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1.
The micromorphological changes occurring in the bark tissues of beech and spruce trees during natural degradation in the forest have been investigated and compared with those obtained previously using wood-decaying fungi. The relevance of the bark degradation process for the environment is also briefly discussed. 相似文献
2.
Summary The abilities of 15 coniferous barks for removing toxic heavy metal ions were investigated. The barks considerably varied in the adsorption ability to each metal ion. Of the barks tested, high adsorption ability for heavy metal ions was found inPicea abies (Norway spruce). Equilibrium experiments usingP. jezoensis (Yezo spruce) bark showed that the adsorption of Cd2+ was greatly affected by the pH of solution and the initial Cd2+ concentration in solution. The adsorption of Cd2+ byP. jezoensis bark followed Freundlich isotherm in the concentration range 10–330 mg Cd2+/L. The continuous column experiments usingP. jezoensis bark indicated that the packing had retained 10.1–14.2 mg Cd2+/g adsorbent until the column broke through. 相似文献
3.
Investigations into SO2 absorption by spruce barks using artificial fumigation have proved that continued immissions of SO2 alter the properties of bark making them capable of accumulating SO2 up to amounts never attainable by barks grown in clean air. This can be recognized by the time lapse considering SO2 absorption and by altered ion exchange as well as buffer capacity. With respect to the availability of the bark extracts for mapping SO2 immissions in the field it is concluded that both conductance and sulphate content of bark extracts represent an integration covering a considerable preceding period being modified by the actual immissions. 相似文献
4.
Effect of low SO2-concentrations on the activities of some glycosidases in the foliage of clonal forest trees. The aim was to find an early indicator of latent SO2 injuries in a beech and a spruce clone. After exposure to 0.0, 0.05, 0.1 and 0.2 ppm for several weeks in outdoor fumigation chambers, the activities of β-glucosidase in the beech and β-galactosidase in the spruce clone and β-l,3-glucanase in both species were significantly raised. As the beech clone was very sensitive to SO2, an indication of latent injury could be ascertained only in the 0.05 ppm treatment where the rise of the β-glucosidase activity appeared some days before necroses. Contrary to beech, the spruce clone was tolerant to all SO2-treatments and the enzymatical changes could be used as early indicators of latent injuries. 相似文献
5.
Johan Asplund Eva Hustoft Line Nybakken Mikael Ohlson Marit H. Lie 《Scandinavian Journal of Forest Research》2018,33(4):332-337
European beech Fagus sylvatica and Norway spruce Picea abies are economically and ecologically important forest trees in large parts of Europe. Today, the beech forest reaches its northern distribution limit in south-eastern Norway and it is expected to expand northwards due to climate warming. This expansion will likely result in fundamental ecosystem changes. To increase our knowledge about the competitive balance between spruce and beech, we have investigated how beech and spruce litter affect spruce seedling emergence, growth and uptake of C and N. We did this in a seed-sowing experiment that included litter layer removal as well as reciprocal transplantations of litter layers between spruce and beech forests. Our results show that spruce seedling emergence was significantly impaired by both litter layer types, and especially so by the beech litter layer in the beech forest. The low seedling emergence in beech forests is concurrent with their lower light availability. 相似文献
6.
Andreas Bolte Lutz Hilbrig Britt Grundmann Friederike Kampf Jörg Brunet Andreas Roloff 《European Journal of Forest Research》2010,129(3):261-276
It is believed that European beech (Fagus sylvatica L.) will increase its competitive ability at its northern range margin in Scandinavia due to climate change. In mixed old-growth
forests of beech and Norway spruce (Picea abies (L.) Karst.) at Siggaboda nature reserve (southern Sweden), stand structure characteristics were sequentially recorded in
the years 2004, 2005 and 2007 as well as growth in stem diameter using tree-coring analyses. Using these measurements, we
studied the effects on stand dynamics of an extreme storm event (2005 “Gudrun” hurricane), drought and heat (mid-summer 2006,
spring 2007) and subsequent bark beetle attacks on spruce (growing season 2007), overlaid with warming tendencies. The storm,
which caused disastrous damage in many stands nearby, had comparatively little impact on the structure of the spruce–beech
stand. All together, only 32 trees (19 spruces, 10 beeches, 3 other species) per hectare were thrown or broken mainly in the
leeward direction (NE) or impacted by secondary damage by uprooted neighbour trees; this represents 7% of the total tree number
and 11% of the growing stock. Diameter and height structure did not change significantly. However, the 2006 drought and the
2007 attack of biotic agents changed the stand structure and composition strongly due to the death of about 19% of the dominating
older spruce trees that accounted for 35% of total stand volume. This resulted in a considerable increase in beech’s contribution
to stem number (4% increase) and wood volume of the living stand (7% increase). A comparison of diameter growth of beech and
spruce during the periods 1894–1949 and 1950–2005 showed a distinct decrease in growth superiority of spruce during the last
50 years. These results support the idea of a northward migration of European beech as a nemoral tree species in Sweden, due
to a higher tolerance to the abiotic and biotic threats accompanying climate change and an increased competitive ability compared
to boreal tree species Norway spruce. 相似文献
7.
