Your search keyword '"FAGUS SYLVATICA"' showing total 7,552 results

1. Spatial distribution of tree-related microhabitats in European beech-dominated forests

Author

Larrieu, Laurent, Bouget, Christophe, Courbaud, Benoit, Doerfler, Inken, Gouix, Nicolas, Goulard, Michel, Ladet, Sylvie, Laroche, Fabien, Acloque, Amandine, Bütler, Rita, Kozák, Daniel, Kraus, Daniel, Krumm, Frank, Lachat, Thibault, Martin, Maxence, Müller, Jörg, Paillet, Yoan, Schuck, Andreas, Stillhard, Jonas, Svoboda, Miroslav, Torres García, María Trinidad, Vandekerkhove, Kris, and Zudin, Sergey

Published

2025

2. Climate change adaption of European beech forests: Silver fir admixtures drive understorey plant diversity

Author

Bärmann, Lukas, Kaufmann, Stefan, and Hauck, Markus

Published

2025

3. Substantial uptake of nitrous oxide (N2O) by shoots of mature European beech

Author

Machacova, Katerina, Schindler, Thomas, Bréchet, Laëtitia, Mander, Ülo, and Grams, Thorsten E.E.

Published

2024

4. DETERMINATION OF THE MORPHOMETRIC PARAMETERS AND REPRODUCTIVE ABILITY OF BEECH SEEDS (Fagus sylvatica) OF SLOVAK ORIGIN.

Author

Dina, ELISOVEŢCAIA, Raisa, IVANOVA, and Jan, BRINDZA

Subjects

*PEARSON correlation (Statistics), *FOREST restoration, *EUROPEAN beech, *HYDROGEN chloride, *SEA level, *SEED viability

Abstract

Screening beech seeds of various origins to identify their reproductive and adaptive capabilities is important for the restoration of beech forests in Europe, especially in conditions of climate change. The aim of this study was to evaluate the morphometric characteristics and viability of beech seeds from five populations, collected in different years in the Slovak Republic. In this research, the seeds from Nitra-19; Detva-22; Orava-22 and two population of Roznava-22 were involved. The length of the seed ranged from 13.00 to 19.50 mm, and the width - from 5.50 to 12.50 mm. The eccentricity index varied from 1.74 to 1.81. The average weight of a thousand seeds in the populations, collected in different years, did not differ significantly, and modified in limits from 237.40 to 311.10 g. According to the Pearson correlation coefficient (0.7127), the closest relationship was found between the weight of seed and their width. The relationship between seed weight and length was less strong (0.6450). The viability of seeds, determined by two tests using 2.3.5-triphenyltetrazolium chloride and hydrogen peroxide solutions, ranged from 61.75 to 92.00%. The seeds from the Roznava-22 (2) and Detva-22 populations had the highest viability. There was no strong correlation between seed weight and viability (0.3639), as well as between seed weight and the altitude above sea level where the seeds were collected (0.2088). At the same time, a close correlation was found between seed viability and the altitude above sea level where the seeds were collected (0.6802). Thus, the data showed that beech seed populations from the Slovak Republic had homogeneous morphometric parameters, but differed significantly in terms of viability, which depended on the height of the beech plant growth. [ABSTRACT FROM AUTHOR]

Published

2024

5. Mechanical properties of beech wood treated with malic acid-based polyester.

Author

Chabert, Adèle Jane, Fredon, Emmanuel, Florez, Daniela, Durand, Alain, and Rémond, Romain

Subjects

*COMPUTED tomography, *WOOD, *FLEXURAL strength, *MALIC acid, *IMPACT (Mechanics)

Abstract

While chemical modification enhances wood's resistance to deterioration and dimensional stability, it often results in alterations to the mechanical properties, limiting its engineering applications. This study focuses on the in situ esterification of beech wood using malic acid/polyol mixtures and evaluates its impact on mechanical properties. The results of the compression tests yielded limited information, characterized by a notable degree of variability as indicated by the high standard deviation. The four-point bending tests conducted here revealed an increase in the modulus of elasticity (MOE). However, this improvement in MOE was accompanied by a decrease in the modulus of rupture (MOR), indicating a trade-off between stiffness and strength. To better understand the mechanisms affecting the treated wood's mechanical properties, we compared the experimental and theoretical glass transition (Tg) of the polymers with material stiffness. X-ray computed tomography revealed that treatment increases specimen density and creates a gradient, with higher density near the surface, potentially contributing to increased stiffness. These findings suggest a nuanced impact of the in situ esterification process using malic acid/polyol mixtures on the mechanical properties of beech wood. [ABSTRACT FROM AUTHOR]

Published

2024

6. Century-long recovery of mycorrhizal interactions in European beech forests after mining.

Author

Rodríguez-Uña, Asun, Salcedo, Isabel, Rodríguez-Echeverría, Susana, and Moreno-Mateos, David

Subjects

*LIFE sciences, *RESTORATION ecology, *IRON mining, *EUROPEAN beech, *ENVIRONMENTAL sciences

Abstract

Background and aims: Ecological restoration strategies are emerging globally to counteract biodiversity loss and ecosystem degradation. However, restored ecosystems may not reach undisturbed biodiversity and functionality. One reason of this limited success may be a focus on short-term recovery of diversity, composition, or isolated functions. These simplified metrics may underestimate the real time ecosystems need to recover. Thus, studies of more complex metrics, like biotic interactions, at larger timescales, are essential to understand ecosystem recovery. Methods: Using molecular identification, we assessed the recovery of the interactions between ectomycorrhizal (EcM) fungi and European beech (Fagus sylvatica L.) in two opencast iron mines in use since the fourteenth century and abandoned over 107 and 148 years. Results: Species richness, species diversity, Basidiomycota/Ascomycota abundance ratio and taxonomic distinctness of EcM fungi recovered to undisturbed values, whereas species composition was still different. Certain fungal functional traits (i.e. exploration and sporocarp types) also reached undisturbed values. Differences in soil pH and NH4+ affected the composition of the EcM communities associated with beech, suggesting that mining caused a long-term impact in soil biogeochemistry, that directly impacted beech-EcM interactions. Conclusion: Mycorrhizal interactions require more than 150 years to recover following mining. Contrary to the rapid recovery response provided by simple metrics like species richness, recovery metrics with more ecological information, like the identity of plant-EcM interactions, may be still capturing signals of incomplete recovery. [ABSTRACT FROM AUTHOR]

Published

2024

7. Climatic Effects on the Growth of Fagus sylvatica L. in Mixed Stands with Pinus sylvestris L. in Lithuania.

Author

Linkevičius, Edgaras and Schröder, Jens

Abstract

Climate change and warming will potentially profoundly affect forest growth and yield. However, climate change is not only a threat but also an opportunity for tree species to be more productive or colonize new territories where previously they were fragmented or absent. European beech (Fagus sylvatica L.) is a dominant and significant tree species in European forests with a pronounced ability to grow on a great variety of sites and to form mixtures with other tree species due to its shade tolerance. So far, only a few studies have analysed its growth and reaction to changing climatic conditions outside its natural gradient in the north. The aim of this study was therefore to clarify the main growth patterns and tree ring formation characteristics of beech (outside their natural distribution) in mixed stands with Scots pine (Pinus sylvestris L.) The analyses were carried out in two-layered stands in the western part of Lithuania with tree-ring data measured on stem disks collected at 1 m height that were available from shelter-cut thinning activities in a number of forest stands in the region. Our results show that higher temperatures during the summer months of July and August generally inhibited the radial growth of beech under given site conditions. In contrast, warmer late-autumn and cooler early-winter periods together with warmer springs positively affected the radial increments. Above-average precipitation during the vegetation period contributed to the beech producing additional amounts of radial increments. The increasing temperature trends of the summer months and decreasing monthly amounts of precipitation during the vegetation period in recent decades tend to have adverse effects on the ecological conditions for beech growth and vitality in Lithuania. Despite these results, the European beech successfully grows in the sample region and has produced 200 m3 ha−1 in the analysed stands. [ABSTRACT FROM AUTHOR]

Published

2024

8. No Future Growth Enhancement Expected at the Northern Edge for European Beech due to Continued Water Limitation.

Author

Klesse, Stefan, Peters, Richard L., Alfaro‐Sánchez, Raquel, Badeau, Vincent, Baittinger, Claudia, Battipaglia, Giovanna, Bert, Didier, Biondi, Franco, Bosela, Michal, Budeanu, Marius, Čada, Vojtěch, Camarero, J. Julio, Cavin, Liam, Claessens, Hugues, Cretan, Ana‐Maria, Čufar, Katarina, de Luis, Martin, Dorado‐Liñán, Isabel, Dulamsuren, Choimaa, and Espelta, Josep Maria

Subjects

*CLIMATE change mitigation, *EUROPEAN beech, *TREE-rings, *CLIMATE sensitivity, *TREE growth

Abstract

With ongoing global warming, increasing water deficits promote physiological stress on forest ecosystems with negative impacts on tree growth, vitality, and survival. How individual tree species will react to increased drought stress is therefore a key research question to address for carbon accounting and the development of climate change mitigation strategies. Recent tree‐ring studies have shown that trees at higher latitudes will benefit from warmer temperatures, yet this is likely highly species‐dependent and less well‐known for more temperate tree species. Using a unique pan‐European tree‐ring network of 26,430 European beech (Fagus sylvatica L.) trees from 2118 sites, we applied a linear mixed‐effects modeling framework to (i) explain variation in climate‐dependent growth and (ii) project growth for the near future (2021–2050) across the entire distribution of beech. We modeled the spatial pattern of radial growth responses to annually varying climate as a function of mean climate conditions (mean annual temperature, mean annual climatic water balance, and continentality). Over the calibration period (1952–2011), the model yielded high regional explanatory power (R2 = 0.38–0.72). Considering a moderate climate change scenario (CMIP6 SSP2‐4.5), beech growth is projected to decrease in the future across most of its distribution range. In particular, projected growth decreases by 12%–18% (interquartile range) in northwestern Central Europe and by 11%–21% in the Mediterranean region. In contrast, climate‐driven growth increases are limited to around 13% of the current occurrence, where the historical mean annual temperature was below ~6°C. More specifically, the model predicts a 3%–24% growth increase in the high‐elevation clusters of the Alps and Carpathian Arc. Notably, we find little potential for future growth increases (−10 to +2%) at the poleward leading edge in southern Scandinavia. Because in this region beech growth is found to be primarily water‐limited, a northward shift in its distributional range will be constrained by water availability. [ABSTRACT FROM AUTHOR]

Published

2024

9. What Quality Suffices for Nanopore Metabarcoding? Reconsidering Methodology and Ectomycorrhizae in Decaying Fagus sylvatica Bark as Case Study.

