Speleothem

thumb|upright=1.4|Cave labeled with the six most common types of speleothems: [[flowstone, columns, drapery, stalagmites, stalactites and straws]]

A speleothem (; ) is a geological formation made by mineral deposits that accumulate over time in natural caves. They can take a variety of forms, depending on their depositional history and environment. Common forms include stalagmites, stalactites, and flowstones.

Speleothems most commonly form in calcareous caves due to carbonate dissolution reactions. Their chemical composition, gradual growth, and preservation in caves make them useful paleoclimatic proxies.

Chemical and physical characteristics

More than 300 variations of cave mineral deposits have been identified. The vast majority of speleothems are calcareous, composed of calcium carbonate (CaCO₃) minerals (calcite or aragonite). Less commonly, speleothems are made of calcium sulfate (gypsum or mirabilite) or opal.

:H₂O + CO₂ → H₂CO₃

As the acidic water travels through the calcium carbonate bedrock from the surface to the cave ceiling, it dissolves the bedrock via the reaction:

:CaCO₃ + H₂CO₃ → Ca²⁺ + 2 HCO₃⁻

When the solution reaches a cave, the lower pCO₂ in the cave drives the precipitation of CaCO₃ via the reaction:

:Ca²⁺ + 2 HCO₃⁻ → CaCO₃ + H₂O + CO₂

Over time, the accumulation of these precipitates form dripstones (stalagmites, stalactites), and flowstones, two of the major types of speleothems.

Climate proxies

Speleothem transects can provide paleoclimate records similar to those from ice cores or tree rings. Slow geometrical growth and incorporation of radioactive elements enables speleothems to be accurately and precisely dated over much of the late Quaternary by radiocarbon dating and uranium-thorium dating, as long as the cave is a closed system and the speleothem has not undergone recrystallization. Oxygen (δ¹⁸O) and carbon (δ¹³C) stable isotopes are used to track variation in rainfall temperature, precipitation, and vegetation changes over the past ~500,000 years. The Mg/Ca proxy has likewise been used as a moisture indicator, although its reliability as a palaeohygrometer can be affected by cave ventilation during dry seasons. Variations in precipitation alter the width of speleothem rings: close rings indicates little rainfall, wider spacing indicates heavier rainfall, and denser rings indicate higher moisture. Drip rate counting and trace element analysis of the water drops record short-term climate variations, such as El Niño–Southern Oscillation (ENSO) climate events. Exceptionally, climate proxy data from the early Permian period have been retrieved from speleothems dated to 289 million years ago sourced from infilled caves exposed by quarrying at the Richards Spur locality in Oklahoma.

Types and categories

[[File:Tropfsteine.svg|thumb|upright=1.4|Types of speleothem:<br/>

(A)&nbsp;Stalactite

(B)&nbsp;Soda&nbsp;straws

(C)&nbsp;Stalagmites

(D)&nbsp;Coned&nbsp;stalagmite

(E)&nbsp;Stalagnate&nbsp;or&nbsp;column

(F)&nbsp;Drapery

(G)&nbsp;Drapery

(H)&nbsp;Helictites

(I)&nbsp;Moonmilk

(J)&nbsp;Sinter&nbsp;pool,&nbsp;rimstone

(K)&nbsp;Calcite&nbsp;crystals

(L)&nbsp;Sinter&nbsp;terrace

(M)&nbsp;Karst

(N)&nbsp;Body&nbsp;of&nbsp;water

(O)&nbsp;Shield

(P)&nbsp;Cave&nbsp;clouds

(Q)&nbsp;Cave&nbsp;pearls

(R)&nbsp;Tower&nbsp;cones

(S)&nbsp;Shelfstones

(T)&nbsp;Baldacchino&nbsp;canopy

(U)&nbsp;Bottlebrush&nbsp;stalactite

(V)&nbsp;Conulite

(W)&nbsp;Flowstone

(X)&nbsp;Trays

(Y)&nbsp;Calcite&nbsp;rafts

(Z)&nbsp;Cave&nbsp;popcorn&nbsp;or&nbsp;coralloids

(AA)&nbsp;Frostworks

(AB)&nbsp;Flowstone

(AC)&nbsp;Splattermite

(AD)&nbsp;Speleoseismites

(AE)&nbsp;Boxworks

(AF)&nbsp;Oriented&nbsp;stalactite

(AG)&nbsp;collapsed&nbsp;rubble

(AH)&nbsp;popcorn]]

Speleothems take various forms, depending on whether the water drips, seeps, condenses, flows, or ponds. Many speleothems are named for their resemblance to man-made or natural objects. Types of speleothems include:

