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: (EM-938)
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EM Identity and Description
| EM-938 | |
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Document Author
variable.detail.emDocumentAuthorHelp
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Eslinger, David L., H. Jamieson Carter, Matt Pendleton, Shan Burkhalter, Margaret Allen |
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Document Year
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2012 |
Variable General Info
Accumulated pollutant load ?Comment:Accumulated effects are the total load delivered to/through a location in units of mass. The pollutant mass grid is accumulated using the flow direction grid, which yields an accumulated pollutant mass grid in which the value of each cell represents the total mass of pollutant that passes through that cell, including contributions from upstream cells. |
Accumulated runoff volume ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated runoff volume if a sample were taken at a given cell location including upstream inputs. OpenNSPECT allows users to investigate the impacts of land use changes on stormwater runoff and water quality, in general. Although there is no user interface that is directly related to the estimation of runoff, these calculations are the basis of many of the other OpenNSPECT functions and processes. Each cell of the accumulated runoff grid represents the total value of all upstream cells, which flow into the current cell along the paths delineated in the flow direction grid. OpenNSPECT uses each of these data sets as input to subsequent processes like the estimation ofsediment concentrations. Runoff volume is also a required input to the pollutant concentration module. |
Accumulated sediment load ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated sediment load if a sample were taken at a given cell location including upstream inputs. The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
Pollutant concentration ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is unchecked, the resulting grid represents the expected pollutant concentration value if a sample were taken at a given cell location. |
Pollutant concentration (local) ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is checked, the resulting grid represents the ratio of pollutant to runoff produced at each individual cell with no input from upstream cells. |
Pollutant load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the pollutant load produced at each individual cell with no input from upstream cells. |
Runoff volume (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the runoff produced at each individual cell with no input from upstream cells. |
Sediment load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the sediment load produced at each individual cell with no input from upstream cells.The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
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Variable ID
variable.detail.varIdHelp
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23113 | 23110 | 23116 | 23112 | 23115 | 23114 | 23111 | 23117 |
| Not reported | Not reported | Not reported | Not reported | Not reported | Not reported | Not reported | Not reported | |
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Qualitative-Quantitative
variable.detail.continuousCategoricalHelp
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Quantitative (Cardinal Only) | Quantitative (Cardinal Only) | Quantitative (Cardinal Only) | Quantitative (Cardinal Only) | Quantitative (Cardinal Only) | Quantitative (Cardinal Only) | Quantitative (Cardinal Only) | Quantitative (Cardinal Only) |
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Cardinal-Ordinal
variable.detail.cardinalOrdinalHelp
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Cardinal | Cardinal | Cardinal | Cardinal | Cardinal | Cardinal | Cardinal | Cardinal |
| kg | L | kg | mg L^-1 | mg L^-1 | mg | L | mg |
Variable Typology
Accumulated pollutant load ?Comment:Accumulated effects are the total load delivered to/through a location in units of mass. The pollutant mass grid is accumulated using the flow direction grid, which yields an accumulated pollutant mass grid in which the value of each cell represents the total mass of pollutant that passes through that cell, including contributions from upstream cells. |
Accumulated runoff volume ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated runoff volume if a sample were taken at a given cell location including upstream inputs. OpenNSPECT allows users to investigate the impacts of land use changes on stormwater runoff and water quality, in general. Although there is no user interface that is directly related to the estimation of runoff, these calculations are the basis of many of the other OpenNSPECT functions and processes. Each cell of the accumulated runoff grid represents the total value of all upstream cells, which flow into the current cell along the paths delineated in the flow direction grid. OpenNSPECT uses each of these data sets as input to subsequent processes like the estimation ofsediment concentrations. Runoff volume is also a required input to the pollutant concentration module. |
Accumulated sediment load ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated sediment load if a sample were taken at a given cell location including upstream inputs. The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
Pollutant concentration ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is unchecked, the resulting grid represents the expected pollutant concentration value if a sample were taken at a given cell location. |
Pollutant concentration (local) ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is checked, the resulting grid represents the ratio of pollutant to runoff produced at each individual cell with no input from upstream cells. |
Pollutant load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the pollutant load produced at each individual cell with no input from upstream cells. |
