Property:Describe output parameters model

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S
"channel__bed_shear_stress": { "dtype": float, "intent": "out", "optional": False, "units": "Pa", "mapping": "node", "doc": "Shear exerted on the bed of the channel, assuming all discharge travels along a single, self-formed channel", } "channel__depth": { "dtype": float, "intent": "out", "optional": True, "units": "m", "mapping": "node", "doc": "Depth of the a single channel carrying all runoff through the node", } "channel__discharge": { "dtype": float, "intent": "out", "optional": False, "units": "m**3/s", "mapping": "node", "doc": "Volumetric water flux of the a single channel carrying all runoff through the node", } "channel__width": { "dtype": float, "intent": "out", "optional": True, "units": "m", "mapping": "node", "doc": "Width of the a single channel carrying all runoff through the node", } "channel_sediment__relative_flux": { "dtype": float, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "The fluvial_sediment_flux_into_node divided by the fluvial_sediment_transport_capacity", } "channel_sediment__volumetric_flux": { "dtype": float, "intent": "out", "optional": False, "units": "m**3/s", "mapping": "node", "doc": "Total volumetric fluvial sediment flux brought into the node from upstream", } "channel_sediment__volumetric_transport_capacity": { "dtype": float, "intent": "out", "optional": False, "units": "m**3/s", "mapping": "node", "doc": "Volumetric transport capacity of a channel carrying all runoff through the node, assuming the Meyer-Peter Muller transport equation", } "drainage_area": { "dtype": float, "intent": "in", "optional": False, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", } "flow__link_to_receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", } "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__upstream_node_order": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array containing downstream-to-upstream ordered list of node IDs", } "topographic__elevation": { "dtype": float, "intent": "inout", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", } "topographic__steepest_slope": { "dtype": float, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "The steepest *downhill* slope", }  
C
"channel__chi_index": { "dtype": float, "intent": "out", "optional": False, "units": "variable", "mapping": "node", "doc": "the local steepness index", }, "drainage_area": { "dtype": float, "intent": "in", "optional": False, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", }, "flow__link_to_receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", }, "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", }, "flow__upstream_node_order": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array containing downstream-to-upstream ordered list of node IDs", }, "topographic__elevation": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", }, "topographic__steepest_slope": { "dtype": float, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "The steepest *downhill* slope", }  +
S
"channel__steepness_index": { "dtype": float, "intent": "out", "optional": False, "units": "variable", "mapping": "node", "doc": "the local steepness index", } "drainage_area": { "dtype": float, "intent": "in", "optional": False, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", } "flow__link_to_receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", } "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__upstream_node_order": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array containing downstream-to-upstream ordered list of node IDs", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", } "topographic__steepest_slope": { "dtype": float, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "The steepest *downhill* slope", }  +
D
"depression__depth": { "dtype": float, "intent": "out", "optional": False, "units": "m", "mapping": "node", "doc": "Depth of depression below its spillway point", } "depression__outlet_node": { "dtype": int, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "If a depression, the id of the outlet node for that depression, otherwise grid.BAD_INDEX", } "flood_status_code": { "dtype": int, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "Map of flood status (_PIT, _CURRENT_LAKE, _UNFLOODED, or _FLOODED).", } "is_pit": { "dtype": bool, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "Boolean flag indicating whether a node is a pit.", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", }  +
H
"distance_to_divide": { "dtype": float, "intent": "out", "optional": False, "units": "m", "mapping": "node", "doc": "Distance from drainage divide.", } "drainage_area": { "dtype": float, "intent": "in", "optional": False, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", } "flow__link_to_receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", } "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__upstream_node_order": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array containing downstream-to-upstream ordered list of node IDs", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", }  +
C
"drainage_area": { "dtype": float, "intent": "in", "optional": True, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", }, "flow__link_to_receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", }, "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", }  +
F
"drainage_area": { "dtype": float, "intent": "in", "optional": False, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", } "flow__link_to_receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", } "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__upstream_node_order": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array containing downstream-to-upstream ordered list of node IDs", } "topographic__elevation": { "dtype": float, "intent": "inout", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", }  +
S
