Your search keyword '"BEECH"' showing total 14,400 results

1. Deciphering the vectors: Unveiling the local dispersal of Litylenchus crenatae ssp. mccannii in the American beech (Fagus grandifolia) forest ecosystem.

Author

Goraya, Mankanwal, Kantor, Camelia, Vieira, Paulo, Martin, Danielle, and Kantor, Mihail

Subjects

*TREE mortality, *BEECH, *TREES, *CATERPILLARS, *NEMATODES

Abstract

Beech leaf disease (BLD), caused by the Litylenchus crenatae ssp. mccannii (Lcm) nematode, is an emerging threat to beech trees. This disease is characterized by distinct leaf symptoms, including leaf interveinal banding and thickened leaf texture, which leads to eventual tree mortality. Understanding Lcm dispersal mechanism(s) is crucial for managing BLD, yet these remain largely unknown, posing a major barrier to its effective management. This study represents a pioneering investigation into the abiotic and biotic vectors that potentially contribute to the local dispersal of Lcm in natural American beech (Fagus grandifolia) forest systems in the Northeastern United States. An experiment was set up in Stone Valley Forest, Pennsylvania (PA), using four funnel stands placed at variable distances from naturally BLD-infected beech trees. This approach enabled the recovery of active Lcm nematodes from each funnel, demonstrating their ability to naturally disperse at least 11.74 m from the nearest BLD-infected tree. The findings highlight the role of abiotic factors involved in the dispersal dynamics of Lcm, especially wind and humidity, as indicated by a generalized linear model. The current study also uncovered the incidental association of Lcm with other organisms beneath the canopy of BLD trees, including spiderwebs and caterpillars. To our knowledge, this is the first study to document the potential vectors involved in the local dispersal of Lcm, offering valuable information for the biology of this nematode, as well as insight into the development of effective BLD management strategies. The findings contribute to broader efforts in advancing the understanding of the local spread of BLD, highlighting the complex interplay of abiotic and biotic factors in this disease dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tensile and Bending Strength of Birch and Beech Lamellas Finger Jointed with Conventional and Newly Developed Finger-Joint Profiles.

Author

Stolze, Hannes and Militz, Holger

Subjects

*FINGER joint, *BENDING strength, *TENSILE strength, *STRESS concentration, *FINGERS

Abstract

In this study, the tensile and bending strength of birch and beech lamellas finger jointed with conventional (Standard) and newly developed finger-joint profiles (New) are presented. Polyurethane (PUR), Melamine-Urea-Formaldehyde (MUF) and Phenol-Resorcinol-Formaldehyde (PRF) adhesive systems were used to bond the finger joints. The objective of the New profiles was to reduce the stress concentrations within the finger joint by cutting the cross-grooved fingers perpendicular to the main orientation of the finger-joint profile. In the first trials of the development, larger cross-grooved fingers were cut with the aim to improve the stress distribution and to reinforce the finger joint by filling gaps in the finger joint with adhesive. As the study progressed, initial optimisations of the New profile were made. Smaller cross-grooved fingers were cut as it was assumed that they are beneficial for the manufacturing and integrity of the New profile. In combination with the MUF adhesive system, the New profile achieved the highest increase in the bending and tensile strengths compared to the Standard profile. In addition to the increased strength, other advantages such as reduced cracking in the finger joint were observed when using the New profile. The high strength and stiffness of hardwoods or other high-performance materials used in timber construction can probably be better exploited in combination with the New profile. Further tests will be carried out by considering different configurations of the New profile and different materials. [ABSTRACT FROM AUTHOR]

Published

2024

3. Determination of Abrasion Resistance and Adhesion of Varnishes with Various Ratios of Graphene Additive on Different Wood.

Author

Balçık, Özlem Bozdoğan, Özdemir, Turgay, Çolak, Semra, and Yıldırım, İbrahim

Subjects

*CHESTNUT, *ABRASION resistance, *WOOD, *VARNISH & varnishing, *BEECH, *SCOTS pine

Abstract

Graphene was mixed with varnishes at different ratios and applied by spraying method on different cross-sections of various wood materials, and their wear and adhesion performances were determined. Graphene (0.25%, 0.50%, 1%); varnishes (water-based and polyurethane varnish) and wood materials (beech (Fagus orientalis Lipsky), chestnut (Castanea sativa Miller), yellow pine (Pinus sylvestris L.), and spruce (Picea orientalis (L.) Link.)) were used. Adhesion and abrasion tests were performed. A total of 480 test specimens were prepared, 5 specimens for each wood type, cross-sectional direction, graphene ratio, and varnish type for adhesion and abrasion tests. The adhesion of the samples was determined by ASTM D 4541-09E1 pull-off test and abrasion resistance was determined in accordance with ASTM 4060-10. The data obtained were statistically analyzed and the significance values within and between groups were determined. As a result, abrasion resistance and adhesion increased in graphene 2 (0.50%) in both varnish types. [ABSTRACT FROM AUTHOR]

Published

2024

4. How Well Can Sound Tomograms Characterize Inner-Trunk Defects in Beech Trees from a Burned Plot?

Author

Musat, Elena C.

Subjects

*MANUFACTURING processes, *SPEED of sound, *WOOD, *WOOD quality, *FOREST fires

Abstract

In recent years, forest fires have become increasingly common, but also more damaging phenomena. These aspects are reflected in significant economic losses that affect the quality and quantity of wood volumes that can be used for industrial processing. For this reason, knowing the quality of the wood is important, especially in fire-affected trees. Because visual analyses cannot always reflect the quality of the wood inside the trunk, the present research aimed to evaluate the extent to which modern techniques based on the transfer of sounds can identify internal wood defects. In this sense, 42 tomograms made from beech trees affected by a litter fire were compared with the relative resistances of the wood to drilling and with the real condition of the wood inside the trunk, as made visible through the growth cores taken with a Pressler drill. From the cumulative interpretation of the results, it was found that the trees affected by the fire have serious defects, which lead to the downgrading of the wood and are not reproduced by the tomograph to their true extent. Conversely, sound transfer speeds through wood are influenced by the presence of beech red heartwood, which leads to an increase in sound transfer speeds through wood, and that can alter the accuracy of the tomogram. [ABSTRACT FROM AUTHOR]

Published

2024

5. Genomic diversity of major tree species in the Eurasian relict forests of northern Iran.

Author

Vatanparast, Mohammad, Madsen, Palle, Sagheb-Talebi, Khosro, Larsen, Jørgen Bo, Ayan, Sezgin, and Hansen, Ole K.

Subjects

GLACIATION, POPULATION genetics, SPECIES distribution, BEECH, GENETIC speciation, POLLEN dispersal

Abstract

We investigated population genetics of the native tree species Acer velutinum Boiss., Fagus orientalis Lipsky, and Quercus castaneifolia C.A. Mey. in the Hyrcanian forests of northern Iran and also F. orientalis populations in the Euro-Siberian and Colchic subregions of northern Türkiye. We used the double-digest RADseq method and genotyped 90 populations and 1,589 individuals across the distribution range of the species. Genome-wide SNPs from 28 populations of A. velutinum, 32 populations of F. orientalis, and 30 Q. castaneifolia revealed higher genetic differentiation among A. velutinum populations than among F. orientalis and Q. castaneifolia. The global FST value was lowest for F. orientalis populations and highest for A. velutinum populations, while the global FIS value was negative for A. velutinum. Demographic history analysis revealed a bottleneck during the last glacial period (11,500—115,000 Kya) for the A. velutinum populations with reduced effective population size (Ne). All three species show multiple bottlenecks and reduced Ne during the Quaternary. Pronounced genetic divergence among A. velutinum populations in the Hyrcanian forests compared to the other two species suggests cryptic speciation. Conversely, F. orientalis and Q. castaneifolia populations showed low levels of genetic structure, suggesting that species-specific factors, such as pollen production and pollination efficiency, may have influenced the genetic patterns within these species in similar environments. The nucleotide diversity of F. orientalis populations in Iran is negatively correlated with altitude (p = 0.046). In contrast, A. velutinum populations show a significant correlation between nucleotide diversity and longitude (p = 0.008). Furthermore, the F. orientalis populations from Türkiye showed a distinct west–east genetic structure and were highly diverged from the Iranian F. orientalis populations. [ABSTRACT FROM AUTHOR]

Published

2024

6. ブナ林の保全に向けたブナハバチ防除のための ジノテフラン樹幹注入手法の開発.

Author

谷脇徹

Subjects

TREE trunks, BEECH, LARVAE, INSECTS, DENSITY

Abstract

Copyright of Journal of Tree Health is the property of Tree Health Research Society, Japan 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

7. Stress Responses to Bark Beetle Infestations among Pine (Pinus sylvestris), Fir (Abies alba), and Beech (Fagus sylvatica) Trees.