Runoff volume (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the runoff produced at each individual cell with no input from upstream cells. |
Sediment load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the sediment load produced at each individual cell with no input from upstream cells.The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
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Predictor-Intermediate-Response
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Response |
Response |
Response |
Response |
Response |
Response |
Response |
Response |
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Predictor Variable Type
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Response Variable Type
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Computed Variable |
Computed Variable |
Computed Variable |
Computed Variable |
Computed Variable |
Computed Variable |
Computed Variable |
Computed Variable |
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Data Source/Type
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Variable Classification Hierarchy
variable.detail.vchLevel1Help
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4. Human-Produced Stressor or Enhancer of Ecosystem Goods and Services Production |
5. Ecosystem Attributes and Potential Supply of Ecosystem Goods and Services |
5. Ecosystem Attributes and Potential Supply of Ecosystem Goods and Services |
4. Human-Produced Stressor or Enhancer of Ecosystem Goods and Services Production |
4. Human-Produced Stressor or Enhancer of Ecosystem Goods and Services Production |
4. Human-Produced Stressor or Enhancer of Ecosystem Goods and Services Production |
5. Ecosystem Attributes and Potential Supply of Ecosystem Goods and Services |
5. Ecosystem Attributes and Potential Supply of Ecosystem Goods and Services |
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--Human-caused release, presence or characteristics of polluting substances |
--Physical/chemical characteristics of nonliving ecosystem components |
--Physical/chemical characteristics of nonliving ecosystem components |
--Human-caused release, presence or characteristics of polluting substances |
--Human-caused release, presence or characteristics of polluting substances |
--Human-caused release, presence or characteristics of polluting substances |
--Physical/chemical characteristics of nonliving ecosystem components |
--Physical/chemical characteristics of nonliving ecosystem components |
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----Other, multiple, unspecified or unclear |
----Physical/chemical characteristics of water |
----Physical/chemical characteristics of soils, substrates, rocks |
----Other, multiple, unspecified or unclear |
----Other, multiple, unspecified or unclear |
----Other, multiple, unspecified or unclear |
----Physical/chemical characteristics of water |
----Physical/chemical characteristics of soils, substrates, rocks |
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------Water volume or flow over ground surface (i.e., runoff) |
------Soil, slope or land stability or erosiveness |
------Water volume or flow over ground surface (i.e., runoff) |
------Soil, slope or land stability or erosiveness |
Variable Spatial Characteristics
Accumulated pollutant load ?Comment:Accumulated effects are the total load delivered to/through a location in units of mass. The pollutant mass grid is accumulated using the flow direction grid, which yields an accumulated pollutant mass grid in which the value of each cell represents the total mass of pollutant that passes through that cell, including contributions from upstream cells. |
Accumulated runoff volume ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated runoff volume if a sample were taken at a given cell location including upstream inputs. OpenNSPECT allows users to investigate the impacts of land use changes on stormwater runoff and water quality, in general. Although there is no user interface that is directly related to the estimation of runoff, these calculations are the basis of many of the other OpenNSPECT functions and processes. Each cell of the accumulated runoff grid represents the total value of all upstream cells, which flow into the current cell along the paths delineated in the flow direction grid. OpenNSPECT uses each of these data sets as input to subsequent processes like the estimation ofsediment concentrations. Runoff volume is also a required input to the pollutant concentration module. |
Accumulated sediment load ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated sediment load if a sample were taken at a given cell location including upstream inputs. The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
Pollutant concentration ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is unchecked, the resulting grid represents the expected pollutant concentration value if a sample were taken at a given cell location. |
Pollutant concentration (local) ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is checked, the resulting grid represents the ratio of pollutant to runoff produced at each individual cell with no input from upstream cells. |
Pollutant load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the pollutant load produced at each individual cell with no input from upstream cells. |
Runoff volume (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the runoff produced at each individual cell with no input from upstream cells. |
Sediment load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the sediment load produced at each individual cell with no input from upstream cells.The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
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Spatial Extent Area
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Spatially Distributed?
variable.detail.spDistributedHelp
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Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes |
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Observations Spatially Patterned?