The degradation of beech bark by three wood-decaying fungi has been analyzed at the ultra-structural level and the micromorphological changes occurring in the walls of the diverse cell types compared with the decay pattern in wood cells. 相似文献
8.
Understanding how species-specific disturbances affect the dynamics of mixed forests is becoming increasingly important due to rapidly changing disturbance regimes. This study estimated the effect of Norway spruce (Picea abies (L.) Karst.) mortality on the disturbance processes in two mixed beech stands of the Western Carpathians that were affected by a bark beetle outbreak. We evaluated the size distribution, fraction of canopy and expanded gaps, the characteristics of gapmakers and the contribution of different species to gap size. The measured canopy gap fraction was <5%, and most canopy gaps were small (<100 m2). Spruce was the most abundant gapmaker, and its share among gapmakers was 3–6 times higher than its share in the canopy. We found that the increase in spruce mortality due to the outbreak resulted in a fine-scale mortality pattern. However, spruce gapmakers did not contribute much to gap area size, as shown by a weak correlation between the number of spruce gapmakers and the area of expanded gaps. Diameter distribution of living versus recently dead trees showed that beech mortality occurred disproportionately in large size classes. However, dead spruce trees were equally frequent in all diameter classes, which means beetles did not exclusively attack larger trees in these stands during the outbreak. We conclude that spruce mortality may have influenced successional processes by giving a competitive advantage to two other species that were not affected by the outbreak, provided that a high deer browsing intensity does not hinder the regeneration of new seedlings.
相似文献9.
R. Perrin 《Forest Pathology》1984,14(6):321-325
Variability of Fagus sylvatica susceptibility to Nectria coccinca, one of the agents of beech bark disease . N. coccinea was inoculated into wounds of young beeches raised from seeds of 6 bark diseased trees and 6 healthy ones in the same stand of the forest of Lyons. Classifieation of the progenies, according to the size of the necrosis, is in good agreement with the health of the mother trees. N. coccinca susceptibility of beech has a genetic origin. 相似文献
10.
European beech and Norway spruce are late successional and competitive species meeting each other in southern Norway. Beech is predicted to expand northwards with increased temperature, implying increased competition between the two tree species. Seed survival is a key process in this competition and here we estimate detection times and predation rates of beech and spruce seeds in adjacent beech and spruce forests by combining quantitative and qualitative approaches based on reciprocal seed predation experiments and video surveillance. These experiments were repeated over two growing seasons, and by using a video-surveillance technique, we were able to precisely reveal seed detection times and high seed predation rates, up to 15 seeds?min?1, with bank vole and chaffinch as main predators. Moreover, the two main predators were different in their seed preferences, that is, beech seeds were exclusively removed or predated by the vole, while the finch consumed spruce seeds only. As we show high predation rates, even small variations in seed predator population densities would impact the regeneration success of beech and spruce. Because the highest predation rates were recorded for spruce seeds, it is likely that this will alter the competitive balance between the two tree species in favour of beech. 相似文献
11.
12.