"drainage_area": { "dtype": float, "intent": "in", "optional": False, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", } "flow__link_to_receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", } "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__upstream_node_order": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array containing downstream-to-upstream ordered list of node IDs", } "topographic__elevation": { "dtype": float, "intent": "inout", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", }  +
L
"drainage_area": { "dtype": float, "intent": "in", "optional": False, "units": "m**2", "mapping": "node", "doc": "Upstream accumulated surface area contributing to the node's discharge", } "flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__upstream_node_order": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array containing downstream-to-upstream ordered list of node IDs", } "lateral_erosion__depth_increment": { "dtype": float, "intent": "out", "optional": False, "units": "m", "mapping": "node", "doc": "Change in elevation at each node from lateral erosion during time step", } "sediment__flux": { "dtype": float, "intent": "out", "optional": False, "units": "m3/y", "mapping": "node", "doc": "Sediment flux (volume per unit time of sediment entering each node)", } "topographic__elevation": { "dtype": float, "intent": "inout", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", } "topographic__steepest_slope": { "dtype": float, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "The steepest *downhill* slope", } "volume__lateral_erosion": { "dtype": float, "intent": "out", "optional": False, "units": "m3", "mapping": "node", "doc": "Array tracking volume eroded at each node from lateral erosion", }  +
F
"flow__link_direction": { "dtype": np.int8, "intent": "out", "optional": False, "units": "-", "mapping": "link", "doc": "Direction of flow on link. A value of -1 indicates that water flow goes from head node to tail node, while a value of 1 indicates that water flow goes from tail node to head node.", } "flow__link_to_receiver_node": { "dtype": int, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", } "flow__receiver_node": { "dtype": int, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__sink_flag": { "dtype": bool, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "Boolean array, True at local lows", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": True, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", } "topographic__steepest_slope": { "dtype": float, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "The steepest *downhill* slope", }  +
"flow__link_to_receiver_node": { "dtype": int, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "ID of link downstream of each node, which carries the discharge", } "flow__receiver_node": { "dtype": int, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "flow__sink_flag": { "dtype": bool, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "Boolean array, True at local lows", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": True, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", } "topographic__steepest_slope": { "dtype": float, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "The steepest *downhill* slope", }  +
P
"flow__potential": { "dtype": float, "intent": "out", "optional": False, "units": "m**3/s", "mapping": "node", "doc": "Value of the hypothetical field 'K', used to force water flux to flow downhill", } "surface_water__depth": { "dtype": float, "intent": "out", "optional": False, "units": "m", "mapping": "node", "doc": "Depth of water on the surface", } "surface_water__discharge": { "dtype": float, "intent": "out", "optional": False, "units": "m**3/s", "mapping": "node", "doc": "Volumetric discharge of surface water", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", } "water__unit_flux_in": { "dtype": float, "intent": "in", "optional": False, "units": "m/s", "mapping": "node", "doc": "External volume water per area per time input to each node (e.g., rainfall rate)", }  +
T
"flow__receiver_node": { "dtype": int, "intent": "in", "optional": False, "units": "-", "mapping": "node", "doc": "Node array of receivers (node that receives flow from current node)", } "sediment__deposition_coeff": { "dtype": float, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "Fraction of incoming sediment that is deposited on the node", } "sediment__deposition_rate": { "dtype": float, "intent": "out", "optional": False, "units": "m/yr", "mapping": "node", "doc": "Deposition rate on node", } "sediment__erosion_rate": { "dtype": float, "intent": "out", "optional": False, "units": "m/yr", "mapping": "node", "doc": "Erosion rate on node", } "sediment__flux_in": { "dtype": float, "intent": "out", "optional": False, "units": "m/yr", "mapping": "node", "doc": "Incoming sediment rate on node (=qs/dx)", } "sediment__flux_out": { "dtype": float, "intent": "out", "optional": False, "units": "m/yr", "mapping": "node", "doc": "Outgoing sediment rate on node = sediment eroded on node + sediment transported across node from upstream", } "sediment__transfer_rate": { "dtype": float, "intent": "out", "optional": False, "units": "m/yr", "mapping": "node", "doc": "Rate of transferred sediment across a node (incoming sediment - deposited sediment on node)", } "topographic__elevation": { "dtype": float, "intent": "inout", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", } "topographic__steepest_slope": { "dtype": float, "intent": "in", "optional": False, "units": "m/m", "mapping": "node", "doc": "The steepest *downhill* slope", }  +
F
"fracture_at_node": { "dtype": np.int8, "intent": "out", "optional": False, "units": "-", "mapping": "node", "doc": "presence (1) or absence (0) of fracture", }  +
L
