psdPlot: Length-frequency histogram with Gabelhouse lengths...
In FSA: Simple Fisheries Stock Assessment Methods
psdPlot R Documentation
Length-frequency histogram with Gabelhouse lengths highlighted.
Description
Constructs a length-frequency histogram with Gabelhouse lengths highlighted.
Usage
psdPlot(
formula,
data,
species = "List",
units = c("mm", "cm", "in"),
startcat = 0,
w = 1,
justPSDQ = FALSE,
main = "",
xlab = "Length",
ylab = "Number",
xlim = NULL,
ylim = c(0, max(h$counts) * 1.05),
substock.col = "white",
stock.col = "gray90",
psd.col = "black",
psd.lty = 2,
psd.lwd = 1,
show.abbrevs = TRUE,
psd.add = TRUE,
psd.pos = "topleft",
psd.cex = 0.75,
...
)
Arguments
formula
A formula of the form ~length where “length” generically represents a variable in data that contains length measurements. Note that this formula can only contain one variable.
data
A data.frame that minimally contains the length measurements given in the variable in the formula.
species
A string that contains the species name for which Gabelhouse length categories exist. See psdVal for details.
units
A string that indicates the type of units used for the length measurements. Choices are mm for millimeters (DEFAULT), cm for centimeters, and in for inches.
startcat
A number that indicates the beginning of the first length-class.
w
A number that indicates the width of length classes to create.
justPSDQ
A logical that indicates whether just stock and quality (for PSD-Q calculations) categories should be used. If FALSE (default) then the five Gabelhouse categories will be used.
main
A string that serves as the main label for the histogram.
xlab
A string that serves as the label for the x-axis.
ylab
A string that serves as the label for the y-axis.
xlim
A numeric vector of length two that indicates the minimum and maximum values (i.e., fish lengths) for the x-axis.
ylim
A numeric vector of length two that indicates the minimum and maximum values for the y-axis.
substock.col
A string that indicates the color to use for the bars representing under-stock size fish.
stock.col
A string that indicates the color to use for the bars representing stock size fish.
psd.col
A string that indicates the color to use for the vertical lines at the Gabelhouse length category values.
psd.lty
A numeric that indicates the line type to use for the vertical lines at the Gabelhouse length category values.
psd.lwd
A numeric that indicates the line width to use for the vertical lines at the Gabelhouse length category values.
show.abbrevs
A logical that indicates if the abbreviations for the Gabelhouse length categories should be added to the top of the plot.
psd.add
A logical that indicates if the calculated PSD values should be added to the plot (default is TRUE).
psd.pos
A string that indicates the position for where the PSD values will be shown. See details in legend.
psd.cex
A numeric value that indicates the character expansion for the PSD values text.
...
Arguments to be passed to the low-level plotting functions.
Details
Constructs a length-frequency histogram with the stock-sized fish highlighted, the Gabelhouse lengths marked by vertical lines, and the (traditional) PSD-X values superimposed.
The length of fish plotted on the x-axis can be controlled with xlim, however, the minimum value in xlim must be less than the stock length for that species.
Value
None. However, a graphic is produced.
IFAR Chapter
6-Size Structure.
Author(s)
Derek H. Ogle, DerekOgle51@gmail.com
References
Ogle, D.H. 2016. Introductory Fisheries Analyses with R. Chapman & Hall/CRC, Boca Raton, FL.
Guy, C.S., R.M. Neumann, and D.W. Willis. 2006. New terminology for proportional stock density (PSD) and relative stock density (RSD): proportional size structure (PSS). Fisheries 31:86-87. [Was (is?) from http://pubstorage.sdstate.edu/wfs/415-F.pdf.]
Guy, C.S., R.M. Neumann, D.W. Willis, and R.O. Anderson. 2006. Proportional size distribution (PSD): A further refinement of population size structure index terminology. Fisheries 32:348. [Was (is?) from http://pubstorage.sdstate.edu/wfs/450-F.pdf.]
Willis, D.W., B.R. Murphy, and C.S. Guy. 1993. Stock density indices: development, use, and limitations. Reviews in Fisheries Science 1:203-222. [Was (is?) from http://web1.cnre.vt.edu/murphybr/web/Readings/Willis%20et%20al.pdf.]
See Also
See psdVal, psdCalc, psdAdd, PSDlit, lencat, tictactoe, lencat, and rcumsum for related functionality.
Examples
## Random length data
# suppose this is yellow perch to the nearest mm
df <- data.frame(spec=rep("Yellow Perch",170),
mm=c(rnorm(100,mean=125,sd=15),rnorm(50,mean=200,sd=25),
rnorm(20,mean=300,sd=40)))
## Example graphics
op <- par(mar=c(3,3,2,1),mgp=c(1.7,0.5,0))
# Using 10-mm increments
psdPlot(~mm,data=df,species="Yellow perch",w=10)
psdPlot(~mm,data=df,species="Yellow perch",w=10,substock.col="gray90",
stock.col="gray30")
# ... but without the PSD values
psdPlot(~mm,data=df,species="Yellow perch",w=10,psd.add=FALSE)
par(op)
FSA documentation built on Aug. 27, 2023, 1:06 a.m.
