Distinctive underwater sounds announce the birth of an iceberg, say researchers. In a recent study, scientists used underwater microphones aboard buoys to record a variety of iceberg births at the Hans Glacier in Svalbard, Norway during three days in August 2013. These recordings were combined with time-lapse photos of the glacier during the same time period.
By synchronizing the sound recordings with the photographs, the researchers discovered that different types of ice loss are associated with distinct rumbles, snaps and splashes, according to a new study accepted for publication in Geophysical Research Letters.
The scientists identified acoustic signatures for three different ways that ice ‘calves’ – that is, ice breaks away from a glacier:
– An ice chunk falls off the leading face of the glacier into the water below.
– An ice fragment cracks away from that face and slides down it into the water.
– Or, an underwater ice block detaches from the face beneath the water, then pops up to the sea surface.
The newly reported findings may give scientists a better understanding of how glaciers lose ice, the study’s authors write, even when icebergs detach underwater — a difficult-to-observe phenomenon. If inexpensive acoustic methods could be used to gain insight into various calving events, they add, that could be important as glaciers around the world continue to crumble and contribute to global sea level rise.
from EarthSky http://ift.tt/1tzh4Pc
Distinctive underwater sounds announce the birth of an iceberg, say researchers. In a recent study, scientists used underwater microphones aboard buoys to record a variety of iceberg births at the Hans Glacier in Svalbard, Norway during three days in August 2013. These recordings were combined with time-lapse photos of the glacier during the same time period.
By synchronizing the sound recordings with the photographs, the researchers discovered that different types of ice loss are associated with distinct rumbles, snaps and splashes, according to a new study accepted for publication in Geophysical Research Letters.
The scientists identified acoustic signatures for three different ways that ice ‘calves’ – that is, ice breaks away from a glacier:
– An ice chunk falls off the leading face of the glacier into the water below.
– An ice fragment cracks away from that face and slides down it into the water.
– Or, an underwater ice block detaches from the face beneath the water, then pops up to the sea surface.
The newly reported findings may give scientists a better understanding of how glaciers lose ice, the study’s authors write, even when icebergs detach underwater — a difficult-to-observe phenomenon. If inexpensive acoustic methods could be used to gain insight into various calving events, they add, that could be important as glaciers around the world continue to crumble and contribute to global sea level rise.
from EarthSky http://ift.tt/1tzh4Pc
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