patti {lmfor} | R Documentation |
Increment core data of Scots pine trees
Description
Growth ring measurements of 88 trees of a long-term thinning experiment on a naturally regenerated Scots pine stand in Eastern Finland.
Usage
data(patti)
Format
A data frame with 3604 observations on the following 9 variables.
Plot
Sample plot id, a factor with 10 levels.
Tree
Tree id, a factor with 55 levels (same tree id may occur on different plots!).
SDClass
Thinning treatment, factor with 4 levels (1=Control, 2=Light, 3=Moderate, 4=Heavy).
Diam1986
Tree diameter in year 1986, just before the thinning.
Year
Calendar year of the ring.
CA
Current tree age in years.
RW
Ring width,
mm
RD
Ring density,
g/cm^3
RBA
Ring Basal area,
mm^2
Details
Long-term thinning experiment on a naturally regenerated Scots pine stand in Eastern Finland. The experiment consists of 10 sample plots, in four different classes according to the post-thinning stand density. The plots were thinned in winter 1986-1987. In winter 2006–2007, 10 trees were felled from each plot. A radial 5mm by 5mm segment from pith to bark was cut from each tree at height 1.3 meter height. Ring widths from pith to bark were analyzed for each sample, using an ITRAX X-ray microdensitometer an post-processed to create ring widths from pith to bark were determined for each disc. The ring widths were further transformed to ring basal areas by assuming circular, growth rings. For 12 trees, ring widths could not be extracted. The data includes ring widths for a total of 88 trees between years 1991-2005.
References
Mehtatalo, L., Peltola, H., Kilpelainen, A. and Ikonen, V.-P. 2014. The response of basal area growth of Scots pine to thinning: A longitudinal analysis of tree-specific series using a nonlinear mixed-effects model. Forest Science 60 (4): pp. 636-644. doi:10.5849/forsci.13-059.
Mehtatalo, Lauri and Lappi, Juha 2020. Biometry for Forestry and Environmental Data: with examples in R. New York: Chapman and Hall/CRC. 426 p. doi:10.1201/9780429173462.
See Also
afterthin
, thefdata
, thinning
.
Examples
data(afterthin)
par(mfcol=c(2,1),cex=0.7,mai=c(0.8,0.8,0.5,0.1))
linesplot(afterthin$CA,
afterthin$RBA,
group=afterthin$Plot:afterthin$Tree,
col.lin=as.numeric(afterthin$SDClass),cex=0,
xlab="Tree age",
ylab=expression("Ring basal area, "*mm^2))
linesplot(afterthin$Year,
afterthin$RBA,
group=afterthin$Plot:afterthin$Tree,
col.lin=as.numeric(afterthin$SDClass),cex=0,
xlab="Year",
ylab=expression("Ring basal area, "*mm^2))