Author

Soudek, Petr, Podlipná, Radka, Langhansová, Lenka, Moťková, Kateřina, Dvořáková, Marcela, Petrová, Šárka, Haisel, Daniel, Satarova, Tetiana M., Dobrev, Petre I., Gaudinová, Alena, Máchová, Pavlína, Véle, Adam, Fulín, Martin, Cvrčková, Helena, Hošek, Petr, and Berchová-Bímová, Kateřina

Subjects

EUROPEAN beech, SILVER fir, SCOTS pine, PHOTOSYNTHETIC pigments, BARK beetles, BEECH, PLANT phenols

Abstract

Insect infestation triggers multiple defense responses in plants, both locally at the infection site and systemically throughout the plant, including the production of feeding deterrents, toxins, defensive proteins, enzymes, and secondary metabolites. Our study aimed to compare the endogenous levels of antioxidative enzymes, photosynthetic pigments, phytohormones, total phenols, and flavonoids in bark-beetle-infested and uninfested trees. We evaluated the surviving trees in bark-beetle-infested stands, assessing both the condition and defense of uninfested and infested beech (Fagus sylvatica), pine (Pinus sylvestris), and fir (Abies alba) trees. Sampling was performed at six affected sites in the Czech Republic, targeting trees that were resilient to significant health deterioration caused by abiotic and biotic factors. The results showed different levels of most of the measured compounds in the three species. Among all the tested species, photosynthetic pigment levels showed the strongest association with infestation status, which was generally lower in the infested plants. For chlorophyll a, extremely significant reductions were observed from 123 ± 20.6 to 101 ± 17.9 μg/g dry weight (DW) in pine, from 231 ± 33.1 to 199 ± 22.2 μg/g DW in beech, and from 60 ± 5.66 to 51.3 ± 6.27 μg/g DW in fir. In contrast, enzymatic activities indicated only isolated instances of significant association, whereas antioxidative properties (total phenolic content, flavonoids, and 2,2-diphenyl-1-picrylhydrazyl radical scavenging capacity) were not significantly associated with infestation status. There was a statistically significant increase in glutathione reductase activity in infested fir and pine trees. However, this difference was not statistically significant in beech. In contrast, a significant increase in superoxide dismutase activity was detected in infected beech trees. Phytohormones have emerged as the most diverse group of analyzed compounds. Cytokinins were the most distinct, with many of them being significantly increased in infested pines, whereas both beech and fir showed only one significant association. Additionally, derivatives of jasmonic acid also showed a distinct pattern of change associated with bark beetle infestation, with the levels of three out of the four analyzed jasmonates being significantly decreased in infested pines, whereas no effects were observed in beeches and firs. Notably, many phytohormones were significantly elevated in the infested pine, whereas both beech and fir exhibited only one significant association. Overall, the data showed that pines responded differently to bark beetles than to beeches or firs. The greatest changes in phytohormones were observed in pine, whereas the most significant changes in photosynthetic pigments were observed in beech and fir trees. [ABSTRACT FROM AUTHOR]

Published

2024

8. Surface Morphology and Chemical Changes of Maple and Beech Cut Through by CO 2 Laser Under Different Angles Relative to the Wood Grain.

Author

Gurau, Lidia, Angelescu, Ana-Maria, and Timar, Maria Cristina

Subjects

CARBON dioxide lasers, LASER beam cutting, SURFACE morphology, WOOD, SURFACE roughness

Abstract

This paper examined the surface morphology of maple and beech cut through by CO2 laser under different angles relative to the wood grain: 0°, 15°, 30°, 45°, 60°, 75°, and 90°. In the analysis, stylus measurements, stereo-microscopic images, and chemical changes were considered. Laser uncovers more wood anatomical details, with enhanced clarity, when the cutting transitions from along the grain to across the grain. This is particularly noticeable in the earlywood and is more pronounced in maple compared to beech. The first tissue of earlywood was deeply ablated by the laser, leading to a wavy anatomical pattern, which is more visible for higher angles of laser cutting in relation to the wood grain. The anatomical structure of beech was more affected by carbonization in comparison to maple and had a significantly higher core roughness, Rk. For both species, the worst surface roughness occurred when cutting at 15°. In maple, the laser caused more degradation of the polysaccharides compared to beech, and this impact was particularly noticeable parallel to the grain rather than at a 90° angle. The degradation of hemicelluloses occurred in parallel with more advanced cellulose degradation for beech compared to maple and for cutting along the grain compared to across the grain. Structural changes in lignin, such as condensation processes, were observed for both species. [ABSTRACT FROM AUTHOR]

Published

2024

9. Impact of Forest Fires on the Trees and Wood Quality—A Case Study for a Beech Stand.

Author

Mușat, Elena Camelia

Subjects

*EUROPEAN beech, *WOOD quality, *STRESS waves, *WOOD, *FOREST fires

Abstract

Wood quality has been an ongoing concern for science, having become increasingly important in the current context, in which the demand for wood is increasing and forest fires are more frequent and violent. This study aims to evaluate the quality of wood in trees affected by fires and the negative impact of these phenomena on the speed of wood degradation, as a result of weakening the trees due to the action of stress factors. The study was carried out using modern techniques on beech trees (Fagus sylvatica L.) remaining in an area affected by a litter fire in 2017. Measurements were taken with the Arbotom Rinntech sound tomograph, the IML Resi F-500S resist graph, and the Pressler core sampler to observe the quality of the wood inside the trees. It was found that all the trees were in various stages of decay, the tomograms being able to characterize the severity of decay only in the case of fully decayed wood as a result of the action of xylophages fungi, whose harmful influence is more pronounced when the injuries sustained by the trees are higher. Although the trees attempted to close the fire wounds through their own defense mechanisms, the destructive action of the fungi intensified with time. After the forest fires, for an effective assessment of the wood's internal quality, the resist graph can be used. For valuable trees, one could use the tomograph, but the measurements have to be taken only by qualified operators. [ABSTRACT FROM AUTHOR]

Published

2024

10. Changes in the Composition of Soil Organic Matter after the Transformation of Natural Beech Stands into Spruce Monoculture.

Author

Thai, Saven, Pavlů, Lenka, Vokurková, Petra, Thet, Bunthorn, Vejvodová, Kateřina, Drábek, Ondřej, and Tejnecký, Václav

Subjects

*DISSOLVED organic matter, *SOIL horizons, *FOREST soils, *SOIL solutions, *NORWAY spruce, *BEECH

Abstract

The composition of soil organic matter is considered to have a key influence on C sequestration and global climate change and can be associated with changes in vegetation cover in the terrestrial ecosystem. Our study aimed to evaluate the soil chemical structures and various organic components from available or reactive to more stable forms in forest soils affected by acidification and after conversion from fairly close to natural beech (Fagus sylvatica) stands to a spruce (Picea abies) monoculture. Our results revealed that the beech stands had higher contents of dissolved organic carbon and low molecular mass organic acid compared to the spruce stands. The aliphatic CH groups within the soluble alkaline-extractable organic substance (AEOS) gradually disappeared with deeper soil horizons under both forest species, while the presence of aliphatic CH groups in the low-solubility AEOS was more pronounced in the A horizon under spruce and relatively increased with depth under beech stands. The carboxylic groups were more prevalent in deeper soil horizons, while polysaccharide chains and nitrogen functional groups decreased with depth under both forest stands but were more prevalent under beech than under spruce stands. These findings suggest that the stability of organic matter through the forest soil profiles increased due to the transformation of various organic compounds from litter to more stable organic matter with higher amounts of lignin components to greater amounts of carboxylic groups and aromatic groups in deeper soil horizons. Furthermore, a higher number of mobile components of soil organic matter and carboxylic acids, together with lower pH and cation exchange capacity under spruce, resulted in the leaching of nutrients, releasing risk elements into the soil solution and accelerating the podzolization process. [ABSTRACT FROM AUTHOR]

Published

2024

11. Charcoal in Anaerobic Digestion: Part 1—Characterisation of Charcoal.

Author

Korte, Hans, Sprafke, Jan, Parmar, Pooja Girdharbhai, Steiner, Thomas, Freitag, Ruth, and Haag, Volker

Subjects

PORE size distribution, EUROPEAN beech, ANAEROBIC digestion, POLYCYCLIC aromatic hydrocarbons, HALOCARBONS, CHARCOAL

Abstract

Biochar (BC) is often used as an additive in anaerobic digestion (AD) to increase yield and/or to stabilise the process when the manure content is increased. Unfortunately, BC is rarely described in detail in terms of its raw material sources, production processes, and structural, physical and chemical properties to allow correlation with its effects on AD. It is an open question whether microorganisms from AD can penetrate into different biochar pore types, depending on their wood origin. In this paper, we describe the preparation (temperatures, treatment times, yields) and characterisation shrinkage, density, pore sizes, pore size distribution, specific surface area, ash, volatiles, fixed carbon, elemental composition, polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), benzene, toluene, ethyl-toluene, xylene (BTEX) and volatile halogenated hydrocarbons (VHH) of BC cubes of Scots pine (Pinus sylvestris) and common beech (Fagus sylvatica) powder made from this BC in addition to commercial charcoal powder. The pore size distribution determined by mercury porosimetry differs from that determined by 3D-reflected light microscopy. After incubating BC cubes in AD, the cubes were mechanically cleaned and cut into two pieces. Microorganisms were detected inside the cubes by fluorescence microscopy. Particle size and wood source determine the influence of BC on AD. [ABSTRACT FROM AUTHOR]

Published

2024

12. Current status of International Beech Provenance Trial in Ukraine (Bu19_19) from the 1993/95 series started by Institute of Forest Genetics, Großhansdorf.

