Your search keyword '"ALNUS incana"' showing total 802 results

1. Vertical root profiles of grey alder (Alnus incana) trees growing in highly disturbed river environments.

Author

Stamer, Matteo, Gurnell, Angela M., and Bertoldi, Walter

Subjects

ALDER, BLACK poplar, TENSILE architecture, SEDIMENTATION & deposition, TENSILE strength, ALNUS glutinosa

Abstract

The ability of plants to colonize the fluvial environment and withstand uprooting by floods is largely controlled by the anchoring effect of roots. We characterized the root architecture and tensile strength of Alnus incana, a riparian tree species of the Betulaceae family for which there are no systematic observations of its vertical root structure. Four A. incana individuals and two nearby Populus nigra 3–10 years old growing on bars in gravel‐bed rivers were excavated. Their root structure was characterized in terms of root diameter, age, and depth and was related to sediment grain size and scour or deposition by floods. Root tensile strength was also measured as a function of root diameter using a load cell and displacement transducer attached to individual roots. The architecture of A. incana roots differed from that of nearby P. nigra, as all roots were in fine, sandy sediments, growing in one or more dense radial layers of which the most prominent was 0.2–0.3 m below the surface. The layers reflect deposition of fine sediments during floods. New fine sediment deposits promote the growth of a new root layer close to the aggraded ground surface. Root tensile strength was similar to Salicaceae species. These observations indicate that A. incana colonizes habitats that have already received fine sediment deposition, most likely induced by other young plants, especially Salicaceae species. A. incana then provides a high near‐surface root biomass, potentially further stabilizing surfaces and playing a complementary role as an ecosystem engineer. [ABSTRACT FROM AUTHOR]

Published

2024

2. Riparian Forests of Alnus Species Communities and Their Role in Sustainability in the Romanian Carpathians and Adjacent Regions.

Author

Mogîldea, Daniela, Sahlean, Tiberiu C., and Biță-Nicolae, Claudia

Abstract

Alnus riparian communities are important for ecological stability. Data on Alnus species were gathered from herbaria and literature, revealing that 54.39% of the information refers to Alnus glutinosa, 39.42% to Alnus incana, and 6.18% to Alnus pubescens. This information highlights the widespread occurrence of A. glutinosa and A. incana, as described in distribution maps, contrasting with the more limited range of the hybrid A. pubescens. Principal component analysis (PCA), utilizing standardized factors, was carried out on 217 relevés of the communities of the studied species. In these relevés, we identified a total of 169 plant species, categorized as herbaceous (83%), trees (11%), and shrubs (6%). Three distinct forest communities, Stellario nemorum-Alnetum glutinosae, Alnetum incanae, and Telekio speciosae-Alnetum incanae, emerged from relevé groups. The distribution maps of the three taxa were overlaid on maps of the region's protected areas, revealing a substantial presence of these taxa within the protected zones. The research aims to highlight the sustainability and conservation importance of Alnus communities in the Romanian Carpathians, to contribute to ongoing conservation efforts and promote the viability and resilience of these ecologically important wetland habitats. [ABSTRACT FROM AUTHOR]

Published

2024

3. A Geometric Morphometrics Approach to the Study of Natural Variations and Hybrid Detection in Populations of Alnus incana (L.) Moench and Alnus rohlenae Vít, Douda and Mandák.

Author

Marković, Milena, Vidaković, Vera, and Popović, Zorica

Subjects

ALDER, GEOMETRIC approach, ALNUS glutinosa, FISHER discriminant analysis, HYBRID zones, DISCRIMINANT analysis

Abstract

Landmark-based geometric morphometrics (GM) was used to examine, for the first time, spontaneous hybridization between Alnus incana (L.) Moench and Alnus rohlenae Vít, Douda and Mandák, and to assess inter- and intrapopulation variability in leaf shape, leaf size and venation in natural populations in Serbia (Western Balkans). Two geographically distant (30 km) and two close (1.2 km) populations were selected to examine hybridization. The variability in leaf shapes was assessed by canonical variate analysis and linear discriminant analysis performed on the symmetric component of variation. Covariation between the symmetric component of shape variation and the number of pairs of secondary leaf veins was investigated with partial least squares analysis. Static allometry was examined for the first time in the genus Alnus Mill. A higher proportion of A. incana leaves was classified as A. rohlenae in geographically close populations, which is in accordance with the hypothesis about spontaneous hybridization. No single leaf of A. rohlenae was classified as A. incana, indicating that putative hybrids can only be found in grey alder populations. This study demonstrates that GM is a powerful tool for species delimitation and hybrid detection in the genus Alnus and it can be used for preliminary screening in hybrid zones. [ABSTRACT FROM AUTHOR]

