List of Components¶
Numerical solution for advection using a Total Variation Diminishing method. |
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Model drainage network evolution for a network of transport-limited |
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Create a landlab :class: |
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Create a landlab :class: |
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Create a landlab :class: |
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Create a landlab :class: |
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Calculate the location and magnitude of episodic bedrock landsliding. |
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Calculate marine carbonate production and deposition. |
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Extract and plot the channel profiles in drainage networks. |
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Calculate Chi Indices. |
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Track the concentration of any user-defined property. |
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Find depressions on a topographic surface. |
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This component implements a depth and slope dependent linear diffusion |
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This component implements a depth-dependent Taylor series diffusion rule, |
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Calculate erosion rate as a function of the depth-slope product. |
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Simulate detachment limited sediment transport. |
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Component that calculates dimensionless discharge of stream |
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Diffuse sediment proportional to an implicit water discharge value. |
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Calculate drainage density over a DEM. |
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Erosion-Deposition model in the style of Davy and Lague (2009). It uses a |
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Calculate exponential weathering of bedrock on hillslopes. |
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This component implements exponential weathering of bedrock on |
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Fastscape stream power erosion. |
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Generate a random fire event or time series. |
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Deform the lithosphere with 1D or 2D flexure. |
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Deform the lithosphere with 1D flexure. |
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Component to accumulate flow and calculate drainage area. |
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Single-path (steepest direction) flow direction with diagonals on |
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Flow direction on a raster grid by the D infinity method. |
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Multiple-path flow direction with or without out diagonals. |
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Single-path (steepest direction) flow direction without diagonals. |
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Create a 2D grid with randomly generated fractures. |
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This is a Landlab wrapper for A Wickert’s gFlex flexure model (Wickert |
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Drainage network evolution of rivers with gravel alluvium overlying bedrock. |
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Model drainage network evolution for a network of transport-limited |
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Simulate groundwater flow in a shallow unconfined aquifer. |
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This component calculates Hack’s law parameters for drainage basins. |
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Calculate the elevation difference between each node and its nearest |
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This code is based on an overland flow model by Francis Rengers and |
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Calculate shallow water flow over topography. |
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Calculate water flow over topography. |
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A Landlab implementation of the Barnes et al. (2014) lake filling & lake |
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Landslide probability component using the infinite slope stability |
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Laterally erode neighbor node through fluvial erosion. |
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Linear diffusion of a Landlab field. |
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Calculate water flow over topography. |
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Apply tectonic extension kinematically to a raster or |
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Create LithoLayers component. |
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Create a Lithology object. |
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Component to calculate drainage area and accumulate flow, while |
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a cellular-automata mass wasting runout model that routes an initial mass |
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Move sediment parcels on a river network. |
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NormalFault implements relative rock motion due to a normal fault. |
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Simulate overland flow using de Almeida approximations. |
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Simulate overland flow using Bates et al. (2010). |
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Nonlinear diffusion, following Perron (2011). |
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Potential Evapotranspiration Component calculates spatially distributed |
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Multidirectional flow routing using a novel method. |
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Generate precipitation events. |
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Component to accumulate flow and calculate drainage area based RICHDEM software package. |
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Extract and plot profiles set up using points within a grid. |
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Compute 1D and 2D daily incident shortwave radiation. |
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Simulate surface fluid flow based on Casulli and Cheng (1992). |
This module implements sediment flux dependent channel incision |
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Send a pulse of parcels to specific links in a channel network |
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Send pulses of sediment to specific point locations within the channel |
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Transport marine sediment using a water-depth-dependent diffusion model. |
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This component identifies depressions in a topographic surface, then |
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Uses the Barnes et al (2014) algorithms to replace pits in a topography |
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Infiltrate surface water into a soil following the Green-Ampt method. |
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Landlab component that simulates root-zone average soil moisture at each |
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Stream Power with Alluvium Conservation and Entrainment (SPACE) |
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Stream Power with Alluvium Conservation and Entrainment (SPACE) large scale eroder |
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Generate spatially resolved precipitation events. |
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Evolve life in a landscape. |
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This component calculates steepness indices, sensu Wobus et al. 2006, |
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Erode where channels are. |
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Stream erosion component with smooth threshold function. |
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Hillslope evolution using a Taylor Series expansion of the Andrews- |
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Threshold eroder. |
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Component that calculates average flow over a tidal cycle. |
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Transport length hillslope diffusion. |
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Extract and a profile from one or more node IDs to their downstream termini. |
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Landlab component that simulates inter-species plant competition using a |
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Landlab component that simulates net primary productivity, biomass and |