Author

Mohytych, Vasyl, Ivaniuk, Andrii, Lisovyi, Mykola, Danchuk, Oleh, Delehan, Ivan, Holubchak, Oleksii, Hnatiuk, Oleh, Sułkowska, Małgorzata, Zaitsev, Bohdan, and Liesebach, Mirko

Subjects

EUROPEAN beech, TREE breeding, BEECH, RESEARCH personnel, SURVIVAL rate

Abstract

The European beech (Fagus sylvatica L.) is one of the most important tree species in Europe. In order to understand the breeding and biological aspects of the species, the Institute of Forest Genetics and Forest Tree Breeding (Großhansdorf, Germany) has carried out several series of provenance trials in collaboration with researchers throughout Europe. The most extensive series was the International Beech Provenance Trial 1993/95 (established in 1995). One of the provenance trials, Bu19_19 (Roztochja), involving 70 provenances from 10 European countries, was established in Ukraine at the north-eastern edge of the species' natural range. We investigated survival and DBH at this site in May 2023. The average survival rate was 38% (57 trees per provenance), while the number of surviving trees per provenance ranged from 37 to 76. The average DBH was 11.2 centimeters, with the DBH of some individual trees exceeding 30 centimeters. The Bu19_19 provenance trial remains a valuable resource for studying the performance of European beech populations and can provide important insights into their resilience and adaptation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Preliminary results from simultaneous planting of Fagus sylvatica and pioneer species on calamity clearings.

Author

Martiník, Antonín, Adamec, Zdeněk, Březina, David, and Krásenský, Jiří

Subjects

EUROPEAN aspen, EUROPEAN beech, EUROPEAN white birch, AUTUMN, ASPEN (Trees), BEECH

Abstract

We compared the biological and economic effects of simultaneous artificial regeneration of mixtures of pioneers (birch – Betula pendula Roth or aspen – Populus tremula L.) and beech (Fagus sylvatica L.) with plots of monospecific beech. During the period of two years, the height of young beech trees, their mortality, and the regeneration cost were analysed in the following treatments: monospecific beech (9 000 pcs·ha−1), monospecific beech (5 000 pcs·ha−1), beech/birch (5 000/2 500 pcs·ha−1) and beech/aspen (5 000/2 500 pcs·ha−1). Four plots (differing in soil and altitude) were established in the region of the Czech Republic in autumn 2021. The positive biological effect of these pioneers was detected only in the treatments where the initial planting stock of the pioneers was substantially higher than in that of beech (on average 39 cm vs. 100 cm, respectively). However, the expenses of simultaneous regeneration were about 15% lower compared to plots with monospecific beech in densities like 9 000 pcs·ha−1, and around 35% higher than in the monospecific beech plots with a density of 5 000 pcs·ha−1. [ABSTRACT FROM AUTHOR]

Published

2024

14. 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

15. Environmental and Economic Impacts of Hydroxyapatite Mineralized Wood: LCA and LCC Analysis.

Author

Sitar, Matic, Kitek Kuzman, Manja, Oblak, Leon, and Remic, Katarina

Subjects

LIFE cycle costing, OZONE layer depletion, CHEMICAL processes, WOOD, PRODUCT life cycle assessment, SCOTS pine, BEECH

Abstract

Wood is considered a promising raw material for the circular bioeconomy and has the ability to store biogenic carbon, and this is one reason why we want to extend the service life of the wood. In order to consider the influence of durability in our study, we used two wood species with different lifespans. Beech (Fagus sylvatica L.) belongs to the group of very sensitive wood species, as the durability of the untreated wood is estimated to be around 5 years; meanwhile, pine (Pinus sylvestris L.) belongs to the group of moderately resistant wood species, where the durability of the untreated wood is estimated to be up to 15 years. While toxic chemicals are often used for wood preservation, hydroxyapatite offers an environmentally friendly solution for wood mineralization. This study presents life cycle assessment (LCA) and life cycle cost (LCC) analyses comparing a novel hydroxyapatite (HAp) mineralization method with a service life of 50 years to a non-mineralized reference alternative. LCA was based on EN ISO 14040 and EN ISO 14044, while LCC was adapted from the European Commission's LCC tool for public procurement. The results of the LCA show that mineralized wood has a lower overall impact on the environment than surface-treated beech wood but a higher impact than surface-treated pine wood. Most impact categories were determined by electricity consumption with the exception of stratospheric ozone depletion, water consumption, and land use. Water consumption proved to be the category where the mineralization process was problematic due to water consumption during the leaching process. The LCC showed that mineralized wood is the most cost-effective solution for the exterior façade, as all costs, but especially investment costs, were lower. The differences in the LCA and LCC results are mainly due to the different lifetimes of the two alternatives. It can be concluded that if energy-intensive processes and chemicals are used in the production of the material, the extended lifetime must be sufficient to account for the additional impacts that occur during the production phase. [ABSTRACT FROM AUTHOR]

Published

2024

16. Determination of Abrasion Resistance and Adhesion of Varnishes with Various Ratios of Graphene Additive on Different Wood

Author

Özlem Bozdoğan Balçık, Turgay Özdemir, Semra Çolak, and İbrahim Yıldırım

Subjects

abrasion resistance, adhesion, beech, chestnut, graphene, spruce, yellow pine, Biotechnology, TP248.13-248.65

Abstract

Graphene was mixed with varnishes at different ratios and applied by spraying method on different cross-sections of various wood materials, and their wear and adhesion performances were determined. Graphene (0.25%, 0.50%, 1%); varnishes (water-based and polyurethane varnish) and wood materials (beech (Fagus orientalis Lipsky), chestnut (Castanea sativa Miller), yellow pine (Pinus sylvestris L.), and spruce (Picea orientalis (L.) Link.)) were used. Adhesion and abrasion tests were performed. A total of 480 test specimens were prepared, 5 specimens for each wood type, cross-sectional direction, graphene ratio, and varnish type for adhesion and abrasion tests. The adhesion of the samples was determined by ASTM D 4541-09E1 pull-off test and abrasion resistance was determined in accordance with ASTM 4060-10. The data obtained were statistically analyzed and the significance values within and between groups were determined. As a result, abrasion resistance and adhesion increased in graphene 2 (0.50%) in both varnish types.

Published

2024

17. How Well Can Sound Tomograms Characterize Inner-Trunk Defects in Beech Trees from a Burned Plot?

Author

Elena C. Mușat

Subjects

sound speeds in wood, tomogram, resistogram, relative resistances to drilling, beech, forest fires, romania, Biotechnology, TP248.13-248.65

Abstract

In recent years, forest fires have become increasingly common, but also more damaging phenomena. These aspects are reflected in significant economic losses that affect the quality and quantity of wood volumes that can be used for industrial processing. For this reason, knowing the quality of the wood is important, especially in fire-affected trees. Because visual analyses cannot always reflect the quality of the wood inside the trunk, the present research aimed to evaluate the extent to which modern techniques based on the transfer of sounds can identify internal wood defects. In this sense, 42 tomograms made from beech trees affected by a litter fire were compared with the relative resistances of the wood to drilling and with the real condition of the wood inside the trunk, as made visible through the growth cores taken with a Pressler drill. From the cumulative interpretation of the results, it was found that the trees affected by the fire have serious defects, which lead to the downgrading of the wood and are not reproduced by the tomograph to their true extent. Conversely, sound transfer speeds through wood are influenced by the presence of beech red heartwood, which leads to an increase in sound transfer speeds through wood, and that can alter the accuracy of the tomogram.

Published

2024

18. Intraspecific variation in leaf (poly)phenolic content of a southern hemisphere beech (Nothofagus antarctica) growing under different environmental conditions.

Author

Mattera, M. Gabriela, Gonzalez-Polo, Marina, Peri, Pablo L., and Moreno, Diego A.