Published

2024

4. Phytosanitary assessment of black and grey alder stands in Latvia.

Author

Kļaviņa, Dārta, Striķe, Zane, Ciseļonoka, Laima, Lekavičs, Jānis, Burņeviča, Natālija, Pāruma, Kristīne, Saulīte-Berene, Dace, Rudāns, Edgars, and Gaitnieks, Tālis

Subjects

*ALNUS glutinosa, *ALDER, *DIEBACK, *PHYTOPHTHORA, *TREES

Abstract

Black alder Alnus glutinosa (L.) Gaertn. and grey alder Alnus incana (L.) Moench, cover up to 11% of the forest area in Latvia. As alder dieback caused mainly by Phytophthora has been reported in several countries, we aimed to assess the distribution of Phytophthora-like symptomatic alders in Latvia and surveyed 208 alder-dominated forest stands. Symptomatic alders were found in 28% of stands, and in 8% of stands, the infected tree proportion comprised more than 10% of trees. Pocket Diagnostics® tests confirmed Phytophthora or other oomycete infection in 13% of stands, mainly in Central and Eastern Latvia. Trees that tested positive were mainly grey alder (1.0% of the overall number of surveyed grey alders), and fewer black alders tested positive (0.2% of the overall number of surveyed black alders). Grey alder had a significantly higher probability of having symptoms at both the stand level (probability 0.429) and the individual tree level (probability 0.017) in comparison to black alder (probabilities 0.185 and 0.004, respectively). In conclusion, alders with Phytophthora-like symptoms were found throughout the territory of Latvia, however, infection risk for the economically important tree species black alder is low. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Geometric Morphometrics Approach to the Study of Natural Variations and Hybrid Detection in Populations of Alnus incana (L.) Moench and Alnus rohlenae Vít, Douda and Mandák

Author

Milena Marković, Vera Vidaković, and Zorica Popović

Subjects

Alnus incana, Alnus rohlenae, geometric morphometrics, hybridization, leaf allometry, leaf morphology, Botany, QK1-989

Abstract

Landmark-based geometric morphometrics (GM) was used to examine, for the first time, spontaneous hybridization between Alnus incana (L.) Moench and Alnus rohlenae Vít, Douda and Mandák, and to assess inter- and intrapopulation variability in leaf shape, leaf size and venation in natural populations in Serbia (Western Balkans). Two geographically distant (30 km) and two close (1.2 km) populations were selected to examine hybridization. The variability in leaf shapes was assessed by canonical variate analysis and linear discriminant analysis performed on the symmetric component of variation. Covariation between the symmetric component of shape variation and the number of pairs of secondary leaf veins was investigated with partial least squares analysis. Static allometry was examined for the first time in the genus Alnus Mill. A higher proportion of A. incana leaves was classified as A. rohlenae in geographically close populations, which is in accordance with the hypothesis about spontaneous hybridization. No single leaf of A. rohlenae was classified as A. incana, indicating that putative hybrids can only be found in grey alder populations. This study demonstrates that GM is a powerful tool for species delimitation and hybrid detection in the genus Alnus and it can be used for preliminary screening in hybrid zones.

Published

2024

6. Mycelial growth of Inonotus obliquus on malt extract media and on wood of different host species.

Author

Adamson, Kalev, Kütt, Karin, Vester, Marili, Jürimaa, Katrin, Silm, Maidu, and Drenkhan, Rein

Subjects

*WOOD, *EUROPEAN white birch, *SCENEDESMUS obliquus, *ALNUS glutinosa, *SPECIES, *MALT, *MALTING, WOOD density

