2006
DOI: 10.1016/j.sedgeo.2006.05.006
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Architecture of pre-vegetation sandy-braided perennial and ephemeral river deposits in the Paleoproterozoic Athabasca Group, northern Saskatchewan, Canada as indicators of Precambrian fluvial style

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Cited by 95 publications
(72 citation statements)
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“…Most notably, sandstones of pre-Devonian river systems are commonly characterized by sheet-braided geometry with greater channel widths ascribed to the lack of vegetative slope stabilization (e.g. Long 2006). The deposits of specific palaeoenvironments such as aeolianites have a temporal distribution modulated by long-term preservational potential and possible relationships to phases of supercontinental cyclicity (Eriksson & Simpson 1998), as is also the case for glaciogenic deposits, which are summarized below.…”
mentioning
confidence: 99%
“…Most notably, sandstones of pre-Devonian river systems are commonly characterized by sheet-braided geometry with greater channel widths ascribed to the lack of vegetative slope stabilization (e.g. Long 2006). The deposits of specific palaeoenvironments such as aeolianites have a temporal distribution modulated by long-term preservational potential and possible relationships to phases of supercontinental cyclicity (Eriksson & Simpson 1998), as is also the case for glaciogenic deposits, which are summarized below.…”
mentioning
confidence: 99%
“…The S2 layer set in the study area mainly develops the high sinuosity distributary channel. Based on the theory of fluvial sedimentation of Miall (1985), the method of architectural elements analysis was employed to identify the hierarchy of bounding surfaces (Miall 1985;Hjellbakk 1997;Skelly et al 2003;Long 2006), in particular, the third-, fourth-and fifth-order bounding surfaces. Different architectural elements can be separated by a different hierarchy of bounding surfaces (Miall 1988;Jones et al 2001;Labourdette and Jones 2007).…”
Section: Facies Modellingmentioning
confidence: 99%
“…The term architectural element which can be defined as the macroform units that are larger than bedforms and smaller than channels (cf., Miall, 1985Miall, , 2006Yu et al, 2002;Miall and Jones, 2003;Fielding, 2006;Bose et al, 2012;Sarkar et al, 2012), is essential to understand the fluvial channel pattern and its evolution through time (Miall, 1985;Sarkar et al, 2012). Hence, a combination of facies analysis and architectural element analysis offers a far better and fairly comprehensive understanding of an ancient fluvial system and its evolution through time (Miall, 1988;Miall and Jones, 2003;Bose et al, 2008; Interpreted as river channels and/or individual branches of a braided river (Miall, 1985, Miall, 1996and Long, 2006. rests on major erosional surfaces and is invariably overlain by SCE (Fig.…”
Section: Fluvial Architectural Elementmentioning
confidence: 99%