Subjects

*NOTHOFAGUS, *CINNAMIC acid, *FOREST management, *SECONDARY metabolism, *PHENOLS, *BEECH, *PLANT phenols

Abstract

Nothofagus antarctica (G.Forst.) Oerst. (Ñire) leaves are a valuable source of (poly)phenolic compounds and represent a high-value non-timber product from Patagonian forests. However, information on the variability of their chemical profile is limited or non-existent. The aim of this study was to evaluate the (poly)phenolic variability in Ñire leaf infusions. To this end, different tree populations growing under different temperature regimes and soil characteristics were considered. Interestingly, a cup of Ñire leaf infusion could be considered as a rich source of quercetin. Significant differences in the (poly)phenolic content, especially in flavonoid conjugates and cinnamic acids, were found among the populations studied. These results suggest metabolic variability among the forests studied, which could be related to the species response to its growing conditions, and also provide some clues about the performance of N. antarctica under future climate scenarios. The N. antarctica forests growing in environments with lower frequency of cold and heat stress and high soil fertility showed better infusion quality. This study showed how a South American beech interacts with its local environment at the level of secondary metabolism. In addition, the information obtained is useful for defining forest management strategies in the Patagonian region. [ABSTRACT FROM AUTHOR]

Published

2024

19. 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

20. Intraspecific variation in photosynthetic thermal acclimation in Fagus crenata seedlings from two populations growing at different elevations in northern Japan.

Author

Akaji, Yasuaki, Torimaru, Takeshi, and Akada, Shinji

Subjects

*HEAT waves (Meteorology), *TWO-way analysis of variance, *STRUCTURAL equation modeling, *VAPOR pressure, *TREATMENT effectiveness, *ACCLIMATIZATION

Abstract

Plants can acclimate their photosynthesis to growth temperature, but the contribution of local adaptation to intraspecific variation in thermal acclimation of photosynthesis is not fully understood. Here, we experimentally investigated the photosynthetic thermal acclimation in Fagus crenata Blume seedlings from two populations growing at different elevations and temperature regimes (low- and high-elevation sites) in northern Japan. We acclimated seedlings for 14 to 23 days at daytime temperatures of either 22 °C (control) or 27 °C (warm treatment) and obtained photosynthetic temperature–response curves in the range of 19 to 32 °C. The optimum temperature of photosynthesis (T opt) was ~0.6 °C higher in seedlings acclimated at 27 °C than in those acclimated at 22 °C, and it was significantly lower in seedlings with higher stomatal sensitivity to leaf-to-air vapor pressure deficit than in those with lower sensitivity. The effects of warm treatment, population and treatment–population interaction on T opt were not significant in the two-way analysis of variance, but the effect of treatment became significant when stomatal sensitivity to leaf-to-air vapor pressure deficit was included as a covariate in the model. Structural equation modeling indicated that seedlings with lower root biomass had lower T opt because of the high stomatal sensitivity to leaf-to-air vapor pressure deficit. Structural equation modelling also indicated that the way of shifting the T opt differed between the two populations: seedlings from a high-elevation site depended on decreasing photosynthetic rates at low temperatures for the increase in T opt but seedlings from a low-elevation site did not. We suggest that the difference in thermal acclimation of photosynthesis between the two populations may reflect adaptation to different climate regimes and that belowground traits should be considered when investigating thermal acclimation capacity, especially in seedlings. [ABSTRACT FROM AUTHOR]

Published

2024

21. Forest composition shapes seed‐rodent interactions in a gradient of broadleaves and conifers.

Author

Mittelman, Pedro, Appleby, Scott M., and Balkenhol, Niko

Subjects

*ANIMAL population density, *EUROPEAN beech, *MAMMAL communities, *ANIMAL communities, *MIXED forests, *BEECH

Abstract

Non‐native tree species and mixed forests have been increasingly employed in forestry practice as a safeguard against climate change and as a tool to foster biodiversity while providing economic benefits. Though these changes in forest composition may affect animal communities and ecosystem processes, they are seldom studied through a plant–animal interaction perspective.Here we investigated how forests with varying proportions of a native broadleaf (Fagus sylvatica) and two conifers (introduced Pseudotsuga menziesii and native Picea abies) affect rodents and their interactions with seeds. We surveyed terrestrial small mammal communities, estimated species' densities, assessed seed preference by rodents, collected data on environmental variables (understory density and tree basal area), measured Fagus sylvatica seed production and tracked 1200 seeds of Fagus sylvatica in 20 different forest plots in northern Germany in a mast and non‐mast year for Fagus sylvatica.Forest composition influenced the interactions between rodents and seeds. In forests with a lower proportion of broadleaves, beech seeds were harvested faster and in greater quantities, had diminished survival and were less often cached. These results are in agreement with three other findings: (a) seed fate responded to the proportion of broadleaves and conifers irrespective of conifer tree identity, (b) rodents preferred nutritious beech seeds over small conifer seeds, and (c) higher proportions of seeds were harvested during the period when beech seeds were scarce (non‐mast year).Synthesis and applications: This work provides evidence of how forest composition can affect plant–animal interactions without necessarily altering animal communities or population densities. Specifically, we found no differences between forests with native and non‐native conifer trees regarding small mammal community, seed‐rodent interactions or seed fate. Furthermore, rodents may provide a service in mixed forests by primarily preying upon seeds of Fagus sylvatica, a superior‐competitive species, and thus mitigate beech dominance over conifer species. [ABSTRACT FROM AUTHOR]

Published

2024

22. Evaluation of Mechanical Properties and Surface Quality of Wood from Bosnia and Herzegovina Exposed to Outdoor Conditions.

Author

Hasanagić, Redžo, Šljivo, Umejr, Fathi, Leila, Gautam, Pallavi, Bahmani, Mohsen, and Humar, Miha

Subjects

BEECH, WOOD quality, SURFACE properties, FINGER joint, SILVER fir, WOOD

Abstract

This study investigated the mechanical properties of beech (Fagus sylvatica L.) and fir (Abies alba) wood from Bosnia and Herzegovina under outdoor exposure. Samples were exposed for 3-month exposure to assess bending strength, color changes, and surface quality. Results showed outdoor exposure negatively affected mechanical properties, particularly in samples with extended finger joints, causing significant surface cracks in uncoated samples. Beech wood exhibited notable color changes under exposure, with approximately 50% darkening without coating compared to 25% under covered conditions. Coated samples displayed minimal color changes, affirming the efficacy of surface treatment. Fir wood exhibited a roughness of 8.264 μm, while beechwood average roughness increased from 6.767 to 13.916 μm after exposure, with micro-pore development affecting water performance. Microscopic analysis identified prevalent fungal colonies, including Penicillium, Aureobasidium, Sclerophoma, and Chaetomium, underscoring their role in organic matter decomposition. This study highlights the importance of wood exposure and treatment selection for various applications. [ABSTRACT FROM AUTHOR]

Published

2024

23. Towards an objective assessment of tree vitality: a case study based on 3D laser scanning.

Author

Heidenreich, Marius G., Höwler, Kirsten, and Seidel, Dominik

Abstract

Key message: Analyzing fine branch length characteristics in beech trees using single-tree QSMs derived from laser scanning reveals insights into drought-induced changes in vitality, which include branch shedding and reduced shoot growth. Climate change causes increasing temperatures and precipitation anomalies, which result in deteriorations of tree health and declines in ecosystem services of forests. It is therefore crucial to monitor tree vitality to preserve forests and their functions. However, methods describing tree vitality in situ are lacking reproducibility or are too laborious. Thus, we tested a laser-scanning based approach, assuming that an objective measurement of a tree's outer shape should reveal changes according to tree vitality. QSMs of similarly sized beech trees from stands with varying degrees of drought damage were used. Absolute and relative fine branch lengths, their ratio to lower order branches' lengths and their progressions over relative height were targeted to identify fine branch dieback and reduced growth. The absolute fine branch length was significantly lower for less vital beech trees, especially within the upper crown, leading to a less top-heavy vertical distribution of fine branches and a reduced fine-to-base order branch length ratio. Hence, height-dependent characteristics of fine branch lengths differed between vitalities. We conclude that using fine branch length characteristics derived from QSMs can be helpful in vitality assessments of beech trees. Still, uncertainties with regard to the plotwise assessment and problems with QSM quality are present. [ABSTRACT FROM AUTHOR]

Published

2024

24. Characterization of Beech Wood Pellets as Low-Emission Solid Biofuel for Residential Heating in Serbia.

Author

Matijašević, Vasilije, Beňo, Zdeněk, Tekáč, Viktor, and Duong, Van Minh

Subjects

WOOD pellets, BIOMASS energy, AIR quality, BEECH, POLLUTANTS

Abstract

This study evaluated the suitability of two types of beech wood pellets as renewable, low-emission biofuel sources in order to combat the energy mix and poor air quality in Serbia. Key solid biofuel characteristics, including the heating values (18.5–18.7 MJ/kg), moisture content (5.54–7.16%), and volatile matter (82.4–84.4%) were assessed according to established standards. The elemental composition (mass fractions of 48.26–48.53% carbon, 6% hydrogen, 0.12–0.2% nitrogen, 0.02% sulfur, non-detected chlorine) and ash content (0.46–1.2%) demonstrated that the analyzed beech pellets met the criteria for high-quality classification, aligning with the ENplus A1 and ENplus A2 standards. The emissions of O2, CO2, CO, NOx, SO2, and TOC were quantified in the flue gas of an automatic residential pellet stove and compared with the existing literature. While combustion of the beech pellets yielded low emissions of SO2 (6 mg/m3) and NOx (188 mg/m3), the fluctuating CO (1456–2064 mg/m3) and TOC (26.75–61.46 mg/m3) levels were influenced by the appliance performance. These findings underscore the potential of beech wood pellets as a premium solid biofuel option for Serbian households, offering implications for both end-users and policymakers. [ABSTRACT FROM AUTHOR]

Published

2024

25. Unravelling the thermodynamic properties of soil ecosystems in mature beech forests.

Author

Barros, N., Popovic, M., Molina-Valero, J., Lestido-Cardama, Y., and Pérez-Cruzado, C.

