We posted a quick summary of the #AtmosphericRiver the brought precipitation to the Pacific Northwest on Dec 3-6 ahead of the system presently impacting the region. Read more here: cw3e.ucsd.edu/wp-content/u...
Incidentally, the very nice schematic of cryosphere changes over both ice sheets was drawn by @jmalumbresolarte.bsky.social Tak! π
New paper out today in @nature Geosciences:
The Greenlandification of Antarctica
Readcube pdf: rdcu.be/eJiqJ
In case you need a podcast listen for the weekend, we recommend Beyond the Ice from the British Antarctic Survey. Check out the latest episode where Dr. Michelle Maclennan discusses the state of extreme weather over Antarctica and recent ice mass increases open.spotify.com/episode/30Tu...
Overall, it has been a rather warm fall season over West Antarctica. Time series of 2m temperature over Thwaites Eastern Ice Shelf show that the daily maximum temperature frequently exceeded 1 standard deviation above the mean, sometimes 2, and was frequently close to 0C in April and May.
With the atmospheric river, warm air advances towards the coast, with the 0C contour reaching Abbott Ice Shelf and Pine Island Glacier by May 18, and again on May 19-21. We can observe pockets of high temperature in the mountain lees up to Pine Island Glacier, indicating foehn conditions.
The first snowfall occurs on May 16, followed by a second, more intense wave that persists through May 19. By May 20, there is a noticeable eastward shift in the precipitation, but it produces one more wave of snowfall over Thwaites and surrounding regions from May 20-22.
What makes this event an atmospheric river is the combination of moisture and strong winds. The 850hPa northerly wind reaches 80kts over the Southern Ocean at 00Z on May 17, and 50kts at the Amundsen Sea Embayment coast by 09Z on May 18. These strong winds are sustained through May 22.
From May 19 - 22, the successive low-pressure systems merge and expand, producing a very stagnant system that continues to channel the flow of marine air towards the Amundsen Sea Embayment on its southeastern side. A strong ridge develops downstream, blocking flow across the Antarctic Peninsula.
From May 15 - 19, the cyclone's central pressure deepens (down to 940 hPa), and it moves towards the coast, initiating a direct north-south flow pattern onto Thwaites. The elongated upper level trough forms a cutoff low, supporting the development of successive low-pressure systems farther north.
At the start of this period, we see an oblong surface low-pressure system associated with a deep trough at 500hPa (blue dashed lines) offshore the eastern Ross region/Marie Byrd Land.
Following @jonathanwille.bsky.social 's recent post about an #atmosphericriver / #heatwave in West Antarctica, I did some digging in ERA5 to look at the drivers and impacts of the event. Sharing here for those who might be interested π¨οΈπ‘οΈπ
Many thanks to co-authors Andrew Winters, @catswx.bsky.social, Rudradutt Thaker, LΓ©onard Barthelemy, Francis Codron, and @jonathanwille.bsky.social π€©
βΌοΈThe bottom line: anthropogenic warming makes today's extremes far more common in the future, meaning future estimates of Antarctic contributions to sea level rise ought to take weather extremes into accountβΌοΈ
This means that how we detect atmospheric rivers and attribute precipitation in the present-day, and how we adapt these methodologies to future climate states, will determine how we describe the importance of atmospheric rivers in the Antarctic climate system. π§οΈπ§
However, by raising the threshold for atmospheric river detection to account for increases in moisture, frequencies are comparable to the present-day, with small regional shifts aligned with changes in atmospheric circulation.
We find that atmospheric river frequencies are highly sensitive to increasing atmospheric moisture in the 21st century, leading to a doubling of frequencies and 2.5x increase in precipitation impacts under a medium-high emissions scenario. πππ¨οΈ
In todayβs climate, #atmosphericrivers play a major role in bringing snowfall to #Antarctica. Have you ever wondered how that might change in the future?
Out today, our new study on the future frequency and precipitation impacts of Antarctic atmospheric rivers:
www.nature.com/articles/s43...
Huge congrats to @drgilbz.bsky.social for producing a unique, localized study of extreme precip in West Antarctica!! π¦πΆ This study highlights what we miss when we rely on reanalyses to assess extreme events - and the role of steep terrain in the mesoscale meteorology of the Amundsen Sea Embayment π§οΈ
Stoked to see this awesome Antarctic atmospheric river review paper in print! βοΈ Many thanks to @jonathanwille.bsky.social for leading the effort and to the co-authors, who were a great team to be a part of π¦ Excited to promote this fantastic new resource!
