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cementing material]] near Crestone, Colorado.]] A conglomerate ( 2007 . Both conglomerates and breccias are characterized by clasts larger than sand (>2 mm). Paraconglomerates consist of a matrix-supported rock that contains at least 15% sand-sized or smaller 2007 . Orthoconglomerates are defined by texture. They are a grain-supported rock that consists primarily of gravel-sized grains (~256 mm), with less than 15% matrix of 2007 . In rock types such as paraconglomerates and orthoconglomerates, were the matrix to be removed, the rock would collapse. This is because the larger grains are supported by the matrix and, without it, there is nothing to hold the grains together. Therefore, the higher the percentage of matrix, the more unstable the rock. They differ to breccias in one main way, this is the round edges of the larger sediment/cobbles, this is due to being deposited in high to very high energy conditions. Possibly from the result of large storm activity when deposition seas allowed sedimentation. A spectacular example of conglomerate can be seen at Montserrat , near Barcelona . Here erosion has created vertical channels giving the characteristic jagged shapes for which the mountain is named (Monserrat=Jagged Mountain). The rock is strong enough to be used as a building material - see Montserrat abbey front at full resolution for detail of the rock structure. Another spectacular example of conglomerate, the Crestone Conglomerate may be viewed in and near the town of Crestone , at the foot of the Sangre De Cristo Range in Colorado 's San Luis Valley . The Crestone Conglomerate is a Metamorphic Rock Stratum and consists of tiny to quite large rocks that appear to have been tumbled in an ancient river. Some of the rocks have hues of red and green. Conglomerate may also be seen in the domed hills of Kata Tjuta , in Australia 's Northern Territory . FANGLOMERATE When a series of conglomerates accumulates into an Alluvial Fan , in rapidly eroding (e.g. Desert ) environments, the resulting rock unit is often called a fanglomerate. These form the basis of a number of large oil fields, e.g. the Tiffany and Brae fields in the North Sea . These fanglomerates were actually deposited into a deep marine environment but against a rapidly moving fault line, which supplied an intermittent stream of debris into the conglomerate pile. The sediment fans are several kilometers deep at the fault line and the sedimentation moved focus repeatedly, as different sectors of the fault moved] Metamorphic alteration transforms conglomerate into Metaconglomerate . REFERENCES EXTERNAL LINKS |
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