Abstract

Interest in the cultivation of mushrooms, including medicinal mushrooms like Chaga (Inonotus obliquus) has increased in recent years. To provide commercial cultivators with vigorous and productive strains of I. obliquus, 38 strains were isolated from the conks in Estonia and Finland. The growth rates of these isolates were determined on Malt Extract Agar (MEA), and on wood sticks of Betula pendula, B. pubescens, Alnus incana and A. glutinosa. Growth rates differed for the various isolates, depending on temperature as well as substrate. On the MEA at 9°C the fastest-growing strain of I. obliquus was PAT21061, at 18°C PAT22871 and at 22°C PAT21058. On B. pendula, the I. obliquus strain, PATKJ180 had the highest growth rate; on B. pubescens, PAT21061; on A. glutinosa, PATKA880; and on A. incana, PATKA2679 exhibited the highest growth rate. But the growth rate characteristics of I. obliquus were not correlated with the host species origin of the fungus isolate. Still, the ability of strains to form conks is unknown and needs to be tested in vivo. Because I. obliquus grows faster in Betula wood than Alnus, the use of Betula wood for producing inoculation dowels is recommended in order to shorten the production time. [ABSTRACT FROM AUTHOR]

Published

2023

7. Variation in the Basic Density of the Tree Components of Gray Alder and Common Alder.

Author

Liepiņš, Kaspars, Liepiņš, Jānis, Ivanovs, Jānis, Bārdule, Arta, Jansone, Līga, and Jansons, Āris

Subjects

FOREST density, ALNUS glutinosa, ALDER, WOOD density, WOOD, COMMUNITY forests

Abstract

Species-specific basic density (BD) data are necessary to improve the indirect methods of biomass determination. The density of tree components (e.g., bark, branches, roots) is studied much less than that of stem wood. Nevertheless, ignoring the specific BD values of these components in biomass calculations can lead to errors. The study aims to investigate BD variation of aboveground and belowground tree components by studying a total of 162 gray alder (Alnus incana (L.) Moench) and common alder (Alnus glutinosa (L.) Gaertn.) trees. From them, 55 stumps were excavated to determine the BD of the belowground components. Our findings reveal that the volume-weighted BD of the stem (wood and bark) and the branch density of common alder are higher compared to gray alder. Both species have similar bark density, while the BD of belowground components is higher for gray alder. The stem wood density of both species increases upward from the stump to the top. Compared to gray alders, the stems of common alders have more distinct radial within-stem density variation. According to our results, the application of default Alnus spp. wood density values recommended in the IPCC guidelines for the calculation of total biomass and carbon stock is likely causing overestimation. The BD values obtained in our study on alders' biomass components will allow for more accurate appraisals of total biomass and carbon stock for gray and common alder forests. [ABSTRACT FROM AUTHOR]

Published

2023

8. Comparative Analyses of Bioactive Compounds in Inonotus obliquus Conks Growing on Alnus and Betula.

Author

Drenkhan, Rein, Kaldmäe, Hedi, Silm, Maidu, Adamson, Kalev, Bleive, Uko, Aluvee, Alar, Erik, Mart, and Raal, Ain

Subjects

*ALDER, *BIOACTIVE compounds, *BIRCH, *BETULINIC acid, *SCENEDESMUS obliquus, *EUROPEAN white birch, *ALNUS glutinosa

Abstract

Inonotus obliquus grows in the Northern Hemisphere on some living broadleaved tree species as a pathogen, causing stem rot. In Estonia, the fungus is well known in the Betula species but can also be found on Alnus. Sterile conks of I. obliquus contain different bioactive compounds, but the quantitative and comparative research of these compounds in conks on different host species is limited. In the current work, I. obliquus was isolated and, evidently, determined from Alnus incana (L.) Moench., Alnus glutinosa (L.) Gaertn., and Betula pendula Roth, and the content of bioactive compounds in conks on these hosts were analysed. All the analysed conks sampled from A. incana and B. pendula contained betulin that varied from 111 to 159 µg/g. A significantly (p < 0.05) higher betulinic acid content was found in conks sampled from A. incana when compared with B. pendula: 474–635 and 20–132 µg/g, respectively. However, the conks from Betula were richer in total polyphenols, flavonols, and glucans. The content of inotodiol was quite similar in the conks from A. incana (7455–8961 µg/g) and B. pendula (7881–9057 µg/g). Also, no significant differences in the lanosterol content were found between the samples from these two tree species. To the best of our knowledge, this study is the first investigation of the chemical composition of I. obliquus parasitizing on Alnus. The results demonstrate that the bioactive compounds are promising in conks of I. obliquus growing not only on Betula but also on the Alnus species. It supports the opportunity to cultivate I. obliquus, also on the Alnus species, thus increasing the economic value of growing this tree species in forestry. [ABSTRACT FROM AUTHOR]

Published

2022

9. An investigation of Inonotus obliquus in Estonia: Its distribution, abundance of conks, rot extent in infected trees, and peculiarities of basidiospore dispersal.

