All posts tagged Flood

Worst Flood in 200 Years — 1.2 Million People Displaced by Rising Waters in India

When you’re rolling with loaded climate dice the situation, as Indian disaster relief officials stated earlier today, is indeed grim.

* * * * *

The Earth has been warmed by 1 degree Celsius over the past 135 years due to hundreds of billions of tons of fossil fuels burned. That’s a pace of warming more than 10 times faster than at the end of the last ice age. And with that one degree Celsius of global temperature increase, we get a 7 percent increase in the rate of evaporation and precipitation. Unfortunately, that heat-driven alteration in the hydrological cycle is not even. In some places, where the heat piles high into great atmospheric domes and ridges, we see excessive drought. In other places, the moisture finds a weak spot in the heat and then we see inundation. The ridiculous country-spanning floods that have now become all-too-common.

(The remnants of tropical cylcone Komen combine with a monsoonal flow over India to produce severe storms over Central and Western India on August 4, 2015. Image source: LANCE-MODIS.)

Droughts and floods of a severity that we are not at all used to and that have greatly contributed to increasing extreme weather events worldwide. Events that over the past seven years displaced nearly 158 million souls. Sadly, that dread toll of displacement, loss of homes, and loss of lives continued this week in South Asia as a flood of Biblical scale devoured an enormous swath of land.

Drought, Heat Mass Casualties, then Flood

For this summer, the situation in India, Bangladesh and Myanmar has been one of drought and flood combined. Earlier this year, the arrival of monsoonal moisture was delayed by the influence of a powerful heat dome crouched over the region. In India, the high temperatures and humidity were so intense that tens of thousands were hospitalized and thousands lost their lives due to heat stroke. Official reports from the region indicated that a precipitation deficit of 10 to 30 percent or more was in the offing. But that was before the skies, super-charged with moisture through an unprecedented rate of evaporation, opened up.

Last week, a frail but rainfall dense tropical cyclone Komen slammed into the coast of Bangladesh. This storm combined with the heavy load of monsoonal moisture building over the region. These conjoined systems have since dumped from 300 to 1300 millimeters of rainfall (more than four feet of rain for some locations) over a broad region including Bangladesh, Myanmar, and the Bengali state of India. It’s a rainfall amount that measures not in inches and millimeters, but in feet and meters. And when you get that much rain there’s going to be some severe hell to pay.

Worst Flood in 200 Years, 13,000 Villages Under Water, 1.2 Million People Displaced

Heavy monsoonal rains are ‘normal’ for India during this time of year. And, as is typical with media outlets who seem mentally incapable of reporting on the impacts of human-caused climate change and related extreme weather these days, many are attempting to claim that the current epic rainfall in India is somehow part of a typical pattern. Nothing could be further from the truth. For by August 1 (two days before the Bengal rains began to shift westward) the day-on-day piling up of water had amounted to the worst flood experienced in all of 200 years of record keeping for the hardest hit regions.

It’s a media silence that pervaded in the earlier stages of this unfolding disaster. One in which only a trickle of reports hit the net or presses. A silence that led one minor local media outlet to issue this irate statement:

Chandra says media has completely ignored this flooding, including the state’s print media and television news channels. The media are mainly based in the state capital, Imphal. The state government is in total chaos and is completely unprepared to tackle the situation. No higher zone is left within the districts, and people are taking shelter in nearby hill stations.

In other words, the only solution for Bengalis during the first few days of this 200 year or worse flood event was to run to the hills.

(By Saturday, August 1, flood waters had already surged over river banks and inundated areas like Manipur. Now, more than 13,000 villages and in excess of 10 million people have been impacted. Image source: Blaze.)

