Share this page!

Enter URL or ID to Unroll

You can paste full URL like: https://x.com/threadreaderapp/status/1644127596119195649
or just the ID like: 1644127596119195649

How to get URL link on X (Twitter) App

  1. On the Twitter thread, click on or icon on the bottom
  2. Click again on or Share Via icon
  3. Click on Copy Link to Tweet
  4. Paste it above and click "Unroll Thread"!
  5. More info at Twitter Help
Rob Larter Profile picture
@rdlarter
Feb 15, 2022 15 tweets 8 min read Read on X
Scrolly
I was privileged to be invited to write a commentary on an interesting recent paper about the roughness of ice shelves by Watkins et al. (2021).
Commentary features this schematic diagram of the #ThwaitesGlacier Eastern Ice Shelf by @MarloWordyBird doi.org/10.1029/2021GL…
1/N
The paper that was the subject of the commentary is available here -
doi.org/10.1029/2021GL…
2/N
Background -
Ice shelves are floating extensions of glaciers that flow on beds hundreds of meters below sea level. They contribute "backstress" restricting outflow from many of the largest glaciers in Antarctica, thus limiting the Antarctic contribution to sea-level rise.
3/N
However, ice shelves are vulnerable to environmental change, as was most graphically shown by collapse of the Larsen B Ice Shelf over a period of little more than two months early in 2002. The MODIS image sequence here extends from Jan 31 to April 13. svs.gsfc.nasa.gov/2421
4/N
The subsequent flow acceleration of glaciers that had flowed into the part of the ice shelf which collapsed confirmed the role of backstress in restraining glacier flow. Figure from Scambos et al. (2004) doi.org/10.1029/2004GL…
5/N
The Larsen B was the largest of a number of ice shelves along the coasts of the Antarctic Peninsula that collapsed over the past 40 years. doi.org/10.5194/tc-4-7…
6/N
The main driver of loss of these ice shelves was rapid regional warming in the second half of 20th century, leading to development of surface melt ponds in summer and propagation of meltwater-filled crevasses by hydrofracture. doi.org/10.3189/172756…
doi.org/10.3189/2014Jo…
7/N
Surface melting is not the only process that threatens ice-shelf stability though. For at least three decades ice shelves along the coast of West Antarctica in the Amundsen and Bellingshausen seas have been thinning due to rapid basal melting.
doi.org/10.1038/nature…
8/N
Flow of melt-enriched, buoyant water further damages ice shelves by eroding basal channels, which in turn causes flexural stresses that can lead to formation of additional basal and surface crevasses .
doi.org/10.1029/2012JF…
9/N
Thinning resulting from basal melting also reduces the contact area, and thus frictional resistance to flow, at lateral shear margins and over pinning points that contributes much of the backstress. Resulting flow acceleration causes further damage.
doi.org/10.1073/pnas.1…
10/N
So, rapid basal melting of ice shelves leads to increased formation of basal melt channels, crevasses and damage zones, which all cause variations in ice thickness, or "roughness". Watkins et al. analysed rougness in radio echo sounding data from several ice shelves.
11/N
Surprisingly they found that on each ice shelf the spectrum of spatial frequencies is smooth, indicating that the different types of complexities have no characteristic widths. They also found that overall roughness correlates with basal melt rate.
12/N
Other factors may contribute significantly to roughness in other settings (e.g. some fringing ice shelves around East Antarctica), but the correlation raises the tantalising prospect that roughness may in general provide a simple quantitative measure of ice shelf "health".
13/N
It will probably never be possible to predict exactly when an ice shelf will disintegrate because, like the timing of earthquakes, this is governed by non-linear processes involved in fracture propagation.
14/N
In order to provide forewarning of when basal melting is driving an ice shelf into a highly vulnerable state though, it would be useful to have a simple quantitative measure of how its structural integrity has been impacted. Perhaps monitoring of roughness can provide this?
15/15

• • •

Missing some Tweet in this thread? You can try to force a refresh
 

Keep Current with Rob Larter

Rob Larter Profile picture

Stay in touch and get notified when new unrolls are available from this author!

Read all threads

This Thread may be Removed Anytime!

PDF

Twitter may remove this content at anytime! Save it as PDF for later use!

Try unrolling a thread yourself!

how to unroll video
  1. Follow @ThreadReaderApp to mention us!

  2. From a Twitter thread mention us with a keyword "unroll"
@threadreaderapp unroll

Practice here first or read more on our help page!