Author

Dierickx, Glen, Tondeleir, Lowie, Asselman, Pieter, Vandekerkhove, Kris, and Verbeken, Annemieke

Subjects

*EUROPEAN beech, *GENETIC barcoding, *MYCORRHIZAL fungi, *ECTOMYCORRHIZAS, *DATABASES

Abstract

Nanopore raw read accuracy has improved to over 99%, making it a potential tool for metabarcoding. For broad adoption, guidelines on quality filtering are needed to ensure reliable taxonomic unit recovery. This study aims to provide those guidelines for a fungal metabarcoding context and to apply them to a case study of ectomycorrhizae in the decaying bark of Fagus sylvatica. We introduce the eNano pipeline to test two standard metabarcoding approaches: (1) Reference-based mapping leveraging UNITE's species hypothesis system (SH approach); (2) Constructing 98% OTUs (OTU approach). Our results demonstrate that both approaches are effective with Nanopore data. When using a reference database, we recommend strict mapping criteria rather than Phred-based filtering. Leveraging the SH-system further enhances reproducibility and facilitates cross-study communication. For the 98% OTUs, filtering reads at ≥Q25 is recommended. Our case study reveals that the decay gradient is a primary determinant of community composition and that specific mycorrhizal fungi colonize decaying bark. Complementing our metabarcoding results with root tip morphotypification, we identify Laccaria amethystina and Tomentella sublilacina as key ectomycorrhizae of saplings on decaying logs. These findings demonstrate that Nanopore sequencing can provide valuable ecological insights and support its broader use in fungal metabarcoding as read quality continues to improve. [ABSTRACT FROM AUTHOR]

Published

2024

10. Decametric-scale buffering of climate extremes in forest understory within a riparian microrefugia: the key role of microtopography.

Author

Ogée, Jérôme, Walbott, Marion, Barbeta, Adrià, Corcket, Emmanuel, and Brunet, Yves

Subjects

*CLIMATE extremes, *ATMOSPHERIC temperature, *EUROPEAN beech, *HUMIDITY, *RIPARIAN forests

Abstract

Riparian corridors often act as low-land climate refugia for temperate tree species in their southern distribution range. A plausible mechanism is the buffering of regional climate extremes by local physiographic and biotic factors. We tested this idea using a 3-year-long microclimate dataset collected along the Ciron river, a refugia for European beech (Fagus sylvatica) in southwestern France. Across the whole network, canopy gap fraction was the main predictor for spatial microclimatic variations, together with two other landscape features (elevation above the river and woodland fraction within a 300m radius). However, within the riparian forest only (canopy gap fraction < 25%, distance to the river < 150m), variations of up to -4°C and + 15% in summertime daily maximum air temperature and minimum relative humidity, respectively, were still found from the plateau to the cooler, moister river banks, only ~ 5-10m below. Elevation above the river was then identified as the main predictor, and explained the marked variations from the plateau to the banks much better than canopy gap fraction. The microclimate measured near the river is as cool but moister than the macroclimate encountered at 700-1000m asl further east in F. sylvatica's main distribution range. Indeed, at all locations, we found that air relative humidity was higher than expected from a temperature-only effect, suggesting that extra moisture is brought by the river. Our results explain well why beech trees in this climate refugium are restricted to the river gorges where microtopographic variations are the strongest and canopy gaps are rare. [ABSTRACT FROM AUTHOR]

Published

2024

11. Ectomycorrhizal fungi of Douglas‐fir retain newly assimilated carbon derived from neighboring European beech.

Author

Audisio, Michela, Muhr, Jan, and Polle, Andrea

Subjects

*EUROPEAN beech, *INTRODUCED species, *ECTOMYCORRHIZAL fungi, *MIXED forests, *DOUGLAS fir

Abstract

Summary: Ectomycorrhizal (ECM) fungi distribute tree‐derived carbon (C) via belowground hyphal networks in forest ecosystems. Here, we asked the following: (1) Is C transferred belowground to a neighboring tree retained in fungal structures or transported within the recipient tree? (2) Is the overlap of ectomycorrhizal fungi in mycorrhizal networks related to the amount of belowground C transfer?We used potted sapling pairs of European beech (Fagus sylvatica) and North‐American Douglas‐fir (Pseudotsuga menziesii) for 13CO2 pulse‐labeling. We compared 13C transfer from beech (donor) to either beech or Douglas‐fir (recipient) and identified the ECM species. We measured the 13C enrichment in soil, plant tissues, and ECM fractions of fungal‐containing parts and plant transport tissues.In recipients, only fungal‐containing tissue of ectomycorrhizas was significantly enriched in 13C and not the plant tissue. Douglas‐fir recipients shared on average one ECM species with donors and had a lower 13C enrichment than beech recipients, which shared on average three species with donors.Our results support that recently assimilated C transferred belowground is shared among fungi colonizing tree roots but not among trees. In mixed forests with beech and Douglas‐fir, the links for C movement might be hampered due to low mycorrhizal overlap with consequences for soil C cycling. [ABSTRACT FROM AUTHOR]

Published

2024

12. Influence of Elevation and Stand Age on the Abundance of the Beech Bark Beetle (Taphrorychus bicolor Her.) and Its Potential Threat to Beech Stands.

Author

Špoula, Jakub, Véle, Adam, and Neudertová Hellebrandová, Kateřina

Subjects

SLASH (Logging), BARK beetles, CLIMATE change, EUROPEAN beech, ADULTS, BEECH

Abstract

In 2023, branches of European beech (Fagus sylvatica L.) were placed on 24 different study sites within beech stands in the Czech Republic to study the distribution of the beech bark beetle (Taphrorychus bicolor Her.). After infestation, the branches were placed in emergence traps to capture adults of the offspring generation. In total, 2167 adults of T. bicolor were captured across the 24 study sites. The average capture (mean ± SE) was 90.3 ± 24.4 adults per site. Statistical analyses, including GLMM and GLM, were employed to assess the influence of elevation and stand age on the abundance of T. bicolor. The results indicate that the distribution of T. bicolor is mainly influenced by the elevation and age of the beech stand. The number of captured adults decreased with elevation and increased with stand age. Climatic region, volumes of beech, and volumes of felled beech wood from principal felling and thinning felling had no significant effect on the number of T. bicolor adults captured. We found that, overall, 73.37% of Czech beech stands (at elevations 300–650 m a.s.l.) are possibly threatened (either highly or slightly) by the large occurrence of T. bicolor, because they are present at elevations where T. bicolor is widespread. No outbreaks of T. bicolor have yet been reported in the Czech Republic, but with the increasing amount of beech planted, combined with global climate change, the possibility of outbreaks in the future cannot be excluded. [ABSTRACT FROM AUTHOR]

Published

2024

13. Photosynthetic Response to Phosphorus Fertilization in Drought-Stressed Common Beech and Sessile Oak from Different Provenances.

Author

Vukmirović, Antonia, Škvorc, Željko, Bogdan, Saša, Krstonošić, Daniel, Bogdan, Ida Katičić, Karažija, Tomislav, Bačurin, Marko, Brener, Magdalena, and Sever, Krunoslav

Subjects

EUROPEAN beech, DURMAST oak, PLANT biomass, BIOMASS production, CLIMATE change

Abstract

Increasingly frequent and severe droughts pose significant threats to forest ecosystems, particularly affecting photosynthesis, a crucial physiological process for plant growth and biomass production. This study investigates the impact of phosphorus fertilization on the photosynthesis of common beech (Fagus sylvatica L.) and sessile oak (Quercus petraea (Matt.) Liebl.). In a common garden experiment, saplings originating from two provenances (wetter KA and drier SB provenances) were exposed to regular watering and drought in interaction with moderate and high phosphorus concentrations in the growing substrate. Results indicated that drought significantly reduced pre-dawn leaf water potential (ΨPD), net photosynthesis (Anet), stomatal conductance (gs) and photosynthetic performance index (PIabs) in both species. Phosphorus fertilization had a negative impact on Anet and PIabs, thus exacerbating the negative impact of drought on photosynthetic efficiency, potentially due to excessive phosphorus absorption by saplings. Provenance differences were notable, with the KA provenance showing better drought resilience. This research highlights the complexity of nutrient–drought interactions and underscores the need for cautious application of fertilization strategies in reforestation efforts under changing climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

14. Effect of light‐induced changes in leaf anatomy on intercellular and cellular components of mesophyll resistance for CO2 in Fagus sylvatica.

Author

Janová, J., Kubásek, J., Grams, T. E. E., Zeisler‐Diehl, V., Schreiber, L., and Šantrůček, J.

Subjects

*LEAF anatomy, *EUROPEAN beech, *CELL anatomy, *CARBON isotopes, *COMPOSITION of leaves, *ALNUS glutinosa, *BEECH

Abstract

Mesophyll resistance for CO2 diffusion (rm) is one of the main limitations for photosynthesis and plant growth. Breeding new varieties with lower rm requires knowledge of its distinct components.We tested new method for estimating the relative drawdowns of CO2 concentration (c) across hypostomatous leaves of Fagus sylvatica. This technique yields values of the ratio of the internal CO2 concentrations at the adaxial and abaxial leaf side, cd/cb, the drawdown in the intercellular air space (IAS), and intracellular drawdown between IAS and chloroplast stroma, cc/cbd. The method is based on carbon isotope composition of leaf dry matter and epicuticular wax isolated from upper and lower leaf sides. We investigated leaves from tree‐canopy profile to analyse the effects of light and leaf anatomy on the drawdowns and partitioning of rm into its inter‐ (rIAS) and intracellular (rliq) components. Validity of the new method was tested by independent measurements of rm using conventional isotopic and gas exchange techniques.73% of investigated leaves had adaxial epicuticular wax enriched in 13C compared to abaxial wax (by 0.50‰ on average), yielding 0.98 and 0.70 for average of cd/cb and cc/cbd, respectively. The rIAS to rliq proportion were 5.5:94.5% in sun‐exposed and 14.8:85.2% in shaded leaves. cc dropped to less than half of the atmospheric value in the sunlit and to about two‐thirds of it in shaded leaves.This method shows that rIAS is minor but not negligible part of rm and reflects leaf anatomy traits, i.e. leaf mass per area and thickness. [ABSTRACT FROM AUTHOR]

Published

2024

15. Direct and indirect effects of climate and seed dynamics on the breeding performance of a seed predator at the distribution edge.

