Table 2. Variance ratios (F) and significance levels forchemical components in dif- ferent tissue types of birch seedlings, grown at varying temperatures and nutrient levels , harvested before and after leaf fall 1987, The following symbols are used: NST and NRT = nitrogen content (mg/plant) in stem and root tissue, CST and CRT = non-structural carbohydrates (mg/plant) in stem and root tissue, and S, R and T = C/N ratios in stem, root and total plant tissue respectively. Significance levels are: *P<0.05, **P<0.0l. DF = degrees of freedom. R2 = square multiple correlation coef- ficient, SS = sum of squares.The nitrogen and carbohydrate content has been sub- jected to iogarithmic transformation. Interactions that are not significant in any vari- able, are not included in the table. Source DF NST N„T CST CrT s R T Population 2 10.6* 9.0* 85.9* 73.6* 140.8* 126.5* 251.0* Temperature 1 9.9+ 8.5+ 10.5+ 15.2* 12.4* 18.2* 30.9* Nutrient level 1 20.9* 19.2* 14.2* 11.7+ 6.8° 13.8* 24.4* Time 1 2.3 2.1 1.8 0.3 34.2* 6.5+ 21.2* Pop x temp 2 3.0 0.8 15.7* 3.2 14.5* 9.8* 17.3* Pop x nut 2 0.7 0.5 1.6 1.2 3.5° 5.1 + 10.0* Temp x nut 1 10.5* 0.6 11.8* 3.0 0.1 0.0 0.3 Nut x time 1 0.5 0.0 1.5 0.9 1.2 10.0+ 12.0+ Temp x nut x time 1 1.8 6.2° 0.0 2.4 5.4° 9.6+ 13.0* Pop x nut x time 2 0.6 2.6 0.7 0.4 3.1 15.0* 17.4* Temp x pop x nut x time 2 0.5 0.3 0.4 0.2 1.4 10.6* 12.0* error ss 23 3.0 4.5 3.3 4.3 299 839 315 total ss 47 14.1 19.4 41.0 42.5 5556 16100 1079.2 0.79 Q.7Z— 0.92 0.90 m 0.97 next spring (1988) for extended respiration studies. Because of lack of germination the western coastal BS seed source was replaced by the subalpine BH seed source. The dark respiration was mea- sured by the Warburg manometric technique on growing leaf, stem and root tissue by the method described by Skre (1992a). The cyanide-resistant (alternative) respiration was measured by means of a modification of the method of Bahr & Bonner (1973) and Lambers et al. (1983). During the sample period the plants reached the stage of 12 visible leaves, and measure- ments of cyanide-resistant respi- ration were performed on leaf discs from leaf number 7 and 8 from the stem base. These leaves were assumed to be in a stage of maintenance with stable respira- tion rates. Similar measurements were carried out on 4 mm stem and root segments, grown at dif- ferent elevations (temperature) with or without added nitrogen. All measurements were carried out at 20°C in darkness. Each sample contained six leaf discs and 10-12 stem or root seg- ments, and four parallel repli- cates were run per treatment. Statistical treatment of data All variables were tested by GLM variance analysis (Goodnight 1976). The analysis included growth measurements and results from chemical analysis. Results and discussion Effects of fertilization on growth There was a strong temperature effect on the growth of plants in the field experiment (Fig. 1) with 2-3 times higher plant biomass at harvesting in plants from the low elevation site than in plants from the high elevation site (see also Skre 1992b). In addition to the direct temperature effect on shoot growth, there was also an indirect effect because of raised soil temperature and more rapid uptake rates of nutrients (cf. Karlsson & Nordell 1987). The destructive samplings (Fig. 1) confirmed the results of Karlsson & Nordell (1987) and showed that the effect of added nutrients was strongly temperature-depen- dent. At the lowland site, growth was roughly doubled by adding nitrogen and phosphorus to seedlings of the lowland popula- tion (BA) as compared with plants without these two ele- ments, with most of the growth increase taking place in the shoot. As a result the shoot/root ratios were higher in fertilized than in unfertilized plants of this population. The biomass increased in all three popula- tions after nitrogen addition, rel- ative to non-fertilized plants. At the high elevation site, the effect of added nutrients was much weaker and hardly significant, but the unfertilized plants pro- duce.d fewer and smaller leaves (Skre 1992b). There was a strong accumula- tion of nitrogen in leaves of fer- tilized plants at the high temper- atures (=low elevation) and a correspondingly strong accumu- lation of carbohydrates in roots of unfertilized plants at lower temperatures (Fig. 2). The experi- ment confirmed earlier results and showed that the leaves are the main sink for nitrogen and the roots and stems are the main sink for carbon. Leaf proteins account for 60-70% of the nitro- gen in Betula papyrifera, while 8- 11% is found in nucleic acids (Chapin & Kedrowski 1983). When grown at low temperatures and deprived of nutrients, moun- tain birch tended to keep a high nitrogen concentration in its tis- sue by reducing its growth. This is similar to Thornley's (1972) and Chapin's (1979) conclusions about arctic plants. Only in the two southern populations was there a reduction in nitrogen content a a result of low nutrient strength. At the low elevation site, a substantial part of the nitrogen in roots of fertilized plants from the southern coastal population (BS) was translocated 158 SKÓGRÆKTARRITIÐ 2001 l.tbl.

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