• Dripstone is calcium carbonate in the form of stalactites or stalagmites
• Stalactites are pointed pendants hanging from the cave ceiling, from which they grow
• Soda straws are very thin but long stalactites with an elongated cylindrical shape rather than the usual more conical shape of stalactites
• Stalagmites are the "bottom-up" counterparts of stalactites, often blunt mounds
• Broomstick stalagmites are tall and maintain a near constant diameter throughout their length
• Totem pole stalagmites are also tall and shaped like their namesakes
• Fried egg stalagmites are small, typically wider than they are tall
• Stalagnate results when stalactites and stalagmites meet or when stalactites reach the floor of the cave
• Conulites also called 'Mud cups', are ice cream cone-shaped formations that form when water drips into soft sediment
• Cave Rings form when drops splash off a stalagmite and land around it, creating a nearly perfect ring
• Helictites grow from hydrostatic pressure forcing water through pores in both the bedrock and a cave crust. This pattern deposits calcite at its edge, maintaining a central capillary canal allowing it to grow from the ceiling, walls, or floor. Direction of growth is governed by surface tension or crystal structure rather than by gravity.
• Include forms known as ribbon helictites, saws, rods, butterflies, hands, curly-fries, and "clumps of worms"
• Chandeliers are complex clusters of ceiling decorations
• Ribbon stalactites, or simply "ribbons", are shaped accordingly
• Flowstone is sheet like and found on cave floors and walls
• Cave Draperies or curtains are thin, wavy sheets of calcite hanging downward, often ending in a stalactite.
• Bacon is a drapery with variously colored bands within the sheet
• Rimstone dams, or gours, form on irregular flowstone slopes or where water overflows the edges of pools thumb|Rimstone with odd color, in Bristol Caverns, TN
• Cave Cups grow in supersaturated pools from the tip up
• Cave Hoods form when a flowstone (or coating/crust) is deposited on a soft sediment that is subsequently washed away, leaving the formation free-standing.
• Miscellaneous Formations all formations that do not fit nicely into other categories.
• Cave shields are flat, rounded formations that grow at all angles depending on the bedrock. They grow from a medial capillary crack. They can have stalagmites growing from the bottom
• Cave Folia grow when a fluctuating pool leaves calcite (or mud) on a ceiling or wall; the continued fluctuation allows for more growth.
• Cave Caps are small formations often found covering pebbles in a cave.
• Cave Coatings cover walls in thin calcite deposits and allow for the formation of other speleothems
• Cave Blisters look like small white bubbles on the coating of cave walls
• Cave Crusts mainly cover the floors of caves and often contain magnesium and manganese
• Geysernites form in the same way geysers form, from hydrothermal waters
• Pool Fingers are finger-like formations that form in pools of water
• Crystal spars are large crystal formations where individual crystals can be seen by the naked eye. They are often found near or in cave pools
• Dogtooth spars are a type of spar consisting of calcite
• Frostwork consists of flower-like clusters of anthodites, needle-like (acicular) growths of aragonite
• Moonmilk is white and when wet has the texture of cream cheese, when dry it is powdery
• Cave Balloons form when gas or liquid comes out of the wall behind wet moonmilk deposits
• Cryogenic calcite crystals are loose grains of calcite found on the floors of caves formed by segregation of solutes during freezing of water.
• Cave popcorn, also known as "coralloids" or "cave coral", are small, knobby clusters of calcite
• Cave pearls form when water drips from high above, agitating a pool so that small particles are turned over and become coated on all sides with calcium carbonate, sometimes creating near-perfect spheres
• Snottites are colonies of predominantly sulfur oxidizing bacteria and have the consistency of "snot", or mucus
• Calcite rafts are thin accumulations of calcite that appear on the surface of cave pools
• Cave Cones grow when water drops into a pool in one place and 'kills' Calcite Rafts, forcing them to settle on the bottom of the pool
• Hells Bells, a particular speleothem found in the El Zapote cenote of Yucatan in the form of submerged, bell-like shapes
• Lava tubes contain speleothems composed of sulfates, mirabilite or opal. When the lava cools, precipitation occurs.
• Speleogens (technically distinct from speleothems)&nbsp;are formations within caves that are created by the removal of bedrock, rather than as secondary deposits. These include:thumb|Scallops in [[Mammoth Cave]]
• pendants
• Pinnacles
• Scallops
• Boneyard
• Boxwork

Calthemites

The usual definition of speleothem excludes secondary mineral deposits derived from concrete, lime, mortar, or other calcareous material (e.g. limestone and dolomite) outside the cave environment or in artificial caves (e.g. mines, tunnels), which can have similar shapes and forms as speleothems. Such secondary deposits in man-made structures are termed calthemites. Calthemites are often associated with concrete degradation, or due to leaching of lime, mortar, or other calcareous material.

Gallery

<gallery>

File:HallOfTheMountainKings.jpg|Various formations in the Hall of the Mountain Kings, Ogof Craig a Ffynnon, South Wales, Great Britain

File:NaturalBridgeCaverns6.jpg|Stalactites and columns in Natural Bridge Caverns, Texas

File:NaturalBridgeCaverns7.jpg|More formations in Natural Bridge Caverns, Texas

File:Kl 0005356.jpg|Cave curtain formation in the Marble Arch Caves, County Fermanagh, Northern Ireland

File:CaliforniaCaveFormation.jpg|California Caverns, Calaveras County, California; one of many caverns located in the Sierra Foothills of California

File:Dripstone column in Biserujka Cave, Dobrinj, Island of Krk.jpg|Stalagnates (columns) in the cave Biserujka, Dobrinj, Island Krk, Croatia

File:Druipsteen3.jpg|Various formations in the cave of Remouchamps, Aywaille, Belgium

File:Zuil.jpg|Stalagnate (column) in the cave of Remouchamps, Aywaille, Belgium

File:Cave pearls.jpg|Image of Cave Pearl formation

File:Flowstone in Mammoth Cave, KY.jpg|Image of flowstone in Mammoth Cave, KY

File:Rimstone with scale.jpg|Rimstone with scale

File:Rimstone and subaq coral.jpg|rimstone pool with subaques coralloids and aragonite

File:Pool spar.jpg|Pool spar with 10cm scale

File:Cave bacon with sawtooth.jpg|Cave Bacon with sawtooth pattern. (10cm scale)

</gallery>

See also

• Petrifying well

References

External links

• The Virtual Cave: an online guide to speleothems
• Mineral aggregates from carst caves, formed in capillary film solutions
• Gallery of speleothems from NPS Cave and Karst Program (archived on 23 January 2013)