Subjects

*THERMODYNAMICS, *THERMODYNAMIC functions, *SECOND law of thermodynamics, *SOILS, *BEECH

Abstract

Thermodynamics is a vast area of knowledge with a debatable role in explaining the evolution of ecosystems. In the case of soil ecosystems, this role is still unclear due to difficulties in determining the thermodynamic functions that are involved in the survival and evolution of soils as living systems. The existing knowledge is largely based on theoretical approaches and has never been applied to soils using thermodynamic functions that have been experimentally determined. In this study, we present a method for the complete experimental thermodynamic characterization of soil organic matter. This method quantifies all the thermodynamic functions for combustion and formation reactions which are involved in the thermodynamic principles governing the evolution of the universe. We applied them to track the progress of soil organic matter with soil depth in mature beech forests. Our results show that soil organic matter evolves to a higher degree of reduction as it is mineralized, yielding products with lower carbon but higher energy content than the original organic matter used as reference. These products have higher entropy than the original one, demonstrating how the soil ecosystem evolves with depth, in accordance with the second law of thermodynamics. The results were sensitive to soil organic matter transformation in forests under different management, indicating potential applicability in elucidating the energy strategies for evolution and survival of soil systems as well as in settling their evolutionary states. [ABSTRACT FROM AUTHOR]

Published

2024

26. The Use of Beech Bark (Latin: Fagus sylvatica) and Birch Bark (Latin: Betula pendula Roth) for the Removal of Cationic Dyes from Aqueous Solutions.

Author

Filipkowska, Urszula, Jóźwiak, Tomasz, Filipkowska, Magdalena, and Deptuła, Magdalena

Subjects

EUROPEAN white birch, BASIC dyes, EUROPEAN beech, SORPTION, SORBENTS, BEECH

Abstract

The aim of this work was to determine the sorption capacity of the cationic dyes Basic Red 46 (BR46) and Basic Violet 10 (BV10) on the prepared sorbents: beech bark (BBe) and birch bark (BBi). Two fractions of bark were used in the research: fine (2–3 mm) and coarse (4–5 mm). The carried out tests made it possible to determine the influence of the pH value on the sorption efficiency, the sorption equilibrium time and the maximum sorption capacity of the two tested sorbents. The Langmuir model and the Freundlich model were used to describe the obtained experimental data. Beech and birch barks are effective sorbents for cationic dyes; however, the efficiency of dye sorption on both bark sorbents depends on the type of cationic dye. According to the obtained data, beech and birch bark sorbents showed higher sorption efficiency for Basic Red 46 than for Basic Violet 10. The pH correction was a necessary condition for sorption, and the sorption pH value for the cationic dyes Basic Red 46 and Basic Violet 10 was be determined individually for each dye. The most favourable pH value for the sorption of the BR46 dye on the beach and birch bark sorbents was pH = 6, while for the dye BV10, it was pH = 3. The sorption equilibrium time for Basic Red 46 was 300 min and for Basic Violet 10–240 min. The fine fraction of beech bark had the highest sorption capacity for both BR46 (128.45 mg/g dry matter) and BV10 (18.07 mg/g dry matter). [ABSTRACT FROM AUTHOR]

Published

2024

27. RECENT STRUCTRUAL CHANGES, SPECIES COMPOSITION AND INTERACTION IN AN OLD-GROWTH FOREST - AN EXAMPLE FROM BJELAŠNICA MT.

Author

ČILAŠ, Mehmed and VIŠNJIĆ, Ćemal

Subjects

*EUROPEAN beech, *FOREST resilience, *SILVER fir, *TREE growth, *FOREST biodiversity, *BEECH

Abstract

This study examines the structural dynamics and species composition of the "Ravna Vala" old-growth forest on Bjelašnica Mountain, focusing on neighborhood effects on tree growth. Data from a permanent 1-hectare plot, measured 2012 and 2023, revealed that silver fir (Abies alba Mill.) constitutes nearly 73% of the total volume, while beech (Fagus sylvatica L.) dominates in tree numbers. The forest displays a reverse J-curve pattern, with significant mortality in smaller diameter classes. Using indices for species intermingling, aggregation, and competition, the study found that diameter at breast height (dbh) and the aggregation index significantly influenced growth, especially for silver fir and beech. Additional factors like the mixing index and competition index were significant for beech growth. These results underscore the complexity of species interactions and the importance of tailored management strategies. Future research should explore factors limiting fir regeneration and the link between disturbances and beech recruitment. Management practices that mimic natural disturbances, such as creating larger gaps, are recommended to enhance species diversity and forest resilience. [ABSTRACT FROM AUTHOR]

Published

2024

28. Home-field advantage of litter decomposition differs among leaves, absorptive roots, and transport roots.

Author

Zhao, Xiaoxiang, Tian, Qiuxiang, Michelsen, Anders, Lin, Qiaoling, Yuan, Xudong, Chen, Long, Lu, Mengzhen, Jiang, Qinghu, Zhao, Rudong, and Liu, Feng

Subjects

*HOME field advantage (Sports), *ALNUS glutinosa, *CRYPTOMERIA japonica, *BEECH

Abstract

Background and aims: Home-field advantage (HFA) in litter decomposition occurs widely in terrestrial ecosystems, but it remains unknown that how leaf, absorptive and transport roots differ in their HFA. Here we conducted a 635-day litter transplant (leaves, absorptive roots, and transport roots) decomposition experiment, using three tree species (Cyclobalanopsis multinervis, Fagus lucida, Cryptomeria japonica), in a subtropical forest to explore their differences in HFA effects. Results: The mass loss of leaves was higher than that of absorptive and transport roots. The mass loss of fine roots differed among species. Leaves were more prone to exhibit significant HFA compared to absorptive and transport roots, and absorptive roots were more prone to exhibit significant HFA compared to transport roots. The HFA effect was not explained by the initial chemical characteristics of litter except C concentration. Conclusions: These findings suggest that HFA effect can occur in labile and recalcitrant litters and are generally not regulated by the initial chemical characteristics. Absorptive and transport roots exhibit different HFA patterns, highlighting the need to identify the effects of HFA on root decomposition by functional classification rather than diameter class to gain a better understanding of fine root decomposition. [ABSTRACT FROM AUTHOR]

Published

2024

29. 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

30. Physical and mechanical properties of different beech wood species grown at various climate conditions: a review.

Author

Ghorbanian Far, Mohammad, Najafian Ashrafi, Mohammad, Shaabani Asrami, Hooman, Amiri Moghadam, Yaser, Bari, Ehsan, Niemz, Peter, Hosseinpourpia, Reza, and Ribera, Javier

Subjects

*WOOD, *BEECH, *EVIDENCE gaps, *CLIMATE change, *SOIL composition

Abstract

Beech wood, renowned for its diverse applications spanning construction, flooring, furniture, veneer, and plywood, holds a paramount position among industrial wood species. Nevertheless, the myriad of beech species worldwide, coupled with the dynamic impact of climate change, have produced structural variations within beech trees. Extensive research has scrutinized the physical and mechanical attributes of beech wood species across the globe. Findings reveal distinguishable mechanical strength, yet increased density leads to notable rates of shrinkage and swelling, somewhat constraining its utility in select domains. Identifying research gaps can create new efforts aimed at exploiting the potential of these wood resources. This paper outperforms a mere exploration of beech wood properties over the past two decades; it delves into the ramifications of climatic fluctuations, temperature shifts, wind dynamics, and soil composition. Given the lack of a comprehensive compendium documenting the full range of physical, mechanical, and microscopic attributes of the Fagus genus, this paper aims to compile information that integrates this multifaceted information. [ABSTRACT FROM AUTHOR]

Published

2024

31. A Comparison of Co-Occurrence of Special Forms of Selected Metals in Soil, on the Example of Sycamore, Beech, and Spruce Forest Complexes in Urbanized and Non-Urbanized Regions of Tatra National Park.

