Abstract
Scots pine is an adaptable and prevalent European tree species that grows naturally throughout Europe and has been planted in a wide range of environments. Previous studies have indicated that climatic variables affect tree-ring growth patterns in this species, but it is also possible that certain aspects of the growth environment moderate this response. In order to understand the potential impact a shifting climate has on this important species, this study compared the growth response of two populations of Scots pine. Trees from similar bioclimatic regions in Hungary and Poland were compared using the hypothesis that differences in the association between climate and growth would be reflected by the degree of tree-ring width variation. We also wanted to know how changing climatic conditions influenced the temporal stability of the climate–growth signal in the most important periods for tree growth. Clear similarities in the effect of temperature and precipitation on tree-ring width variation were found between the two sites, but there were also some interesting differences. In the late winter to early spring period both populations reacted to warming with a decreasing association with temperature. Summer precipitation was shown to be the dominant factor in controlling ring-width. A decreasing trend in summer precipitation values at both Hungarian and Polish sites resulted in a weakening in correspondence for the Hungarian trees, while the Polish trees showed a significant increase in correlation with summer precipitation. The results indicated that changes in climate influenced the studied trees in different ways which has implications for the future balance of Scots pine growth in Europe.
Highlights
Scots pine (Pinus sylvestris L.) is one of the most dominant tree species in central and easternEurope, with the widest natural range among all pines
We found higher in climatic conditions amongthe sites within the than native range than between higher differences indifferences climatic conditions among sites within native range between our study our study sites which were relatively similar in values of bioclimatic indices (Table sites which were relatively similar in values of bioclimatic indices (Table 1, Figure S1)
Our results show that differences in climatic conditions between our study site in Poland and some other sites in the native range are higher than between the Polish and Hungarian site (Figure S1)
Summary
Scots pine (Pinus sylvestris L.) is one of the most dominant tree species in central and eastern. With the widest natural range among all pines. The fact that it can grow well on nutrient poor sites has led to planting outside its natural range while richer forest sites, more suitable for deciduous species, have been adapted for agriculture. Forests 2018, 9, x FOR PEER REVIEW pine due to over two hundred years of intensive cultivation of this species [1]. Nowadays it is difficult to establish a definitive border for the natural study of Scots we pine used distribution map from cultivation the EUFORGEN project range due to the over two hundred years of intensive of this species [1]
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call