Author

Adamson, Kalev, Vester, Marili, Kütt, Karin, Riit, Taavi, Padari, Allar, Jürimaa, Katrin, and Drenkhan, Rein

Subjects

ALNUS glutinosa, EUROPEAN white birch, FOREST landowners, TREES, SCENEDESMUS obliquus, BIRCH, WOOD

Abstract

Inonotus obliquus , a well-known forest fungal pathogen, started gaining attention for its potential medicinal uses. Known as Chaga, the fungus has become prominent due to the bioactive compounds present in its conks. Forest owners are cultivating it to produce conks as a source of non-timber profit. However, not much is known about the natural occurrence of this pathogen, its formation of conks, the extent of decay in the infected trees, and the distribution of its basidiospores. Across 80 forest stands in Estonia dominated by Betula pendula, B. pubescens, Alnus incana, and A. glutinosa , the conks of I. obliquus were documented in 17 stands. The conks were more common in continental Estonia compared to the western islands. Among 800 randomly chosen trees, I. obliquus conks were documented on ten trees. Additionally, an asymptomatic I. obliquus infection was detected in one tree. After two years of spore trapping, I. obliquus basidiospores were detected only on four occasions, between the end of July and the beginning of September, and only at night. The proportion of rot damage in the total volume of model tree wood ranged from 8.6% to 58.5%. For fast and reliable detection of I. obliquus , TaqMan species-specific qPCR primers were developed and tested. • The rot damage caused by I. obliquus ranged from 8.6% to 58.5% of the host tree volume. • obliquus propagates its basidiospores only at night. • The basidiospores were released from the end of July to the beginning of September. • The conks of I. obliquus are equally likely to be found in Betula and Alnus stands. • 1.25% of host trees were having I. obliquus conks. [ABSTRACT FROM AUTHOR]

Published

2024

10. Variation in the Basic Density of the Tree Components of Gray Alder and Common Alder

Author

Kaspars Liepiņš, Jānis Liepiņš, Jānis Ivanovs, Arta Bārdule, Līga Jansone, and Āris Jansons

Subjects

Alnus glutinosa, Alnus incana, biomass estimation, hemiboreal forests wood specific gravity, Plant ecology, QK900-989

Abstract

Species-specific basic density (BD) data are necessary to improve the indirect methods of biomass determination. The density of tree components (e.g., bark, branches, roots) is studied much less than that of stem wood. Nevertheless, ignoring the specific BD values of these components in biomass calculations can lead to errors. The study aims to investigate BD variation of aboveground and belowground tree components by studying a total of 162 gray alder (Alnus incana (L.) Moench) and common alder (Alnus glutinosa (L.) Gaertn.) trees. From them, 55 stumps were excavated to determine the BD of the belowground components. Our findings reveal that the volume-weighted BD of the stem (wood and bark) and the branch density of common alder are higher compared to gray alder. Both species have similar bark density, while the BD of belowground components is higher for gray alder. The stem wood density of both species increases upward from the stump to the top. Compared to gray alders, the stems of common alders have more distinct radial within-stem density variation. According to our results, the application of default Alnus spp. wood density values recommended in the IPCC guidelines for the calculation of total biomass and carbon stock is likely causing overestimation. The BD values obtained in our study on alders’ biomass components will allow for more accurate appraisals of total biomass and carbon stock for gray and common alder forests.