Since that time, government and mainstream media response has been more widespread, even if most reports have not set the current extreme event in its proper climate change related extreme event context. Regardless of this widespread failure, yesterday, as reports rolled in that more than 11,000 villages had been buried by water in Bengal, the extreme nature of the situation began to settle in. Sparse news coverage indicated that at least a million people had been impacted and that flood refugees were beginning to pour into disaster shelters. By this morning, a more accurate assessment of the full scope of this disaster had been taken. Over 13,000 villages had been flooded out, more than 10 million persons had been impacted, and the official government count for persons huddling in disaster shelters had climbed to 1.2 million souls.

“Rivers in 13 districts are flowing over their danger marks. The situation is grim,” noted disaster management minister Javed Ahmad Khan to AFP.

Lives lost from the flooding have steadily and ominously increased to over 180. But with so many roads and bridges washed out. With so many villages still under water, it will take weeks before a full account is made of this year’s excessively severe flooding.

(Heavy rainfall is now focused over Central India with 125 mm [5 inches] or locally higher amounts centered east of Mumbai and southeast of Dehli. Image source: Monsoon of India.)

Severe rains have since shifted to central portions of India so the hard-hit Bengal region should be able to start picking up the pieces. Now it’s Central India that’s falling under the gun as monsoonal moisture is pumped up into towering thunderstorms by Komen’s circulation and southerly outflow.

Storm Heading Toward Mountains

Over the next few days, the most intense storms associated with Komen’s monsoonal interaction are expected to shift north and west, eventually stalling out over the mountainous regions of Northern India and Pakistan. Such a storm track risks increased rates of rainfall over high mountain glaciers. A weather situation that can dramatically increase glacial ice loss and spike the potential for dangerous glacier outburst flood events.

Links:

At Least 180 Dead, A Million Displaced in India Due to Flooding

How Climate Change Wrecks the Jet Stream, Amps up the Hydrological Cycle to Generate Extreme Weather

LANCE-MODIS

Extreme Weather Related to Climate Change Displaced 158 Million People Over the Last 7 Years

Hothouse Rains Destroy 17,000 Homes in Myanmar

Heatwave Kills 2300 in India

Parts of India Experience Worst Flooding in 200 Years

Blaze

Monsoon of India

Sky News Monsoon Forecast

Hat Tip to Colorado Bob

33 Comments

by robertscribbler on August 4, 2015 • Permalink

Posted in Climate Change

Tagged 200 Year Flood, Bengal Floods, climate change, environment, Extreme Flood, extreme weather, Failure to Report, Flood, global warming, Hothouse Flood, Human Hothouse, human warming, India Floods, Media Climate Confusion, Media Climate Silence, Out of Context Problem, Rainfall Over Glaciers, science, weather

Posted by robertscribbler on August 4, 2015

https://robertscribbler.wordpress.com/2015/08/04/worst-flood-in-200-years-1-2-million-people-displaced-in-india/

Buffalo’s Climate Change Driven Mega Snow-Flood

Earlier this week something rather interesting and disturbing happened to the Jet Stream.

In the extreme northwest, a large heat pool over Alaska and the Beaufort Sea in the Arctic Ocean kept temperatures in the range of 10 to 36 degrees Fahrenheit above average. To the south, a powerful super typhoon, gorged on Pacific Ocean waters ranging from 1-2 C hotter than normal, raced into the extratropical region of the Central and Northern Pacific. And to the north and east, the cold core that normally resides over the North Pole began slipping south.

(Massive warm air invasion of the Arctic earlier this week led to a major polar vortex disruption driving cold air out of the Arctic and setting off record snowfall in the region of Buffalo, New York. Image source: Climate Reanalyzer.)

As the supertyphoon’s remnants hit the warm weakness in the Jet Stream near Alaska, it bombed out into a monster extra-tropical low. This kicked warm air even further north, causing a whiplash in the Jet and driving the cold air core south over Canada.

Cold air rocketed down over the relatively warm waters of the Great Lakes. These waters, having soaked up the heat of yet another hotter than average American October and early November, squeezed an epic amount of moisture and storm feeding energy out into the air. Over the past two days, the result was as kind of thundersnow storm that parked itself in one location, dumping foot after foot of snow. By the time the final tally was counted this morning, as much as 8 feet had fallen over Buffalo New York. A record amount never before seen in so short a time span and yet so far ahead of winter.

