Coal ball
Composition | |
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Permineralised life forms |
Coal balls are calcium-rich masses of permineralised life forms, generally having a round shape; which, despite their name, are not made of coal. Coal balls were formed roughly 300 million years ago (mya), during the Carboniferous Period. They are exceptional at preserving organic matter, which makes them useful to scientists, who cut and peel the coal balls to research the geological past of the Earth.
In 1855, two English scientists, Joseph Dalton Hooker and Edward William Binney, made the first scientific description of coal balls in England, and the initial research on coal balls was carried out in Europe. It was not until 1922 that coal balls were discovered and identified in North America. Since then, coal balls have been found in other countries, and they have led to the discovery of hundreds of species and genera.
Coal balls may be found in coal seams across North America and Eurasia. North American coal balls are relatively widespread, both stratigraphically and geologically, as compared to coal balls from Europe. The oldest known coal balls were found in Germany and the former Czechoslovakia.
Introduction to the scientific world, and formation
The first scientific description of coal balls was made in 1855 by Sir Joseph Dalton Hooker and Edward William Binney, who reported on examples of them in the coal seams of Yorkshire and Lancashire, England. European scientists did much of the early research on these objects.[1][2]
Coal balls in North America were found in Iowa coal seams since 1894,[3][4] although the connection to European coal balls was not made until Adolf Carl Noé (whose coal ball was actually found by Gilbert Cady[3][5]) drew the parallel in 1922.[2] Noé's work renewed interest in coal balls, and by the 1930s, paleobotanists from Europe were visiting the Illinois Basin in search of them.[6]
Although the formation of coal balls is mostly speculation,[7] two theories - the autochthonous (in situ) theory and the allochthonous (drift) theory - attempt to explain the formation of coal balls.
In the in situ theory, it is believed that in or near its present location organic matter accumulated near a peat bog and, shortly after burial, underwent permineralisation - minerals seeped into the organic matter and formed an internal cast of it.[8][9] Water with a high dissolved mineral content was buried along with the plant matter in a peat bog. As the dissolved ions crystallised, the mineral matter precipitated out. This caused concretions containing plant material to form and preserve as rounded lumps of stone. Coalification was prevented because of that, and the peat was preserved and eventually became a coal ball.[10] The majority of coal balls are found in bituminous and anthracite coal seams,[11] in locations where the peat was not compressed sufficiently to render the material into coal.[10]
Marie Stopes and David Watson analysed their own coal ball samples. They decided that coal balls formed in situ, but stressed the importance of interaction with seawater, believing that it was necessary for a coal ball to form.[12] Some supporters of the in situ theory of coal ball formation believe that Stopes' and Watson's discovery of a plant stem extending through multiple coal balls shows that coal balls formed in situ, stating that the drift theory fails to explain Stopes' and Watson's observation. They also cite fragile pieces of organic material projecting outside some coal balls, stating that the projections would have been destroyed if the drift theory was correct.[13]
The drift theory, however, assumes that the organic material did not form in or near its present location. Rather, it asserts that the material that would become a coal ball was transported from another location by means of a flood or a storm.[14]
Some supporters of the drift theory, such as Sergius Mamay and Ellis Yochelson, believe that the presence of marine animals in coal balls is evidence of material being transported from a marine to a non-marine environment.[15]
Contents
Notwithstanding the word "coal" in their name, coal balls are not made of coal (they are nonflammable and useless for fuel),[16][17] but rather calcium-rich permineralised life forms,[18] mostly containing calcium and magnesium carbonate, iron pyrite, silica, and carbonate of lime.[19][20] Other minerals, including marcasite, gypsum, quartz, illite, kaolinite, and lepidocrocite also appear in coal balls, albeit in lesser quantities.[21] Although coal balls are usually about the size of a man's fist,[22] their sizes have been known to vary greatly, having been described as ranging from that of a walnut up to 3 feet (1 m) in diameter.[23] Some coal balls have been found that were smaller than a thimble.[17]
Coal balls commonly contain dolomites, products of aragonite, and masses of organic matter at various stages of decomposition.[10] Hooker and Binney had a coal ball analysed, finding "a lack of coniferous wood ... and fronds of ferns", and that the discovered plant matter "appear[ed] to [have been arranged] just as they fell from the plants that produced them".[24]
In 1962, Sergius Mamay and Ellis Yochelson analysed North American coal balls.[25] Upon their discovery of marine organisms in a coal ball, coal balls were sorted into three types: Normal (sometimes known as floral), containing only plant matter; faunal, containing animal fossils only; and mixed, containing both plant and animal material.[26]
Preservation