Published

2023

11. REDUCTION OF WOOD BASIC DENSITY IN DECAYED GREY ALDER STEMS.

Author

LIEPIŅŠ, Jānis, BLEIVE, Alise, LAZDIŅŠ, Andis, and LIEPIŅŠ, Kaspars

Subjects

*FOREST biomass, *WOOD decay, *ALDER, WOOD density

Abstract

This pilot study aims to estimate the impact of the internal stem decay on wood basic density in grey alder stems. Accurate estimates of stem biomass are crucial in reducing the uncertainty in the estimation of forest stand biomass. The density data were obtained from 21 decayed trees and from 15 healthy trees as reference sampled in five forest stands in Latvia. In total, the densities of 401 intact wood, 212 discoloured wood and 117 spongy rot specimens were measured obtained from the cross-cut discs of sampled trees. The Kruskal Wallis test was used to determine the statistically significant differences between mean values of intact wood, discoloured wood and spongy rot basic density. Our analysis revealed that mean basic density of intact wood differed significantly (p < 0.01) from the mean values of discoloured wood – 361.3 kg m-3 and spongy rot – 240.9 kg m-3 suggesting that decrease in wood density due to the internal decay must be taken into account for the stem biomass calculations. Our findings indicate that spongy rot incidence varied strongly between individual forest stands, from 2.4% – 80.9%. Other studies have confirmed that not only the density but also the carbon content of wood varies by its decomposition process. [ABSTRACT FROM AUTHOR]

Published

2021

12. First Documentation of Life Cycle Completion of the Alien Rust Pathogen Melampsoridium hiratsukanum in the Eastern Alps Proves Its Successful Establishment in This Mountain Range.

Author

Moricca, Salvatore, Benigno, Alessandra, Oliveira Longa, Claudia Maria, Cacciola, Santa Olga, and Maresi, Giorgio

Subjects

*ALNUS incana, *EUROPEAN larch, *PATHOGENIC fungi, *SCANNING electron microscopy

Abstract

Melampsoridium hiratsukanum is an alien rust fungus which has spread pervasively throughout several European countries following introduction into North Europe at the end of the 20th century. The authenticity of several records of the Melampsoridium species infecting alder (Alnus spp.) in the northern hemisphere is questionable, due to the misidentification and confusion that surround many of the older reports. Given this complicated taxonomic history, and since a M. hiratsukanum-like rust is strongly impacting Alnus incana stands in the Alps, probably affecting the bank protection role of this species along rivers, the unambiguous identification of this pathogen was a pressing epidemiological and ecological issue. In this study, field surveys, light (LM) and scanning electron microscopy (SEM), and molecular characterization were put together in an attempt to solve the conundrum. Field monitoring data, LM and SEM analyses of key taxonomic traits (length of ostiolar cells of uredinium, uredinio-spore shape and size, spore echinulation, number and position of germ pores) and ITS-rDNA sequence-based identification, convergently and unambiguously connected the rust that is causing the current epidemic to the non-native M. hiratsukanum. We documented the completion of the M. hiratsukanum life cycle on its two taxonomically unrelated broadleaf/conifer hosts. This is the first report of M. hiratsukanum from naturally infected Larix decidua in Europe. [ABSTRACT FROM AUTHOR]

Published

2021

13. Comparative Analyses of Bioactive Compounds in Inonotus obliquus Conks Growing on Alnus and Betula

Author

Rein Drenkhan, Hedi Kaldmäe, Maidu Silm, Kalev Adamson, Uko Bleive, Alar Aluvee, Mart Erik, and Ain Raal

Subjects

betulinic acid, betulin, inotodiol, lanosterol, α- and β-glucan, Alnus incana, Microbiology, QR1-502

Abstract

Inonotus obliquus grows in the Northern Hemisphere on some living broadleaved tree species as a pathogen, causing stem rot. In Estonia, the fungus is well known in the Betula species but can also be found on Alnus. Sterile conks of I. obliquus contain different bioactive compounds, but the quantitative and comparative research of these compounds in conks on different host species is limited. In the current work, I. obliquus was isolated and, evidently, determined from Alnus incana (L.) Moench., Alnus glutinosa (L.) Gaertn., and Betula pendula Roth, and the content of bioactive compounds in conks on these hosts were analysed. All the analysed conks sampled from A. incana and B. pendula contained betulin that varied from 111 to 159 µg/g. A significantly (p < 0.05) higher betulinic acid content was found in conks sampled from A. incana when compared with B. pendula: 474–635 and 20–132 µg/g, respectively. However, the conks from Betula were richer in total polyphenols, flavonols, and glucans. The content of inotodiol was quite similar in the conks from A. incana (7455–8961 µg/g) and B. pendula (7881–9057 µg/g). Also, no significant differences in the lanosterol content were found between the samples from these two tree species. To the best of our knowledge, this study is the first investigation of the chemical composition of I. obliquus parasitizing on Alnus. The results demonstrate that the bioactive compounds are promising in conks of I. obliquus growing not only on Betula but also on the Alnus species. It supports the opportunity to cultivate I. obliquus, also on the Alnus species, thus increasing the economic value of growing this tree species in forestry.