More than seven deaths, multiple building collapses, a paralyzation of transportation, and extraordinary damages prompted the New York State governor to declare a state of emergency.

Yes, Climate Change Has Put the Weather on Steroids

All these events occurred in the context of a climate increasingly distorted by human-caused warming. The Northern Hemisphere during this week has averaged over 1 degree C hotter than normal. And the Arctic has averaged at around 2.5 degrees C hotter than normal.

In this mix of climate change driven extreme weather soup, that warming Arctic is critical. It provided the weakness in the Jet Stream for a supertyphoon’s remnants to exploit. It provided a wobbly polar vortex all too ready to make another charge south over North America. And the super-hot equatorial waters of the Pacific added yet more energy to this stoked and building climate fire.

Cold Snow to Turn to Warm Flood

But the tale of climate change driven extreme weather isn’t over by a long shot. The cold dipole which drove over the Great Lakes earlier this week was anything but stable. Now, warmth is surging north over the US heartland springing up from the hot pools of the Gulf of Mexico and the Eastern Pacific. It is producing a warm frontal boundary that is now driving across the US heartland. By Saturday and Sunday, it will dump a warming rain over Buffalo’s 7-8 feet of snowpack.

Temperatures are expected to climb into a much warmer than normal range of 50 degrees F by Saturday. By Sunday, the heat will build to 15-20 degrees above average reaching as high as 60 degrees F in the forecast.

(Sunday GFS model forecast shows temperatures at +15 to +20 degrees Fahrenheit above average for the Buffalo region. The added high temperatures are expected to coincide with rainfall and potential major flooding from the melt of a massive 8 feet of snow in some areas. Image source: Climate Reanalyzer. Note that global temperatures in both maps are in the range of 0.39 to 0.51 C above the already hotter than normal 1979 to 2000 average.)

The snow pack is first expected to ripen, then flood away under the rising heat and a half inch to two inches of rainfall. The impact to Buffalo’s infrastructure could again be quite extraordinary. Between 9 and 15 inches worth of liquid water are locked in all that snow. Its sudden release into a landscape of clogged storm drains and choked roads is expected to provide an extraordinary flood risk. And massive piles of snow over buildings collecting more water will increase further risk of building collapse.

As of now, the National Weather Service has posted a Flood Watch — which means extreme conditions may begin in as little as six hours.

Conditions in Context

Radical swings between weather extremes like those experienced by Buffalo this week are exactly the type of climate alterations we would expect as a result of human caused warming. These impacts occur in the context of a world that is now experiencing its hottest year on record globally. A place of increasingly intense droughts, rainfall, and snowfall events. A world in which the Northern Hemisphere Jet Stream is increasingly distended as air over the Arctic warms much faster than the rest of the globe.

Such extremes in weather have been predicted by climate scientists to result from human-caused warming. And we are beginning to see the start, the milder outliers, of these predicted extremes set off by the human heat forcing now. Further heightening Arctic warming, or worse, increasing cold water outflows from melting ice sheets over Greenland, will almost certainly set off far more extreme weather than what we are seeing now.

Message to climate change deniers — this serves as a warning to you. Turn back.

Links:

Climate Reanalyzer

National Weather Service Flood Watch

Dr. Jennifer Francis on How Polar Amplification Mangles the Jet Stream

There’s Growing Evidence That Global Warming is Driving Crazy Winters

Flood, Roof Collapse Fears as Snows End for Buffalo

120 Comments

by robertscribbler on November 21, 2014 • Permalink

Posted in Climate Change

Tagged Buffalo Snow, Buffalo Snow-Flood, climate change, Climate Extremes, Dr. Jennifer Francis, Flood, global warming, human warming, mega snow, Record Global Temperatures

Posted by robertscribbler on November 21, 2014

https://robertscribbler.wordpress.com/2014/11/21/buffalos-climate-change-driven-mega-snow-flood/

May Likely to Break Global High Temperature Record as El Nino Conditions Strengthen in Pacific

The human warming-riled monster weather event that is El Nino continued to advance over the Equatorial Pacific this week. Ocean surface temperatures throughout the basin from north and east of New Guinea and along a broad stretch of thousands of miles of ocean climbed. Sporadic west winds and an overall weakness in the trades extended the expansion of warm surface waters along the serpentine back of the El Nino pattern from west-to-east even as a high heat content Kelvin Wave kept conditions below surface much warmer than normal.