Author

Oro, Daniel, Freixas, Lídia, Bartrina, Carme, Míguez, Silvia, and Torre, Ignasi

Subjects

*DECIDUOUS forests, *EUROPEAN beech, *MIXED forests, *GRANIVORES, *BIRDHOUSES

Abstract

Marginal populations usually have low densities and are considered to be particularly vulnerable to environmental stochasticity. Using data collected in nest boxes, we analyzed the breeding performance of the edible dormouse (Glis glis), an obligate hibernating rodent and a seed predator in deciduous forests, in two populations at the distribution range's edge. Despite being only 20 km apart from each other, Montseny is a large patch of mixed deciduous forests (oaks and beech), whereas Montnegre would be the harshest habitat, that is, a small, isolated patch with only oaks. First, we studied the differences in climate and tree cover change in the two populations. Second, we analyzed the direct and indirect roles of local climate conditions and seed availability on breeding performance over 10 years in each population. Finally, we explored the influence of tree cover change on the occupancy dynamics in the two populations. Our results showed contrasting responses between populations: in Montseny, asynchronous seed production between oaks and beech precluded skip breeding, and breeding performance increased with seed availability. Furthermore, dormice in Montseny may use pollen production to anticipate the amount of beech nut resources and adjust their breeding effort. Boxes showed higher occupancy and colonization and fewer extinctions in Montseny than in Montnegre, where seed availability did not drive breeding performance. Results from Montnegre suggest that skip breeding was an adaptive response to a more pulsed, harsher environment. Here, females produced a similar number of pups than at Montseny. Long‐term studies dealing with population responses in marginal habitats can lead to a deeper understanding of the capacities of organisms to adapt to harsh environments. Although local adaptation is frequently documented across various taxa, studies at the distribution edge may shed light on our still limited comprehension of the underlying mechanisms responsible for its occurrence. [ABSTRACT FROM AUTHOR]

Published

2024

16. Insight into the variation of soil hydraulic properties under beech and spruce forest—A case study in the forest of Tharandt, NE Germany.

Author

Virano‐Riquelme, Victoria, Feger, Karl‐Heinz, and Julich, Stefan

Subjects

*HYDRAULIC conductivity, *EUROPEAN beech, *PORE size distribution, *WATER distribution, *TEMPERATE forests

Abstract

Background: The increasing vulnerability of forests in the temperate zone due to climate change has led to modification in the forest structure to secure woody raw materials and ecosystem benefits. Such changes will influence hydrological processes both at the stand and catchment scale. Soil hydraulic properties (SHP) play an important role in assessing the water cycle in these ecosystems. Yet, knowledge regarding the effect of forest‐ and site‐specific conditions on SHP in temperate climates is scarce. Aims: This work addresses this research gap by assessing the variation of SHP under two common European forest stands, Fagus sylvatica and Picea abies (1) with comparable site conditions, and (2) across differing site conditions. Methods: We determined the soil water retention curve (WRC) and the hydraulic conductivity curve (HCC) in several plots with the bimodal Kosugi–Mualem's hydraulic model. These functions were determined using combined field and laboratory measurements, including hydraulic conductivity and water content from soil samples. Results: (1) We observed distinct variations in SHP between beech and spruce forest stands with comparable site conditions; however, no clear pattern in the variation was discernible. (2) A noticeable effect of the site‐specific characteristics on the SHP was detected. Moreover, SHP in each analysed forest type presented individual variations. Conclusions: This study demonstrates that SHP present a wide range of variations in terms of both forest‐ and site‐specific conditions. Hence, due to its heterogeneity, we emphasise the need for more research to better characterise SHP in temperate zone forests. Moreover, this study underlines the urgent use of a minimum set of parameters in studies when addressing SHP (e.g., tree age, soil texture). [ABSTRACT FROM AUTHOR]

Published

2024

17. Fungi associated with ambrosia beetle Xylosandrus germanus in Slovakia.

Author

Pastirčáková, Katarína, Baková, Katarína, Adamčíková, Katarína, Barta, Marek, Lalík, Michal, Pavlík, Martin, Kunca, Andrej, Galko, Juraj, and Pastirčák, Martin

Abstract

The black timber bark beetle (Xylosandrus germanus) is a strongly invasive ambrosia beetle and an important forest pest in Slovakia. This pest is closely associated with symbiotic fungi used as its food source. We investigated the fungi associated with X. germanus adults in Slovakia. In this study, Beauveria bassiana, B. pseudobassiana, Clonostachys rosea, Fusarium oxysporum, Ophiostoma quercus, Phaeoacremonium scolyti, and Talaromyces amestolkiae were isolated and identified by morphological and molecular analyses. The fungus Ophiostoma quercus was most frequently isolated from living beetles, while the entomopathogenic Beauveria bassiana was the most commonly isolated from dead beetles. The morphological descriptions of fungi based on isolates from the surface of X. germanus adults are provided. [ABSTRACT FROM AUTHOR]

Published

2024

18. Fusarium species associated with naturally regenerated Fagus sylvatica seedlings affected by Phytophthora

Author

Jankowiak, Robert, Stępniewska, Hanna, Bilański, Piotr, and Hausner, Georg

Published

2024

19. Evaluation of the effect of different thinning types on dendrometric parameters and subsequent spontaneous growth in a beech-oak-linden stand

Author

Kateřina Novosadová, Jiří Kadlec, Petr Sýkora, Martin Kománek, and Radek Pokorný

Subjects

abandonment forest, diameter at breast height, fagus sylvatica, height, mixed forest, quality of stem and crown, quercus petraea, tilia cordata, Forestry, SD1-669.5

Abstract

Due to an increasing risk of further damage to forests, forest managers are considering introducing an alternative direction for their future development - via the cultivation of mixed forests. At middle altitudes in the Czech Republic, an oak-beech-linden stand is the most natural type, and we tried to answer three main questions: (i) How the various thinning types affect dendrometric parameters and quality of the stand; (ii) How long thinning works on this stand until it loses its effect; (iii) How the stand develops spontaneously after abandonment. This experiment was conducted at the Training Forest Enterprise in the Czech Republic in Drahanská vrchovina (highlands in central Moravia). In 1988, four plots were established in a 49-year-old stand where, in three of the plots, different types of thinning (crown, low and heavy crown) were performed, leaving one (reference plot) to develop naturally. The height, the height of the crown base and diameter at breast height (DBH) were measured, and the shape and quality of the trunk and crown were estimated on each tree. Measurements were carried out in 1989, 1994, 1999, 2005, 2010, 2015, and 2020. In the first 10 years, the DBH and height of the crown base did not show any differences, and the linden at the heavy crown plot outgrew the linden trees at the other plots in height. After these 10 years, the thickest linden, the tallest beech and linden, and the greatest height of the crown base of beech and linden were all found at the heavy crown plot. The shape and quality of the trunks and crowns of beech, oak and linden were similar in all plots (including the reference plot) during the entire experiment. After thinning, the plots were left to grow spontaneously. The heavy crown thinning removed a greater number of thicker trees at the middle level, thus supporting the trees growing in the lower part of the middle level and in the below level (i.e. the beech and linden). These trees then grew more quickly compared to the others, but their quality decreased, as did that of the others. Therefore, a forest left to grow and develop spontaneously is practically unusable for commercial purposes.

Published

2024

20. The association of protein-bound methionine sulfoxide with proteomic basis for aging in beech seeds

Author

Ewa Marzena Kalemba, Kris Gevaert, Francis Impens, Sara Dufour, and Anna Czerwoniec

Subjects

Fagus sylvatica, Longevity, Methionine sulfoxide, Methionine sulfoxide reductase, Oxidative stress, Proteomics, Botany, QK1-989

Abstract

Abstract Background European beech (Fagus sylvatica L.) trees produce seeds irregularly; therefore, it is necessary to store beech seeds for forestation. Despite the acquisition of desiccation tolerance during development, beech seeds are classified as intermediate because they lose viability during long-term storage faster than typical orthodox seeds. In this study, beech seeds stored for short (3 years) or long (20 years) periods under optimal conditions and displaying 92 and 30% germination capacity, respectively, were compared. Results Aged seeds displayed increased membrane damage, manifested as electrolyte leakage and lipid peroxidation levels. Analyses have been based on embryonic axes, which contained higher levels of reactive oxygen species (ROS) and higher levels of protein-bound methionine sulfoxide (MetO) in aged seeds. Using label-free quantitative proteomics, 3,949 proteins were identified, of which 2,442 were reliably quantified pointing to 24 more abundant proteins and 35 less abundant proteins in beech seeds under long-term storage conditions. Functional analyses based on gene ontology annotations revealed that nucleic acid binding activity (molecular function), ribosome organization or biogenesis and transmembrane transport (cellular processes), translational proteins (protein class) and membranous anatomical entities (cellular compartment) were affected in aged seeds. To verify whether MetO, the oxidative posttranslational modification of proteins that can be reversed via the action of methionine sulfoxide reductase (Msr) enzymes, is involved in the aging of beech seeds, we identified and quantified 226 MetO-containing proteins, among which 9 and 19 exhibited significantly up- and downregulated MetO levels, respectively, in beech seeds under long-term storage conditions. Several Msr isoforms were identified and recognized as MsrA1-like, MsrA4, MsrB5 and MsrB5-like in beech seeds. Only MsrA1-like displayed decreased abundance in aged seeds. Conclusions We demonstrated that the loss of membrane integrity reflected in the elevated abundance of membrane proteins had a higher impact on seed aging progress than the MetO/Msr system. Proteome analyses enabled us to propose protein Sec61 and glyceraldehyde-3-phosphate dehydrogenase as potential longevity modulators in beech seeds.

