Bloop Explained

Bloop was an ultra-low-frequency, high amplitude underwater sound detected by the U.S. National Oceanic and Atmospheric Administration (NOAA) in 1997. By 2012, earlier speculation that the sound originated from a marine animal[1] was replaced by NOAA's description of the sound as being consistent with noises generated via non-tectonic cryoseisms originating from glacial movements such as ice calving, or through seabed gouging by ice.[2] [3] [4]

Sound profile

The sound's source was roughly triangulated to, a remote point in the South Pacific Ocean west of the southern tip of South America. The sound was detected by the Equatorial Pacific Ocean autonomous hydrophone array,[2] a system of hydrophones primarily used to monitor undersea seismicity, ice noise, and marine mammal population and migration. This is a stand-alone system designed and built by NOAA's Pacific Marine Environmental Laboratory (PMEL) to augment NOAA's use of the U.S. Navy Sound Surveillance System (SOSUS), which was equipment originally designed to detect Soviet submarines.[5] According to the NOAA description, the sound "rose" in frequency over about one minute and was of sufficient amplitude to be heard on multiple sensors, at a range of over 5000sigfig=1NaNsigfig=1.

Ice quake origin

The NOAA Vents Program has attributed the sound to that of a large cryoseism (also known as an ice quake).[4] Numerous ice quakes share similar spectrograms with Bloop, as well as the amplitude necessary to detect them despite ranges exceeding 5000sigfig=1NaNsigfig=1. This was found during the tracking of iceberg A53a as it disintegrated near South Georgia Island in early 2008. The iceberg(s) involved in generating the sound were most likely between Bransfield Strait and the Ross Sea; or possibly at Cape Adare, a well-known source of cryogenic signals.[2] Sounds generated by ice quakes are easily determined through the use of hydrophones since seawater, an excellent sound channel, allows the ambient sounds generated through ice activities to travel great distances.

Ice calving

In ice calving, variations result from a sound source's motion.[6] . Icequakes, caused by the fracturing and movement of large ice masses, can produce powerful low-frequency sounds that propagate over vast distances in water. This mechanism could explain the Bloop's wide detection range and distinct acoustic signature.[7] As oceanographer Yunbo Xie explains, the alteration of waveforms from a detected sound "can also be caused by so-called angular frequency dependent radiation patterns associated with antisymmetric mode motion of the ice cover."[6]

Rubbing and ridging events within an ice floe

Two processes known as rubbing and ridging are responsible for acoustical emissions similar to those from ice calving.[8] Rubbing involves two or more areas of compacted glacial ice floes which are being forced together, inducing shear deformation at its edges and triggering horizontally-polarized shear waves, i. e. SH waves.[6] Ridging occurs when that ice bends or slides at the ridges.[6] According to Xie, both events will produce sound in the failure sequence (breakup) of an ice floe:

Animal origin

NOAA's Christopher Fox, in an interview with CNN in 2001, stated that he believed Bloop to be ice calving in Antarctica.[9] In 2002, Fox was interviewed by David Wolman for an article in New Scientist, where he stated that he did not believe its origin was man-made, such as a submarine or bomb. Fox also stated that while the audio profile of Bloop does resemble that of a living creature, the source was a mystery because it would be "far more powerful than the calls made by any animal on Earth."[10] Wolman reported in his article the following:

According to author Philip Hayward, Wolman's speculations "amplified Fox's 'hunch' and—through the use of the word 'likely'—opened the door for subsequent speculation as to what such an 'efficient' noise-making entity might be. Over the last decade, consensus has supported the argument that the noise is produced by ice fracturing processes."[11]

See also

External links

Notes and References

  1. Web site: Calls from the deep . New Scientist . David Wolman . June 15, 2002 . January 16, 2012 . https://web.archive.org/web/20130106141048/http://www.science.org.au/nova/newscientist/102ns_001.htm . January 6, 2013.
  2. Web site: Acoustics Monitoring Program – Icequakes (Bloop). NOAA Pacific Marine Environmental Laboratory. National Oceanic and Atmospheric Administration / United States Department of Commerce. August 28, 2017. https://web.archive.org/web/20200225041855/https://www.pmel.noaa.gov/acoustics/sounds/bloop.html. February 25, 2020. dead.
  3. Steadman. Ian. The Bloop Mystery Has Been Solved: It Was Never A Giant Sea Monster. WIRED UK. Conde Nast Publications. November 29, 2012.
  4. Web site: US Department of Commerce . National Oceanic and Atmospheric Administration . What is the Bloop? . oceanservice.noaa.gov . https://web.archive.org/web/20190507010030/https://oceanservice.noaa.gov/facts/bloop.html . May 7, 2019 . EN-US . June 25, 2018.
  5. Di Mento. John Mark. Environmental Challenges to Post-Cold War Naval Operations: The Browning of the Blue Water Battlespace. Beyond the Water's Edge: United States National Security & the Ocean Environment. Fletcher School of Law and Diplomacy, Tufts University. December 2006. Ph.D.. Medford, MA. Document No. 3262885 . ProQuest Dissertations Publishing.
  6. Xie. Yunbo. An Acoustical Study of the Properties and Behaviour of Sea Ice. Ph.D.. University of British Columbia. Vancouver, B.C.. Document No. NN69775. ProQuest Dissertations Publishing. 1991. 10.14288/1.0053256 .
  7. MacAyeal . D. R. . Okal . E. A. . Aster . R. C. . Bassis . J. N. . September 2008 . Seismic and hydroacoustic tremor generated by colliding icebergs . Journal of Geophysical Research: Earth Surface . en . 113 . F3 . 10.1029/2008JF001005 . 0148-0227.
  8. Pettit. Erin C.. Passive Underwater Acoustic Evolution of a Calving Event. Annals of Glaciology. 2012. 53. 60. 113–122. 10.3189/2012aog60a137. 2012AnGla..53..113P. free.
  9. Web site: Scientists tune in to sounds of the sea . CNN . September 7, 2001 . January 16, 2012.
  10. News: Tuning in to a deep sea monster . CNN.com. June 13, 2002.
  11. Book: Hayward. Philip. Making a Splash: Mermaids (and Mer-Men) in 20th and 21st Century Audiovisual Media. 2017. Indiana University Press. 9780861969258. 1020857723. en.