(Pacific Ocean sea surface temperature anomalies from 2 April to 28 May. Animation source: NOAA)

Large and growing regions of 1 to 2 C warmer than normal surface temperatures expanded in broad, 1,000 + mile stretches near the date line and ranged out from the west coast of South America. An impressive region of, very hot, 2-3 C positive anomalies grew through an ever-larger span from Santa Cruz Island to coastal Ecuador and Peru. Though the above graphic is not granular enough to catch it, daily anomalies in this hot pool exceeded extremely intense +3.5 to +4 C readings.

Readings in the range of +0.5 to +1 C invaded regions north to south, east to west, joining in an extraordinary zone stretching from the Philippines to South America, and from Baja to Hawaii to the Solomon Islands. A separate pool of very hot water north of New Guinea and near the Philippines is likely to play a further role in El Nino development throughout this year should weak trades and anomalous west winds persist. Then, a second and reinforcing pulse of warm water is predicted to push the entire Equatorial Pacific Basin well above a +1 C positive anomaly by late Summer through Fall.

(Sea surface temperature anomalies in the four key Nino regions all show continued warming through the end of May. Image source: NOAA.)

The tightening grip of El Nino is plainly visible with each of the four key Nino zones showing ongoing temperature increases in what is now a 3-4 month long event. Meanwhile, the key Nino 3.4 zone closed its 4th straight period above the +0.5 C Nino threshold even as it jumped to +0.6 C above average this week. Notably, the Nino 1+2 zone off South America hit a very warm +1.6 C average positive anomaly this week, showing additional warming from strong late April values.

Together, these values all show very solid continued progress toward El Nino.

(Map of geographical Niño zones provided by NOAA.)

Conditions in Context: May 2014 Likely Hottest on Record Amidst Ongoing Extreme Weather

Overall, Equatorial Pacific ocean surface temperatures continued their advancement from May 27 to June 2, rising from +0.59 to +0.68 C above the 1979 to 2000 average throughout the week. Global sea surface temperatures have remained in an exceptionally hot and likely global record range between +1 and +1.25 C above 1979 to 2000 averages throughout the month of May and into early June. These extraordinary readings likely combined with very high atmospheric values to put May of 2014 in the range of hottest on record. It is worth noting that, according to NOAA, April of 2014 was also the hottest in the 134 years since global temperature measurements began.

El Nino tends to spike atmospheric heat and, when combined with a brutal human greenhouse gas forcing, greatly increases the likelihood that a given year will reach new global heat extremes.

For 2014, El Nino and global warming related weather disruptions already appear to be taking hold with the Indian Monsoon appearing weak and delayed, a summer heat dome building over Europe and Western Russia, with Southeast China experiencing record floods even as northern and western China and Japan experience record heat. Ongoing droughts and crop disruptions in Brazil, building heat and drought in Indonesia, and Australia experiencing two back to back hottest years on record is also indicative of the screaming global heating that typically comes when El Nino gives human-caused warming an explosive boost.

