4 and moves forward in weekly increments to March 25. In the last frame, note that warm pool of water off the coast of South America.

El Niño brings areas of low pressure and increased rainfall to the west coasts of North and South America (including California), according to Columbia University’s Earth Institute. But that’s not all: Read More

New Record Low for Arctic Sea Ice, Plus More Sobering News About Western U.S. Snowpack

By Tom Yulsman | April 9, 2015 1:14 am
record low

Where Arctic sea ice typically has existed in the past at this time of year, open water is visible in the Fram Strait in this image acquired by NASA’s Terra satellite on April 3, 2015. The island of Svalbard is visible in the upper right corner. Greenland is out of the frame toward the lower left. (Source: NASA Worldview)

| See update below|

The extent of Arctic sea ice in March hit a record low for the month in the satellite era, according to the latest update from the National Snow and Ice Data Center.

Back on February 25, a record low winter ice extent was set.

SEE ALSO: It’s Now Official: Arctic Sea Ice Sets a New Winter Low

The satellite image above, acquired on April 3, shows dark open water in the Fram Strait between Svalbard and Greenland. At this time of year there is typically more sea ice here.

As for those lovely cloud formations, they’re called cloud streets, and they tend to form parallel to the direction of the winds. Read More

Watch as a Massive Sandstorm Sweeps Across a Region Nearly as Large as the Contiguous United States

By Tom Yulsman | April 8, 2015 10:47 am
sandstorm

A massive sandstorm that began April 1, 2015 on the Arabian peninsula spread over the next five days into Pakistan and India. These images were taken by the Suomi NPP satellite’s VIIRS instrument between April 1 and 6, 2015. (Source: NOAA Environmental Visualization Laboratory.)

It began relatively modestly as a few plumes of sand blowing out of the northwestern portion of the Arabian Peninsula. Within less than a day, it had transformed itself into a monster.

Or, more accurately, a gargantuan “haboob” — a sandstorm that ultimately swept down the entire peninsula and all the way across the Arabian Sea to Pakistan and India.

SEE ALSO: Deadly Snowboob Envelops Ontario

From April 1 through April 6, the sand moved across an area that by my estimation totaled about 2.4 million square miles. By comparison, the contiguous United States measure 2.9 million square miles.

Sandstorm

Source: NASA

You can watch the progress of the sandstorm in the animation above consisting of images acquired by the Suomi NPP satellite. (The acquisition dates for each image are listed in the lower right corner. Also, the first and last images in the animation pause longer than the others.)  For an image showing the haboob’s relatively humble beginnings in the northwestern part of Saudi Arabia, click on the thumbnail at right. I’ve circled the area in question.

As it grew and gained force, the sandstorm caused quite a bit of mayhem. As described by the Cooperative Institute for Meteorological Satellite Studies:

The blowing sand reduced surface visibility to near zero at some locations, disrupting ground transportation, air traffic, and also closing schools. Visibility was reduced to 0.1 mile for several hours at Dubai International Airport . . . which is one of the world’s busiest in terms of volume of flights.

Read More

North of Drought-Plagued California, Snowpack in the Cascades is at Record Lows Too

By Tom Yulsman | April 3, 2015 5:27 pm
Cascades

An animation of satellite images acquired in spring shows diminishing snowpack in the Cascade mountain range of Oregon between 2013 and 2015. (Images: NASA Worldview. Animation: Tom Yulsman)

The news out of California this past Wednesday was so grim that it once again grabbed headlines away from another region that is suffering too.

Following Wednesday’s news that snowpack in California’s Sierra Nevada range is virtually gone, today the U.S. Natural Resources Conservation Service announced that snowpack in the Cascades of Oregon and Washington is also at record lows.

You can watch it pretty much vanish year to year in the animation above. I created it using three images acquired by NASA’s Aqua and Terra satellites. The sequence starts on March 30, 2013, moves to April 7, 2014, and concludes with an image acquired this past March 26th.

The main culprit here has not been primarily a lack of precipitation, which was only a little lower than normal in Oregon. As has been the case in California (which experienced low precipitation this winter but not record low), and elsewhere in the western United States as well, snowpack in the Cascades has taken a really big hit from exceedingly warm temperatures.