Hermann Rodenkirchen Axel Göttlein Alessandra R. Kozovits Rainer Matyssek Thorsten E. E. Grams 《European Journal of Forest Research》2009,128(2):117-128
Saplings of Fagus sylvatica and Picea abies were grown under conditions of intra and interspecific competition in a 2-year phytotron study under combinations of ambient
and elevated ozone (+O3 which is 2 × O3, but <150 nl l−1) as well as carbon dioxide concentrations (+CO2 which is amb. CO2 + 300 μl CO2 l−1) in a full factorial design. Saplings were analysed for various mineral nutrients in different plant organs as well as biomass
production and crown development. The study was based on the assumption that nutritional parameters important for growth and
competitiveness are affected by stress defence under limiting nutrient supply. The hypotheses tested were (1) that nutrient
uptake-related parameters (a) as well as efficiencies in nutrient use for above-ground competition (b) of beech rather than
spruce are impaired by the exposure to elevated O3 concentrations, (2) that the efficiency in nutrient uptake of spruce is enhanced by elevated CO2 concentrations in mixed culture, and (3) that the ability to occupy above-ground space at low nutrient cost is co-determinant
for the competitive success in mixed culture. Clear nitrogen deficiencies were indicated for both species during the 2-year
phytotron study, although foliar nitrogen-biomass relationships were not so close for spruce than for beech. O3 stress did not impair nutrient uptake-related parameters of beech; thus hypothesis (1a). was not supported. A negative effect
of elevated O3 (under amb. CO2) on the N and P based efficiencies in above-ground space occupation (i.e. lower crown volume per unit of N or P invested
in stems, limbs and foliage) of beech supported hypothesis (1b). It appeared that ozone stress triggered a nutrient demand
for stress defence and tolerance at the expense of above-ground competition (trade-off). Crown volume of beech under O3 stress was stabilized in monoculture by increased nutrient uptake. In general, the +CO2-treatment was able to counteract the impacts of 2 × O3. Elevated CO2 caused lower N and S concentrations in current-year foliage of both tree species, slightly higher macronutrient amounts in
the root biomass of spruce, but did not increase the efficiencies in nutrient uptake of spruce in mixed culture. Therefore
hypothesis (2) was not supported. At the end of the experiment spruce turned out to be the stronger competitor in mixed culture
as displayed by its higher total shoot biomass and crown volume. The amounts of macronutrients in the above-ground biomass
of spruce individuals in mixed culture distinctly exceeded those of beech, which had been strongly reduced by interspecific
competition. The superior competitiveness of spruce was related to higher N and P-based efficiencies in above-ground space
occupation as suggested in hypothesis (3).
This article belongs to the special issue “Growth and defence of Norway spruce and European beech in pure and mixed stands”. 相似文献
13.
On the basis of nine Norway spruce (Picea abies (L.) Karst.) and ten European beech (Fagus sylvatica L.) thinning experiments in Germany, for which both residual and removed stock had been registered first during 1870, I scrutinize
how moderate and heavy thinning from below (B-, C-grade) affects the production of merchantable volume compared with light
thinning (A-grade). In relation to A-grade, cumulative merchantable volume (CV) of B- and C-grade amounts in average to 103–107%
in juvenile and to 97–102% in mature Norway spruce stands. The corresponding findings for European beech are 101–106% and
94–102%. CV of individual stands varies between 89% and 130% for Norway spruce and 73% and 155% for European beech (CV of
A-grade = 100%). These findings are substantiated by the relation between stand density (SDI) and periodic annual increment
(PAI). On the B- and C-grade plots of spruce and beech, respectively, SDI was reduced down to 41–91% and 31–83% of the A-grade.
When SDI is reduced in young stands, PAI follows a unimodal curve. Norway spruce’s PAI culminates in 109% if SDI is reduced
to 59%; European beech’s PAI culminates in 123% when density is reduced to 50%. Whereas Norway spruce’s growth reacts most
positively on thinning under poor site conditions and with increment reduction on favourable sites, European beech behaves
oppositely. With stand development the culmination point of the unimodal relation moves towards maximum density, so that in
older stands PAI follows the increasing pattern, which is the left portion of a unimodal curve. A model is presented which
apparently unifies contradictory patterns of stand density–growth reactions by integrating relative stand density, average
tree size and site fertility effects, and makes the findings operable for forest management. 相似文献
14.