Links:

NOAA

Indian Monsoon Disrupted

Monsoon Misses Date With India, Onset Delayed

Monster El Nino Emerging From the Depths

59 Comments

by robertscribbler on June 2, 2014 • Permalink

Posted in Climate Change

Tagged April 2014 hottest month on record, Australia hottest year on record, climate change, drought, El Nino, ENSO, environment, extreme weather, Flood, global warming, heatwaves, India Monsoon Delayed, May 2014 hottest month on record, Pacific Decadal Oscillation, Pacific Ocean heating, PDO, record heat, science, weather

Posted by robertscribbler on June 2, 2014

https://robertscribbler.wordpress.com/2014/06/02/may-likely-to-break-global-high-temperature-records-as-el-nino-conditions-strengthen-in-pacific/

A Siberian Heat Wave is Breaking Kara Sea Ice In March, So is it Time to Start Thinking about Hot Arctic Rivers?

There’s a heatwave in Dickson, Russia today. But if you were standing on the shores of this port city on the Kara Sea in the far north, you might not realize it. The forecast high? 29 degrees Fahrenheit.

Dickson is located about 500 miles north of the Arctic Circle and 1,000 miles south of the North Pole. To its west is Novaya Zemlya, a sparely inhabited and typically frozen island between the Kara and Barents Seas. To its east is Siberian Khatanga and Severnaya Zemlya an island system that, until 2005, sat in a pack of Arctic sea ice so dense and resilient, it was once possible to ski from Severnaya all the way to the North Pole even at the height of Northern Hemisphere summer. No more. The sea ice is now but a thin and wrecked shadow of its former glory.

Ask any resident of this, typically frigid, coastal town and they’ll tell you that today it’s abnormally warm, even hot for this far-north locale. For the average high for this day in Dickson is about 1 degrees Fahrenheit. Typical daily highs of 29 degrees (F) don’t normally appear in Dickson until mid-to-late June.

So, in essence, summertime has arrived in Dickson in March and there we see temperatures that are a shocking 28 degrees Fahrenheit above average. Human caused climate change at its most brazen. But we haven’t seen a thing yet…

As we can see in the map below, Dickson is but one location sitting beneath a vast and spreading Siberian and Arctic heatwave:

(Global temperature anomaly map for March 20, 2014 shows world temps +.65 C above the, already hotter than normal, 1979-2000 baseline and Arctic temps at +3.12 C. Note the large heat pool over Siberia. Image source: University of Maine.)

A heatwave extending from the Pacific Ocean in the east to the borders of Mongolia and China in the south. From Surgut in the west and on deep into the Arctic Ocean’s Laptev and Kara Seas in the far north. And it is vast, covering an area roughly 2,000 by 2,000 miles at its widest points. But the heatwave is not disassociated from other high temperature anomalies. It flings a wide outrider over the Beaufort Sea and the Bering Strait. And it sits in a broad flood of warmer than average air riding over Europe, the Middle East and Asia.

This Jet Stream entrained warm air feeds the heatwave even as pulses of much warmer than normal air rise up from the deserts of Western China over Mongolia and up into Russia to give it an added kick. The connecting pattern is a high amplitude Jet Stream wave surging past the Arctic Circle and deep into the Arctic Ocean. It is the kind of high amplitude pattern that, over recent years, has been implicated in so many extreme Arctic heat invasions and related severe weather events.

Temperatures in the far north of this hot zone range from 10 to over 36 degrees Fahrenheit above average for this time of year. For Siberia and the Arctic Ocean it is a heatwave of just below freezing and slightly above freezing temperatures. In other words — what, until recently, used to be summer-like conditions.

Heat Wave Breaking up Ice in the Kara Sea

Such anomalous warmth is enough to put a heavy strain on sea ice. The ice freezes and melts at around 28 degrees F. So extended periods near or above this temperature can have an impact on ice integrity. The ice gets hit by warmer air even as it floats over warmer waters. It’s a kind of one-two punch that can be pretty devastating to sea ice integrity.

And we see just this kind of situation over the past two weeks in the region of the Kara Sea near Port Dickson.

Normally, this frigid ocean zone is covered in a stable sheet of ice called land fast ice. The ice is anchored to the land at various points and tends to remain solid due to reduced movement caused by grounding on the surrounding land features. When the land fast ice starts to go, it usually presages melt.