Published

2022

14. Extending the conceptual model of river island development to incorporate different tree species and environmental conditions.

Author

Gurnell, Angela M. and Bertoldi, Walter

Subjects

CONCEPTUAL models, RIPARIAN plants, BLACK poplar, RIVER engineering, ASEXUAL reproduction, VECTOR spaces

Abstract

Riparian vegetation survival and establishment in gravel‐bed rivers depends on the balance between vegetation growth and flood disturbance. We present four examples of vegetation and landform development in gaps (linear open spaces) between established islands and/or floodplain within a reach of the middle Tagliamento River, Italy. Gaps offer shelter to vegetation, supporting higher colonization success and different vegetation‐landform evolution pathways. Time sequences of aerial images track vegetation development over 30 years in the four gaps. In combination with the flood disturbance time series, we interpret vegetation dynamics and identify the fate of sexual and asexual reproduction strategies by observing vegetation expansion from lines of young plants and shrubs and from uprooted deposited trees and pioneer islands, respectively. Analysis of image sequences reveals common features across the four gaps that are generalized to extend a conceptual model of island development. Growing conditions, disturbance energy and time (window of opportunity) between major floods are the main controls on vegetation colonization. These vary among rivers, among reaches along the same river and locally, as in the investigated gaps, allowing different tree species with different life history traits (e.g., Populus nigra, Alnus incana) to engineer local river landforms in different and complementary ways. Although the conceptual model is inspired by observations on the Tagliamento River, consideration of species life history traits and the joint influences of growing conditions, disturbance energy and windows of opportunity provide a framework that may be applied to other temperate rivers where trees drive landform development. [ABSTRACT FROM AUTHOR]

Published

2020

15. Physical engineering of an island‐braided river by two riparian tree species: Evidence from aerial images and airborne lidar.

Author

Bertoldi, Walter and Gurnell, Angela M.

Subjects

RIVER engineering, RIPARIAN plants, RIVER channels, BLACK poplar, GROUND vegetation cover, STREAMFLOW

Abstract

Following a review of the European distribution, habitat requirements and life history characteristics of two riparian tree species, Alnus incana (L.) Moench (grey alder, a member of the Betulaceae family) and Populus nigra L. (black poplar, a member of the Salicaceae family), we explore their changing spatial distribution and topographic position within a 7 km, island braided reach of the Tagliamento River, Italy, where Populus nigra dominates the woody vegetation cover. Combining field observations and information extracted from aerial images, airborne lidar data and river flow time series for the period 1986–2017, we investigate (a) the changing spatial distribution of all (P. nigra‐dominated) woody vegetation and of A. incana alone; (b) whether river bed topography can be associated with these changing spatial distributions and (c) we consider whether A. incana displays any particular characteristics in its spatial and topographic distribution that may indicate that it is complementing the physical engineering role of P. nigra. We show that A. incana predominantly grows in lines along channel, island and floodplain edges, bordering wooded areas dominated by P. nigra and that areas supporting A. incana are associated with the topographic development of the river bed. We conclude that A. incana appears to be acting as a complementary physical engineer to P. nigra, suggesting that similar complementary physical engineering of river beds may be achieved by species with different life history traits to influence landform development in other river environments. [ABSTRACT FROM AUTHOR]

Published

2020

16. First Documentation of Life Cycle Completion of the Alien Rust Pathogen Melampsoridium hiratsukanum in the Eastern Alps Proves Its Successful Establishment in This Mountain Range

Author

Salvatore Moricca, Alessandra Benigno, Claudia Maria Oliveira Longa, Santa Olga Cacciola, and Giorgio Maresi

Subjects

alder rust, Alnus incana, Larix decidua, morphological and molecular characterization, life cycle completion, invasive pathogen, Biology (General), QH301-705.5

