Doing the plot in exactly this orientation could be very cumbersome, if possible at all.
My suggestion is to plot everything with the usual orientation (i.e. having the 'sediments' axis as
x-axis, or rather as
x2-axis), rotate all labels a bit and finally rotate the complete output by
90 degree (pdf file with e.g.
With this you can use any plot style as usual. In the script below I just show you how to plot the violet and yellow filled curves (using pseudo data) for two different data sets. Adding the other peaks should be straight forward (plot the bars with e.g.
vector plotting style).
In order to have distinct
ytics for the different plots, I associated a certain
y-value with a certain plot,
Putting all toghether gives the following script:
set terminal pdfcairo linewidth 2
set output outfile.'.pdf'
set encoding utf8
set x2range [0.5:9000]
set logscale x2
set x2tics (1, 5, 10, 50, '' 100, 500, '' 1000, 5000) out
set x2label 'mg/kg (sediments), µg/L (water)'
set ytics ('Water' 1, 'Minerogenic' 2, 'Peat' 3, 'Gyttja' 4) center rotate by -90 out
set label at graph 0.95, graph 0.05 right rotate by -90 'Nickel' font ',20' front
# cover possible data overlapping with the label
set object rectangle from graph 0.9, graph 0 to graph 1,graph 0.2 fillcolor rgb 'white' fillstyle solid noborder front
fs1="fillcolor rgb '#fc9e00' linewidth 2 fillstyle solid border lt -1"
fs2="fillcolor rgb '#9119f7' linewidth 2 fillstyle solid border lt -1"
# use pseudo data
set samples 500
plot '+' using 1:(4-0.3*exp(-(($1-10)/5.0)**4)) axes x2y1 with filledcurves y1=4 @fs1,\
'' using 1:(4+0.2*exp(-(($1-70)/50.0)**4)) axes x2y1 with filledcurves y1=4 @fs2,\
'' using 1:(1-0.4*exp(-(($1-5)/2.0)**2)) axes x2y1 with filledcurves y1=1 @fs1,\
'' using 1:(1+0.1*exp(-(($1-30)/20.0)**2)) axes x2y1 with filledcurves y1=1 @fs2
system(sprintf('pdftk %s.pdf cat 1W output %s-rot.pdf', outfile, outfile))
system(sprintf('pdftocairo -r 150 -png %s-rot.pdf', outfile))
This gives (conventional and rotated output side-by-side) with 4.6.3:
Some stuff is required for the pseudo data. For a real data file, the plotting line looks a bit differently. The different plots have a separation of
y-direction, so you must scale your data accordingly (done here manually with a scaling factor
sc = 5.1
plot 'datafile.txt' using 1:(4 + $2/sc) axes x2y1 with filledcurves y1=4 @fs1
You can of course also do the scaling automatically, by extracting some minimum/maximum values using the