"landslide__probability_of_failure": { "dtype": float, "intent": "out", "optional": False, "units": "None", "mapping": "node", "doc": "number of times FS is <=1 out of number of iterations user selected", } "soil__density": { "dtype": float, "intent": "in", "optional": False, "units": "kg/m3", "mapping": "node", "doc": "wet bulk density of soil", } "soil__internal_friction_angle": { "dtype": float, "intent": "in", "optional": False, "units": "degrees", "mapping": "node", "doc": "critical angle just before failure due to friction between particles", } "soil__maximum_total_cohesion": { "dtype": float, "intent": "in", "optional": False, "units": "Pa or kg/m-s2", "mapping": "node", "doc": "maximum of combined root and soil cohesion at node", } "soil__mean_relative_wetness": { "dtype": float, "intent": "out", "optional": False, "units": "None", "mapping": "node", "doc": "Indicator of soil wetness; relative depth perched water table within the soil layer", } "soil__minimum_total_cohesion": { "dtype": float, "intent": "in", "optional": False, "units": "Pa or kg/m-s2", "mapping": "node", "doc": "minimum of combined root and soil cohesion at node", } "soil__mode_total_cohesion": { "dtype": float, "intent": "in", "optional": False, "units": "Pa or kg/m-s2", "mapping": "node", "doc": "mode of combined root and soil cohesion at node", } "soil__probability_of_saturation": { "dtype": float, "intent": "out", "optional": False, "units": "None", "mapping": "node", "doc": "number of times relative wetness is >=1 out of number of iterations user selected", } "soil__saturated_hydraulic_conductivity": { "dtype": float, "intent": "in", "optional": False, "units": "m/day", "mapping": "node", "doc": "mode rate of water transmitted through soil - provided if transmissivity is NOT provided to calculate tranmissivity with soil depth", } "soil__thickness": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "soil depth to restrictive layer", } "soil__transmissivity": { "dtype": float, "intent": "in", "optional": False, "units": "m2/day", "mapping": "node", "doc": "mode rate of water transmitted through a unit width of saturated soil - either provided or calculated with Ksat and soil depth", } "topographic__slope": { "dtype": float, "intent": "in", "optional": False, "units": "tan theta", "mapping": "node", "doc": "gradient of the ground surface", } "topographic__specific_contributing_area": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "specific contributing (upslope area/cell face ) that drains to node", }  
F
"lithosphere__overlying_pressure_increment": { "dtype": float, "intent": "in", "optional": False, "units": "Pa", "mapping": "node", "doc": "Applied pressure to the lithosphere over a time step", } "lithosphere_surface__elevation_increment": { "dtype": float, "intent": "out", "optional": False, "units": "m", "mapping": "node", "doc": "The change in elevation of the top of the lithosphere (the land surface) in one timestep", }  +
V
"plant__age": { "dtype": float, "intent": "out", "optional": False, "units": "Years", "mapping": "cell", "doc": "Age of plant", } "plant__live_index": { "dtype": float, "intent": "out", "optional": False, "units": "None", "mapping": "cell", "doc": "1 - vegetation__cumulative_water_stress", } "vegetation__cumulative_water_stress": { "dtype": float, "intent": "in", "optional": False, "units": "None", "mapping": "cell", "doc": "cumulative vegetation__water_stress over the growing season", } "vegetation__plant_functional_type": { "dtype": int, "intent": "in", "optional": False, "units": "None", "mapping": "cell", "doc": "classification of plants (int), grass=0, shrub=1, tree=2, bare=3, shrub_seedling=4, tree_seedling=5", }  +
P
"radiation__incoming_shortwave_flux": { "dtype": float, "intent": "out", "optional": False, "units": "W/m^2", "mapping": "cell", "doc": "total incident shortwave radiation over the time step", } "radiation__net_flux": { "dtype": float, "intent": "out", "optional": False, "units": "W/m^2", "mapping": "cell", "doc": "net total radiation over the time step", } "radiation__net_longwave_flux": { "dtype": float, "intent": "out", "optional": False, "units": "W/m^2", "mapping": "cell", "doc": "net incident longwave radiation over the time step", } "radiation__net_shortwave_flux": { "dtype": float, "intent": "out", "optional": False, "units": "W/m^2", "mapping": "cell", "doc": "net incident shortwave radiation over the time step", } "radiation__ratio_to_flat_surface": { "dtype": float, "intent": "in", "optional": False, "units": "None", "mapping": "cell", "doc": "ratio of total incident shortwave radiation on sloped surface to flat surface", } "surface__potential_evapotranspiration_rate": { "dtype": float, "intent": "out", "optional": False, "units": "mm", "mapping": "cell", "doc": "potential sum of evaporation and potential transpiration", }  +
R
"radiation__incoming_shortwave_flux": { "dtype": float, "intent": "out", "optional": False, "units": "W/m^2", "mapping": "cell", "doc": "total incident shortwave radiation over the time step", } "radiation__net_shortwave_flux": { "dtype": float, "intent": "out", "optional": False, "units": "W/m^2", "mapping": "cell", "doc": "net incident shortwave radiation over the time step", } "radiation__ratio_to_flat_surface": { "dtype": float, "intent": "out", "optional": False, "units": "None", "mapping": "cell", "doc": "ratio of total incident shortwave radiation on sloped surface to flat surface", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": False, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", }  +
S
"rainfall__flux": { "dtype": float, "intent": "out", "optional": False, "units": "mm/hr", "mapping": "node", "doc": "Depth of water delivered per unit time in each storm", } "rainfall__total_depth_per_year": { "dtype": float, "intent": "out", "optional": False, "units": "mm/yr", "mapping": "node", "doc": "Depth of water delivered in total in each model year", } "topographic__elevation": { "dtype": float, "intent": "in", "optional": True, "units": "m", "mapping": "node", "doc": "Land surface topographic elevation", }  +