Abstract

Melampsoridium hiratsukanum is an alien rust fungus which has spread pervasively throughout several European countries following introduction into North Europe at the end of the 20th century. The authenticity of several records of the Melampsoridium species infecting alder (Alnus spp.) in the northern hemisphere is questionable, due to the misidentification and confusion that surround many of the older reports. Given this complicated taxonomic history, and since a M. hiratsukanum-like rust is strongly impacting Alnus incana stands in the Alps, probably affecting the bank protection role of this species along rivers, the unambiguous identification of this pathogen was a pressing epidemiological and ecological issue. In this study, field surveys, light (LM) and scanning electron microscopy (SEM), and molecular characterization were put together in an attempt to solve the conundrum. Field monitoring data, LM and SEM analyses of key taxonomic traits (length of ostiolar cells of uredinium, uredinio-spore shape and size, spore echinulation, number and position of germ pores) and ITS-rDNA sequence-based identification, convergently and unambiguously connected the rust that is causing the current epidemic to the non-native M. hiratsukanum. We documented the completion of the M. hiratsukanum life cycle on its two taxonomically unrelated broadleaf/conifer hosts. This is the first report of M. hiratsukanum from naturally infected Larix decidua in Europe.

Published

2021

17. Diurnal Tree Stem CH4 and N2O Flux Dynamics from a Riparian Alder Forest

Author

Thomas Schindler, Katerina Machacova, Ülo Mander, Jordi Escuer-Gatius, and Kaido Soosaar

Subjects

Alnus incana, day–night pattern, greenhouse gases, hemiboreal forest, radiation, soil fluxes, Plant ecology, QK900-989

Abstract

Tree stems play an important role in forest methane (CH4) and nitrous oxide (N2O) flux dynamics. Our paper aimed to determine the unknown diurnal variability of CH4 and N2O exchange in grey alder tree stems. The gas fluxes in tree stems and adjacent soil were measured using manual static and dynamic chamber systems with gas chromatographic and laser-spectroscopic analysis, respectively. The alder trees were predominant emitters of CH4 and N2O; however, N2O emission from stems was negligible. The soil mainly emitted N2O into the atmosphere and was both a source and sink of CH4, depending on environmental conditions. Neither the tree stems nor the riparian forest soil showed significant differences in their CH4 and N2O fluxes between the daytime and nighttime, independently of the exchange rates. In contrast to several previous studies revealing a diurnal variability of greenhouse gas fluxes from tree stems, our investigation did not show any clear daytime–nighttime differences. On the other hand, we found quite clear seasonal dynamics initiated by changing environmental conditions, such as temperature and soil water conditions and tree physiological activity. Our results imply a transport role of tree stems for soil-produced CH4 and N2O rather than the production of these gases in tree tissues, even though this cannot be excluded.

Published

2021

18. Soil respiration and nitrogen leaching decreased in grey alder (Alnus incana (L.) Moench) coppice after clear-cut.

Author

Aosaar, Jürgen, Varik, Mats, Becker, Hardo, Morozov, Gunnar, Aun, Kristiina, Kukumägi, Mai, Padari, Allar, and Uri, Veiko

Subjects

*SOIL respiration, *COPPICE forests, *NITROGEN in soils, *ALDER, *LEACHING, *FOREST soils

Abstract

Grey alder (Alnus incana) is a highly productive indigenous tree species, potential for short-rotation forestry in the Baltic and Nordic countries. The aim of the study was to investigate the development of a new forest generation, as well as the nitrogen (N) and carbon (C) storages and fluxes in a grey alder regenerating coppice (COP) after clear-cut and in an adjacent unharvested 21-year-old stand (MAT), which had reached its bulk maturity. The regeneration of COP was rapid and 5 years after clear-cut, stem mass was 6.4 t ha−1. The nitrogen demand of the aboveground part of the 5-year-old COP trees was estimated to be roughly half of the corresponding value for MAT, depending mostly on leaf production. The annual N leaching flux in MAT was in the range of 16–29 kg ha−1, the corresponding values for COP were roughly half of that. Net nitrogen mineralization did not differ significantly between MAT (117 kg ha−1) and COP (129 kg ha−1). For the soil respiration study, a 32-year-old grey alder stand growing at a similar site was included; soil respiration was significantly higher in MAT compared to COP in all study years in both studied stands. [ABSTRACT FROM AUTHOR]

Published

2019

19. PARTICULARITIES OF GREY ALDER (ALNUS INCANA) STANDS IN RIPARIAN GALLERIES ALONG STREAMS OF THE SOUTHERN TRANSYLVANIAN TABLELAND (ROMANIA).

