Usage
plot.TS(x,
rhoLevels = 6,
grid = TRUE,
col.grid = "lightgray",
lty.grid = "dotted",
rho1000 = FALSE,
col = par("col"),
col.rho = "darkgray",
cex.rho = 0.9*par("cex"),
cex = par("cex"),
pch = 21,
rotateRhoLabels = FALSE,
connectPoints = FALSE,
useSmoothScatter = FALSE,
xlab,
ylab,
Slim,
Tlim,
mgp=getOption("oceMgp"),
mar=c(mgp[1]+1,mgp[1]+1,mgp[1],mgp[1]),
lwd.rho=par("lwd"), lty.rho=par("lty"),
...)Arguments
rhoLevels
Either a list of density levels for which to draw isopycnal
lines, or a suggestion for the number of levels. In the latter case,
pretty() is used to select levels.
grid
a flag that can be set to TRUE to get a grid.
lty.grid
line type for grid.
rho1000
if TRUE, label isopycnals as e.g. 1024; if FALSE, label as e.g. 24
col.rho
colour for isopycnal lines.
cex.rho
size of isopycnal labels.
cex
size of symbols on graph.
pch
code for symbols on graph.
rotateRhoLabels
if TRUE, labels in right-hand margin are written vertically
connectPoints
if TRUE, the points are connected with line segments, in sequence
xlab
optional label for the x axis, with default "Salinity [PSU]".
ylab
optional label for the y axis, with default "Temperature [C]".
Slim
optional limits for salinity axis, otherwise inferred from data.
Tlim
optional limits for temperature axis, otherwise inferred from data.
mgp
3-element numerical vector to use for par(mgp), and
also for par(mar), computed from this. The default is
tighter than the R default, in order to use more space for the data
and less for the axes.
mar
value to be used with par("mar"). lwd.rho
line width for density lines
lty.rho
line type for density lines
...
optional arguments passed to plotting functions.