variable.detail.regularSpGrainHelp
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Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes |
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Spatial Grain Type
variable.detail.spGrainTypeHelp
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area, for pixel or radial feature | area, for pixel or radial feature | area, for pixel or radial feature | area, for pixel or radial feature | area, for pixel or radial feature | area, for pixel or radial feature | area, for pixel or radial feature | area, for pixel or radial feature |
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Spatial Grain Size
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30 m | 30 m | 30 m | 30 m | 30 m | 30 m | 30 m | 30 m |
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Spatial Density
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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EnviroAtlas URL
variable.detail.enviroAtlasURLHelp
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Variable Temporal Characteristics
Accumulated pollutant load ?Comment:Accumulated effects are the total load delivered to/through a location in units of mass. The pollutant mass grid is accumulated using the flow direction grid, which yields an accumulated pollutant mass grid in which the value of each cell represents the total mass of pollutant that passes through that cell, including contributions from upstream cells. |
Accumulated runoff volume ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated runoff volume if a sample were taken at a given cell location including upstream inputs. OpenNSPECT allows users to investigate the impacts of land use changes on stormwater runoff and water quality, in general. Although there is no user interface that is directly related to the estimation of runoff, these calculations are the basis of many of the other OpenNSPECT functions and processes. Each cell of the accumulated runoff grid represents the total value of all upstream cells, which flow into the current cell along the paths delineated in the flow direction grid. OpenNSPECT uses each of these data sets as input to subsequent processes like the estimation ofsediment concentrations. Runoff volume is also a required input to the pollutant concentration module. |
Accumulated sediment load ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated sediment load if a sample were taken at a given cell location including upstream inputs. The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
Pollutant concentration ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is unchecked, the resulting grid represents the expected pollutant concentration value if a sample were taken at a given cell location. |
Pollutant concentration (local) ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is checked, the resulting grid represents the ratio of pollutant to runoff produced at each individual cell with no input from upstream cells. |
Pollutant load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the pollutant load produced at each individual cell with no input from upstream cells. |
Runoff volume (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the runoff produced at each individual cell with no input from upstream cells. |
Sediment load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the sediment load produced at each individual cell with no input from upstream cells.The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
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Temporal Extent
variable.detail.tempExtentHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Temporally Distributed?
variable.detail.tempDistributedHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Regular Temporal Grain?
variable.detail.regularTempGrainHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Temporal Grain Size Value
variable.detail.tempGrainSizeValHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Temporal Grain Size Units
variable.detail.tempGrainSizeUnitHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Temporal Density
variable.detail.tempDensityHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
Variable Values
Accumulated pollutant load ?Comment:Accumulated effects are the total load delivered to/through a location in units of mass. The pollutant mass grid is accumulated using the flow direction grid, which yields an accumulated pollutant mass grid in which the value of each cell represents the total mass of pollutant that passes through that cell, including contributions from upstream cells. |
Accumulated runoff volume ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated runoff volume if a sample were taken at a given cell location including upstream inputs. OpenNSPECT allows users to investigate the impacts of land use changes on stormwater runoff and water quality, in general. Although there is no user interface that is directly related to the estimation of runoff, these calculations are the basis of many of the other OpenNSPECT functions and processes. Each cell of the accumulated runoff grid represents the total value of all upstream cells, which flow into the current cell along the paths delineated in the flow direction grid. OpenNSPECT uses each of these data sets as input to subsequent processes like the estimation ofsediment concentrations. Runoff volume is also a required input to the pollutant concentration module. |
Accumulated sediment load ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated sediment load if a sample were taken at a given cell location including upstream inputs. The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
Pollutant concentration ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is unchecked, the resulting grid represents the expected pollutant concentration value if a sample were taken at a given cell location. |
Pollutant concentration (local) ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is checked, the resulting grid represents the ratio of pollutant to runoff produced at each individual cell with no input from upstream cells. |
Pollutant load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the pollutant load produced at each individual cell with no input from upstream cells. |
Runoff volume (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the runoff produced at each individual cell with no input from upstream cells. |
Sediment load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the sediment load produced at each individual cell with no input from upstream cells.The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
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| Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | |
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Min Value
