known as a frost quake
may be caused by a sudden cracking
action in frozen soil or rock saturated
. As water seeps down into the rock, it freezes and expands, putting stress
on surrounding rock. This builds up until it is relieved explosively
in a cryoseism.
Another form of cryoseism known as an ice quake, is a non-tectonic seismic event caused by sudden glacial movements, sometimes due to the formation of a thin veneer of liquid water under a glacier from surface melting. Usually, a glacier would stick to the rough bedrock, but the hydraulic pressure acts as a lubricant, allowing it to slide up to many metres at once. This type of cryoseism can last for thousands of seconds.
As the requirements for cryoseisms to occur are not yet defined, their prediction is still not possible and constitute a significant factor in structural design and engineering. Links have been made between global warming and the frequency of cryoseisms.
Cryoseisms are often mistaken for minor or intraplate earthquakes
. Although the outward signs often appear similar to those of an earthquake, with tremors
, vibrations, ground cracking and related noises such as thundering or booming sounds, cryoseisms can be distinguished from earthquakes through meteorological
conditions. Cryoseisms can have an intensity of up to VI on the Modified Mercalli Scale
. Furthermore, cryoseisms often exhibit high intensity in a very localized area, in the immediate proximity of the epicenter
, as compared to the widespread effects of an earthquake. Due to lower frequency
vibrations than earthquakes, some seismic monitoring stations may not record their occurrence. Although cryoseisms release less energy
than most tectonic events, it should be noted that they can still cause damage or significant effects at the site.
Some reports have indicated the presence of "distant flashing lights" before or during a cryoseism, possibly due to the electrical changes when the rocks are compressed. Cracks and fissures can also appear, as the ground may contract and split apart from the cold. These, usually superficial, cracks range from several centimetres to several kilometres long, with either a single linear fracture or multiple ones as well as small vertical and moderate lateral displacement.
An ice quake prevented Walter Wellman and his team from venturing to the north pole in 1898.
Geocryological processes were identified as the cause of tremors as early as 1818. In the United States, such events have been reported in the states of Connecticut, Maine, Massachusetts, Michigan,Ohio upstate New York, Vermont and Wisconsin, all in the Northern and Northeastern United States. Cryoseisms have also surfaced in Ontario, Canada. Also, glacier-related phenomena have been reported in Greenland, Alaska, the Antarctic Prince Charles Mountainsand Ross Island, and Iceland (Grímsvötn).
Cryoseisms typically occur when temperatures rapidly decrease from above freezing to subzero
, in the first cold snap
. They usually occur between midnight and dawn, during the coldest part of the night. However, glacier-related cryoseisms may occur in the warmer months of summer
, due to the permanent nature of glacial ice. In general, cryoseisms occur 3 to 4 hours after significant changes in temperature
. Due to the perennial or seasonal frost
conditions involved with cryoseisms, these events are limited to temperate
climates which experience seasonal variation with subzero winters
. Furthermore, the ground must be saturated with water, which can be caused by snowmelt, rain, sleet or flooding and the site of a cryoseism generally has little or no snow
cover to insulate
the ground. Geologically, areas of permeable
materials like sand
, which are affected by frost action are most susceptible to experience cryoseisms. After large cryoseisms, there is generally no seismic activity detected for several hours, an indication that accumulated stress has been relieved.