Showing posts with label Barrow. Show all posts
Showing posts with label Barrow. Show all posts

Thursday, May 21, 2015

Arctic Sea Ice At Historic Low

On May 20, 2015, Arctic sea ice extent was only 12.425 million square km, a record low for the time of the year since satellite measurements began in 1979.


As the Arctic Sea Ice is at a historic low, Alaska faces temperatures as high as 31°C (87.8°F), as illustrated by the image below.



How is it possible for temperatures to get so high at locations so close to the North Pole?

Typhoon Dolphin
Dr. Michael Ventrice, Operational Scientist at The Weather Channel Professional Division points at two typhoons, Noul and Dolphin, that recently hit the western Pacific Ocean.

These typhoons do have some impact. Importantly, global warming is increasing the strength of cyclones. In other words, a greater impact of cyclones on the jet stream can be expected as a feedback of global warming.

Furthermore, global warming is directly changing the path followed by the North Polar Jet Stream, from a relatively straight path at a latitude of 60°N to a wildly meandering path that at some places merges with the Subtropical Jet Stream and reaching speeds as high as 267 km/h (166 mph) and that at other places moves high into the Arctic and reaches speeds as high as 170 km/h (106 mph).



On above image, part of the jet stream even moves right across the pole. Such changes to the jet stream constitute one out of numerous feedbacks of global warming, as discussed at the feedbacks page. Decline of the snow cover and sea ice in the Arctic is another such feedback.

As discussed in earlier posts, heat waves at high latitudes cause thawing of frozen soil and melting of glaciers and snow cover, This results in large amounts of water draining into rivers that end up in the Arctic Ocean. At the same time, heat waves also raise the temperature of the water in these rivers. The larger amounts of warmer water result in additional sea ice decline and warming of the Arctic Ocean seabed.

Such heat waves also set the scene for wildfires that emit not only greenhouse gases such as carbon dioxide and methane, but also pollutants such as carbon monoxide (that depletes hydroxyl that could otherwise break down methane) and black carbon (that when settling on ice causes it to absorb more sunlight).


Above image shows how much warmer the water in the Arctic Ocean is compared to what it used to be, with high anomalies where rivers flow into the Arctic Ocean and where the Gulf Stream carries warm water from the Atlantic Ocean into the Arctic Ocean.

The situation looks set to get worse, as the frequency and intensity of heat waves in North America and Siberia increases as temperature at high latitudes are rising rapidly. Furthermore, warm water is lining up along the path of the Gulf Stream, with sea surface temperature anomalies as high as 10.3°C (18.54°F) recorded off the coast of North America on May 20, 2015, as illustrated by the image below.

Green circle shows a 10.3°C (18.54°F) sea surface temperature anomaly from daily average (1981-2011)

Meanwhile, a very high methane reading was recorded at Barrow, Alaska (hourly average, in situ measurement), as illustrated by the image below.


The big danger is that the combined impact of these feedbacks will accelerate warming in the Arctic to a point where huge amounts of methane will erupt abruptly from the seafloor of the Arctic Ocean.

The situation is dire and calls for comprehensive and effective action, as discussed at the Climate Plan page.



As the Arctic Sea Ice is at a historic low, Alaska faces temperatures as high as 31°C (87.8°F). From the post: Arctic...
Posted by Sam Carana on Thursday, May 21, 2015

Monday, August 4, 2014

Warm waters threaten to trigger huge methane eruptions from Arctic Ocean seafloor

The evidence of abrupt high methane releases in the Arctic Ocean is accumulating. The graph below shows in situ methane measurements taken at the Barrow Observatory, including recent levels as high as close to 2200 parts per billion (ppb).


Satellite data picture a similarly dire situation. Global mean methane levels as high as 1831 ppb were recorded on the morning of July 30, 2014, while peak methane levels as high as 2330 ppb were recorded that morning. More recently, peak methane levels as high as 2522 ppb were recorded (on August 2, 2014).

IPCC/NOAA figures suggest that methane levels were rising by some 5 to 6 ppb annually, reaching 1814 ppb in 2013. While methane levels at lower altitudes have indeed shown little rise, much larger rises have been recorded at higher altitudes, as illustrated by the image below.