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| psdPlot | R Documentation |
Length-frequency histogram with Gabelhouse lengths highlighted.
Description
Constructs a length-frequency histogram with Gabelhouse lengths highlighted.
Usage
psdPlot(
formula,
data,
species = "List",
units = c("mm", "cm", "in"),
startcat = 0,
w = 1,
justPSDQ = FALSE,
main = "",
xlab = "Length",
ylab = "Number",
xlim = NULL,
ylim = c(0, max(h$counts) * 1.05),
substock.col = "white",
stock.col = "gray90",
psd.col = "black",
psd.lty = 2,
psd.lwd = 1,
show.abbrevs = TRUE,
psd.add = TRUE,
psd.pos = "topleft",
psd.cex = 0.75,
...
)
Arguments
formula |
A formula of the form |
data |
A data.frame that minimally contains the length measurements given in the variable in the |
species |
A string that contains the species name for which Gabelhouse length categories exist. See |
units |
A string that indicates the type of units used for the length measurements. Choices are |
startcat |
A number that indicates the beginning of the first length-class. |
w |
A number that indicates the width of length classes to create. |
justPSDQ |
A logical that indicates whether just stock and quality (for PSD-Q calculations) categories should be used. If |
main |
A string that serves as the main label for the histogram. |
xlab |
A string that serves as the label for the x-axis. |
ylab |
A string that serves as the label for the y-axis. |
xlim |
A numeric vector of length two that indicates the minimum and maximum values (i.e., fish lengths) for the x-axis. |
ylim |
A numeric vector of length two that indicates the minimum and maximum values for the y-axis. |
substock.col |
A string that indicates the color to use for the bars representing under-stock size fish. |
stock.col |
A string that indicates the color to use for the bars representing stock size fish. |
psd.col |
A string that indicates the color to use for the vertical lines at the Gabelhouse length category values. |
psd.lty |
A numeric that indicates the line type to use for the vertical lines at the Gabelhouse length category values. |
psd.lwd |
A numeric that indicates the line width to use for the vertical lines at the Gabelhouse length category values. |
show.abbrevs |
A logical that indicates if the abbreviations for the Gabelhouse length categories should be added to the top of the plot. |
psd.add |
A logical that indicates if the calculated PSD values should be added to the plot (default is |
psd.pos |
A string that indicates the position for where the PSD values will be shown. See details in |
psd.cex |
A numeric value that indicates the character expansion for the PSD values text. |
... |
Arguments to be passed to the low-level plotting functions. |
Details
Constructs a length-frequency histogram with the stock-sized fish highlighted, the Gabelhouse lengths marked by vertical lines, and the (traditional) PSD-X values superimposed.
The length of fish plotted on the x-axis can be controlled with xlim, however, the minimum value in xlim must be less than the stock length for that species.
Value
None. However, a graphic is produced.
IFAR Chapter
6-Size Structure.
Author(s)
Derek H. Ogle, DerekOgle51@gmail.com
References
Ogle, D.H. 2016. Introductory Fisheries Analyses with R. Chapman & Hall/CRC, Boca Raton, FL.
Guy, C.S., R.M. Neumann, and D.W. Willis. 2006. New terminology for proportional stock density (PSD) and relative stock density (RSD): proportional size structure (PSS). Fisheries 31:86-87. [Was (is?) from http://pubstorage.sdstate.edu/wfs/415-F.pdf.]
Guy, C.S., R.M. Neumann, D.W. Willis, and R.O. Anderson. 2006. Proportional size distribution (PSD): A further refinement of population size structure index terminology. Fisheries 32:348. [Was (is?) from http://pubstorage.sdstate.edu/wfs/450-F.pdf.]
Willis, D.W., B.R. Murphy, and C.S. Guy. 1993. Stock density indices: development, use, and limitations. Reviews in Fisheries Science 1:203-222. [Was (is?) from http://web1.cnre.vt.edu/murphybr/web/Readings/Willis%20et%20al.pdf.]
See Also
See psdVal, psdCalc, psdAdd, PSDlit, lencat, tictactoe, lencat, and rcumsum for related functionality.
Examples
## Random length data
# suppose this is yellow perch to the nearest mm
df <- data.frame(spec=rep("Yellow Perch",170),
mm=c(rnorm(100,mean=125,sd=15),rnorm(50,mean=200,sd=25),
rnorm(20,mean=300,sd=40)))
## Example graphics
op <- par(mar=c(3,3,2,1),mgp=c(1.7,0.5,0))
# Using 10-mm increments
psdPlot(~mm,data=df,species="Yellow perch",w=10)
psdPlot(~mm,data=df,species="Yellow perch",w=10,substock.col="gray90",
stock.col="gray30")
# ... but without the PSD values
psdPlot(~mm,data=df,species="Yellow perch",w=10,psd.add=FALSE)
par(op)
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