A
lava lamp illustrates the basic principle of diapirism.
A 'diapir' (
[1]) (French, from Greek ''diapeirein'', to pierce through) is an
intrusion caused by buoyancy and pressure differentials. Diapirs may include
igneous structures, but are more commonly applied to non-igneous, relatively cold materials, such as
salt domes and mud diapirs; diapirism is thought to occur on
Enceladus. A diapir is any relatively mobile mass that intrudes into preexisting strata.
Diapirs commonly intrude vertically upward along fractures or zones of structural weakness through more
dense overlying rocks because of
density contrast between a less dense, lower rock mass and overlying denser rocks. The density contrast manifests as a force of
buoyancy. The process is known as ''diapirism''. The resulting structures are also referred to as ''piercement structures''.
In the process, segments of the existing strata can be disconnected and pushed upwards. While moving higher, they retain much of their original properties such as pressure, which can be significantly different from that of the shallower strata they get pushed into. Such overpressured ''Floaters'' pose a significant risk when trying to
drill through them.
Rock types such as
evaporitic salt deposits, and gas charged muds are potential sources of diapirs. Diapirs also form in the
earth's mantle when a sufficient mass of hot, less dense magma assembles. Diapirism in the mantle is thought to be associated with the development of
large igneous provinces and some
mantle plumes.
Explosive, hot
volatile rich
magma or volcanic eruptions are referred to generally as
diatremes. Diatremes are not usually associated with diapirs, as they are small-volume magmas which ascend by volatile plumes, not by density contrast with the surrounding mantle.
Economic importance of diapirs
Diapirs or piercement structures are structures resulting from the penetration of overlaying material. By pushing upward and piercing overlying rock layers, diapirs can form
anticlines,
salt domes and other structures capable of trapping
petroleum and
natural gas. Igneous intrusions themselves are typically too hot to allow the preservation of preexisting
hydrocarbons.
See also
★
Geyser
★
Hydrothermal vent
★
Mud volcano
★
Granite
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