The quality of preservation in coal balls varies from no preservation to the point of being able to analyse the cellular structures.[9] Some coal balls have been found to contain preserved root hairs,[27] pollen,[28] and spores,[28] and described as being "more or less perfectly preserved",[29] containing "not what used to be the plant", but rather, the plant itself;[30] while others have been described as "botanically worthless", containing no preserved material at all.[31] Coal balls with well-preserved contents are useful to paleobotanists.[32] They have been used as a means of analysing the geographical distribution of the vegetation they contain, providing evidence that Ukrainian and Oklahoman plants of the tropical belt were once the same.[33] Research on coal balls has also led to the discovery of over 130 genera and 350 species.[1]
Three main factors determine the quality of preserved material in a coal ball: The mineral constituents, speed of the burial process, and the degree of compression before undergoing permineralisation.[34] Generally, coal balls resulting from remains that have a quick burial with little decay and pressure are more well preserved, although plant remains in most coal balls almost always show differing signs of decay and collapse.[10] Coal balls containing quantities of iron sulfide have far lower preservation than coal balls permineralised by magnesium or calcium carbonate,[10][35] which has earned iron sulfide the title "chief curse of the coal ball hunter".[27]
Distribution
Coal balls were first found in England,[36] and later in other parts of Eurasia, including Australia,[14][37] Belgium, the Netherlands, former Czechoslovakia, Germany, the former Soviet Union, China,[38] and Spain.[39] They were also encountered in North America, where, compared to Europe, they are relatively widespread;[1] in the United States, coal balls have been found from the Illinois Basin to Ohio to the Appalachian region,[28] with ages varying from the later Stephanian (roughly 304 to 299 mya) to the later end of the Westphalian (roughly 313 to 304 mya). European coal balls are generally from the early end of the Westphalian Stage.[1] The age of coal balls generally range from the Permian Period (299 to 251 mya) to the Upper Carboniferous,[40] though the oldest coal balls were of early Namurian age (326 to 313 mya) and were discovered in Germany and former Czechoslovakia.[1]
In coal seams, coal balls are completely surrounded by coal.[41] They are often found randomly scattered throughout the seam in isolated groups.[32]
Analytical methods
Thin sectioning was an early procedure used to analyse fossilised material contained in coal balls.[42] Thin sectioning required cutting a coal ball with a diamond saw, then flattening and polishing the thin section with an abrasive.[43] It would be glued to a slide, and placed under a petrographic microscope for examination.[44] This process could be done with a machine, although the large amount of time needed and the poor quality of samples produced by thin sectioning gave way to a more convenient method.[45][46]
The thin section technique was superseded by the now-common liquid peel technique in 1928.[7][42][45] In the liquid peel technique,[47][48][49] peels are obtained by cutting the surface of a coal ball with a diamond saw, grinding the cut surface on a glass plate with silicon carbide to a smooth finish, and etching the cut and the surface with hydrochloric acid.[46] The acid dissolves the mineral matter from the coal ball, and leaves a projecting layer of plant cells. After applying acetone, a piece of cellulose acetate placed on the coal ball. This embeds the cells preserved in the coal ball into the cellulose acetate. Upon drying, the cellulose acetate can be removed from the coal ball with a razor and the obtained peel can be stained with a low-acidity stain and observed under a microscope. Up to 50 peels can be extracted from 2 millimetres of coal ball with this method.[46]
X-ray powder diffraction has also been used to analyse coal balls.[50] In X-ray diffraction, X-rays of a predetermined wavelength are sent through a sample to examine its structure. It reveals information about the crystallographic structure, chemical composition, and physical properties of the examined material. The scattered intensity of the X-ray pattern is observed and analysed, with the measurements consisting of incident and scattered angle, polarisation, and wavelength or energy.[51]
See also
References
- ^ a b c d e Scott & Rex 1985, p. 124
- ^ a b Noé 1923a, p. 385
- ^ a b Darrah & Lyons 1995, p. 176
- ^ Andrews 1946, p. 334
- ^ Leighton & Peppers 2011
- ^ Phillips, Pfefferkorn & Peppers 1973, p. 24
- ^ a b Phillips, Avcin & Berggren 1976, p. 17
- ^ Hooker & Binney 1855, p. 149
- ^ a b Perkins 1976, p. 1
- ^ a b c d e Phillips, Avcin & Berggren 1976, p. 6
- ^ Cleveland Museum of Natural History
- ^ Stopes & Watson 1909, p. 212
- ^ Feliciano 1924, p. 233
- ^ a b Kindle 1934, p. 757
- ^ Darrah & Lyons 1995, p. 317
- ^ Andrews 1951, p. 432
- ^ a b Andrews 1946, p. 327
- ^ Scott & Rex 1985, p. 123
- ^ Lomax 1903, p. 811
- ^ Gabel & Dyche 1986, p. 99
- ^ Demaris 2000, p. 224
- ^ Evening Independent 1923, p. 13
- ^ Feliciano 1924, p. 230
- ^ Hooker & Binney 1855, p. 150
- ^ Scott & Rex 1985, p. 126
- ^ Lyons et al. 1984
- ^ a b Andrews 1946, p. 330
- ^ a b c Phillips, Avcin & Berggren 1976, p. 7
- ^ Seward 1898, p. 86
- ^ Phillips
- ^ Baxter 1951, p. 528
- ^ a b Nelson 1983, p. 41
- ^ Phillips & Peppers, p. 206
- ^ Andrews 1946, pp. 329–330
- ^ Noé 1923b, p. 344
- ^ Hooker & Binney 1855, p. 1
- ^ Feliciano 1924, p. 231
- ^ Scott & Rex 1985, pp. 124–125
- ^ Galtier 1997, p. 59
- ^ Jones & Rowe 1999, p. 206
- ^ Stopes & Watson 1909, p. 173
- ^ a b Phillips, Pfefferkorn & Peppers 1973, p. 26
- ^ Darrah & Lyons 1995, p. 177
- ^ Baxter 1951, p. 531
- ^ a b Scott & Rex 1985, p. 125
- ^ a b c Seward 2010, p. 48
- ^ Gabel & Dyche 1986, pp. 99, 101
- ^ Andrews 1946, pp. 327–328
- ^ Smithsonian Institution 2007
- ^ Demaris 2000, p. 221
- ^ University of Santa Barbara, California 2011
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