establishment was a problem for the species at the wind blown site, although it survived well in the lower competition pressure after transplantation. Lowered competition was probably the reason why Trientalis europaea, as well, showed a good survival in the lichen heath after transplantation from the blue- berry community in spite it was not naturally growing at the wind swept site. It also showed a sur- prisingly high flowering percent- age at the lichen heath which may have been caused by a lower competition for nutrients after reduction in the amount of V. myrtillus and D. flexuosa by trans- plantation. A third species of vascular plants obviously favoured by lower competition after trans- plantation was Carex bigelowii. There was a clear increment both in biomass and relative cover of this species after transplantation both from the blueberry commu- nity to the lichen heath and vica versa. Also the flowering percent- age of the species was highest in the transplanted plots. Among the cryptograms the lichen Cetraria nivalis, normally growing at wind swept dry ridges, seemed to have very strong requirements just for such condi- tions. By transplantation to the moister blueberry heath ( some- times ice covered in winter) it showed a decrease in clorophyll and a yellowing of the thalli already one year after they were moved, may be due to lack of oxygen. In winter relative cover of the species at the blueberry com- munity 4 years after transplanta- tion was 3.4 % of the cover in the selftransplanted plots at the lichen heath, reduced to 0.75% after 9 years as seen in Table 1, and the biomass was reduced to approximately zero. In the plots transplanted from the blueberry to the lichen heath on the other hand considerable amounts of C. nivalis had blown into the plots after 9 years, approximately 1/3 of the amount at the selftrans- planted plots (Table 1) in the blueberry community. Also most of the Cladonia species (and particularly the reindeer lichens) showed re- duced amounts after transplanta- tion from the lichen heath to the blueberry community, while pieces of the thalli even of these species blowed into the plots by the reciprocal transplantation. Denser and lower species of lichens, for instance Ochrolecfiia frigida, Cladonia coccifera (and simi- lar species), as well as the species Cetraria islandica, showed a wider tolerance to the environ- ment and were relatively stable elements of the plots in both communities. Bryophytes are generally more common in the moister blueber- ry community than at the wind swept ridges. In the plots trans- planted to the blueberry heath Dicranum increased in cover after 9 years (Table 1), but the plants were still small. Polytrichum had also started some establisment after the transplantation to the moister environment, but less than expected. By the reciprocal transplantation to the lichen heath there was a limited reduc- tion in mosses after 9 years. Liverworts in the study (data not given in Table 1) strongly showed their need for moist con- dition by a reduction to nearly zero, particularly in the biomass, by transplantation from the blue- berry to the lichen heath. By the drier surface conditions because of reduced plant cover after transplantation from the lichen heath to the blueberry communi- ty only small amounts of liver- worts were found even after transplantation in that direction. Generally the results mean that the hypothesis of quicker reestab- lisment of vegetation at the blue- berry community than at the lichen heath did not seem to be true. Reinvation of woody plants as V. myrtillus and Empetrum herma- phoditum may not take place in low alpine or subalpine areas through 10-20 years, showing the slow recovery in mountains. The transplantation studies at Hardangervidda show impacts of importance by eventual changes in the climate in polar-alpine and subpolar- subalpine regions (Callaghan etal., 1995; Crawford, 1997; Grabherr etal., 1994;Guisan et ai, 1995; Hollister, 1999). A main conclusion is that general- izations about responses in plant communities on environmental changes as a whole must be drawn by care. A response seems very much to be dependent on the various species and their growth requirements. Competi- tion seems to be extremely important for the presence and vitality of some species. Impor- tant changes in the species com- position may also take place because of a combination of effects by changes in competition and in environmental factors. Changes in the climate causing less snow cover, colder winters and drier condititions may cause effects of the type found by transplantations from the blue- berry community to the lichen heath. Species normally bound to the blueberry heath, for instance V. myrtillus, will strongly decrease or disappear, when moved to a wind blown site. Similarly, a reduction in D. flexu- osa and mosses may be observed, while V. vitis-idaea and reindeer lichens (included C. nivalis) may increase, the lichens mainly because of wind blowing pieces into the plot, when transplanted from a more snow covered site. SKÓGRÆKTARRITIÐ 2001 I. tbl 169

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