Difference between revisions of "Limestone" - New World Encyclopedia

From New World Encyclopedia
(→‎Travertine: added coquina)
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Limestone can be found in many varieties, depending on its mineral composition and physical structure. When composed of calcium carbonate alone, it is white or nearly white. Other colors are produced by the presence of minor constituents such as [[clay]], sand, organic remains, [[iron oxide]]*, and other materials. In addition, limestone may be crystalline, clastic, granular, or massive, depending on the method of formation. Crystals of calcite, [[quartz]]*, [[dolomite]]*, or [[barite]]* may line small cavities in the rock. During [[Rock (geology)|regional metamorphism]] that occurs during the mountain-building process (orogeny), limestone recrystallizes into [[marble]].
 
Limestone can be found in many varieties, depending on its mineral composition and physical structure. When composed of calcium carbonate alone, it is white or nearly white. Other colors are produced by the presence of minor constituents such as [[clay]], sand, organic remains, [[iron oxide]]*, and other materials. In addition, limestone may be crystalline, clastic, granular, or massive, depending on the method of formation. Crystals of calcite, [[quartz]]*, [[dolomite]]*, or [[barite]]* may line small cavities in the rock. During [[Rock (geology)|regional metamorphism]] that occurs during the mountain-building process (orogeny), limestone recrystallizes into [[marble]].
  
[[Travertine]]* is a rock closely related to limestone and consists of carbonate minerals. It typically consists of [[aragonite]]*, made of calcium carbonate in a crystalline form that differs from that of [[calcite]]*. It is deposited from the water of [[mineral spring]]*s (especially [[hot spring]]*s) or streams saturated with calcium carbonate. An exceptionally porous form of travertine is known as "tufa."
+
[[Travertine]]* is a rock closely related to limestone and consists of carbonate minerals. It typically consists of [[aragonite]]*, made of calcium carbonate in a crystalline form that differs from that of [[calcite]]*. It is deposited from the water of [[mineral spring]]*s (especially [[hot spring]]*s) or streams saturated with calcium carbonate. An exceptionally porous form of travertine is known as calcareous tufa.
 
 
 
 
*natural chemical precipitate of [[carbonate minerals]]; typically [[aragonite]], but often recrystallized to or primary [[calcite]]; which is deposited from the water of [[mineral spring]]s (especially [[hot spring]]s) or streams saturated with [[calcium carbonate]]. When pure, travertine is white, but often is brown to yellow due to impurities. When carbon dioxide-rich water percolates through rocks in limestone areas, the water dissolves the limestone and becomes saturated with it. When the water resurfaces later, the sudden drop in pressure and the change in temperature cause the water to release the [[carbon dioxide]] gas, much like fizzy drinks. The calcium carbonate then recrystallizes, often over minute underwater plants. The resulting rock is typically quite porous with numerous cavities. When exceptionally porous it is known as calcarious [[tufa]].
 
 
 
banded, compact variety of limestone formed along streams, particularly where there are waterfalls, and around [[Hot spring|hot]] or cold springs. Calcium carbonate is deposited upon evaporation of the water. [[Tufa]]*, a porous or cellular variety of travertine, is found near waterfalls. [[Coquina]]* is a poorly consolidated limestone composed of pieces of [[coral]] or [[Animal shell|shell]]s.
 
  
 
=== Chalk ===
 
=== Chalk ===
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[[Image:Coquina8095.JPG|right|frame|An example of ''Coquina'' with characteristic shell deposits]]
 
[[Image:Coquina8095.JPG|right|frame|An example of ''Coquina'' with characteristic shell deposits]]
  
Coquina rock is a subset of [[limestone]]. It is composed mainly of calcite, often including some phosphate.
+
[[Coquina]]* is an incompletely consolidated limestone composed of pieces of [[coral]]* or seashells. It is created in association with [[ocean|marine]] [[reef]]s. It is composed mainly of calcite, often including some phosphate.
 
 
an incompletely consolidated [[sedimentary rock]] of biochemical origin, mainly composed of [[mineral]] [[calcite]], often including some [[phosphate]], in the form of [[seashell]]s or [[coral]]. It is created in association with [[ocean|marine]] [[reef]]s. While not usually referred to as such, it is actually
 
 
 
Coquina is [[quarry|quarried]] or [[mining|mined]] as a source of paving material. It is usually poorly cemented and easily breaks into component shell or coral fragments, which can be substituted for [[gravel]] or crushed harder [[Rock (geology)|rocks]]. Large pieces of coquina of unusual shape are sometimes used as landscape decoration.
 
 
 
Because coquina often includes a component of phosphate, it is sometimes mined for [[fertilizer]].
 
 
 
Occasionally used as a building stone in [[Florida]] throughout its history, it formed the walls of the [[Castillo de San Marcos]], [[Saint Augustine, Florida|Saint Augustine]]. The stone makes a very good material for forts, particularly those built during the period of heavy cannon use. Because of its being soft, cannon balls sink into, rather than shatter or puncture, the walls of the Castillo de San Marcos.
 