Published

2024

21. The largest European forest carbon stocks are in the Dinaric Alps old-growth forests: comparison of direct measurements and standardised approaches

Author

Alessia Bono, Giorgio Alberti, Roberta Berretti, Milic Curovic, Vojislav Dukic, and Renzo Motta

Subjects

Abies alba, Biomass, Carbon pool, Carbon stock, Deadwood, Fagus sylvatica, Environmental sciences, GE1-350

Abstract

Abstract Background Carbon (C) sink and stock are among the most important ecosystem services provided by forests in climate change mitigation policies. In this context, old-growth forests constitute an essential reference point for the development of close-to-nature silviculture, including C management techniques. Despite their small extent in Europe, temperate old-growth forests are assumed to be among the most prominent in terms of biomass and C stored. However, monitoring and reporting of C stocks is still poorly understood. To better understand the C stock amount and distribution in temperate old-growth forests, we estimated the C stock of two old-growth stands in the Dinaric Alps applying different assessment methods, including direct and indirect approaches (e.g., field measurements and allometric equations vs. IPCC standard methods). This paper presents the quantification and the distribution of C across the five main forest C pools (i.e., aboveground, belowground, deadwood, litter and soil) in the study areas and the differences between the applied methods. Results We report a very prominent C stock in both study areas (507 Mg C ha− 1), concentrated in a few large trees (36% of C in 5% of trees). Moreover, we found significant differences in C stock estimation between direct and indirect methods. Indeed, the latter tended to underestimate or overestimate depending on the pool considered. Conclusions Comparison of our results with previous studies and data collected in European forests highlights the prominence of temperate forests, among which the Dinaric Alps old-growth forests are the largest. These findings provide an important benchmark for the development of future approaches to the management of the European temperate forests. However, further and deeper research on C stock and fluxes in old-growth stands is of prime importance to understand the potential and limits of the climate mitigation role of forests.

Published

2024

22. The effects of solar radiation on daily and seasonal stem increment of canopy trees in European temperate old‐growth forests.

Author

Kašpar, Jakub, Krůček, Martin, and Král, Kamil

Subjects

*TEMPERATE forests, *SOLAR radiation, *TREE growth, *OPTICAL scanners, *MOUNTAIN forests, *FOREST microclimatology, *SOLAR technology

Abstract

Summary: It is well established that solar irradiance greatly influences tree metabolism and growth through photosynthesis, but its effects acting through individual climate metrics have not yet been well quantified. Understanding these effects is crucial for assessing the impacts of climate change on forest ecosystems.To describe the effects of solar irradiance on tree growth, we installed 110 automatic dendrometers in two old‐growth mountain forest reserves in Central Europe, performed detailed terrestrial and aerial laser scanning to obtain precise tree profiles, and used these to simulate the sum of solar irradiance received by each tree on a daily basis. Generalized linear mixed‐effect models were applied to simulate the probability of growth and the growth intensity over seven growing seasons.Our results demonstrated various contrasting effects of solar irradiance on the growth of canopy trees. On the one hand, the highest daily growth rates corresponded with the highest solar irradiance potentials (i.e. the longest photoperiod). Intense solar irradiance significantly decreased tree growth, through an increase in the vapor pressure deficit. These effects were consistent for all species but had different magnitude.Tree growth is the most effective on long rainy/cloudy days with low solar irradiance. [ABSTRACT FROM AUTHOR]

Published

2024

23. ANALYZING THE ADAPTIVE REACTION OF EUROPEAN BEECH PROVENANCES FROM THE PERSPECTIVE OF QUALITY TRAITS.

Author

BESLIU, Emanuel, BUDEANU, Marius, and CURTU, Alexandru L.

Subjects

*EUROPEAN beech, *PROVENANCE trials, *PLANT stems, *CHI-squared test

Abstract

The morphological structure of a tree's stem determines its economic value and can also indicate its level of adaptation to specific environments. Given the current concerns for resilient tree populations, the present survey aims to evaluate the adaptative reaction of European beech in the Carpathian region of Romania from the perspective of quality traits. Four European beech provenance trials, which are part of two international networks, were tested for Stem quality (Sq), Forking (Fk), and Branch diameter (Bd) at the ages of 24 and 27 after planting. The variation of the studied traits across environments and provenances was tested using the Chi-squared test for categorical variables and a linear model for the numerical variables. In the 1995 series, in the more favourable environmental conditions, there was a significantly lower presence of forked trees and lower values for Bd compared to the less favourable site, where the number of trees with severe defects was notably higher. Regarding the 1998 series, there were significantly fewer trees with multiple base stem forks in the warm-humid environment, as well as considerably lower Bd, and a significantly higher number of trees with straight stems, compared with the hot-dry site. The environment significantly conditioned the quality of the stem morphotype of the provenances. The warm-humid and hot-humid environments favoured the adaptation process of the international provenances. Assisted transfer of provenances may be a feasible solution for increasing the quality of Romanian beech stands. [ABSTRACT FROM AUTHOR]

Published

2024

24. Winter and spring frost events delay leaf‐out, hamper growth and increase mortality in European beech seedlings, with weaker effects of subsequent frosts.

Author

Muffler, Lena, Weigel, Robert, Beil, Ilka, Leuschner, Christoph, Schmeddes, Jonas, and Kreyling, Juergen

Subjects

*SPRING, *EUROPEAN beech, *FOREST regeneration, *PLANT populations, *AUTUMN

Abstract

The persistence of plant populations depends crucially on successful regeneration. Yet, little is known about the effects of consecutive winter and spring frost events on the regeneration stage of trees from different seed sources, although this will partly determine the success of climate warming‐driven poleward range shifts. In a common garden experiment with European beech (Fagus sylvatica) seedlings from winter 2015/2016 to autumn 2017, we studied how simulated successive spring and winter frost events affect leaf‐out dates, growth performance, and survival rates of 1‐ to 2‐year‐old seedlings from provenances differing in climate at origin. We further investigated the combined effects of successive frost events. The first spring frost after germination led to a mortality rate up to 75%, resulting in reduced seedling numbers but better frost tolerance of the survivors, as reflected in a weaker impact of the following winter frost event in the survivors compared to the non‐acclimated control. Final plant height was most strongly reduced by the spring frost in the second year. The winter frost event delayed leaf‐out by up to 40 days, leading to severe growth impairment in 2017. Our results indicate partly successful frost acclimation and/or the selection of frost‐hardier individuals, because the negative growth effects of consecutive frost events did not add up after exposure to more than one event. Both mechanisms may help to increase the frost tolerance of beech offspring. Nevertheless, mortality after the first spring frost was high, and frost exposure generally caused growth reductions. Thus, achieving higher frost tolerance may not be sufficient for beech seedlings to overcome frost‐induced reductions in competitive strength caused by winter frost damage and delayed leaf enfolding. [ABSTRACT FROM AUTHOR]

Published

2024

25. Drivers of wood‐inhabiting fungal diversity in European and Oriental beech forests.

Author

Mamadashvili, Giorgi, Brin, Antoine, Chumak, Maksym, Diedus, Valeriia, Drössler, Lars, Förster, Bernhard, Georgiev, Kostadin B., Ghrejyan, Tigran, Hleb, Ruslan, Kalashian, Mark, Kamburov, Ivan, Karagyan, Gayane, Kevlishvili, Joni, Khutsishvili, Zviad, Larrieu, Laurent, Mazmanyan, Meri, Petrov, Peter I., Tabunidze, Levan, Bässler, Claus, and Müller, Jörg

Subjects

*ENDANGERED species, *EUROPEAN beech, *FOREST conservation, *SPECIES diversity, *FOREST management

Abstract

The hyperdiverse wood‐inhabiting fungi play a crucial role in the global carbon cycle, but often are threatened by deadwood removal, particularly in temperate forests dominated by European beech (Fagus sylvatica) and Oriental beech (Fagus orientalis). To study the impact of abiotic drivers, deadwood factors, forest management and biogeographical patterns in forests of both beech species on fungal composition and diversity, we collected 215 deadwood‐drilling samples in 18 forests from France to Armenia and identified fungi by meta‐barcoding. In our analyses, we distinguished the patterns driven by rare, common, and dominant species using Hill numbers. Despite a broad overlap in species, the fungal composition with focus on rare species was determined by Fagus species, deadwood type, deadwood diameter, precipitation, temperature, and management status in decreasing order. Shifting the focus on common and dominant species, only Fagus species, both climate variables and deadwood type remained. The richness of species within the deadwood objects increased significantly only with decay stage. Gamma diversity in European beech forests was higher than in Oriental beech forests. We revealed the highest gamma diversity for old‐growth forests of European beech when focusing on dominant species. Our results implicate that deadwood retention efforts, focusing on dominant fungi species, critical for the decay process, should be distributed across precipitation and temperature gradients and both Fagus species. Strategies focusing on rare species should additionally focus on different diameters and on the conservation of old‐growth forests. [ABSTRACT FROM AUTHOR]

Published

2024

26. The history of Fagus sylvatica at its northern limit in Vendsyssel, Denmark.

Author

Hannon, Gina E, Bradshaw, Richard HW, Chiverrell, Richard C, and Skovsgaard, Jens Peter

Subjects

*EUROPEAN beech, *BEECH, *FOREST restoration, *SHIFTING cultivation, *SPRUCE, *PINACEAE, *LINDENS

Abstract

Pollen, plant macrofossils and charcoal analyses were used to study tree diversity, fire history and forest disturbance over the past c. 3500 years at three forest remnant sites in Vendsyssel, northern Denmark. All locations had a more diverse tree composition in the past including abundant Alnus, Betula, Corylus, Pinus, Quercus, Salix, Tilia and Ulmus. The changes in tree diversity through time can be attributed to a combination of factors including climate change, burning linked to shifting cultivation, grazing and felling. The balance between arboreal and non-arboreal pollen was already being influenced by human activities in the late Bronze Age c. 3000 years ago. The high pollen abundance values recorded for Tilia pre-2000 years ago are exceptional as compared to later periods at these sites. At one location, the transition from Tilia to Fagus indicated that Tilia prevailed until c. 1300 years ago. Subsequent periods of forest clearance, with charcoal and cereal cultivation, initially including Hordeum and subsequently also Secale, were recorded. There was pollen evidence for grazing followed by shrub regeneration including Calluna, Erica, Juniperus and herbaceous taxa, and following that, a forest recovery of mainly Fagus, Picea and Pinus. This recovery is also recorded in historical forest records from 1880 CE onwards, emphasising the dominant role of plantation schemes. Results are placed in a wider framework of other sites in Denmark and southern Scandinavia, which have also documented a reduction of tree diversity and forest cover over the same period. The evidence from the long-term record is used to draw conclusions to assist forest restoration programmes. [ABSTRACT FROM AUTHOR]

Published

2024

27. The impact of platform mounting systems used in rope parks on tree vitality.

Author

Szewczyk, Grzegorz, Kraj, Wojciech, Mitka, Bartosz, Bożek, Piotr, and Tylek, Paweł

Subjects

EUROPEAN beech, SCOTS pine, PARK use, TREE trunks, CROWNS (Botany), LASER measurement