M. Von Alcubilla M. P. Diaz-Palacio K. Kreutzer W. Laatsch K. E. Rehfuess G. Wenzel 《Forest Pathology》1971,1(2):100-114
Relationships between nutrition and heart rot attack of Norway spruce (Picea abies Karst.) and the fungistatic effect of its inner bark . The fresh inner bark of Norway spruce stems and roots inhibits mycelium growth of Fomes annosus on malt agar. Nearly all fungistatic substances of the inner bark can be extracted with chloroform and acetone. The acetone-soluble fraction, which amounts to 13–27% of bark dry matter, was analysed. Up to now 12 phenolic substances have been identified, 5 of them have proved to inhibit Fomes annosus in vitro. Open-air-experiments showed, that desiccation of the root-zone, manganese deficiency and nitrogen hypertrophy decrease the inhibitory effect of the inner bark as well as its content of fungistatic substances. The degree of heart rot attack in older spruce stands was found to be negatively correlated with the N-, Fe- and Mn-concentrations in needles. 相似文献
15.
Aboveground and belowground biomass of 15-year-old under-planted European beech seedlings (Fagus sylvatica L.) in Norway spruce stand were studied along a light gradient in three plots, in the northern part of Slovenia. Differences
in soil water content, aboveground and fine root biomass distribution were confirmed between studied plots. Light had significant
effect on the total biomass, root-shoot ratio (0.388 ± 0.076 under canopy, 0.549 ± 0.042 in the edge, 0.656 ± 0.047 in the
open), specific root length (SRL) of fine beech roots (561.9 ± 42.2 under canopy, 664.3 ± 51.2 in the edge, 618.2 ± 72.8 in
the open) and specific leaf area in beech, indicating morphological adjustment to shade. However, SRL of beech fine roots
indicated no change between plots. The correlation between total aboveground and root biomass and light below the mature stand
canopy was higher in the case of diffuse light intensity. Most fine roots of spruce were concentrated in the top (0–20 cm)
soil layer. Beech fine roots under canopy and edge conditions were also concentrated in top (0–20 cm) soil layer and exhibited
shift downwards to deeper soil horizons in open plot. Root proportion between beech and spruce changed with light toward beech
with increasing light intensity for both fine and coarse roots. 相似文献
16.
Morphology and vertical distribution patterns of spruce and beech live fine roots (diameter ≤2 mm) were studied using a soil
core method in three comparable mature stands in the Solling: (1) pure beech, (2) pure spruce and (3) mixed spruce–beech.
This study was aimed at determining the effects of interspecific competition on fine root structure and spatial fine root
distribution of both species. A vertical stratification of beech and spruce fine root systems was found in the mixed stand
due to a shift in beech fine roots from upper to lower soil layers. Moreover, compared to pure beech, a significantly higher
specific root length (SRL, P<0.05) and specific surface area (SSA, P<0.05) were found for beech admixed with spruce (pure beech/mixed beech SRL 16.1–23.4 m g−1, SSA 286–367 cm2 g−1). Both indicate a flexible ‘foraging’ strategy of beech tending to increase soil exploitation and space sequestration efficiency
in soil layers less occupied by competitors. Spruce, in contrast, followed a more conservative strategy keeping the shallow
vertical rooting and the root morphology quite constant in both pure and mixed stands (pure spruce/mixed spruce SRL 9.6/7.7 m g−1, P>0.10; SSA 225/212 cm2 g−1, P>0.10). Symmetric competition belowground between mixed beech and spruce was observed since live fine roots of both species
were under-represented compared to pure stand. However, the higher space sequestration efficiency suggests a higher competitive
ability of beech belowground. 相似文献
17.
《Forest Ecology and Management》1999,114(1):55-70
Litterfall was investigated in three even-aged Norway spruce (Picea abies), sitka spruce (Picea sitchensis) and beech (Fagus sylvatica) stands on a nutrient poor-soil in Southern Denmark. Dry weights and N, P, K, S, Mg, Ca, Na, Al, and Fe concentrations and fluxes were examined in litterfall fractions. Foliage litter amounted to 90% of total litterfall. The tree stands showed a similar mean annual litterfall. In the spruce stands, annual litterfall was correlated negatively with the current year increment and positively with the previous year increment. Annual litterfall in beech was constant during the 6 study years whereas Norway spruce and sitka spruce showed large fluctuations between years caused by drought, spruce aphid infestations and probably sea salt stress. Norway spruce responded with a long lasting elevated needle loss. Sitka spruce responded to infestations with premature needle loss during short periods. The presence of a large syrphid (Coccinellidae) population was important in regulating aphid (Elatobium abietinum) population density. The between-year variation in element concentrations of litterfall was small whereas variations during the year were large. Interspecific levels were recognized: Norway spruce>beech>sitka spruce. High concentrations in Norway spruce were ascribed to a combination of drought, sea salt stress and elevated transpiration. In sitka spruce, aphid infestations reduced the litterfall N content. Sitka spruce showed the smallest amount of base cation fluxes with litterfall. In contrast, spruce and beech exhibited even litterfall element fluxes. Litterfall studies revealed reduced vitality in the non-native spruce stands and underlined the perception of a healthy stand of native beech. 相似文献
18.
