A free-boundary model of diffusive valley growth: theory and observation | Zendy

Robert Yi | Zendy; Y. Cohen | Zendy; Hansjörg Seybold | Zendy; Eric Stansifer | Zendy; N. Robb McDonald | Zendy; Mark Mineev-Weinstein | Zendy; Daniel H. Rothman | Zendy

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A free-boundary model of diffusive valley growth: theory and observation

Author(s) -

Robert Yi,

Y. Cohen,

Hansjörg Seybold,

Eric Stansifer,

N. Robb McDonald,

Mark Mineev-Weinstein,

Daniel H. Rothman

Publication year - 2017

Publication title -

proceedings of the royal society a mathematical physical and engineering sciences

Language(s) - English

Resource type - Journals

eISSN - 1471-2946

pISSN - 1364-5021

DOI - 10.1098/rspa.2017.0159

Subject(s) - boundary (topology) , groundwater , elevation (ballistics) , geology , diffusion , feature (linguistics) , erosion , head (geology) , geometry , thermal diffusivity , geomorphology , mathematics , mathematical analysis , geotechnical engineering , physics , quantum mechanics , linguistics , philosophy , thermodynamics

Valleys that form around a stream head often develop characteristic finger-like elevation contours. We study the processes involved in the formation of these valleys and introduce a theoretical model that indicates how shape may inform the underlying processes. We consider valley growth as the advance of a moving boundary travelling forward purely through linearly diffusive erosion, and we obtain a solution for the valley shape in three dimensions. Our solution compares well to the shape of slowly growing groundwater-fed valleys found in Bristol, Florida. Our results identify a new feature in the formation of groundwater-fed valleys: a spatially variable diffusivity that can be modelled by a fixed-height moving boundary.

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