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In geology and geomorphology, a tessellated pavement is a relatively flat rock surface that is subdivided into more or less regular rectangles, blocks approaching rectangles, or irregular or regular polygons by fractures, frequently systematic joints, within the rock. This type of rock pavement bears this name because it is fractured into polygonal blocks that resemble tiles of a mosaic floor, or ''tessellations''.〔Branagan, D.F. (1983) ''Tesselated pavements.'' In R.W. Young and G.C. Nanson, eds., pp. 11-20, Aspects of Australian sandstone landscapes. Special Publication No. 1, Australian and New Zealand Geomorphology, University of Wollongong, New South Wales, Australia. 126 pp. ISBN 0864180012〕 Branagan recognizes four types of tessellated pavements. They are tessellated pavements formed by jointing; tessellated pavements formed by cooling contraction; tessellations formed by mud cracking and lithification; and tessellated sandstone pavements of uncertain origin.〔 The most common type of tessellated pavement consists of relatively flat rock surfaces, typically the tops of beds of sandstones and other sedimentary rocks, that are subdivided into either more or less regular rectangles or blocks approaching rectangles by well-developed systematic orthogonal joint systems. The surface of individual beds, as exposed by erosion, are typically divided into either squares, rectangles, and less commonly triangles or other shapes, depending on the number and orientation of the joint sets that comprise the joint system. This relatively flat surface of individual beds of sedimentary rocks are frequently altered by weathering along joints as to cause the bedrock along the joints to be either raised or recessed as the result of differential erosion. This type of tessellated pavement is commonly observed along shorelines where wave action has created relatively flat and extensive wave-cut platforms that expose jointed bedrock and keeps the surfaces of these platforms relatively clear of debris.〔〔Banks, M.R., E.A. Colhoun, R.J. Ford, and E. Williams (1986) ''A reconnaissance geology and geomorphology of Tasman Peninsula.'' In S.J. Smith, ed., pp. 7-24, Papers and Proceedings of the Royal Society of Tasmania, Tasman Peninsula : A symposium conducted by the Royal Society of Tasmania at Port Arthur, Tasmania, November 1–3. Royal Society of Tasmania, Tasmania. ISSN 0080-4703〕 The second type of tessellated pavement consists of a bedrock surface that exhibits joints that form polygons that are typically regular in size, spacing, and junctions.〔 Typically, these polygons represent the cross-sections of polygonal, typically hexangonal joints, called columnar jointing, that formed as the result of the cooling of basaltic lava. This type of surface can be seen at the Giant's Causeway in Northern Ireland.〔Goehring, L. (2013) ''Evolving fracture patterns: columnar joints, mud cracks and polygonal terrain.'' Philosophical Transactions of The Royal Society A Mathematical Physical and Engineering Sciences. vol. 371, no. 20120353. 18 pp.〕〔Goehring, L., L. Mahadevan, and S.W. Morris (2009) ''Nonequilibrium scale selection mechanism for columnar jointing.'' Proceedings of the National Academy of Science. vol. 106, no. 2, pp. 387-392.〕〔Wilson, H. E., and P. I. Manning, 1978,''Geology of the Causeway Coast.'' Geological Survey of Northern Ireland, Her Majesty's Stationery Office, Belfast, Nortehrn Ireland. 172 pp. ISBN 0337060940〕 The third type of tesselation recognized by Branagan〔 is associated with the shrinkage and cracking of fine-grained, either clayey or calcareous, sediments. They consists of polygonal cracking, often associated with individual 'plates' that tend to be concave upward, that characterizes the formation of mudcracks in fine-grained sediments.〔Kendall, C.G., and P.A. Skipwith (1968) ''Recent algal mats of a Persian Gulf Lagoon.'' Journal of Sedimentary Petology. vol. 34, no. 4, pp. 1040-1058.〕〔Collinson, J., and D. Thompson, (2006) ''Sedimentary Structures'' (3rd ed.). London: Unwin Hyman. 302 pp. ISBN 978-1903544198.〕 Often, the outlines of the polygons formed by this type of cracking are preserved and accentuated by the infilling of the cracks with material of a different composition from that of either the clayey or calcareous sediments in which the cracks form. The infilling of the cracks by sediments of a different character often preserved the polygonal pattern of the cracking where it can be exhumed by erosion as a patterned pavement after the sediment becomes lithified into a sedimentary rock.〔〔Assereto, R.L., and C.G. Kendall (1971) ''Megapolygons in Ladinian Limestones of Triassic of Southern Alps: Evidence of Deformation by Penecontemporaneous Desiccation and Cementation.'' Journal of Sedimentary Petology. vol. 41, no. 3, pp. 715-723.〕 The final type of tessellated pavement consists of relatively flat, sandstone surfaces that typically exhibit a complex pattern of five- or six-sided polygons. Typically, these polygons vary greatly in size from 0.5 to 2 m in width. These polygons are defined by well-developed fractures that sometimes have raised rims. They are found within exposures of the Hawkesbury Sandstone within the Sydney, Australia region, exposures of the Precipice Sandstone at the Kenniff Cave Archaeological Site in Queensland, Australia, and in exposures of Upper Cretaceous sandstones of the Boulder, Colorado, region. The origin of this type of tessellated pavement remains uncertain. The size and shape of these polygons appears to be dependent to a large extent on the grain size, texture, and coherence of the rock. This polygonal tessellation is best developed in relatively fine-grained, uniform, and siliceous or silicified sandstones.〔 == Tessellated Pavement, Eaglehawk Neck, Tasmania == The most well known example of a tessellated pavement is the Tessellated Pavement that is found at Lufra, Eaglehawk Neck on the Tasman Peninsula of Tasmania. This tesselated pavement consists of a marine platform on the shore of Pirates Bay, Tasmania. This example consists of two types of formations: a ''pan'' formation and a ''loaf'' formation.〔〔 The pan formation is a series of concave depressions in the rock that typically forms beyond the edge of the seashore. This part of the pavement dries out more at low tide than the portion abutting the seashore, allowing salt crystals to develop further; the surface of the "pans" therefore erodes more quickly than the joints, resulting in increasing concavity.〔 The loaf formations occur on the parts of the pavement closer to the seashore, which are immersed in water for longer periods of time. These parts of the pavement do not dry out so much, reducing the level of salt crystallisation. Water, carrying abrasive sand, is typically channelled through the joints, causing them to erode faster than the rest of the pavement, leaving loaf-like structures protruding.〔 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Tessellated pavement」の詳細全文を読む スポンサード リンク
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