(Break-up of Kara sea ice and land fast ice. Top frame shows the Kara on March 7, bottom frame shows break-up visible on March 17. Note that cloud covers a portion of both images and that the March 20 image — the most recent — is too obscured by cloud for detailed analysis. Image source: Lance-Modis)

With the recent influx of much warmer than normal air from the south, this is exactly what we see. A widespread breaking up of Kara sea ice and of even the more resilient features fixed to surrounding lands and islands. And as you can see in the lower frame image, the break-up is quite extensive and dramatic.

The current warm pulse is expected to last for the next few days before shifting back to Svalbard by early to mid next week. Meanwhile, overall Arctic temperatures are expected to remain between 2.5 and 5 C above the, already warmer than normal, 1979 to 2000 average all while a trend establishes that continues to feed warm air pulses up over Asia and into the Arctic Ocean zones of the Kara, Laptev and East Siberian Seas.

Abnormal warmth gathering over the continents in this way can cause both early melt and large flushes of warm meltwater into the Arctic Ocean. An issue that is specially relevant due to recent NASA studies of another section of the Arctic Ocean — the region north of Canada and the Mackenzie River Delta called the Beaufort Sea.

Warm Rivers Heat the Arctic Ocean, Melt Sea Ice

The NASA study found that large pulses of warm water from continental rivers are a strong mechanism for transporting heat into the Arctic and, over recent years, are one of many factors resulting in the sea ice’s rapid recession.

(Heat flux from Canadian Mackenzie River into the Beaufort Sea during recent melt years. The first image shows sea surface temperatures on June 12 of 2012 before the Mackenzie River discharged and on July 5, 2012 after. Note the ocean surface water temps rising by as much as 10 C between frames. Image source: NASA.)

The NASA study found that large heatwaves warmed the continents and that this caused continental rivers to disgorge warm water into an already warming Arctic Ocean. The findings showed significant contributions from warm rivers to rising sea surface temperatures and sea ice melt during recent Arctic summers including the record melt year of 2012.

As the Arctic experiences increasing pulses of summertime temperatures during late winter and into spring, it is likely that warm water discharge and overall warmth will play a role at the transition between sea ice freeze and melt season. And this thought brings us back to Russia which appears to be stuck in the abnormally warm pattern covered above. A pattern that, should it continue to flicker and swell, may well bring a surge of warmer than usual water into the Kara, Laptev and East Siberian Seas come later this spring and on into summer. A blow to sea ice that may well emerge but that we can ill afford.

Links:

The University of Maine

Lance-Modis

NASA: Warm Rivers Play a Role in Arctic Melt

40 Comments

by robertscribbler on March 20, 2014 • Permalink

Posted in Climate Change

Tagged climate change, drought, environment, extreme weather, fires, Flood, global warming, polar amplification, science, sea ice, sea ice melt, weather

Posted by robertscribbler on March 20, 2014

https://robertscribbler.wordpress.com/2014/03/20/a-siberian-heat-wave-is-breaking-kara-sea-ice-in-march-so-is-it-time-to-start-thinking-about-warm-arctic-rivers/

A Song of Flood and Fire: One Million Square Kilometers of Burning Siberia Doused by Immense Deluge

About a week and a half ago, I reported on a great burning event in which a massive region of Russian Siberia erupted in hundreds of wildfires blanketing it in a sea of smoke clearly visible in the NASA Aqua Satellite record. Today, reports from Interfax/Radio Russia describe an immense flood emergency in which over 1 million square kilometers of Russia’s Yakutia region have been submerged by a catastrophic rain event.

From the Interfax report:

“It is a unique situation in the sense that it has spread over more than 2,000 kilometers if one looks from west to east, while its depth or width is more than 500 kilometers,” Vladimir Stepanov, head of the National Crisis Management Center of the Emergency Ministry, told a news conference in Moscow.