variable.detail.minEstHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Max Value
variable.detail.estHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Other Value Type
variable.detail.natureOtherEstHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Other Value
variable.detail.otherEstHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
Variable Variability and Sensitivity
Accumulated pollutant load ?Comment:Accumulated effects are the total load delivered to/through a location in units of mass. The pollutant mass grid is accumulated using the flow direction grid, which yields an accumulated pollutant mass grid in which the value of each cell represents the total mass of pollutant that passes through that cell, including contributions from upstream cells. |
Accumulated runoff volume ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated runoff volume if a sample were taken at a given cell location including upstream inputs. OpenNSPECT allows users to investigate the impacts of land use changes on stormwater runoff and water quality, in general. Although there is no user interface that is directly related to the estimation of runoff, these calculations are the basis of many of the other OpenNSPECT functions and processes. Each cell of the accumulated runoff grid represents the total value of all upstream cells, which flow into the current cell along the paths delineated in the flow direction grid. OpenNSPECT uses each of these data sets as input to subsequent processes like the estimation ofsediment concentrations. Runoff volume is also a required input to the pollutant concentration module. |
Accumulated sediment load ?Comment:If the Include Local Effects option is unchecked, the resulting grid represents the accumulated sediment load if a sample were taken at a given cell location including upstream inputs. The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
Pollutant concentration ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is unchecked, the resulting grid represents the expected pollutant concentration value if a sample were taken at a given cell location. |
Pollutant concentration (local) ?Comment:OpenNSPECT produces a concentration grid for each pollutant specified in the initial analysis setup. If the Include Local Effects option is checked, the resulting grid represents the ratio of pollutant to runoff produced at each individual cell with no input from upstream cells. |
Pollutant load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the pollutant load produced at each individual cell with no input from upstream cells. |
Runoff volume (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the runoff produced at each individual cell with no input from upstream cells. |
Sediment load (local) ?Comment:If the Include Local Effects option is checked, the resulting grid represents the sediment load produced at each individual cell with no input from upstream cells.The current standard for estimating annual erosion is the revised universal soil loss equation (RUSLE). RUSLE produces an estimate of gross erosion, but does not indicate how much eroded soil is actually transported by streams. Multiplying the computed sediment delivery ratio grid by the annual soil loss grid will produce a true annual sediment yield grid. In many cases, the effects of a single storm event on erosion and sediment yield are of primary interest. The modified universal soil loss equation (MUSLE) is appropriate for use under these circumstances. |
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Variability Expression Given?
variable.detail.variabilityExpHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Variability Metric
variable.detail.variabilityMetricHelp
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None | None | None | None | None | None | None | None |
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Variability Value
variable.detail.variabilityValueHelp
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None | None | None | None | None | None | None | None |
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Variability Units
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None | None | None | None | None | None | None | None |
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Resampling Used?
variable.detail.bootstrappingHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Variability Expression Used in Modeling?
variable.detail.variabilityUsedHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
Variable Operational Validation (Response Variables only)
| Accumulated pollutant load | Accumulated runoff volume | Accumulated sediment load | Pollutant concentration | Pollutant concentration (local) | Pollutant load (local) | Runoff volume (local) | Sediment load (local) | |
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Variable ID
variable.detail.varIdHelp
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23113 | 23110 | 23116 | 23112 | 23115 | 23114 | 23111 | 23117 |
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Validated?
variable.detail.resValidatedHelp
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Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable | Not applicable |
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Validation Approach (within, between, etc.)
variable.detail.validationApproachHelp
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None | None | None | None | None | None | None | None |
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Validation Quality (Qual/Quant)
variable.detail.validationQualityHelp
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None | None | None | None | None | None | None | None |
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Validation Method (Stat/Deviance)
variable.detail.validationMethodHelp
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None | None | None | None | None | None | None | None |
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Validation Metric
variable.detail.validationMetricHelp
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None | None | None | None | None | None | None | None |
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Validation Value
variable.detail.validationValHelp
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None | None | None | None | None | None | None | None |
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Validation Units
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None | None | None | None | None | None | None | None |
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Use of Measured Response Data
variable.detail.measuredResponseDataHelp
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None | None | None | None | None | None | None | None |