Iceberg Collisions

The R/V Roger Revelle and an iceberg floating in the Southern Ocean.
In mid-March 2007, the R/V Roger Revelle, a research vessel operated by the UCSD Scripps Institution of Oceanography, cruised by an Antarctic iceberg floating in the Southern Ocean. The iceberg is estimated to be 122 m (400 ft) in height. Photo credit: R/V Revelle Chief Engineer Paul Mauricio.
Four satellite images of the B-15 iceberg breaking off
A massive iceberg (known as B-15) broke off the Ross Ice Shelf in Antarctica in mid-March 2000, show here with satellite images. Top left image: March 3, 2000, before the calving; Top right image: March 17, 2000, just after iceberg B-15 (labeled) broke off the ice shelf; Bottom left image: March 20, 2000; Bottom right image: March 28, 2000. Image credit: NASA.

Click either choice below to hear an iceberg hitting an ice shelf:
 
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This Iceberg song was recorded at the Comprehensive Nuclear-Test-Ban-Treaty (CTBT) underwater listening station, HA01, off Cape Leeuwin, Western Australia. This sound is most likely the result of the B15-D iceberg hitting the Amery Ice Shelf and rotating on its center. Please note the sound has been sped up 20 times in order to make it audible to the human ear.
Sound courtesy of the Centre for Marine Science and Technology of Curtin University and Jason Gedamke, Australian Antarctic Division (currently with the National Oceanic and Atmospheric Administration).
Click either choice below to hear an iceberg colliding:
 
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Recording of the C-0008 iceberg colliding with another feature in the Victor Bay region of Antarctica, as recorded at the Comprehensive Nuclear-Test-Ban-Treaty (CTBT) underwater listening station, HA01, off Cape Leeuwin, Western Australia. Please note the sound has been sped up 20 times in order to make it audible to the human ear.
Sound courtesy of the Centre for Marine Science and Technology of Curtin University and Jason Gedamke, Australian Antarctic Division (currently with the National Oceanic and Atmospheric Administration).

Iceberg B-15A
The MODIS instrument on NASA's Aqua and Terra satellites captured several images of the shifting B-15A iceberg between November 9, 2004 and January 17, 2005.
NASA
Description
An iceberg is ice that breaks off an ice shelf or snow-formed glacier and is floating in open water. They can be relatively small (less than 1 m [3 ft] high) to very large (over 75 m [250 ft] high). Very large icebergs (> 10 miles long) commonly calve from the Antarctic ice sheet. Since 2000, scientists have been tracking a series of giant icebergs that calved from the Ross Ice Shelf. Iceberg B15 calved from the ice shelf in March 2000 (see pictures below). One of the largest icebergs, it was approximately 170 miles long and 25 miles wide (nearly as large as the state of Connecticut, USA) when it calved. Over the first 12 months of B15’s lifetime, it broke into 9 pieces after colliding with the Ross Ice Shelf ice front. The largest fragment, B15A, drifted and collided with the Drygalski Ice Tongue in April 2005 (see picture below). B15A continued on along the Antarctic coast, leaving McMurdo Sound until it eventually broke into smaller pieces, some of which ran aground off Cape Adare in Victoria Land, Antarctica, in October 2005. It is thought that an ocean swell generated from a storm in the Gulf of Alaska 6 days prior contributed to the break up of Iceberg B15A.

As icebergs drift, collide, and grind against each other (or the coast), they produce loud noises and vibrations. The vibrations register on seismometers as hydroacoustic signals called Iceberg Harmonic Tremors (IHTs) or "iceberg songs," and typically last for up to several hours at a fundamental frequency of 1-10 Hz. These seismic signals are inaudible to the human ear, but can be heard if the recordings are sped up via computer processing. Loud noises produced by iceberg collisions, calving events, and ice cracking spread through the ice and into the surrounding ocean. Once the sound signal enters the surrounding waters, it can then travel long distances through the ocean with little loss of energy.

Acoustic recording systems located far away from the Antarctic coast can listen to the Antarctic ice shelf. Scientists can use these acoustic sensors to monitor significant changes in glacial calving rates. One such system has already been deployed as part of the International Monitoring System of the Comprehensive Nuclear-Test-Ban-Treaty (CTBT). Each CTBT listening station consists of 3 receivers in a triangular array about 2 km wide. Each underwater listening station is cabled to shore so that data can be processed in real-time. Recordings from one underwater station off Cape Leeuwin in Western Australia have shown that Antarctica is the major source of low-frequency noise in the Southern Ocean and southern parts of the Indian Ocean.
 
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References

  • Gavrilov, A., and Binghui Li 2008, "Listening to Antarctic ice breaking from Australia." Presentation: Acoustics ’08 Paris. (Link)
  • MacAyeal, D.R., Okal, E.A., Aster, R.C., and Bassis, J.N. 2008, "Seismic and hydroacoustic tremor generated by colliding icebergs." Journal of Geophysical Research. 113: F03011.1-F03011.10. 
  • MacAyeal, D.R., Okal, E.A., Aster, R.C., and Bassis, J.N., Brunt, K.M, Mac. Cahtles, L., Drucker, R., Fricker, H.A., Kim, Y., Martin, S. Okal, M.H., Sergienko, O.V., Sponsler, M.P., and Thom, J.E. 2006, "Transoceanic wave propagation links iceberg calving margins of Antarctica with storms in tropics and Northern Hemisphere." Geophyiscal Research Letters. 33: L17502.1-L17502-.4. 
  • MacAyeal, D.R., Okal, M.H., Thom, J.E., Brunt, K.M., Kim, Y., and Bliss, A.K. 2008, "Tabular iceberg collisions with the coastal regime." Journal of Glaciology. 54(185): 371-386. 
  • Muller, C., Schlindwein, V., Eckstaller, A., and Miller, H. 2005, "Singing icebergs." Science. 310:1299. 
  • Talandier, J., Hyvernaud, O., Okal, E.A., Piserchia, P. 2002, "Long-range detection of hydroacoustic signals from large icebergs in the Ross Sea, Antarctica." Earth and Planetary Science Letters. 203: 519-534. 
  • Talandier, J., Hyvernaud, O., Remond, D., and Okal, E.A. 2006, "Hydroacoustic signals generated by parked and drifting icebergs in the Southern Indian and Pacific Oceans." Geophysical Journal International. 165 (3): 817-834. 
  • The University of Chicago (Dr. Doug MacAyeal), "Research on Iceberg Calving." (Link)
  • The University of Chicago (Dr. Doug MacAyeal), "Research on Iceberg Drift." (Link)
  • University of Guelph, Canada’s Aquatic Environments, "Iceberg Formation." (Link)
  • University of Wisconsin-Madison, Antarctic Meteorological Research Center, "Iceberg FAQ." (Link)
  • Wikipedia, "Iceberg B-15." (Link)
  • World Book at NASA, "Icebergs." (Link)