 
 
When first quarried, coquina is extremely soft. This softness makes it very easy to remove from the quarry and cut into shape. However, the stone is also at first much too soft to be used for building. In order to be used as a building material, the stone is left out to dry for approximately one to three years, which causes the stone to harden, although the material still remains somewhat soft, as noted in the preceding paragraph.
 
 
 
 
 
=== Travertine ===
 
[[Image:TravertineUSGOV.jpg|thumb|300px|Travertine]]
 
[[Image:Travertine.jpg|right|300px|thumb|A carving in travertine]]
 
 
 
The [[Rock (geology)|rock]] '''travertine''' is a
 
 
 
Extensive deposits exist at [[Tivoli, Italy]], near [[Rome]]. In fact, travertine derives its name from this town. Tivoli was known as Tibur in ancient Roman times. The ancient name for the stone was ''lapis tiburtinus'' meaning tibur stone, which has been corrupted to travertine.
 
 
 
Detailed studies of the Tivoli travertine deposits revealed diurnal and annual rhythmic banding and laminae which have potential use in [[geochronology]] (Folk, 1985).
 
 
 
Travertine has formed 16 huge, natural dams in a valley in Croatia known as Plitvice National Park.  The Travertine clings to moss and rocks in the water, and has built up over the past 2000 years to form waterfalls up to 70 m in height. More info can be found at the park's [http://www.np-plitvicka-jezera.hr/default.aspx?lan=en website] and [[Plitvice]]
 
 
 
The largest building in the world constructed largely of travertine is the [[Colosseum]] in [[Rome]].  Another notable building using travertine extensively is the [[Getty Center]] in Los Angeles, California.  The travertine used in the construction was imported from Tivoli.  The website of the Getty Center contains [http://www.getty.edu/visit/see_do/architecture.html more information] about the use of travertine in its construction, including some videos of travertine being quarried and cut for use.  The stone is most widely used in Italy, Greece and Turkey.
 
 
 
Travertine is one of several natural stones that are used for paving patios and garden paths. It is sometimes known as travertine limestone, sometimes as travertine marble; these are the same stone, even though it is neither [[limestone]] nor [[marble]].  The stone is characterised by pitted holes and troughs in its surface.  Although these troughs occur naturally, they suggest to some eyes that considerable wear and tear has occurred over many years.  Some installers use a grout to fill these holes, whereas others leave them open — travertine can even be purchased "filled" or "unfilled." It can be effectively polished to a smooth, shiny finish and comes in a variety of colors from grey to coral-red.  Travertine is most commonly available in [[tile]] sizes for floor installations.
 
  
Travertine is one of the most frequently used stones in [[modern architecture]], and is commonly seen as facade material, wall cladding, and flooring. Architect [[Welton Becket]] was one of the most frequent users of travertine, incorporating it extensively into many if not most of his projects. The entire first floor of the Becket-designed [[UCLA Medical Center]] has thick travertine walls.
+
When first quarried, coquina is extremely soft. This softness makes it very easy to remove from the quarry and cut into shape. At first, however, the stone is too soft to be used for building. To be used as a building material, the stone is left out to dry for approximately one to three years, which causes the stone to harden, although the material still remains somewhat soft, as noted in the preceding paragraph.
  
 
== Uses of limestone ==
 
== Uses of limestone ==

Revision as of 04:56, 24 August 2006

Limey shale overlaid by limestone, in Cumberland Plateau, Tennessee.

Limestone is a sedimentary rock composed largely of the mineral calcite (calcium carbonate, CaCO3). It makes up about 10 percent of the total volume of all sedimentary rocks. Limestones often contain variable amounts of silica in the form of chert or flint, as well as varying amounts of clay, silt, and sand as disseminations, nodules, or layers within the rock.

The calcite in limestone is produced mainly by marine organisms, many of which secrete shells that settle out of the water column and are deposited on ocean floors. Moreover, coral reefs are made from the calcium carbonate skeletons of coral-building organisms. Secondary calcite may be precipitated from groundwater and deposited in caves, producing formations such as stalagmites and stalactites.

  • Limestone containing bivalve fossils.

  • Various fossils collected from a limestone quarry in North Carolina, U.S.A. Clockwise from upper left: echinoids, bryozoans, and brachiopods.

  • A water-cooled limestone saw.

Limestone landscapes

A limestone pothole.

Limestone is partially soluble, especially in acidic water, and therefore forms many landforms produced by erosion. These include limestone pavements (horizontal surfaces of exposed limestone), caves, gorges, potholes, and cenotes (limestone sinkholes filled with freshwater). Such erosion landscapes, usually marked by underground drainages, are known as "karsts."

Limestone is less resistant to erosion than most igneous rocks, but more resistant than most other sedimentary rocks. Limestone is therefore usually associated with hills and occurs in regions with other sedimentary rocks, typically clays.