Abstract

Platforms mounted in rope parks cause injuries to trees. A new method for mounting platforms uses clamps, which are theoretically less damaging to trees. The aim of the study was to determine changes in the vitality of Scots pine (Pinus sylvestris L.) and European beech (Fagus sylvatica L.) in response to both old and new platform mounting systems. In the old system, wooden brackets are embedded in the cut fragments of tree trunks. The new system utilizes clamps that hug the trunks. A vitality assessment was carried out for control trees and trees with platforms on the basis of changes in the assimilation apparatus and the degree of thinning of the outer parts of the tree crowns. The visual assessments differentiated between four classes 0–3. We conducted the visual assessment of tree vitality four years after the installation of the platforms. The level of trunk circumference damaged at the platform attachment point was determined using photogrammetric measurements and laser scanning technology. The obtained results were compared to the vitality recorded for the control trees. Trees that initially had better vitality showed a clear decrease in vitality of ~0.5 class. Trees that initially had worse vitality showed a clear increase in vitality, ranging from 0.25 class for pines to 1 class for beeches. Pine and beech trees reacted differently to injuries caused by platform installations. Pine trees responded with a slight increase in vitality, while beech trees experienced a decrease of over a hundred percent. The reactions were more pronounced for the new type of platform. Although the new method of platform installation caused more damage to the surface of tree trunks, its impact on tree vitality was not significantly greater than that of the old system. Since the new system allows, in the long term, to change the position on the tree and adjust the clamping force to the trunk, it can be recommended for use in practice despite the overall slightly worse state of the trees when compared to trees with the old mounting system. [ABSTRACT FROM AUTHOR]

Published

2024

28. Letna in sezonska debelinska rast dreves na ploskvah intenzivnega monitoringa v Sloveniji.

Author

LEVANIČ, Tom, RUPEL, Matej, and VEDENIK, Andreja

Subjects

FOREST monitoring, ENGLISH oak, EUROPEAN beech, INVENTORIES, NORWAY spruce

Abstract

Copyright of Gozdarski Vestnik is the property of Federation of Forestry Associations of Slovenia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

29. Evidence for regional-scale declines in carabid beetles in old lowland beech forests following a period of severe drought.

Author

Weiss, Fabio, Winter, Susanne, Pflugmacher, Dirk, Kolling, Thomas, and Linde, Andreas

Abstract

Context: Evidence for declines in insect populations is growing with climate change being one suspected driver. Forests, however, are still underrepresented in the relevant research. Recent droughts (2018–2020) have severely affected forests in Central Europe and have been linked to declines in carabid abundance, biomass as well as changes in species traits at the local scale. Objective: We tested drought effects on forest carabids at regional scale. We additionally investigated whether variability in drought effects could be explained with the initial community composition and the local environmental context. Methods: We used generalized linear mixed models to compare data from 1999 to 2001 and 2020 to 2022 across eleven old beech forest sites of high conservation interest in North-East Germany and investigated changes in carabid abundance, biomass, Hill numbers and selected species traits. We then tested additional community-related and environmental predictors to explain spatial variability in changes in biomass. Results: We found significant declines in biomass of 65% and in abundance of 51%. There were no significant changes in Hill numbers. We found consistent evidence that declines affected especially larger and less mobile species. Declines and changes in species traits also occurred in strictly protected old-growth beech forests. Among environmental predictors, landscape composition explained local variability in biomass declines best with stronger decline at forest sites with less forest area in their vicinity. Conclusions: Our findings reveal large-scale declines in forest carabids in the context of recent droughts and highlight the exceptional role of landscape composition in this regard. Future insect conservation strategies need to incorporate the landscape context and potential exposure to extreme weather. [ABSTRACT FROM AUTHOR]

Published

2024

30. Legacy effects of premature defoliation in response to an extreme drought event modulate phytochemical profiles with subtle consequences for leaf herbivory in European beech.

Author

Eisenring, Michael, Gessler, Arthur, Frei, Esther R., Glauser, Gaétan, Kammerer, Bernd, Moor, Maurice, Perret‐Gentil, Anouchka, Wohlgemuth, Thomas, and Gossner, Martin M.

Subjects

*EUROPEAN beech, *DROUGHTS, *DEFOLIATION, *FOREST dynamics, *COMMUNITY forests, *TEMPERATE forests, *BEECH

Abstract

Summary: Extreme droughts can have long‐lasting effects on forest community dynamics and species interactions. Yet, our understanding of how drought legacy modulates ecological relationships is just unfolding. We tested the hypothesis that leaf chemistry and herbivory show long‐term responses to premature defoliation caused by an extreme drought event in European beech (Fagus sylvatica L.).For two consecutive years after the extreme European summer drought in 2018, we collected leaves from the upper and lower canopy of adjacently growing drought‐stressed and unstressed trees. Leaf chemistry was analyzed and leaf damage by different herbivore‐feeding guilds was quantified.We found that drought had lasting impacts on leaf nutrients and on specialized metabolomic profiles. However, drought did not affect the primary metabolome. Drought‐related phytochemical changes affected damage of leaf‐chewing herbivores whereas damage caused by other herbivore‐feeding guilds was largely unaffected. Drought legacy effects on phytochemistry and herbivory were often weaker than between‐year or between‐canopy strata variability.Our findings suggest that a single extreme drought event bears the potential to long‐lastingly affect tree–herbivore interactions. Drought legacy effects likely become more important in modulating tree–herbivore interactions since drought frequency and severity are projected to globally increase in the coming decades. [ABSTRACT FROM AUTHOR]

Published

2024

31. Does long-term drought or repeated defoliation affect seasonal leaf N cycling in young beech trees?

Author

Massonnet, Catherine, Chuste, Pierre-Antoine, Zeller, Bernhard, Tillard, Pascal, Gerard, Bastien, Cheraft, Loucif, Breda, Nathalie, and Maillard, Pascale

Subjects

*DEFOLIATION, *TREE mortality, *TREES, *SEASONS, *PLANT-water relationships, *DROUGHTS, *BEECH, LEAF growth

Abstract

Forest trees adopt effective strategies to optimize nitrogen (N) use through internal N recycling. In the context of more recurrent environmental stresses due to climate change, the question remains of whether increased frequency of drought or defoliation threatens this internal N recycling strategy. We submitted 8-year-old beech trees to 2 years of either severe drought (Dro) or manual defoliation (Def) to create a state of N starvation. At the end of the second year before leaf senescence, we labeled the foliage of the Dro and Def trees, as well as that of control (Co) trees, with 15N-urea. Leaf N resorption, winter tree N storage (total N, 15N, amino acids, soluble proteins) and N remobilization in spring were evaluated for the three treatments. Defoliation and drought did not significantly impact foliar N resorption or N concentrations in organs in winter. Total N amounts in Def tree remained close to those in Co tree, but winter N was stored more in the branches than in the trunk and roots. Total N amount in Dro trees was drastically reduced (−55%), especially at the trunk level, but soluble protein concentrations increased in the trunk and fine roots compared with Co trees. During spring, 15N was mobilized from the trunk, branches and twigs of both Co and Def trees to support leaf growth. It was only provided through twig 15N remobilization in the Dro trees, thus resulting in extremely reduced Dro leaf N amounts. Our results suggest that stress-induced changes occur in N metabolism but with varying severity depending on the constraints: within-tree 15N transport and storage strategy changed in response to defoliation, whereas a soil water deficit induced a drastic reduction of the N amounts in all the tree organs. Consequently, N dysfunction could be involved in drought-induced beech tree mortality under the future climate. [ABSTRACT FROM AUTHOR]

Published

2024

32. How beech provenance affects the structure of secondary xylem, leaf traits, and the ectomycorrhizal community under optimal growth conditions.

Author

Mrak, Tanja, Gričar, Jožica, Unuk Nahberger, Tina, Božič, Gregor, Krajnc, Luka, Prislan, Peter, Arnič, Domen, Levanič, Tom, and Kraigher, Hojka

Abstract

Key message: Provenance controls conductive area of stem secondary xylem, leaf area, and stable isotope (C, N, and O) ratios of beech leaves, while no significant effects were observed for ectomycorrhizal community composition. Beyond growth parameters and drought tolerance, comparatively little is known about the functioning of different beech (Fagus sylvatica L.) provenances. We investigated properties of leaves, stem secondary xylem, and ectomycorrhiza (ECM), and explored their interdependencies to identify the best performing beech provenance in optimal growth conditions. The study was conducted on 23-year-old trees in a provenance trial. The investigated provenances originated from Atlantic (Belgium—BE), Alpine (Italy—IT, Slovenia—SI), and continental climates (the Czech Republic—CZ). A significant effect of provenance was observed for stem vessel diameters and conductive area, as well as for foliar %C, δ13C, δ15N, and δ18O. δ13C as a proxy of intrinsic water use efficiency (iWUE) showed that the highest iWUE was achieved in BE provenance. Individuals with a better iWUE had wider growth rings regardless of provenance. Better iWUE was associated with lower specific leaf area (SLA). ECM community composition and diversity indices did not differ significantly among the provenances. Specific ECM taxa were associated with individuals with high SLA, δ13C, δ15N, and δ18O. In optimal growth conditions with no stress events, BE is a promising provenance due to an efficient water conducting system with high vessel diameters and conductive area, and high iWUE, while Alpine provenances showed an adaptation of their water conducting system to freezing conditions at their original locations. Integrating findings from different compartments improves our understanding of functioning of different beech provenances. [ABSTRACT FROM AUTHOR]

Published

2024

33. The association of protein-bound methionine sulfoxide with proteomic basis for aging in beech seeds.

Author

Kalemba, Ewa Marzena, Gevaert, Kris, Impens, Francis, Dufour, Sara, and Czerwoniec, Anna

Subjects

METHIONINE sulfoxide reductase, PROTEOMICS, POST-translational modification, SEED viability, SEEDS, BEECH, EUROPEAN beech, METHIONINE

