Journal Article10.1130/0091-7613(2002)030<0175:OSSIMB>2.0.CO;2
On steady states in mountain belts
Sean D. Willett,Mark T. Brandon +1 more
667
TL;DR: In this article, the authors identify four types of steady state that characterize the orogenic system and illustrate these cases by using numerical-model results and natural examples, including erosional flux, topography, subsurface temperature field, and the spatial pattern of cooling ages.
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Abstract: The dynamic system of tectonics and erosion contains important feedback mechanisms such that orogenic systems tend toward a steady state. This concept is often invoked, but the nature of the steady state is commonly not specified. We identify four types of steady state that characterize the orogenic system and illustrate these cases by using numerical-model results and natural examples. These types are (1) flux steady state, (2) topographic steady state, (3) thermal steady state, and (4) exhumational steady state: they refer to the erosional flux, the topography, the subsurface temperature field, and the spatial pattern of cooling ages, respectively. Models suggest that the topography will reach a steady mean form at the scale of an orogenic belt, but perfect topographic steady state is unlikely to be achieved at shorter length scales. Thermal steady state is a precondition for exhumational steady state and in the case of temperature-dependent deformation, topographic steady state. Exhumational steady state is characterized by reset age zones spatially nested according to closure temperature, as illustrated in natural systems from New Zealand, the Cascadia accretionary margin, and Taiwan.
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Citations
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References
Mountain Weather and Climate
TL;DR: The first book dealing with mountain weather and climate worldwide is as mentioned in this paper, which represents a review of all publications on the subject and is based on a survey of the literature from the early 1990s to the present day.
Equilibrium and time scales in geomorphology: Application to sand-bed alluvial streams
TL;DR: The use of the term grade is best restricted to a single-valued relationship between channel gradient and the hydraulic regime, as defined by Mackin (1948) as mentioned in this paper, which is synonymous with equilibrium as used in this paper if 'a period of years' is replaced by 'a time period commensurate with the relaxation time of the gradient'.