More from @rdlarter

Rob Larter Profile picture
Sep 3, 2023
Ravine House, Easton Bavents, near #Southwold, #Suffolk, recently sold according to the estate agent's board at its front. Zoopla indicates the asking price was "offers over £450k". Looks OK doesn't it? There's a catch though.
1/n Image
This is the view of the property from the nearby clifftop, which has been retreating at an average rate of 2 to 3 m/yr over the past 30 years, according to a long-term @EnvAgency study.
2/n Image
@EnvAgency The foreground of the photo in the above tweet shows remaining debris from the neighbouring property, which was demolished before the retreat of the cliffs caught up with it.
3/n
Read 4 tweets
Rob Larter Profile picture
Jul 3, 2023
Among several graphs showing unprecedented current climate extremes it is the ones showing the growing anomaly in Antarctic sea ice extent that I find most concerning.
1/n
This may seem like a strange thing to focus on since so few people are directly affected by it. Let me explain.
2/n
As it's now midwinter in Antarctica and the extent of sea ice around the continent reaches its annual maximum in August, the deficit in sea ice formation also means a large deficit in production of cold, saline water that results from brine rejection as sea ice forms.
3/n
Read 9 tweets
Rob Larter Profile picture
Mar 29, 2023
I'm aware of a lot of change going on in the Antarctic and Southern Ocean environment, but sometimes I see a new paper, read the abstract and think "OMG it's worse than I thought". This is one of those papers.
nature.com/articles/s4158…
Collapse of the Antarctic overturning circulation would greatly reduce the effectiveness of the Southern Ocean in absorbing heat and CO₂ from the atmosphere and have worldwide climate impacts.
Furthermore the results imply increasing amounts of relatively warm Circumpolar Deep Water will encroach onto the continental shelves around Antarctica, which can be expected to accelerate losses from the ice sheet in several areas.
Read 4 tweets
Rob Larter Profile picture
Mar 26, 2023
Any post about declining #seaice extent triggers replies pointing out that as the ice is already floating it doesn’t make any difference to sea level. This is correct of course (well, nearly). So why does sea-ice loss matter? There are several reasons. 1/11
Firstly there is the high “albedo” of the ice. It reflects a lot of incoming solar radiation. Reduced summer sea-ice extent exposes more of the ocean surface, which is darker (lower albedo) and thus absorbs more radiant energy, warming the water. 2/11
A second reason is that the normal seasonal fluctuations in sea-ice extent are of great ecological importance. The plankton bloom that occurs each Spring as the sea-ice edge retreats is the foundation of the Southern Ocean food chain. 3/11
Read 11 tweets
Rob Larter Profile picture
Dec 18, 2021
Great to see @GlacierThwaites research covered in national media, but a few points in this @guardian article need correction or further explanation.
1/n theguardian.com/world/2021/dec…
Firstly, “great cracks and fissures” have not “opened up both on top of and underneath the Thwaites glacier” itself, but on the floating ice shelf in front of it.
2/n
Secondly, the processes the triggered the ultimate break-up of the Larsen B Ice Shelf were different from those that are destabilising the Thwaites Eastern Ice Shelf. Larsen B break-up was triggered by extensive surface melt filling crevasses and causing hydrofracture.
3/n
Read 8 tweets
Rob Larter Profile picture
Aug 15, 2020
While @GlacierThwaites fieldwork is postponed for the coming Antarctic summer, how much ongoing ice loss is there from #ThwaitesGlacier and nearby glaciers in the Amundsen Sea, and how big is their contribution to sea-level rise? Thread, 1/23
3 separate recent studies provide measurements for individual glaciers or drainage basins based on satellite remote sensing observations:
Rignot et al. (2019) doi.org/10.1073/pnas.1…
Shepherd et al. (2019) doi.org/10.1029/2019GL…
Smith et al. (2020) doi.org/10.1126/scienc…
2/23
In summary, the results of these studies show rates of net ice mass loss from Thwaites and nearby glaciers are now more than six times what they were 30 years ago. This graph shows the progressive increase in net ice loss from Thwaites from the results of Rignot et al. 3/23 Image
Read 23 tweets

Did Thread Reader help you today?

Support us! We are indie developers!

This site is made by just two indie developers on a laptop doing marketing, support and development! Read more about the story.

Become a Premium Member ($3/month or $30/year) and get exclusive features!

Become Premium

Don't want to be a Premium member but still want to support us?

Make a small donation by buying us coffee ($5) or help with server cost ($10)

Donate via Paypal

Or Donate anonymously using crypto!

Ethereum

0xfe58350B80634f60Fa6Dc149a72b4DFbc17D341E copy

Bitcoin

3ATGMxNzCUFzxpMCHL5sWSt4DVtS8UqXpi copy

Thank you for your support!

Follow Us!

Send Email!

:(