Abstract

Background: European beech (Fagus sylvatica L.) trees produce seeds irregularly; therefore, it is necessary to store beech seeds for forestation. Despite the acquisition of desiccation tolerance during development, beech seeds are classified as intermediate because they lose viability during long-term storage faster than typical orthodox seeds. In this study, beech seeds stored for short (3 years) or long (20 years) periods under optimal conditions and displaying 92 and 30% germination capacity, respectively, were compared. Results: Aged seeds displayed increased membrane damage, manifested as electrolyte leakage and lipid peroxidation levels. Analyses have been based on embryonic axes, which contained higher levels of reactive oxygen species (ROS) and higher levels of protein-bound methionine sulfoxide (MetO) in aged seeds. Using label-free quantitative proteomics, 3,949 proteins were identified, of which 2,442 were reliably quantified pointing to 24 more abundant proteins and 35 less abundant proteins in beech seeds under long-term storage conditions. Functional analyses based on gene ontology annotations revealed that nucleic acid binding activity (molecular function), ribosome organization or biogenesis and transmembrane transport (cellular processes), translational proteins (protein class) and membranous anatomical entities (cellular compartment) were affected in aged seeds. To verify whether MetO, the oxidative posttranslational modification of proteins that can be reversed via the action of methionine sulfoxide reductase (Msr) enzymes, is involved in the aging of beech seeds, we identified and quantified 226 MetO-containing proteins, among which 9 and 19 exhibited significantly up- and downregulated MetO levels, respectively, in beech seeds under long-term storage conditions. Several Msr isoforms were identified and recognized as MsrA1-like, MsrA4, MsrB5 and MsrB5-like in beech seeds. Only MsrA1-like displayed decreased abundance in aged seeds. Conclusions: We demonstrated that the loss of membrane integrity reflected in the elevated abundance of membrane proteins had a higher impact on seed aging progress than the MetO/Msr system. Proteome analyses enabled us to propose protein Sec61 and glyceraldehyde-3-phosphate dehydrogenase as potential longevity modulators in beech seeds. [ABSTRACT FROM AUTHOR]

Published

2024

34. Intraspecific variation in fine root morphology of European beech: a root order-based analysis of phenotypic root morphospace.

Author

Rüther, Eva, Hertel, Dietrich, and Leuschner, Christoph

Subjects

*EUROPEAN beech, *SOIL chemistry, *SOIL classification, *SOIL depth, *PHENOTYPES, *BEECH

Abstract

Fine roots are multifunctional organs that may change function with ageing or root branching events from primarily absorptive to resource transport and storage functions. It is not well understood, how fine root branching patterns and related root functional differentiation along the longitudinal root axis change with soil chemical and physical conditions. We examined the variation in fine root branching patterns (the relative frequency of 1st to 4th root orders) and root morphological and chemical traits of European beech trees with soil depth (topsoil vs. subsoil) and soil chemistry (five sites with acid to neutral/alkaline bedrock). Bedrock type and related soil chemistry had an only minor influence on branching patterns: base-poor, infertile sites showed no higher fine root branching than base-rich sites. The contribution of 1st-order root segments to total fine root length decreased at all sites from about 60% in the topsoil (including organic layer) to 45% in the lower subsoil. This change was associated with a decrease in specific root area and root N content and an increase in mean root diameter with soil depth, while root tissue density did not change consistently. We conclude that soil depth (which acts through soil physical and chemical drivers) influences the fine root branching patterns of beech much more than soil chemical variation across soil types. To examine whether changes in root function are indeed triggered by branching events or result from root ageing and diameter growth, spatially explicit root physiological and anatomical studies across root orders are needed. [ABSTRACT FROM AUTHOR]

Published

2024

35. Widespread breakdown in masting in European beech due to rising summer temperatures.

Author

Foest, Jessie J., Bogdziewicz, Michał, Pesendorfer, Mario B., Ascoli, Davide, Cutini, Andrea, Nussbaumer, Anita, Verstraeten, Arne, Beudert, Burkhard, Chianucci, Francesco, Mezzavilla, Francesco, Gratzer, Georg, Kunstler, Georges, Meesenburg, Henning, Wagner, Markus, Mund, Martina, Cools, Nathalie, Vacek, Stanislav, Schmidt, Wolfgang, Vacek, Zdeněk, and Hacket‐Pain, Andrew

Subjects

*EUROPEAN beech, *SEED crops, *SEED viability, *SEED industry, *GRANIVORES, *SEEDS, *BEECH

Abstract

Climate change effects on tree reproduction are poorly understood, even though the resilience of populations relies on sufficient regeneration to balance increasing rates of mortality. Forest‐forming tree species often mast, i.e. reproduce through synchronised year‐to‐year variation in seed production, which improves pollination and reduces seed predation. Recent observations in European beech show, however, that current climate change can dampen interannual variation and synchrony of seed production and that this masting breakdown drastically reduces the viability of seed crops. Importantly, it is unclear under which conditions masting breakdown occurs and how widespread breakdown is in this pan‐European species. Here, we analysed 50 long‐term datasets of population‐level seed production, sampled across the distribution of European beech, and identified increasing summer temperatures as the general driver of masting breakdown. Specifically, increases in site‐specific mean maximum temperatures during June and July were observed across most of the species range, while the interannual variability of population‐level seed production (CVp) decreased. The declines in CVp were greatest, where temperatures increased most rapidly. Additionally, the occurrence of crop failures and low seed years has decreased during the last four decades, signalling altered starvation effects of masting on seed predators. Notably, CVp did not vary among sites according to site mean summer temperature. Instead, masting breakdown occurs in response to warming local temperatures (i.e. increasing relative temperatures), such that the risk is not restricted to populations growing in warm average conditions. As lowered CVp can reduce viable seed production despite the overall increase in seed count, our results warn that a covert mechanism is underway that may hinder the regeneration potential of European beech under climate change, with great potential to alter forest functioning and community dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

36. Factors determining fine-scale spatial genetic structure within coexisting populations of common beech (Fagus sylvatica L.), pedunculate oak (Quercus robur L.), and sessile oak (Q. petraea (Matt.) Liebl.)

Author

Sandurska, Elżbieta, Ulaszewski, Bartosz, Meyza, Katarzyna, Sztupecka, Ewa, and Burczyk, Jarosław

Published

2024

37. Detecting Pathogenic Phytophthora Species Using Volatile Organic Compounds.

Author

Sherwood, Patrick, Nordström, Ida, Woodward, Steve, Bohman, Björn, and Cleary, Michelle

Subjects

*DEAD trees, *VOLATILE organic compounds, *PHYTOPHTHORA, *GAS chromatography/Mass spectrometry (GC-MS), *ENGLISH oak, *EUROPEAN beech

Abstract

There are several highly damaging Phytophthora species pathogenic to forest trees, many of which have been spread beyond their native range by the international trade of live plants and infested materials. Such introductions can be reduced through the development of better tools capable of the early, rapid, and high-throughput detection of contaminated plants. This study utilized a volatilomics approach (solid-phase microextraction coupled to gas chromatography–mass spectrometry) to differentiate between several Phytophthora species in culture and discriminate between healthy and Phytophthora-inoculated European beech and pedunculate oak trees. We tentatively identified 14 compounds that could differentiate eight Phytophthora species from each other in vitro. All of the Phytophthora species examined, except Phytophthora cambivora, uniquely produced at least one compound not observed in the other species; however, most detected compounds were shared between multiple species. Phytophthora polonica had the most unique compounds and was the least similar of all the species examined. The inoculated seedlings had qualitatively different volatile profiles and could be distinguished from the healthy controls by the presence of isokaurene, anisole, and a mix of three unknown compounds. This study supports the notion that volatiles are suitable for screening plant material, detecting tree pathogens, and differentiating between healthy and diseased material. [ABSTRACT FROM AUTHOR]

Published

2024

38. Bryophytes in classification and ecology of calcareous beech forests in Central Slovakia.

Author

Širka, Pavel, Ujházyová, Mariana, and Ujházy, Karol

Subjects

*BRYOPHYTES, *VASCULAR plants, *DEAD trees, *BEECH, *PLANT diversity, *FOREST biodiversity, *MOSSES

Abstract

Traditionally, calcareous beech forests were classified and differentiated according to vascular plants. Bryophytes were often omitted or not all substrates were sampled in relevés, and therefore, the role of bryophytes in plant community differentiation remained unclear. In this paper, we studied bryophyte species richness, composition and functional patterns in vegetation units differentiated by vascular plants. We analysed 45 phytosociological relevés from 400 m2 plots in Fagus sylvatica-dominated forests on dolomite bedrock in Central Slovakia. The most frequent among 59 moss and 8 liverwort species was Tortella tortuosa, followed by Hypnum cupressiforme, Brachytheciastrum velutinum and Ctenidium molluscum. Average richness of bryophytes was 8.1 compared to 38.7 species of vascular plants. Seven bryophyte species were significantly linked to a particular vegetation unit. One-way ANOVA showed no noticeable differences in bryophyte species richness between vegetation units. However, it was negatively affected by xericity and positively by cover of rocks on soil surface. CCA revealed that species composition was affected significantly by xericity, cover of bare rocks and cover of tree layer. Mat and turf life forms prevailed, and both long-lived taxa/perennials and short-lived colonists formed the bryophyte layer. Observed bryophyte species grew mostly on rock, living and dead wood, and only minority of them on soil. Therefore, available substrates greatly contributed to the species richness of bryophytes and total plant diversity of the forest community. A complete investigation of substrates is necessary to assess the drivers of bryophyte species distribution and diversity, and their role in classification of calcareous beech forests. [ABSTRACT FROM AUTHOR]

Published

2024

39. High phenotypic variation found within the offspring of each mother tree in Fagus sylvatica regardless of the environment or source population.

Author

Schmeddes, Jonas, Muffler, Lena, Barbeta, Adrià, Beil, Ilka, Bolte, Andreas, Holm, Stefanie, Karitter, Pascal, Klisz, Marcin, Löf, Magnus, Nicolas, Manuel, Peñuelas, Josep, Vitasse, Yann, Weigel, Robert, and Kreyling, Juergen

Abstract

Aim: Climate change challenges temperate forest trees by increasingly irregular precipitation and rising temperatures. Due to long generation cycles, trees cannot quickly adapt genetically. Hence, the persistence of tree populations in the face of ongoing climate change depends largely on phenotypic variation, that is the capability of a genotype to express variable phenotypes under different environmental conditions, known as plasticity. We aimed to quantify phenotypic variation of central Europe's naturally dominant forest tree across various intraspecific scales (individuals, mother trees (families), populations) to evaluate its potential to respond to changing climatic conditions. Location: Europe. Time Period: 2016–2019. Major Taxa Studied: European beech (Fagus sylvatica L.). Methods: We conducted a fully reciprocal transplantation experiment with more than 9000 beech seeds from seven populations across a Europe‐wide gradient. We compared morphological (Specific Leaf Area), phenological (leaf unfolding) and fitness‐related (growth, survival) traits across various biological scales: within single mother trees, within populations and across different populations under the contrasting climates of the translocation sites. Results: The experiment revealed significant phenotypic variation within the offspring of each mother tree, regardless of geographic origin. Initially, seedling height growth varied among mother trees and populations, likely due to maternal effects. However, the growth performance successively aligned after the first year. In summary, we observed a consistent growth response in different beech populations to diverse environments after initial maternal effects. Main Conclusions: The study strikingly demonstrates the importance of considering intraspecific variation. Given the surprisingly broad spectrum of phenotypes each mother tree holds within its juvenile offspring, we conclude that Fagus sylvatica might have the potential for medium‐term population persistence in face of climate change, provided that this pattern persists into later life stages. Hence, we also suggest further investigating the inclusion of passive adaptation and natural dynamics in the adaptive management of forests. [ABSTRACT FROM AUTHOR]

Published

2024

40. Different patterns of inter-annual variability in mean vessel area and tree-ring widths of beech from provenance trials in Slovenia and Hungary.

