Effects of soil scarification on long-term site productivity up to 70
years, and soil content of carbon (C), nitrogen (N), and macro nutrien
ts, were studied in five site preparation experiments, established bet
ween 1922 and 1965 on Scots pine (Pinus sylvestris L.) heathland, on p
oor sandy sediments, The soil was inverted by spade, heed, harrowed or
ploughed. All scarification methods disturbed close to 100% of the so
il surface, the most radical treatments to a depth of approximately 20
cm, Some of the experiments had an inadequate original design. Howeve
r, by comparing the experiments some general characteristics were foun
d. Site productivity measured as top height was higher on scarified pl
ots than on control plots (P < 0.05), indicating that long-term site p
roductivity was improved by scarification. Total C and N contents in s
oil were 6-41% and 16-30%, respectively, lower on scarified plots comp
ared with control plots, On scarified plots, all mineral elements anal
ysed showed equal or lower contents in the organic layer, including th
e field layer, ground layer, organic debris, and humus. Total contents
of P, Mg and S in mineral soil samples from 60-100 cm depth were high
er on scarified plots than in corresponding samples from control plots
. On the two burned plots analysed, total C content in the soil was 2
and 31% lower than on controls, and total N content 10% higher and 63%
lower. The results suggest that the risk for decreased long-term prod
uctivity on poor Scots pine sites caused by mechanical scarification m
ethods used today are negligible.