SEE ALSO: Watch the West’s Snowpack Shrink Dramatically Right Before Your Eyes Read More

Here We Go Again… Super Typhoon Maysak Swirls in the Overheated Pacific Ocean — And it Just Set a Record

By Tom Yulsman | March 31, 2015 4:42 pm
Maysak

An animation of infrared satellite imagery shows Super Typhoon Maysak swirling in the Pacific Ocean. The storm’s forecast track is superimposed. (Source: Cooperative Institute for Meteorological Satellite Studies)

Micronesia’s Caroline Islands have been taking a beating today from Category 5 Super Typhoon Maysak.

As of 2 p.m. today EDT (morning on Wednesday in Micronesia), the Joint Typhoon Warning Center pegged Maysak’s strongest sustained winds at 160 miles per hour, with gusts to 195 mph.

This makes Maysak “one of only three Category 5 storms ever observed in the Northwestern Pacific prior to April,” according to Jeff Masters of Weather Underground.

Also, Maysak’s development has caused two records to fall, Masters says: Read More

Watch the West’s Snowpack Shrink Dramatically Right Before Your Eyes in Striking Satellite Image Animations

By Tom Yulsman | March 30, 2015 9:01 pm
snowpack

Before and after satellite images — one pair in natural color and the other in false color — show dramatic shrinkage in snowpack across a large portion of the Western United States centered on Colorado and Utah. In the false color views, snow appears in reddish tones. (Images: NASA Worldview. Animations: Tom Yulsman)

On March 18th, I posted a story about the other big drought story you need to pay attention to — not the one in California, which has been garnering most of the headlines but the one that has been afflicting the Colorado River Basin.

Since then, I’ve been keeping an eye on how our snowpack has been doing. And now, at the end of the month, I’m sorry to report that it’s not doing well at all.

The main culprit: High temperatures — outrageously so in some areas — have been causing premature melting of high mountain snows and early runoff.

I made the animation above to illustrate what’s happening. It consists of two pairs of images from NASA’s Terra and Aqua satellites. The view stretches from the eastern front of the Rocky Mountains on the right to the Utah-Nevada border on the left. (Also included are snippets of Wyoming to the north and New Mexico and Arizona to the south.)

I’ve chosen both natural and false color images to illustrate what has happened. In both pairs, the first image was acquired on March 5th, and the second on March 30. In the false color images, the reddish tones are indicative of snow.

In both cases, the shrinkage of the West’s snowpack is stunning. And just for the record, our eyes are not fooling us.

Some of the biggest declines have occurred in Colorado’s San Juan mountains, in the southwestern corner of the state. Here’s the data illustrating what has happened there: Read More

Antarctic Ice Shelves are Thinning Rapidly — and the Losses are Accelerating in West Antarctica

By Tom Yulsman | March 27, 2015 1:50 pm
ice shelves

Satellite radar data reveal the speed of flow of the Pine Island Glacier in West Antarctica between March 3 and 15, 2015. Pink indicates the fastest flow: about 100 meters (328 feet).

Yesterday, I posted a story about the Halley Research Station on Antarctica’s Brunt Ice Shelf. I titled it a “Winter Postcard from Antarctica,” and it included photos and comments about life at the station from Tom Welsh, the wintertime manager there.

Well, I was so busy putting that post together that I missed the big news yesterday about Antarctic ice shelves in general: They are thinning faster than previously thought.

This is a big deal because these ice shelves act like dams that impound giant glaciers behind them, slowing their movement to the sea. So as these ice shelves erode, it allows the glaciers to flow more quickly, releasing more ice into the sea and thereby raising sea level.

The new findings have been reported widely elsewhere, including this excellent overview by Andrew Freedman at Mashable. So I won’t go into them in great detail here.

But I thought I’d share a quick summary as well as some imagery that can help explain what’s going on. Read More

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ImaGeo

ImaGeo is a visual blog focusing on the intersection of imagery, imagination and Earth. It focuses on spectacular visuals related to the science of our planet, with an emphasis (although not an exclusive one) on the unfolding Anthropocene Epoch.
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