According to the report, hundreds of villages in this, thankfully, sparsely populated region have been inundated by water putting hundreds of thousands of people in amongst a swirling flood. According to reports from Russian government, the region is now the site of a massive and major rescue operation. As of August 11, the operation composed an army of 20,000 personnel — a force that is likely to have greatly swelled as this major climate disaster expanded through today.

Floods turn Amur Region of Russia into a Sea on August 14.

(Image source: Radio Free Europe)

A Song of Flood and Fire

As of late July, heavy rainfall had emerged in a dense band along eastern Russia and bordering north China. This band of dense and heavy moisture rose north over an ocean heat dome that was setting off very dangerous high temperatures over the region of Southeast China even as it was baking a large region of ocean, heating a vast expanse of the surface waters to above 30 degrees Celsius. The added moisture and heat content provided fuel for low pressure systems skirting the high.

By early August, major flooding had begun to occur in this eastern region as very heavy storms sprang up over this large area.

We can see the development of this massive storm system starting on August 4th in the image below:

Russia August 4 — Heavy Rains to the East, Massive Fires to the West

(Image source: NASA/Lance-Modis)

In the above image, we are looking down on the Earth from a shot taken above the North Pole. The region we are looking at is Siberian Russia and Yakutia which dominates the central section of the image. Toward the lower left are the Laptev and East Siberian sections of the Arctic Ocean. Toward the central and upper left is Eastern Russia (Kamchatka), Mongolia, and extreme north China. In the upper right corner is central Asia.

Note the very dense region of clouds and rain pulsing up from the Pacific Ocean and overlaying Kamchatka and southern Yakutia. The storm at this point is vast and its cloud coverage immense. But it is just getting started.

Russia August 7 — Low Pressure Emerges From Central Asia

(Image source: NASA/Lance-Modis)

By August 7, the storms had sagged toward the south, drifting slowly eastward along the monsoonal flow. Occasional pulses of moisture rose northward from the Pacific to refresh and intensify this storm and cloud flux. This action brought the Pacific and monsoonal storms in direct contact with a hungry low pressure system rising up out of Central Asia and moving from the southwest toward the northeast. By August 7 we can begin to see this storm system entraining the massive volume of moisture associated with the Pacific storm pulse and monsoonal flows.

The storm was emerging over a region of Yakutia that had experienced a massive and terrifying explosion of very energetic wildfires. The air was heavily laden with particles of dense smoke from a great burning that had intensified since late July. There the moisture erupted into a powerful deluge that by August 11th had broken flood records set as far back as 1896. By that time, more than 20,000 personnel had been mobilized to help deal with the floods as hundreds of homes and scores of roadways were inundated.

Russia August 11 — Deluge Fully Formed Over Yakutia

(Image source: NASA/Lance-Modis)

As of August 11, we see a massive and fully formed storm complex directly over Yakutia. The storm has now fully entrained the dense smoke cover belched out by the hundreds of fires, some of which were still burning throughout the region. It was also still drawing in moisture from the Pacific storms and monsoonal flow over south Russia, Mongolia and northern China. A second arm of the storm stretched northward linking the storm with the Arctic. With a strong south and north linkage, the storm had accessed energy to maintain strength and intensity for an extended period.

The large storm system continued to churn through Yakutia and by today, August 14th, a massive region covering 1 million square kilometers was inundated by floodwater. What we see in the satellite shot for today are not one, not two, not three, but four rivers of moisture linking the major storm system that has inundated Yakutia.

Russia August 14 — Rivers of Moisture Collide

(Image source: NASA/Lance-Modis)

The first river of moisture is a continuation of the Pacific flow rising up along the southeast Russian coast, the second is the monsoonal flow moving from west to east to combine with this Pacific flow. A third flow feeds into the storm from Europe as it rides along parallel and to the north of the more southerly monsoonal flow. A final river of moisture rides up the from the storm, linking it to the Arctic and likely sharing energy and instability with that cold and dynamic region.

With a second low developing to the west of the first and moving along in its shadow and with moisture continuing to feed into these storm systems from the monsoonal flow to the south, it appears that rainy conditions will persist for the already inundated Yakutia region over the next few days at least. And if this pattern continues as predicted, it may well come to rival the great Pakistani floods of 2010.