Bands of limestone emerge from the Earth's surface in often spectacular rocky outcrops and islands. Examples include the Burren in Co. Clare, Ireland; the Verdon Gorge in France; Malham Cove in North Yorkshire, England; on Fårö, near the Swedish island of Gotland; the Niagara Escarpment bordering Canada and the United States, Notch Peak in Utah, and the Ha Long Bay National Park in Vietnam. In addition, Belgium and Holland have several huge quarries, with a total gallery length of more than a hundred kilometers. An example of a hill with a lot of quarries is Mount Saint Peter (in the Belgium-Netherlands region) [1].

Varieties of limestone

Limestone can be found in many varieties, depending on its mineral composition and physical structure. When composed of calcium carbonate alone, it is white or nearly white. Other colors are produced by the presence of minor constituents such as clay, sand, organic remains, iron oxide, and other materials. In addition, limestone may be crystalline, clastic, granular, or massive, depending on the method of formation. Crystals of calcite, quartz, dolomite, or barite may line small cavities in the rock. During regional metamorphism that occurs during the mountain-building process (orogeny), limestone recrystallizes into marble.

Travertine is a rock closely related to limestone and consists of carbonate minerals. It typically consists of aragonite, made of calcium carbonate in a crystalline form that differs from that of calcite. It is deposited from the water of mineral springs (especially hot springs) or streams saturated with calcium carbonate. An exceptionally porous form of travertine is known as calcareous tufa.

Chalk

The Needles, part of the extensive Southern England Chalk Formation

Chalk is a soft, white, porous form of limestone. It is relatively resistant to erosion and slumping, compared to the clays with which it is usually associated. Consequently, it forms tall, steep cliffs where chalk ridges meet the sea. Chalk hills, known as chalk downland, usually form where bands of chalk reach the surface at an angle.

Chalk is formed in shallow waters by the gradual accumulation of the calcite mineral remains of microorganisms, over millions of years. Chalk beds commonly have embedded flint nodules.

Because chalk is porous, chalk downland usually holds a large body of groundwater, providing a natural reservoir that releases water slowly through dry seasons. The River Somme in northern France is an example of such water release from chalk.

Chalk has been quarried from prehistory, providing building material and soil conditioner for fields. The Chalk Formation is a European stratigraphic unit dating from the upper Cretaceous period. It includes the famous white cliffs of Dover of Kent, England, which are formed entirely of chalk deposits. The Champagne region of France is mostly on chalk formations, with caves being carved out beneath the hills.

Coquina

An example of Coquina with characteristic shell deposits

Coquina is an incompletely consolidated limestone composed of pieces of coral or seashells. It is created in association with marine reefs. It is composed mainly of calcite, often including some phosphate.

When first quarried, coquina is extremely soft. This softness makes it very easy to remove from the quarry and cut into shape. At first, however, the stone is too soft to be used for building. To be used as a building material, the stone is left out to dry for approximately one to three years, which causes the stone to harden, although the material still remains somewhat soft, as noted in the preceding paragraph.

Uses of limestone

A limestone plate with a negative map of Moosburg, Bavaria, is prepared for a lithography print.

Limestone is readily available and relatively easy to cut into blocks or carve elaborately. It is also long-lasting and stands up well to exposure. It is therefore popular in architecture and has been used to make many landmarks around the world, especially in Europe and North America. In the United States, Indiana has long been noted as a source of high-quality, quarried building limestone, while many famous buildings in London are built from Portland limestone.

Many medieval churches and castles in Europe are made of limestone. In the late nineteenth and early twentieth centuries, many train stations, banks, and other structures were made of limestone. Kingston, Ontario, Canada, has so many buildings constructed from limestone that the place was nicknamed "Limestone City." In recent years, thin limestone plates have been used as a facade on some skyscrapers.

On the other hand, limestone is a very heavy material, making it impractical for tall buildings. It is also quite expensive. A more significant problem is that limestone and marble are very reactive to acidic solutions, such as acid rain. Many limestone statues and building surfaces have suffered severe damage from acid rain.

Today, limestone is used in the manufacture of cement, mortar, quicklime (calcium oxide), and slaked lime (calcium hydroxide). In addition, crushed limestone is useful in constructing the solid base for many roads, and pulverized limestone is used as a soil conditioner to neutralize acidic soil conditions. Geological formations of limestone are among the best petroleum reservoirs.

Purified, powdered chalk serves as a filler and pigment in paints, paper, ceramics, and plastics. It should be noted that the chalk used for blackboards is currently made of gypsum (calcium sulfate) rather than calcium carbonate. Also, for such activities as gymnastics, rock climbing, and weight lifting, the chalk applied to the hands usually consists of magnesium carbonate.

See also

References
ISBN links support NWE through referral fees

  • Folk, R. L., et al; (1985) Bizarre forms of depositional and diagenetic calcite in hot spring travertines, in Carbonate Cements; SEPM Special Pub. 36.
  • Hurlbut, Cornelius S.; Klein, Cornelis, 1985, Manual of Mineralogy, 20th ed., Wiley, p. 496 ISBN 0471805807

External links

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