calcLakeMetrics: Calculate all Lake Morphometry Metrics
In lakemorpho: Lake Morphometry Metrics
View source: R/calcLakeMetrics.R
calcLakeMetrics R Documentation
Calculate all Lake Morphometry Metrics
Description
This function is a wrapper function for all of the metrics. It calculates
each metric for an input lakeMorphoClass. This returns a list of all
metrics
Usage
calcLakeMetrics(
inLakeMorpho,
bearing,
pointDens,
slope_quant = 0.5,
correctFactor = 1,
zmax = NULL
)
Arguments
inLakeMorpho
an object of lakeMorphoClass. Output of the
lakeSurroundTopo function would be appropriate as input
bearing
Numeric that indicates the bearing of the desired fetch.
pointDens
Number of points to place equidistant along shoreline for
lakeMaxLength or density of lines to test for
lakeMaxWidth and lakeFetch.
slope_quant
The slope quantile to use to estimate maximum depth.
Defaults to the median as described in (Hollister et. al,
2011).
correctFactor
Value used to correct the predicted maximum lake depth.
Defaults to 1. Corrections are simply accomplished by multiplying
estimated max depth by correction factor. Correction factors can be
determined empirically by regressing the predicted depth against a
known maximum depth while forcing the intercept through zero. The
slope of the line would then be used as the correction
factor(Hollister et. al, 2011).
zmax
Maximum depth of the lake. If none entered and elevation dataset
is inlcuded in inLakeMorpho, lakeMaxDepth is used
to estimate a maximum depth.
Value
Returns a list with all lake metrics calculated for a given input
lakemorpho object
References
Florida LAKEWATCH (2001). A Beginner's guide to water management
- Lake Morphometry (2nd ed.). Gainesville: Florida LAKEWATCH,
Department of Fisheries and Aquatic Sciences.
Link
Hollister, J. W., W.B. Milstead (2010). Using GIS to Estimate
Lake Volume from Limited Data. Lake and Reservoir Management.
26(3)194-199.
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1080/07438141.2010.504321")}
Hollister, J. W., W.B. Milstead, M.A. Urrutia (2011). Predicting
Maximum Lake Depth from Surrounding Topography. PLoS ONE 6(9).
\Sexpr[results=rd]{tools:::Rd_expr_doi("10.1371/journal.pone.0025764")}
Examples
data(lakes)
calcLakeMetrics(inputLM, bearing = 45, pointDens = 25)
lakemorpho documentation built on Sept. 22, 2023, 5:07 p.m.
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View source: R/calcLakeMetrics.R
| calcLakeMetrics | R Documentation |
Calculate all Lake Morphometry Metrics
Description
This function is a wrapper function for all of the metrics. It calculates each metric for an input lakeMorphoClass. This returns a list of all metrics
Usage
calcLakeMetrics(
inLakeMorpho,
bearing,
pointDens,
slope_quant = 0.5,
correctFactor = 1,
zmax = NULL
)
Arguments
inLakeMorpho |
an object of |
bearing |
Numeric that indicates the bearing of the desired fetch. |
pointDens |
Number of points to place equidistant along shoreline for
|
slope_quant |
The slope quantile to use to estimate maximum depth. Defaults to the median as described in (Hollister et. al, 2011). |
correctFactor |
Value used to correct the predicted maximum lake depth. Defaults to 1. Corrections are simply accomplished by multiplying estimated max depth by correction factor. Correction factors can be determined empirically by regressing the predicted depth against a known maximum depth while forcing the intercept through zero. The slope of the line would then be used as the correction factor(Hollister et. al, 2011). |
zmax |
Maximum depth of the lake. If none entered and elevation dataset
is inlcuded in inLakeMorpho, |
Value
Returns a list with all lake metrics calculated for a given input lakemorpho object
References
Florida LAKEWATCH (2001). A Beginner's guide to water management - Lake Morphometry (2nd ed.). Gainesville: Florida LAKEWATCH, Department of Fisheries and Aquatic Sciences. Link
Hollister, J. W., W.B. Milstead (2010). Using GIS to Estimate Lake Volume from Limited Data. Lake and Reservoir Management. 26(3)194-199. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1080/07438141.2010.504321")}
Hollister, J. W., W.B. Milstead, M.A. Urrutia (2011). Predicting Maximum Lake Depth from Surrounding Topography. PLoS ONE 6(9). \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1371/journal.pone.0025764")}
Examples
data(lakes)
calcLakeMetrics(inputLM, bearing = 45, pointDens = 25)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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