Author

Paprotny, Łukasz, Kwapuliński, Jerzy, Wianowska, Dorota, Gnatowski, Maciej, Kasprzyk-Pochopień, Joanna, and Piekoszewski, Wojciech

Subjects

*METROPOLITAN areas, *NATIONAL parks & reserves, *ATOMIC absorption spectroscopy, *BEECH, *SYCAMORES, *SPRUCE

Abstract

One of the most important issues considered in ecotoxicology is the elevated accumulation of different elements in soil as a consequence of anthropogenic activities. In this paper, determination of nine elements in soil obtained from three different forest complexes (sycamore, beech, and spruce) in urbanized and non-urbanized regions of Tatra National Park is presented. Additionally, a comprehensive presentation of detailed results of correlation analyses between individual elements in accordance to each valley, as well as to selected species of trees, is shown. Speciation studies included chemical forms of the following elements: Fe, Mn, Zn, Cu, Pb, Cd, Ni, Cr, Co. Soil extracts were obtained in accordance with Rudd’s methodology and all species were determined using atomic absorption spectrophotometry (AAS). The study compares the content of selected chemical forms (exchangeable and adsorbed, organic solutions and carbonates) of chosen metals in soil of four valleys of Tatra National Park: Chochołowska, Strążyska, Mała Łąka, and Kościeliska. The first three (group A) are considered as non-urbanized areas, whereas the last four (group B), on the account of many home fireplaces located there, as urbanized areas. [ABSTRACT FROM AUTHOR]

Published

2024

32. Indicators of restoration in beech stands after air pollution: trees and macromycetes.

Author

Barna, Milan and Mihál, Ivan

Subjects

*AIR pollution, *BEECH, *AIR pollutants, *CROWNS (Botany), *DEAD trees, *TREES, *MOUNTAIN forests, *AIR sampling

Abstract

The aluminium smelter in Žiar nad Hronom has operated since 1953. As a result, the surrounding area is now one of the most polluted regions in Slovakia. Since the implementation of new production and filtration technologies in 1996, the amount of emissions has significantly decreased. Our aim was to evaluate the long-term restoration of an environment that has been damaged by fluorine-based air pollutants. We analysed the contamination of forest ecosystems in three beech stands at various distances from the emission source (2, 7, and 18 km). Signs of restoration in adult beech trees were observed through a decrease in defoliation and a reduction in the necrotic disease of the bark in tree crowns. However, the impacts of air pollution on ectomycorrhizal associations persist. In the reduced number of ectomycorrhizal fungal species (16 species in the polluted stand compared to 38 species in the control stand), the low representation of sensitive fungal orders (Cantharellales, Gomphales, and Boletales), and the indices of species richness and heterogeneity (Hill, Margalef, Simpson, and Shannon–Weaver). In some respects, the findings indicate that the beech ecosystem is capable of revitalization within 25 years after a reduction in air pollution. However, much more sensitive indicators of successful restoration, compared to the characteristics of the trees, are the communities of macromycetes. [ABSTRACT FROM AUTHOR]

Published

2024

33. Increased tree water use with the development of a dense understory layer in a North American hardwood forest.

Author

Rasoanaivo, Arielle, Mekontchou, Claudele Ghotsa, Rochon, Pascal, Nolet, Philippe, and Maheu, Audrey

Subjects

MAPLE, SUGAR maple, MAPLE sugar, BEECH, FOREST canopies

Abstract

The formation of a single species, recalcitrant understory vegetation layer can limit tree regeneration and, in the long term, modify the composition of forests. Few studies have investigated how recalcitrant vegetation influences competition for water resources although the formation of a dense understory is likely to modify the forest water balance. In eastern North American hardwood forests, the development of a dense understory layer of American beech (Fagus grandifolia) has been observed in stands dominated by sugar maple (Acer saccharum), a phenomenon that shares many characteristics associated with recalcitrant vegetation. Given that water availability is generally negatively correlated with stand density, we hypothesized that the formation of a dense understory beech layer increased competition for water resources, thus leading to reduced water use by sugar maple trees in beech‐dominated stands. Using thermal dissipation sensors, we measured sap flux density (Fd) of two sugar maple trees at three beech‐dominated sites and three control sites. During the growing season, Fd of sugar maple trees was significantly larger at beech‐dominated sites compared to control sites, indicating a greater rate of water use by sugar maples in stands with a dense understory beech layer. We provide two hypotheses to explain our results at the tree scale: (i) reduced cover by forest floor vegetation could limit transpiration by this layer, thus allowing increased water availability to supply transpiration by overstory trees, or (ii) increased tree transpiration rate could be a mechanism to satisfy nutrient requirements in beech‐dominated stands often associated with lower soil fertility. [ABSTRACT FROM AUTHOR]

Published

2024

34. THE USE OF MORPHOLOGICAL TRAITS OF EUROPEAN BEECH (Fagus sylvatica L.) SEEDLINGS FOR SELECTION OF REPRODUCTIVE MATERIAL FROM THE PROVENANCES LIKELY AFFECTED BY CLIMATE CHANGE.

Author

POPOVIĆ, Vladan, VEMIĆ, Aleksandar, RAKONJAC, Ljubinko, JOVANOVIĆ, Sanja, HADROVIĆ, Sabahudin, and LUČIĆ, Aleksandar

Subjects

EUROPEAN beech, CLIMATE change, TREE growth, BEECH, SEEDLINGS

Abstract

Copyright of Journal of Forestry Society of Croatia / Sumarski List Hrvatskoga Sumarskoga Drustva is the property of Forestry Society of Croatia 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

35. Comparative Understory Development in Fenced and Unfenced Beech Forest Stands in the Southern Alps.

Author

Bovio, Ernesto Renato, Richard, Jacopo, Iacopino, Simone, Campagnaro, Thomas, and Sitzia, Tommaso

Subjects

FOREST regeneration, FOREST dynamics, RED deer, SILVER fir, EUROPEAN beech

Abstract

This study examines the impact of ungulate browsing on the understory dynamics of the Cansiglio Forest, the only European beech high forest in the Southern Limestone Alps. Utilizing seven pairs of fenced versus unfenced forest stands established over two decades, we assessed how fencing affects understory structure and tree regeneration. Significant differences were found in cover, height and vascular species composition in both tree regeneration and shrub layers. Fenced areas showed a significantly higher number and greater average height of young trees, supporting the hypothesis that ungulate browsing negatively impacts tree regeneration. Despite previous studies attributing the lack of silver fir (Abies alba Mill.) regeneration primarily to red deer (Cervus elaphus Linnaeus, 1758) browsing, our findings did not show a significant association of this species with fenced conditions. While Rubus abundance was higher inside fenced areas, overall vascular species richness did not differ. Our results highlight the evident effects of ungulate browsing and suggest the need to consider other factors influencing forest regeneration and understory development. Future research should establish additional study replicates, balanced across diverse site and stand structure conditions, to further explore these dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

36. Recover of Soil Microbial Community Functions in Beech and Turkey Oak Forests After Coppicing Interventions.

Author

Picariello, Enrica and De Nicola, Flavia

Subjects

*MICROBIAL communities, *FOREST management, *COPPICE forests, *FOREST biodiversity, *MICROBIAL diversity, *BEECH, *SOILS

Abstract

Forest management influences the occurrence of tree species, the organic matter input to the soil decomposer system, and hence, it can alter soil microbial community and key ecosystem functions it performs. In this study, we compared the potential effect of different forest management, coppice and high forest, on soil microbial functional diversity, enzyme activities and chemical-physical soil properties in two forests, turkey oak and beech, during summer and autumn. We hypothesized that coppicing influences soil microbial functional diversity with an overall decrease. Contrary to our hypothesis, in summer, the functional diversity of soil microbial community was higher in both coppice forests, suggesting a resilience response of the microbial communities in the soil after tree cutting, which occurred 15–20 years ago. In beech forest under coppice management, a higher content of soil organic matter (but also of soil recalcitrant and stable organic carbon) compared to high forest can explain the higher soil microbial functional diversity and metabolic activity. In turkey oak forest, although differences in functional diversity of soil microbial community between management were observed, for the other investigated parameters, the differences were mainly linked to seasonality. The findings highlight that the soil organic matter preservation depends on the type of forest, but the soil microbial community was able to recover after about 15 years from coppice intervention in both forest ecosystems. Thus, the type of management implemented in these forest ecosystems, not negatively affecting soil organic matter pool, preserving microbial community and potentially soil ecological functions, is sustainable in a scenario of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

