The rintcal package also provides some functions related to radiocarbon calibration. First there are two functions to calculate radiocarbon ages from pMC values (in this case of a postbomb date):
pMC.age(150, 1)
## [1] -3257 53
and the other way round:
age.pMC(-2300, 40)
## [1] 133.000 0.661
We can also obtain the calibrated probability distributions from radiocarbon dates, e.g. one of 130 +- 20 C14 BP:
.130 <- caldist(130, 20, BCAD=TRUE)
calibplot(calib.130, type="l")
For reporting purposes, calibrated dates are often reduced to their 95% highest posterior density (hpd) ranges (please report all, not just your favourite one!):
hpd(calib.130)
## from to perc
## [1,] 1683 1738 24.4
## [2,] 1755 1761 1.8
## [3,] 1801 1938 68.6
Want a plot of the radiocarbon and calibrated dates, together with their hpd ranges?
calibrate(130,20)
##
## 301.35 -14.35
You can also draw one or more calibrated distributions:
set.seed(123)
<- sort(runif(5, 100, 1000))
dates <- .05*dates
errors <- 0:4
depths <- c("my", "very", "own", "simulated", "dates")
labels draw.dates(dates, errors, depths, BCAD=TRUE, labels=labels, cal.lim=range(dates, 600, 1700))
or add them to an existing plot:
plot(0, type="n", xlim=c(600, 1700), ylim=c(5,-1), xlab="AD", ylab="dates")
draw.dates(dates, errors, depths, BCAD=TRUE, add=TRUE, labels=labels)