Author

Gričar, Jožica, Arnič, Domen, Krajnc, Luka, Prislan, Peter, Božič, Gregor, Westergren, Marjana, Mátyás, Csaba, and Kraigher, Hojka

Abstract

Key message: Studied beech provenances showed different patterns of inter-annual variability in mean vessel area and ring widths, indicating influence of intraspecific variability and diverse environment on hydraulic conductivity and carbon storage potential. International provenance trials of ecologically and economically important tree species are crucial to deciphering the influence of environmental factors and intraspecific variability on tree growth and performance under climate change to guide assisted gene flow and assisted migration of tree provenances and species. In this context, we compared inter-annual trends in tree-ring widths (carbon sequestration potential) and vessel characteristics (conductivity optimisation) of four beech provenances in two international provenance trials, one in Slovenia (Kamenski hrib, a core beech growing site) and one in Hungary (Bucsuta, a marginal beech site) in 2009–2019. We found different patterns of inter-annual variability in mean vessel area and tree-ring widths among provenances and sites, pointing to diverse genetic background and environmental influence on these two wood-anatomical traits. The average values of the vessel area varied less between provenances at Kamenski hrib than at Bucsuta. Weather conditions differently affected tree-ring width and mean vessel area. Furthermore, the length of the period of response of vessel area to the analysed weather conditions differed in summer and winter periods. The differences in the mean vessel area within the tree ring were more pronounced in the weather-wise extreme years, regardless of the provenance. Consistent with previous studies, we confirmed that site conditions affect the climate sensitivity of trees, which is more pronounced at marginal sites or in extreme years. The findings on how different environmental conditions affect the radial growth of young beech trees of different origin are very important for future forest management. [ABSTRACT FROM AUTHOR]

Published

2024

41. Litterfall Carbon and Nitrogen Content of Beech Forests in Serbia

Author

Saša Eremija, Goran Češljar, Sonja Braunović, Marijana Kapović Solomun, Snežana Stajić, Sabahudin Hadrović, and Filip Jovanović

Subjects

central balkans, fagus sylvatica, mineralization, organic layer, soil management, Plant culture, SB1-1110

Abstract

This study aimed to analyze the N storage capacity of litterfall and its impact on C mineralization in beech forests. The research was conducted at 15 sample plots under European beech stands located in different ecological conditions on the territory of Serbia. More than half (53%) of the sample plots are characterized by low and very low litterfall N content (

Published

2024

42. High-Quality Genome of the Tree Pathogen Phytophthora plurivora—A Novel Resource for Epidemiological Research

Author

T. Tsykun, B. Mishra, S. Ploch, R. I. Alcalá Briseño, S. Prospero, N. J. Grünwald, and M. Thines

Subjects

chromosome level, disease-causing agent, Fagus sylvatica, oomycetes, Plant culture, SB1-1110, Botany, QK1-989

Abstract

Phytophthora plurivora can affect a range of ecologically and silviculturally important tree species, including European beech (Fagus sylvatica), a common late successional tree species native to Europe. Here, we report on the high-quality genome of P. plurivora strain TJ71 (CBS 124093). We sequenced it using Oxford Nanopore MinION and PacBio Sequel II long-read sequencing with 80× coverage, chromatin conformation capture (Hi-C) sequencing with 400× coverage, and DNBSEQ 150-bp paired-end short reads sequencing with 200× coverage. This complex sequencing approach allowed for assembly of the genome at the chromosome level. Specifically, the P. plurivora genome resulted in 18 scaffolds of 47 Mbp total size with 95% completeness of the eukaryotic gene set as implemented in BUSCO. This is a considerable improvement relative to the previous NCBI reference genome of P. plurivora (NMPK00000000.1) with ∼41 Mbp organized in 1,898 scaffolds with 93.8% eukaryotic BUSCO completeness. This high-quality genome provides a valuable resource for further evolutionary, epidemiological, and population genomic studies. [Figure: see text] Copyright © 2023 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published

2023

43. Photosynthetic Response to Phosphorus Fertilization in Drought-Stressed Common Beech and Sessile Oak from Different Provenances

Author

Antonia Vukmirović, Željko Škvorc, Saša Bogdan, Daniel Krstonošić, Ida Katičić Bogdan, Tomislav Karažija, Marko Bačurin, Magdalena Brener, and Krunoslav Sever

Subjects

Fagus sylvatica, Quercus petraea, stomatal photosynthesis limitation, non-stomatal photosynthesis limitation, phosphorus nutrition, provenance-specific drought adaptation, Botany, QK1-989

Abstract

Increasingly frequent and severe droughts pose significant threats to forest ecosystems, particularly affecting photosynthesis, a crucial physiological process for plant growth and biomass production. This study investigates the impact of phosphorus fertilization on the photosynthesis of common beech (Fagus sylvatica L.) and sessile oak (Quercus petraea (Matt.) Liebl.). In a common garden experiment, saplings originating from two provenances (wetter KA and drier SB provenances) were exposed to regular watering and drought in interaction with moderate and high phosphorus concentrations in the growing substrate. Results indicated that drought significantly reduced pre-dawn leaf water potential (ΨPD), net photosynthesis (Anet), stomatal conductance (gs) and photosynthetic performance index (PIabs) in both species. Phosphorus fertilization had a negative impact on Anet and PIabs, thus exacerbating the negative impact of drought on photosynthetic efficiency, potentially due to excessive phosphorus absorption by saplings. Provenance differences were notable, with the KA provenance showing better drought resilience. This research highlights the complexity of nutrient–drought interactions and underscores the need for cautious application of fertilization strategies in reforestation efforts under changing climatic conditions.

Published

2024

44. Санітарний стан лісів Національного природного парку 'Гуцульщина' та причини його ослаблення

Author

І. М. Кульбанська

Subjects

етіологія, дереворуйнівні гриби, бактеріоз, Picea abies, Abies alba, Fagus sylvatica, Forestry, SD1-669.5

Abstract

Досліджено сучасний санітарний стан бука лісового (Fagus sylvatica L.), ялиці білої (Abies alba Mill.) та ялини європейської (Picea abies (L.) Karsten) у Національному природному парку "Гуцульщина" та визначено першопричини їх ослаблення, втрати біотичної стійкості і продуктивності. З'ясовано, що сучасні екологічні виклики, зокрема такі як глобальні зміни клімату, антропогенний тиск, атаки шкідників та епіфітотійне поширення збудників інфекційних хвороб, є предикторами вразливості лісів, що призводить до порушення стратегій їхнього збереження і відновлення. Розраховано та проаналізовано середні значення показника санітарного стану за 2022-2023 рр. на підставі детального лісопатологічного обстеження 15 пробних площ, а також ідентифіковано видовий склад патологій інфекційного характеру у деревостанах дослідного регіону. Встановлено, що загальний санітарний стан лісів за участю бука лісового, ялиці білої та ялини європейської, що ростуть в умовах Національного природного парку "Гуцульщина", наразі потрібно вважати ослабленим. Середньозважений показник санітарного стану становить 2,50 з варіюванням від 1,39-3,55 (у 2022 р.) і 1,53-3,52 (у 2023 р.). Спостерігається повільне, проте стійке, збільшення площ розладнаних і загиблих деревостанів. Зафіксовано наявність дерев V і VІ категорій стану, осередки бактеріозу, мікозних хвороб і стовбурових шкідників. Під час обстежень відзначено типову симптоматику бактеріальної водянки ялиці (збудник – фітопатогенна бактерія Lelliottia nimipressuralis (Carter 1945)), раку ялиці (збудник – іржастий гриб Melampsorella cerastii (Pers.) J. Schröt. 1887), нектріозу бука (збудник – гриб-ксилотроф Neonectria ditissima (Tul., & C. Tul.) Samuels & Rossman 2006). Серед комплексу афілофороїдних макроміцетів найбільшу кількість видів зареєстровано на деревах бука європейського, найменшу – на ялиці білій. Найпоширенішою виявилася група ксилотрофних базидіоміцетів, серед яких зареєстровано збудники кореневих і стовбурових гнилей (гриби родів Heterobasidion Bref. 1888 та Armillaria (Fr.) Staude 1857, а також видів Phellinus hartigii (Allesch., & Schnabl) Pat., 1903, Fomitopsis pinicola (Sw.) P. Karst. 1881, Fomes fomentarius (L.) Fr. 1849 та ін). Відзначено, що врахування санітарного стану стає ключовим чинником під час розроблення наукових і практичних рішень для забезпечення стійкості та збереження корінних природних лісів Національного природного парку "Гуцульщина".

Published

2024

45. Experimental and Numerical Research on the Splitting Capacity of European Beech Beams Loaded Perpendicular to the Grain by Connections: Influence of Different Geometrical Parameters.

Author

Gómez-Royuela, José Luis, Majano-Majano, Almudena, Lara-Bocanegra, Antonio José, Xavier, José, and de Moura, Marcelo F. S. F.

Subjects

EUROPEAN beech, WOOD, BEECH, HARDWOODS, FRACTURE mechanics, SPECIES

Abstract

In the present work, single- and double-dowel joints following different geometric configurations are experimentally and numerically investigated to derive the splitting behaviour of beech wood (Fagus sylvatica L.), one of the most widespread hardwood species in Europe for structural purposes. The influence of the spacing between dowels, their distance to the supports, and the slenderness of the beams is analysed. The correlation of the experimental failure loads with those predicted numerically by cohesive zone finite element-based models using the fracture properties of the species is discussed. The experimental results are also compared with those obtained from the normative expression included in Eurocode 5 and two other design models reported in the literature. The splitting failure loads predicted by both the analytical and numerical models were found to be conservative, the latter being closer to the experimental values. [ABSTRACT FROM AUTHOR]

Published

2024

46. Major tree species of Central European forests differ in their proportion of positive, negative, and nonstationary growth trends.