37. Quantitative analysis of commercial coating penetration into Fagus crenata wood using X-ray microtomography.

Author

Ekaputri, Tyana Solichah and Tanaka, Takashi

Subjects

*X-ray computed microtomography, *WOOD, *BEECH, *SURFACE coatings, *WOOD chemistry, *IMAGE reconstruction

Abstract

Recent advances in wood treatment include the use of eco-friendly coatings to improve the wood's dimensional stability and appearance. Assessing coating performance during its service life is critical for establishing a knowledge base for product optimization. Numerous approaches, including microimaging, are available for analyzing coating behavior. In addition to conventional microscopic techniques, high-resolution X-ray microtomography is a tool that provides nondestructive imaging of coatings and their substrates. In this study, we performed two-dimensional (2D) and three-dimensional (3D) visualization of tomographic reconstruction images of two coating types, spray and brush, to observe and assess the distribution of several commercial Japanese coating materials in Fagus crenata. X-ray images and plot profiles were used to determine the penetration depths and thicknesses of coatings. Each coated sample was scanned using X-ray microtomography, which allowed successful visualization and quantification of the coating penetration depth. Chemical content and concentration of the coating materials influenced penetration depth and amount. [ABSTRACT FROM AUTHOR]

Published

2024

38. 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

39. The influence of hillslope topography on beech water use: a comparative study in two different climates.

Author

Fabiani, Ginevra, Klaus, Julian, and Penna, Daniele

Subjects

WATER use, TOPOGRAPHY, BEECH, EUROPEAN beech, MARINE west coast climate

Abstract

Understanding the interrelation between topography and vegetation across different environments is important to assess how hydrological and climatic conditions affect tree physiological activity. This becomes especially important given the expected reduction in water availability and the increase in water demand driven by climate change. These extremes could enhance the thermal and hydrologic gradients along slopes. Here, we aimed to test if and how different climatic and hydrological conditions affect the physiological response of beech trees (Fagus sylvatica L.) to environmental variables along two different topographic sequences. For this purpose, we set up a comparative study on a gentle hillslope in the Weierbach catchment in Luxembourg (oceanic climate) and on a steep hillslope in the Lecciona catchment in Italy (Mediterranean climate). We combined sap velocity measurements with isotopic measurements of soil, precipitation, stream water, groundwater, and xylem over 2019 and 2020 for the Luxembourgish site and over 2021 for the Italian site. We found that, in the Weierbach catchment, trees' responses to environmental variables (i.e. vapour pressure deficit and relative extractable water in the soil) were similar among hillslope positions and between the two monitored years, resulting from homogeneous growing conditions along the topographic sequence. We also did not find any statistical difference in the isotopic composition of xylem water between positions, suggesting that beech trees relied on similar water sources across the landscape. In the Lecciona catchment, we observed lower sap velocities and shorter growing season in trees growing in the upper portions of the hillslope, likely related to water redistribution and different soil moisture along the hillslope catena. Xylem isotopic composition was significantly lighter at the footslope location throughout the growing season than in the upslope locations, suggesting location-specific water use. These results emphasize how differing hydrometeorological processes occurring at the hillslope scale can lead to contrasting tree responses. [ABSTRACT FROM AUTHOR]

Published

2024

40. William Frederick Denning: Grand Amateur and Doyen of British Meteor Astronomy.

Author

Orchiston, Wayne

Subjects

*METEORS, *ASTRONOMY, *BEECH

Abstract

This book review examines "William Frederick Denning: Grand Amateur and Doyen of British Meteor Astronomy" by Martin Beech, which delves into the life and accomplishments of William Frederick Denning, an amateur astronomer who made significant contributions to meteor astronomy in the late 19th and early 20th centuries. The book explores Denning's controversial beliefs and his involvement in the development of meteor astronomy, as well as his other astronomical interests such as telescope-making and observations of planets and comets. The review emphasizes Denning's impact on the field and his international recognition as a prominent figure in meteor astronomy. The text also discusses the work of Denning's contemporary, Tebbutt, and the rise of professional astronomers during this time period. It highlights the importance of amateur astronomers and their contributions to the field, making it a recommended read for those interested in meteor astronomy. [Extracted from the article]

Published

2024

41. 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

42. Mast seeding in European beech (Fagus sylvatica L.) is associated with reduced fungal sporocarp production and community diversity.

Author

Michaud, Talia J., Pearse, Ian S., Kauserud, Håvard, Andrew, Carrie J., and Kennedy, Peter G.

Subjects

*EUROPEAN beech, *NUTRIENT cycles, *ECTOMYCORRHIZAL fungi, *FUNGAL communities, *SOIL fungi, *ECOSYSTEMS, *SEEDS, *ALNUS glutinosa, *BEECH

Abstract

Mast seeding is a well‐documented phenomenon across diverse forest ecosystems. While its effect on aboveground food webs has been thoroughly studied, how it impacts the soil fungi that drive soil carbon and nutrient cycling has not yet been explored. To evaluate the relationship between mast seeding and fungal resource availability, we paired a Swiss 29‐year fungal sporocarp census with contemporaneous seed production for European beech (Fagus sylvatica L.). On average, mast seeding was associated with a 55% reduction in sporocarp production and a compositional community shift towards drought‐tolerant taxa across both ectomycorrhizal and saprotrophic guilds. Among ectomycorrhizal fungi, traits associated with carbon cost did not explain species' sensitivity to seed production. Together, our results support a novel hypothesis that mast seeding limits annual resource availability and reproductive investment in soil fungi, creating an ecosystem 'rhythm' to forest processes that is synchronized above‐ and belowground. [ABSTRACT FROM AUTHOR]

Published

2024

43. Ecotypic variation in multiple traits of European beech: selection of suitable provenances based on performance and stability.

Author

Liepe, Katharina J., van der Maaten, Ernst, van der Maaten-Theunissen, Marieke, Kormann, Jonathan M., Wolf, Heino, and Liesebach, Mirko

Subjects

*EUROPEAN beech, *REGRESSION trees, *FOREST management, *ENVIRONMENTAL refugees, *PHENOTYPIC plasticity, *BEECH

Abstract

Induced by climate change associated disturbances and further promoted by changes in forest management, the proportion of European beech, a highly competitive climax species, is increasing in Central Europe. However, its climatic stability is questioned by the recent loss of vitality. In this regard, the evaluation of seed sources used for reforestation receives great attention. Here, we present a multi-trait evaluation of height, basal area and stem quality assessed over 25 years for 85 provenances grown at three sites in northern, western and eastern Germany. Considerable provenance differentiation exists, explaining 21% (proportion of trees with acceptable stem form) to 45% (basal area) of the variance on single sites and 20 to 39% across sites, while provenance by environment interactions are absent. On the landscape level, this results in distinct patterns with spatially adjacent provenances showing a similar trait expression. These patterns are highly similar for height and basal area but divergent for stem form. They could be directly linked to geographic variables with multivariate regression tree analysis that captured 58% of the phenotypic variation, delineating eleven 'ecotypes' shaped by local adaptation. A selection based on two multi-trait indices gives highly concordant results. Particularly, the intermediate elevations of the central highlands in Western Germany host highly suitable provenances. Lower elevation provenances from continental climates in the south-east profit from the transfer to favorable growing conditions. Since the majority of provenances was already exposed to elevated temperatures compared to their origin during the observation period, this study gives a first indication for the potential benefits of assisted migration facing climate change. [ABSTRACT FROM AUTHOR]

Published

2024

44. Effects of the nematode Litylenchus crenatae subsp. mccannii and beech leaf disease on leaf fungal and bacterial communities on Fagus grandifolia (American beech).

Author

Burke, David J., Carrino-Kyker, Sarah R., Hoke, Adam J., Galloway, Emily, Martin, Danielle, and Chick, Lacy

Subjects

*FUNGAL communities, *BACTERIAL communities, *MYCOSES, *OPPORTUNISTIC infections, *NEMATODES, *MICROORGANISMS, *BEECH

Abstract

Beech leaf disease (BLD) is a newly emerging disease in North America that affects American beech (Fagus grandifolia). It is increasingly recognized that BLD is caused by a subspecies of the anguinid nematode Litylenchus crenatae subsp. mccannii (hereafter L. crenatae), which is likely native to East Asia. How nematode infestation of leaves affects the leaf microbiome and whether changes in the microbiome could contribute to BLD symptoms remain uncertain. In this study, we examined bacterial and fungal communities associated with the leaves of F. grandifolia across nine sites in Ohio and Pennsylvania that were either symptomatic or asymptomatic for BLD and used qPCR to measure relative nematode infestation levels. We found significantly higher levels of infestation at sites visibly symptomatic for BLD. Low levels of nematode infestation were also observed at asymptomatic sites, which suggests that nematodes can be present without visible symptoms evident. Bacterial and fungal communities were significant ly affected by sampling site and symptomology, but only fungal communities were affected by nematode presence alone. We found many significant indicators of both bacteria and fungi related to symptoms of BLD, with taxa generally occurring in both asymptomatic and symptomatic leaves, suggesting that microbes are not responsible for BLD but could act as opportunistic pathogens. Of particular interest was the fungal genus Erysiphe, which is common in the Fagaceae and is reported to overwinter in buds --a strategy consistent with L. crenatae. The specific role microbes play in opportunistic infection of leaves affected by L. crenatae will require additional study. [ABSTRACT FROM AUTHOR]

Published

2024

45. MECHANICAL PROPERTIES OF L-TYPE CORNER JOINTS CONNECTED WITH 3D PRINTED CONNECTORS USING FUSED DEPOSITION MODELLING TECHNOLOGY.