These high methane levels recorded at higher altitudes appear to be caused by the huge quantities of methane released from the seafloor of the Arctic Ocean during the period from end 2013 to early 2014. This methane has meanwhile risen to higher altitudes, while also descending to lower latitudes, wreaking havoc on weather patterns around latitude 60° North.

The releases of methane from the seafloor of the Arctic Ocean were caused by water that had warmed up strongly off the east coast of North America from June 2013. It took some months for this warm water to be carried by the Gulf Stream into the Arctic Ocean.


Meanwhile, very high sea surface temperatures are recorded in the Arctic Ocean, as above image shows, while warm water is carried into the Arctic Ocean by the Gulf Stream, as illustrated by the image below.


As said, the situation is dire and calls for comprehensive and effective action, as discussed at the Climate Plan blog.




Sunday, September 9, 2012

High September 2012 methane levels

An earlier post reported average hourly methane measurements as high as 2500 ppb recorded at Barrow, Alaska. Sadly, hardly any further in situ measurements have been publicly released from Barrow since, as illustrated by the image below.


Flask measurements continue to be available and the five most recent measurements show levels well over 2000 ppb.


The image below shows methane levels over a period of three years, from August 1, 2008, to August 1, 2011.



The image below shows methane levels over a period of a more recent year, from August 1, 2011, to August 1, 2012. There is a marked increase of methane at higher latitudes, compared to the earlier three years.



The image below shows methane levels in August 2012, with high levels showing up at many places. 


The image below shows the most recent methane level measurements available, from September 1, 2012, to September 7, 2012. High levels of methane show up at even more places, such as in the Arctic to the north of North America.

Around this time of year, there will typically be a lot of methane at many locations on the Northern Hemisphere. The image below allows a comparison of the 2012 period with the same period last year. In early September 2011, there was not quite as much methane as there now is north of Alaska, in Greenland and along the Siberian coast. There was a lot of methane in China last year in this period in 2011, though, and the situation appears to have improved somewhat this year.

To compare things further, an image is added below showing methane levels during the same period in 2010.

Below are added images produced by Dr. Leonid Yurganov from IASA data. Note that the scales are slightly different. The images confirm the presence of high levels of methane in the Arctic Ocean north of Siberia. Further below a combination picture showing the significant rise of methane levels in that area between October 2008 and October 2011.


[click to enlarge]

The images highlight a number of concerns:
  1. Methane levels are rising over the years; 
  2. Methane levels are particularly high in the Arctic;  
  3. Very high levels of methane are recorded in the Arctic in the months September and October, the very period when Arctic sea ice is at its lowest; 
  4. Incidental measurements, such as at Barrow, add to concerns that levels can rise abruptly with significant amounts. 
Methane is more than 100 times as potent as a greenhouse gas as carbon dioxide over 20 years, and even more potent over shorter periods. This makes methane a very powerful warming factor in the Arctic. While the Arctic is already warming more than three times as fast as the rest of the world, the sea ice still acts as a buffer to prevent even more acceleration of warming in the Arctic, but this situation will deteriorate dramatically as the sea ice disappears, as Professor Peter Wadhams recently described.

The big danger is that ferocious warming in the Arctic will trigger methane releases from hydrates and from free gas in sediments, which will further accelerate warming in the Arctic and further trigger methane releases, in a vicious circle set to spiral into runaway global warming unless action is taken to reduce the danger.

Thursday, March 29, 2012

How thick is the Arctic Sea Ice?

How thick is the sea ice in the Arctic? One way to find out is to make a journey on-board an icebreaker.

The video further below shows the US Coast Guard Cutter Healy, as it travels the Arctic Ocean from August 11 - September 28, 2011, approaching the North Pole from Barrow, Alaska, and back, while a camera takes hourly images, compiled in a YouTube video provided by NOAA.

Directly below, an animation showing the route against a backdrop of the Arctic region.

Note: the animation further above is a 5.6 MB file that may take some time to fully load.