Fires Still Burn Near the Flooded Lands

One, rather odd, feature of this major flood and fire event is that large areas of wildfires are shown to still be burning throughout Russia. Though the onrushing deluge clearly put out some of the major fires burning in north and central Yakutia, still other major fire complexes continue to burn — some of which remain very near to flooded regions.

In the below MODIS shot a major fire complex is still visible in a region of Russia to the west and south of areas most heavily affected by flooding:

Fires Burn in One Part of Russia as Another Part Floods.

(Image source: NASA/Lance-Modis)

These fires are burning directly in the shadow of the second storm system with their smoke trails feeding into the storm along its southerly inflow.

Conditions in Context

Earlier this year, drought and heatwaves blanketed Siberia and Yakutia. But late July, this region had begun to erupt in a series of extraordinary wildfires that blanketed almost all of northern and eastern Russia in very dense smoke. By early August what is perhaps the worst rainstorm in the history of this area of Russia had begun to form. As of the writing of this article, on August 14, major storms and flooding continued with no immediate end in sight.

Major heatwaves and droughts in extreme northerly regions of Siberia are an anomalous event linked to human caused climate change. Rapid sea ice and snow cover retreat combine with temperatures that are warming at a rate of .5 degrees C each decade over this region to increase the likelihood of such extreme events. Methane and organic carbon stores in the thawing tundra steadily release under this heat forcing and likely provide an amplifying feedback to summer heating events by locally providing more greenhouse gas emission and also providing another fuel store that is available to wildfires. In some of these wildfires, there are reports coming in that fires burn as far as 3 feet into the ground, taking out root systems and stumps along with the trees that burn above ground. Reports of burning ground have also been trickling in (Hat tip to Colorado Bob)

Such burn events are anomalous enough. But for a flood that covers a 1 million square kilometer area to immediately follow in the wake of such amazingly large and widespread fires is anything but normal. Atmospheric patterns that link major weather systems and increase their intensity can be attributed to the formation of powerful heat dome high pressure systems along with weakened and meandering Jet Stream waves. Rising atmospheric heat caused by human warming adds to the density and strength of heat domes (identified as becoming more intense by meteorologist Stu Ostro). Meanwhile erosion of the Jet Stream caused by reduced snow and sea ice cover (identified by Dr. Jennifer Francis) is implicated in a host of problems including more intense and persistent droughts and storm events along with the increased likelihood that weather systems will link up as north to south weather patterns deepen, back up, slow down, and elongate.

A massive ocean heat dome to the south over the Pacific adjacent to China and sea ice and snow cover remaining near record lows must be taken into account when looking at features that likely contributed to the extreme swings from drought, heatwave and fire to massive deluge and flood in Russia.

One last point to consider as a likely contributor is the fact that for each degree (Celsius) of human-caused temperature change, the hydrological cycle amplifies by about 8 percent. This means that rates of evaporation and rainfall are now about 6 percent more intense than they would be in the world of the 1880s. When combined with powerful new weather features like a mangled Jet Stream and immense heat dome high pressure systems, an amped up hydrological cycle further inflates an already extreme environmental condition.

UPDATE: LARGEST FLOOD IN RUSSIAN HISTORY

Reports from the Russian government indicate the region hardest hit stretches from lake Baikal to the Pacific Ocean with some towns in far eastern Russia along the Amur River under as much as 20 feet (6 meters) of water. Reports as recent as yesterday indicated that a total of 113 towns were experiencing major flooding and that an additional 100,000 residents may need to be evacuated.

As of today monsoonal flows and a large moisture pulse rising off of the Pacific Ocean along the back side of a powerful heat dome high pressure system continue to dump copious rains over the region.

Russian officials have stated that this event represents the largest flood in Russia’s history.

I’ve provided a MODIS shot of the hardest hit area under dense cloud cover on August 17: