Creates a summary plot for a CTD section, with one panel for each value of
which
.
# S4 method for section
plot(
x,
which = c(1, 2, 3, 99),
eos,
at = NULL,
labels = TRUE,
grid = FALSE,
contourLevels = NULL,
contourLabels = NULL,
stationIndices,
coastline = "best",
xlim = NULL,
ylim = NULL,
zlim = NULL,
zbreaks = NULL,
zcol = NULL,
map.xlim = NULL,
map.ylim = NULL,
clongitude,
clatitude,
span,
projection = NULL,
xtype = "distance",
ytype = "depth",
ztype = "contour",
longitude0,
latitude0,
legend.loc = "bottomright",
legend.text = NULL,
showStations = FALSE,
showStart = TRUE,
stationTicks = TRUE,
showBottom = TRUE,
showSpine = TRUE,
drawPalette = TRUE,
axes = TRUE,
mgp,
mar,
col,
cex,
pch,
labcex = 1,
debug,
...
)
If the original section was gridded, the return value is that section. Otherwise, the gridded section that was constructed for the plot is returned. In both cases, the value is returned silently. The purpose of returning the section is to enable subsequent processing of the grid, including adding elements to the plot (see example 5).
a section object.
a list of desired plot types, as explained in “Details”.
There may be up to four panels in total, and the desired plots are placed in
these panels, in reading order. If only one panel is plotted, par
is
not adjusted, which makes it easy to add to the plot with subsequent plotting
commands.
Character indication of the seawater equation of state
to use. The permitted choices are "gsw"
and "unesco"
. If eos
is
not supplied, it defaults to getOption
("oceEOS",default="gsw")
.
If NULL
(the default), the x axis will indicate the distance
of the stations from the first in the section. (This may give errors in the
contouring routine, if the stations are not present in a geographical order.)
If a list, then it indicates the values at which stations will be plotted.
Either a logical, indicating whether to put labels on the x axis,
or a vector that is a list of labels to be placed at the x positions indicated
by at
.
If TRUE
, points are drawn at data locations.
Optional contour levels.
Optional contour labels.
Optional list of the indices of stations to use. Note
that an index is not a station number, e.g. to show the first 4
stations, use station.indices=1:4
.
Either a coastline object to be used,
or a string. In the second case, the permitted
choices are "best"
(the default) to pick
a variant that suits the scale, "coastlineWorld"
for the coarse
version that is provided by oce,
"coastlineWorldMedium"
or "coastlineWorldFine"
for two
coastlines provided by the ocedata package, or "none"
, to avoid
drawing a coastline.
Optional limit for x axis (only in sections, not map).
Optional limit for y axis (only in sections, not map)
Elements that control colours for image
and points
plot types, i.e. if ztype
is either "points"
or "image"
.
zlim
is a two-element numerical vector specifying the
limit on the plotted field. If not provided, it defaults to the data
range.
zbreaks
controls the colour breaks, in a manner that is similar to
the image()
parameter named breaks
. If not provided, zbreaks
is
inferred from zlim
.
zcol
, which controls the colour scheme, may be a vector of colours
(of length 1 less than zbreaks
), or a function that takes an
integer as its sole argument and returns that number of colours.
If not provided, zcol
defaults to oceColorsViridis()
.
These three parameters are used in Example 6, an illustration of
Atlantic salinity along 36N.
Optional limits for station map; map.ylim
is
ignored if map.xlim
is provided.
Optional map centre position and span (km).
Parameter specifying map
projection; see mapPlot()
. If projection="automatic"
,
however, a projection is devised from the data, with stereographic
if
the mean latitude exceeds 70N and mollweide
otherwise.
Type of x axis, for contour plots, either "distance"
for
distance (in km) to the first point in the section, "track"
for distance
along the cruise track, "longitude"
, "latitude"
,
"time"
or "spine"
(distance along a spine that was added
with addSpine()
). Note that if the x values are not in order, they will be put in
order, and since that might not make physical sense, a warning will be issued.
Type of y axis for contour plots, either "pressure"
for
pressure (in dbar, with zero at the surface) or "depth"
for depth (in m
below the surface, calculated from pressure with swDepth()
).
String indicating whether to how to indicate the "z"
data (in the R sense, i.e. this could be salinity, temperature, etc; it does
not mean the vertical coordinate) The choices are: "contour"
for
contours, "image"
for an image (drawn with imagep()
with
filledContours=TRUE
), or "points"
to draw points.
In the first two cases, the data must be gridded, with identical pressures at
each station.
Location of the point from which distance is measured.
These values are ignored unless xtype
is "distance"
.
Location of legend, as supplied to legend()
, or
set to the empty string to avoid plotting a legend.
character value indicating the text for the legend.
If this is NULL (the default) then the legend is automatically
constructed by labelWithUnit()
, based on the value of which
.
Logical indicating whether to draw station numbers on maps.
Logical indicating whether to indicate the first station with
A logical value indicating whether to indicate station
locations with ticks at the top margin of cross-section plots. Setting this
parameter to FALSE
frees the user up to do their own labelling
at this spot.
a value indicating whether (and how) to indicate the
ocean bottom on cross-section views. There are three possibilities.
(a) If showBottom
is FALSE
, then the bottom is not rendered. If it
is TRUE
, then the bottom is rendered with a gray polygon.
(b) If showBottom
is the character value "polygon"
, then a polygon is drawn,
and similarly lines are drawn for "lines"
, and points for "points"
.
(c) If showBottom
is a topo object, then the station locations are
interpolated to that topography and the results are shown with a polygon.
See “Examples”.
logical value used if which="map"
. If showSpine
is
TRUE
and section
has had a spine added with addSpine()
, then
the spine is drawn in blue.
Logical value indicating whether to draw a palette when ztype="image"
ignored otherwise.
Logical value indicating whether to draw axes.
A 3-element numerical vector to use for par(mgp)
, and also for
par(mar)
, computed from this. If not provided, this defaults to
getOption
("oceMgp")
.
Value to be used with par
("mar")
. If not provided,
a default is set up.
Color for line types. If not provided, this defaults to
par
("col")
. See zcol
, for ztype="image"
and ztype="points"
.
Numerical character-expansion factor, which defaults to par
("cex")
.
Indication of symbol type; defaults to par
("pch")
.
Size of characters in contour labels (passed to
contour()
).
an integer specifying whether debugging information is
to be printed during the processing. This is a general parameter that
is used by many oce
functions. Generally, setting debug=0
turns off the printing, while higher values suggest that more information
be printed. If debug
is not supplied, it defaults to
getOption
("oceDebug")
.
Optional arguments passed to the contouring function.
The following examples were once part of the “Examples” section, but were moved here in May 2022, to reduce the build-check time for CRAN submission.
library(oce)
data(section)
GS <- subset(section, 113<=stationId&stationId<=129)
GSg <- sectionGrid(GS, p=seq(0, 2000, 100))# Gulf Stream, salinity data and contoured
par(mfrow=c(2, 1))
plot(GS, which=1, ylim=c(2000, 0), ztype="points",
zbreaks=seq(0,30,2), pch=20, cex=3)
plot(GSg, which=1, ztype="image", zbreaks=seq(0,30,2))
# Gulf Stream, temperature grid (image) and data (dots)
par(mfrow=c(1, 1))
plot(GSg, which=1, ztype="image")
T <- GS[["temperature"]]
col <- oceColorsViridis(100)[rescale(T, rlow=1, rhigh=100)]
points(GS[["distance"]],GS[["depth"]],pch=20,cex=3,col="white")
points(GS[["distance"]],GS[["depth"]],pch=20,cex=2.5,col=col)
# 4. Image of temperature, with a high-salinity contour on top;
# note the Mediterranean water.
sec <- plot(section, which="temperature", ztype="image")
S <- sec[["salinity", "grid:distance-pressure"]]
contour(S$distance, S$pressure, S$field, level=35.8, lwd=3, add=TRUE)
# 5. Contours of salinity, with dots for high pressure and spice
plot(section, which="salinity")
distance <- section[["distance"]]
depth <- section[["depth"]]
spice <- section[["spice"]]
look <- spice > 1.8 & depth > 500
points(distance[look], depth[look], col="red")
# Image of Absolute Salinity, with 4-minute bathymetry
# It's easy to calculate the desired area for the bathymetry,
# but for brevity we'll hard-code it. Note that download.topo()
# requires the "raster" and "ncdf4" packages to be installed.
if (requireNamespace("raster") && requireNamespace("ncdf4")) {
f <- download.topo(west=-80, east=0, south=35, north=40, resolution=4)
t <- read.topo(f)
plot(section, which="SA", xtype="longitude", ztype="image", showBottom=t)
}
# Temperature with salinity added in red
plot(GSg, which="temperature")
distance <- GSg[["distance", "byStation"]]
depth <- GSg[["station", 1]][["depth"]]
S <- matrix(GSg[["salinity"]], byrow=TRUE, nrow=length(GSg[["station"]]))
contour(distance, depth, S, col=2, add=TRUE)
# Image with controlled colours
plot(GSg, which="salinity", ztype="image",
zlim=c(35, 37.5),
zbreaks=seq(35, 37.5, 0.25),
zcol=oceColorsTurbo)
Dan Kelley
The type of plot is governed by which
, as follows.
which=0
or "potential temperature"
for potential temperature contours
which=1
or "temperature"
for in-situ temperature contours (the default)
which=2
or "salinity"
for salinity contours
which=3
or "sigmaTheta"
for sigma-theta contours
which=4
or "nitrate"
for nitrate concentration contours
which=5
or "nitrite"
for nitrite concentration contours
which=6
or "oxygen"
for oxygen concentration contours
which=7
or "phosphate"
for phosphate concentration contours
which=8
or "silicate"
for silicate concentration contours
which=9
or "u"
for eastward velocity
which=10
or "uz"
for vertical derivative of eastward velocity
which=11
or "v"
for northward velocity
which=12
or "vz"
for vertical derivative of northward velocity
which=20
or "data"
for a dot for each data location
which=99
or "map"
for a location map
The y-axis for the contours is pressure, plotted in the conventional reversed
form, so that the water surface appears at the top of the plot. The x-axis is
more complicated. If at
is not supplied, then the routine calculates x
as the distance between the first station in the section and each of the other
stations. (This will produce an error if the stations are not ordered
geographically, because the contour()
routine cannot handle
non-increasing axis coordinates.) If at
is specified, then it is taken
to be the location, in arbitrary units, along the x-axis of labels specified by
labels
; the way this works is designed to be the same as for
axis()
.
The documentation for section explains the structure of section objects, and also outlines the other functions dealing with them.
Other functions that plot oce data:
download.amsr()
,
plot,adp-method
,
plot,adv-method
,
plot,amsr-method
,
plot,argo-method
,
plot,bremen-method
,
plot,cm-method
,
plot,coastline-method
,
plot,ctd-method
,
plot,gps-method
,
plot,ladp-method
,
plot,landsat-method
,
plot,lisst-method
,
plot,lobo-method
,
plot,met-method
,
plot,odf-method
,
plot,rsk-method
,
plot,satellite-method
,
plot,sealevel-method
,
plot,tidem-method
,
plot,topo-method
,
plot,windrose-method
,
plot,xbt-method
,
plotProfile()
,
plotScan()
,
plotTS()
,
tidem-class
Other things related to section data:
[[,section-method
,
[[<-,section-method
,
as.section()
,
handleFlags,section-method
,
initializeFlagScheme,section-method
,
read.section()
,
section-class
,
sectionAddStation()
,
sectionGrid()
,
sectionSmooth()
,
sectionSort()
,
section
,
subset,section-method
,
summary,section-method
library(oce)
data(section)
GS <- subset(section, 113<=stationId&stationId<=129)
GSg <- sectionGrid(GS, p=seq(0, 2000, 100))
# Gulf Stream, salinity and temperature contours
plot(GSg, which=c("salinity", "temperature"))
# Gulf Stream, Temperature image
plot(GSg, which="temperature", ztype="image",
zbreaks=seq(0,25,2), zcol=oceColorsTemperature)
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