Author

NICOLAU, Antoniu and COŞEREANU, Camelia

Subjects

*POLYLACTIC acid, *FUSED deposition modeling, *HARD materials, *COMPRESSION loads, *EUROPEAN beech, *BEECH

Abstract

The paper presents the study of L-type corner joint between three wooden elements connected with a 3D printed connector obtained by applying fused filament fabrication (FFF) method as additive manufacturing and black polylactic acid (PLA) filament as material. The solid wood elements are made of beech (Fagus Sylvatica L.) and their jointing simulates the connection between leg and two stretchers (rail) of a chair. The corner joints with 3D printed connectors were subjected to mechanical testing under tensile and compression loads and the results were compared with those of the classical mortise-tenon jointed assembly of the same components, considered as the reference one. The results have shown that the assembly with the 3D printed connector was more resistant to tensile load than the reference, but couldn't reach the performance of the classical mortise-tenon joint when it was subjected to compression load. The analysis of the defects occurred in the connectors after mechanical testing revealed a good interlayer adhesion, but fractures in the structure of the PLA material, specific to hard and breakable materials. Instead, the wooden elements were less affected in this case compared with the classical joints, where large fractures of wooden components occurred, both for the leg and stretcher elements. The conclusion is that the 3D printed connector protects the wooden components from breaking in case of applying tensile and compression loads, being the first affected by the stresses occurred in the joint. [ABSTRACT FROM AUTHOR]

Published

2024

46. TÜRK KÜLTÜRÜNDE KAYIN AĞACININ MADDİ KÜLTÜR UNSURLARINA YANSIMASI.

Author

GÖHER, Fatma Nur and SELÇUK, Hava

Abstract

Copyright of Journal of Cultural Studies / Kültür Araştırmaları Dergisi is the property of Journal of Cultural Studies / Kultur Arastirmalari Dergisi 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

47. Isıl İşlemli Kontrplaklarda Mekanik Özellikler.

Author

GÜLER, Cengiz and YEŞİLDAĞ, Ramazan

Abstract

Copyright of Düzce University Journal of Forestry / Düzce Üniversitesi Orman Fakültesi Ormancılık Dergisi is the property of Duzce University 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

48. Preparation and Characterization of Cinnamon–Clove Compound Essential Oil Microcapsules/Graphene Oxide/Polyvinyl Alcohol/Polylactic Acid Composite Films for White Beech Mushrooms Packaging.

Author

Zhang, Haoran, Sun, Weijing, and Xu, Shuyan

Subjects

POLYLACTIC acid, ESSENTIAL oils, POLYVINYL alcohol, GRAPHENE oxide, FOOD packaging, BEECH

Abstract

This work developed a novel, environmental, and safe cinnamon–clove compound essential oil microcapsules/graphene oxide/polyvinyl alcohol/polylactic acid (CCCEOM/GO/PVA/PLA) composite films for the fresh-keeping packaging of white beech mushrooms and investigated the effects of essential oils and nano-fillers on prolonging food shelf life. Herein, PVA and PLA were blended to reduce the water solubility and improve the mechanical properties of the composites. The lamellar GO, a nucleating agent, was prepared using the modified Hummer method. Clove and cinnamon essential oils have been blended to obtain composite essential oils with better antibacterial activity and encapsulated in beta-cyclodextrin (β-CD) to produce CCCEOM, a sustained-release antibacterial agent. The CCCEOM/GO/PVA/PLA composites were fabricated by integrating GO and CCCEOM into the PVA/PLA matrix, and the morphology, water solubility, optical properties, mechanical properties, thermal stability, and oxygen permeability of the composites were characterized. It was found that the composites demonstrated significant antibacterial activity against Mucor and Aspergillus niger, low water solubility (0.009%), high light transmittance (84.63%), as well as excellent tensile strength (42.29 MPa), and oxygen transmission rate (82.65 cm3/(m2·24 h·0.1 MPa)) with the addition of 0.20 wt% GO and 10 wt% CCCEOM. Moreover, the results of the preservation experiment demonstrate that it can also maintain the quality of white beech mushrooms to some extent and prolong their shelf life for 4 days at 4 °C, which also provides support for their application in food packaging. [ABSTRACT FROM AUTHOR]

Published

2024

49. Changes in carbon stocks according to stand development stages in oriental beech forests in the Marmara Region of Türkiye.

Author

Güner, Şükrü Teoman, Kiracioğlu, Özgür, and Sarimehmetoğlu, Abdullah

Subjects

BEECH, FOREST management, TREE age, CARBON, CARBON in soils, SOIL sampling

Abstract

This study was conducted to determine the changes in carbon stocks of oriental beech (Fagus orientalis) according to stand development stage in the Marmara Region of Türkiye. For this purpose, sample plots were taken from a total of 32 areas encompassing four stand development stages (young, middle age, mature and overmature stand). The diameter at breast height and height of all trees in the sample plots were measured, and only three dominant trees's ages per plot were determined. Aboveground carbon stock was calculated using equations developed for beech forests, while the coefficients in the Agriculture, Forestry and Other Land Use guide were used to determine belowground carbon stocks. A soil pit was dug in each plot and soil samples were taken at different depths (0–10, 10–30, 30–60, 60–100 cm). In addition, litters were sampled from four different 25 × 25 cm sections in each plot, and then the physical and chemical properties of the soil and litters were analysed. The variations in carbon stocks in above- and below-ground tree mass, litter and soil, and in ecosystem carbon stocks according to development stage were examined by analysis of variance and Duncan test, and the relationships between the carbon stocks were investigated by correlation analysis. Aboveground (AG) and belowground (BG) tree, soil and ecosystem carbon stocks showed significant differences between the four stand development stages (P < 0.05), but not the litter carbon stocks (P > 0.05). AG and BG tree and ecosystem carbon stocks increased with progressive stand development stages, while the soil carbon stock was the highest at the young stage. These findings will contribute to the preparation of forest management plans and the national greenhouse gas inventory. [ABSTRACT FROM AUTHOR]

Published

2024

50. Homogenization of the Color of Beech Sapwood and False Heartwood by the Steaming Process.

Author

Dzurenda, Ladislav and Dudiak, Michal

Subjects

HEARTWOOD, NOTHOFAGUS, COLOR space, BEECH, STEAM, EUROPEAN beech

Abstract

This work presents the results of the homogenization of the color of sapwood and false heartwood Fagus sylvatica L. into a uniform color shade due to the influence of the temperature of saturated moist air and saturated water steam in individual steaming modes. The results of analyses of the influence of temperature within 24 h point out the different changes in the color of the sapwood and the wood of the false heartwood when the uniform color of the beech wood is achieved by the steaming process. By steaming beech wood with a false heartwood saturated with moist air at a temperature of tI = 95 °C during τ = 24 h, the color of the sapwood does not merge with the color of the wood of the false heartwood. The sapwood darkens and, on the other hand, the wood of the false heartwood slightly lightens, while the significant color contrast is removed, but the color homogenization in the individual zones does not occur. The unification of the colors in individual zones occurs during the steaming process at a temperature of saturated water steam tII ≈ 105 °C in 18 h, where the resulting brown color is identified in the color space CIE L*a*b* by the values of the lightness L* = 61.3 ± 2.2 and of the red color a* = 12.4 ± 1.3 and yellow color b* = 19.5 ± 1.4. The most pronounced homogenization of the color occurs through the steaming process at a temperature of saturated water steam tIII ≈ 120 °C, where the wood acquires a uniform dark brown–gray color in a time of τ ≈ 9 h steaming. The coordinates of the color-homogenized steamed beech wood are L* = 55.9 ± 1.9, a* = 12.3 ± 1.2, and b* = 19.6 ± 1.3. The unification of the colors by the steaming process is achieved by darkening both the sapwood and the wood of the false heartwood. In the overall color homogenization, the sapwood and the wood of the false heartwood do not participate equally in the steaming process. While the total color difference between the sapwood and a color homogenized state is quantified by the value ∆EtI* = 8, ∆EtIII* = 22.7, the total color difference in the wood with a false heartwood is only ∆EtI* = 1.9, ∆EtIII* = 11.8. [ABSTRACT FROM AUTHOR]

Published

2024