Author

Kašpar, Jakub, Tumajer, Jan, Altman, Jan, Altmanová, Nela, Čada, Vojtěch, Čihák, Tomáš, Doležal, Jiří, Fibich, Pavel, Janda, Pavel, Kaczka, Ryszard, Kolář, Tomáš, Lehejček, Jiří, Mašek, Jiří, Hellebrandová, Kateřina Neudertová, Rybníček, Michal, Rydval, Miloš, Shetti, Rohan, Svoboda, Miroslav, Šenfeldr, Martin, and Šamonil, Pavel

Subjects

*NORWAY spruce, *SCOTS pine, *EUROPEAN beech, *TEMPERATE forests, *DURMAST oak, *ENGLISH oak, *SPECIES

Abstract

Temperate forests are undergoing significant transformations due to the influence of climate change, including varying responses of different tree species to increasing temperature and drought severity. To comprehensively understand the full range of growth responses, representative datasets spanning extensive site and climatic gradients are essential. This study utilizes tree‐ring data from 550 sites from the temperate forests of Czechia to assess growth trends of six dominant Central European tree species (European beech, Norway spruce, Scots pine, silver fir, sessile and pedunculate oak) over 1990–2014. By modeling mean growth series for each species and site, and employing principal component analysis, we identified the predominant growth trends. Over the study period, linear growth trends were evident across most sites (56% increasing, 32% decreasing, and 10% neutral). The proportion of sites with stationary positive trends increased from low toward high elevations, whereas the opposite was true for the stationary negative trends. Notably, within the middle range of their distribution (between 500 and 700 m a.s.l.), Norway spruce and European beech exhibited a mix of positive and negative growth trends. While Scots pine growth trends showed no clear elevation‐based pattern, silver fir and oaks displayed consistent positive growth trends regardless of site elevation, indicating resilience to the ongoing warming. We demonstrate divergent growth trajectories across space and among species. These findings are particularly important as recent warming has triggered a gradual shift in the elevation range of optimal growth conditions for most tree species and has also led to a decoupling of growth trends between lowlands and mountain areas. As a result, further future shifts in the elevation range and changes in species diversity of European temperate forests can be expected. [ABSTRACT FROM AUTHOR]

Published

2024

47. Sustaining forest biodiversity: Exploring the effect of long-term natural disturbance dynamics on contemporary lichen communities in primary forest ecosystems.

Author

Gloor, Rhiannon, Svitok, Marek, Mikoláš, Martin, Hofmeister, Jeňýk, Halda, Josef, Janda, Pavel, Sabatini, Francesco Maria, Zemanová, Lucie, Buechling, Arne, Kozák, Daniel, Ferenčík, Matej, Frankovič, Michal, Dušátko, Martin, and Svoboda, Miroslav

Subjects

CLIMATE change, FOREST management, FOREST biodiversity, FOREST ecology, ENVIRONMENTAL engineering

Abstract

In this era of biodiversity loss and climate change, quantifying the impacts of natural disturbance on forest communities is imperative to improve biodiversity conservation efforts. Epiphytic and epixylic lichens are effective forest quality bioindicators, as they are generally long-lived organisms supported by continuity of specific forest structures and their associated microclimatic features. However, how lichen communities respond to the effects of fluctuating historical disturbances remains unclear. Using a dendrochronological approach, this study investigates how natural disturbance dynamics indirectly influence various lichen community metrics in some of Europe's best-preserved primary mixed-beech forests. Mixed modelling revealed that natural historical disturbance processes have decades-long effects on forest structural attributes, which had both congruent and divergent impacts on lichen community richness and composition. Total species richness indirectly benefited from both historical and recent higher-severity disturbances via increased standing dead tree basal area and canopy openness respectively - likely through the presence of both pioneer and late-successional species associated with these conditions. Red-listed species richness showed a dependence on habitat continuity (old trees), and increased with disturbance-related structures (standing dead trees) whilst simultaneously benefiting from periods without severe disturbance events (old trees and reduced deadwood volume). However, if the disturbance occurred over a century in the past, no substantial effect on forest structure was detected. Therefore, while disturbance-mediated forest structures can promote overall richness, threatened species appear vulnerable to more severe disturbance events -- a concern, as disturbances are predicted to intensify with climate change. Additionally, the high number of threatened species found reinforce the critical role of primary forest structural attributes for biodiversity maintenance. Hence, we recommend a landscape-scale conservation approach encompassing forest patches in different successional stages to support diverse lichen communities, and the consideration of long-term disturbance dynamics in forest conservation efforts, as they provide critical insights for safeguarding biodiversity in our changing world. [ABSTRACT FROM AUTHOR]

Published

2024

48. Deadwood position matters: Diversity and biomass of saproxylic beetles in a temperate beech forest.

Author

Zumr, Václav, Nakládal, Oto, Gallo, Josef, and Remeš, Jiří

Subjects

BEETLES, CLIMATE change, FOREST ecology, MACHINE learning, ENVIRONMENTAL engineering, FOREST biodiversity

Abstract

Deadwood plays a key role for biodiversity in forests. A significant number of beetles from this group are currently listed as endangered in the Red List. In addition to other management recommendations, there have been recent efforts to enrich stands with dead wood to promote biodiversity. An important parameter for forestry enterprises is the optimization of these interventions. The study investigated the abundance, species richness, gamma diversity, conservation value and biomass of saproxylic beetles in natural forests using window traps. A total of 89 traps were used for saproxylic beetle monitoring, of which 29 were placed on lying logs, 30 on snags and 30 as controls in forest stand space. A total of 35,011 beetles were recorded in 564 species (61 families). Notably, 20,515 of these belong to saproxylic beetles (59%) in 311 species (55%), with 62 classified as Red-List species (20%). In the group of 'all saproxylic beetles', the results indicate that α diversity and γ diversity (q ¼ 0) remain consistent across various deadwood types, while β diversity showed significant differences. Significant differences were found in the Red-List species group, where α diversity and γ diversity differed, with higher values observed in snags. Rarefaction based total species richness of site was estimated to be 391 species, including 74 Red-Listed species. Comparing the sample coverage of the studied stand categories showed that all saproxylic species exhibit a pronounced preference for inhabiting areas featuring lying logs. Conversely, Red-List species mainly inhabit snags, with β diversity being more similar to snags and forest stand space. Notably, both the conservation value (weighted average by conservation status) and beetle biomass are significantly highest in snags, whereas stand space shows the lowest values across all measured saproxylic beetle indices. Furthermore, the use of traps set on the poles in forest stand space resulted in an underestimation of the actual stand richness by 20%--25%. Our results support the conclusion that snags are indispensable features in beech forests, playing a key role in promoting high species diversity, especially among Red-List species, and supporting the biomass of saproxylic beetles. Consequently, it becomes crucial to incorporate a higher percentage of standing deadwood in managed forests or actively create equivalent environments by introducing high stumps. [ABSTRACT FROM AUTHOR]

Published

2024

49. Parametrii calitativi ai semințelor de fag și influența factorilor climatici asupra acestora.

Author

Budeanu, Marius, Grosu, Gabriela, Pepelea, Dan, and Beșliu, Emanuel

Abstract

The research aims to investigate the qualitative parameters of 163 lots of European beech (Fagus sylvatica L.) seeds, originated from all over Romania, in the last 30 years (1994-2023). In the context of global warming, the influence of the climatic factors (temperature and precipitations) on the beechnuts was studied for the most important counties (regarding the number of tested seed lots), Brașov and Caraș-Severin. The analyses were performed in the seed testing laboratory of INCDS "Marin Drăcea" Brașov. All laboratory analyses were made in according with the international rules established by ISTA and implemented in Romania by SR 1908/2004 standard. Average values for purity (98,6%), viability (72,8%) and mass of 1000 seeds (254,2 g) were obtained for the 163 analysed lots of European beech seeds which places them in the 2nd class of quality, with 38,7% of the lots included in the top category. The highest values of seed viability were recorded in 2004, 2016 and 2012, and the leading counties were Maramureș, Prahova, Caraș-Severin and Brașov. Generally, direct and highly significant correlations were found among the main qualitative parameters of the beechnuts (Purity, viability, and M1000) as well as a multiple correlation among them. Heavier and higher purity beechnuts will own superior viability. In both analysed counties (Brașov and Caraș-Severin), the climatic factors generally had an insignificant influence on the qualitative parameters of the beechnuts harvested especially from populations located in the ecological optimum of European beech in Romania. [ABSTRACT FROM AUTHOR]

Published

2024

50. Effects of Drought, Phosphorus Fertilization and Provenance on the Growth of Common Beech and Sessile Oak.

Author

Vukmirović, Antonia, Škvorc, Željko, Bogdan, Saša, Krstonošić, Daniel, Katičić Bogdan, Ida, Karažija, Tomislav, Bačurin, Marko, Brener, Magdalena, and Sever, Krunoslav

Subjects

EUROPEAN beech, DURMAST oak, DROUGHTS, PHOSPHORUS, PHENOTYPIC plasticity, BEECH

Abstract

The negative impact of drought on plant growth may be modified by the different availability of mineral nutrients and by their adaptation to different local habitat conditions. In this study, we examine the impact of drought, fertilization with phosphorus and provenance, as well as their interactions, on the growth and allometric growth relationships between the belowground and aboveground organs of common beech (Fagus sylvatica L.) and sessile oak (Quercus petraea (Matt.) Liebl.). The research was conducted on saplings originating from two mature mixed stands (dry and wet provenances) dominated by these species. In the common garden experiment, saplings were exposed to regular watering and drought in interaction with moderate and high phosphorus concentrations in the growing substrate (achieved by phosphorus fertilization). The obtained results indicate the negative impact of drought and phosphorus fertilization on the growth of both species. In common beech, a negative impact of phosphorus fertilization on the adaptive capacity to drought was demonstrated by unfavorable ratios between fine root mass and the mass of other organs. The sessile oak provenances under the impact of drought showed a different root collar diameter/stem height increment ratio, which indicates their different phenotypic plasticity as a consequence of adaptation to different frequencies of dry periods in their natural habitats. [ABSTRACT FROM AUTHOR]

Published

2024