S. Mohammad Hojjati Anna Hagen-Thorn Norbert P. Lamersdorf 《European Journal of Forest Research》2009,128(1):13-25
The influence of canopy composition on litterfall and throughfall was investigated in a mixed spruce beech forest in central
Germany. We hypothesised that different parts of the mixed canopy created distinct patterns of element inputs via litterfall
and throughfall. The investigation was carried out in two plots, representing the most contrasting cases of mixed forests:
a stand greatly dominated by spruce (SDP) and a stand greatly dominated by beech (BDP). The canopies of the two plots were
classified in four categories: pure beech, pure spruce, mixed canopy and gap. Amounts of throughfall water were lower and
major element fluxes were higher under spruce than under beech in both plots, indicating that the nutrient inputs under the
canopies of individual trees are driven by species-specific properties of the canopies and are quite independent of the degree
of admixture. With the exception of K+, mixed canopies showed intermediate element inputs via throughfall, compared with pure canopy classes. The K+ input was significantly greater under mixed canopies, and these differences were more pronounced in the SDP than in the BDP.
Results suggest that individual spruce trees in the BDP induce greater spatial heterogeneity of throughfall input than individual
beech trees in the SDP. Nutrient inputs via foliar litterfall were similar among the different canopy classes, but the Mg
input was lower under spruce canopy. This effect was balanced by higher Mg input via spruce throughfall. In our study, throughfall
was the main source of heterogeneity in nutrient inputs, while foliar litterfall had a homogenising effect. 相似文献
19.
Oriental beech (Fagus orientalis Lipsky.) and Oriental spruce [Picea orientalis (L.) Link] are the two most common tree species in northeast Turkey. Their distribution, stand type and understorey species
are known to be influenced by topographical landforms. However, little information is available as to how these changes affect
litter decomposition rates of these two species. Here, we investigated the effects of slope positions (top 1,800 m, middle
1,500 m and bottom 1,200 m), stand type (pure and mixed stands) and purple-flowered rhododendron (Rhododendron ponticum) on litter decomposition rates of Oriental beech and spruce for 4 years using the litterbag technique in the field. Among
these three factors, stand type had the strongest influence on litter decomposition (P < 0.001, F = 58.8), followed by rhododendron (P < 0.001, F = 46.8) and slope position (P < 0.05, F = 11.6). Litter decomposition was highest under mixed beech/spruce forest, followed by pure beech and spruce forest. Beech
and spruce litter decomposed much faster in mixed bags (beech–spruce) than they did separately under each stand type. Purple-flowered
rhododendron significantly reduced litter decomposition of Oriental beech and spruce. Beech and spruce litter decomposed much
slower at top slope position than at either bottom or middle position. Differential litter decomposition of Oriental beech
and spruce was mainly due to adverse conditions in spruce forest and the presence of rhododendron on the ground which was
associated with lower soil pH. Higher elevations (top slope position) slowed down litter decomposition by changing environmental
conditions, most probably by decreasing temperature as also other factors are different (pH, precipitation) and no detailed
investigations were made to differentiate these factors. The adverse conditions for litter decomposition in spruce forest
can be effectively counteracted by admixture of beech to spruce monoculture and by using the clear-cutting method for controlling
rhododendron. 相似文献
20.
Growth characteristics and the incidence of beech bark diseasewere assessed within beech stands, aerial photographs of whichshowed discrete areas of foliar chlorosis. Chlorosis was mainlyconfined to distinct soil zones which contained microscopicallydivided chalk. Compared with the non-chlorotic trees, thosetrees growing in the chalky soil type had smaller mean diameterand had a higher current stocking density. The incidence ofthe early (insect infestation) phase of beech bark disease wasthe same on the two soil types, but the second phase (bark necrosis)was more severe on the chalky soil. 相似文献