Author

SCHNEIDER-BINDER, Erika

Subjects

*ALNUS incana, *PLATEAUS, *SEDIMENTARY rocks, *RIVERS

Abstract

Grey Alder (Alnus incana (L.) Moench.) stands are distributed in the Carpathian area on alluvial deposits with sediments of different grain size as galleries along rivers and streams of the sub-montane to the middle montane level. The geological structure (Tertiary sedimentary deposits) in relation to the hydromorphological processes is the base for the structure of the stream valleys, which are in part very deep. Under the special microclimate of these deeper stream stretches with lower temperatures there are favourable conditions for the development of grey alder stands. [ABSTRACT FROM AUTHOR]

Published

2019

20. Fine root biomass and the associated C and nutrient pool under the alder (Alnus spp.) plantings on reclaimed technosols.

Author

Świątek, Bartłomiej, Woś, Bartłomiej, Chodak, Marcin, Maiti, Subodh Kumar, Józefowska, Agnieszka, and Pietrzykowski, Marcin

Subjects

*PLANT biomass, *CARBON content of plants, *PLANT roots, *ALDER, *PLANT nutrition, *ALNUS incana

Abstract

Abstract In the study we have analysed the increment of fine-root biomass (FRBI) and the associated pool of carbon and nutrients (N, S, P, K, Ca, Mg, Na) under alder plantings (Alnus incana, A. glutinosa and A. viridis) growing on technosols developed from combustion wastes and extremely poor quaternary sands excavated by sand mining. The control sites were located in natural habitats in the Bieszczady Mountains within the natural range of the occurrence of the investigated alder species. The fine root biomass depended on the type and properties of the technosols substrate but did not differ between the alder species. The highest fine root biomass (>1000 g m−2) was found in the nutrient-poor sandy soils (SS) of a former sand pit, whereas technosols formed from combustion waste was <301 g m−2, and the lowest (below 264 g m−2) was in natural soils. The results indicate an important role of fine roots in the development of the carbon and nutrient pools in technosols. This is particularly important in the case of barren sandy soils where a deficit of nutrients is balanced by an efficient circulation and release of elements in the decomposition process of dead organic matter, largely connected to the fine roots biomass. Highlights • The amount of nutrients supplied to the soil by fine roots is significant. • The highest was reported on sandy soils. • The lowest fine root biomass increment on natural soils • The fine root biomass increment depended on the type of soil substrate. • The fine root biomass increment did not differ between the alder species. [ABSTRACT FROM AUTHOR]

Published

2019

21. Long-term dynamics of leaf and root decomposition and nitrogen release in a grey alder (Alnus incana (L.) Moench) and silver birch (Betula pendula Roth.) stands.

Author

Morozov, Gunnar, Aosaar, Jürgen, Varik, Mats, Becker, Hardo, Lõhmus, Krista, Padari, Allar, Aun, Kristiina, and Uri, Veiko

Subjects

*FOREST litter decomposition, *EFFECT of nitrogen on plants, *ALNUS incana, *EUROPEAN white birch, *PLANT roots, *FOREST soils, *LEAVES

Abstract

The decomposition of the leaf litter, fine roots (d < 2 mm) and coarser roots (2 ≤ d < 5 mm) of grey alder and silver birch, as well as of α-cellulose sheets using the litterbag method was studied in two experimental stands on Podzoluvisol soils in Southern Estonia. For both tree species, the coarser roots decomposed faster than the fine roots, (p < .05), tree species did not affect the decomposition rate of the roots (p > .5). The nitrogen (N) input to soil from aboveground litter was multiple times higher than the N flux from roots. The remaining relative ash-free mass of the leaves of grey alder and silver birch after three and a half years was similar. After 11 years the remaining relative ash-free mass of the fine and coarser roots of grey alder still accounted for around 10% of the initial value. For silver birch the remaining value was around 20% after 9 years. The litterbag method to underestimates in fertile soils the decomposition of organic matter and thus did not reflect the actual dynamics of decomposition. [ABSTRACT FROM AUTHOR]

Published

2019

22. Oregonin from Alnus incana bark affects DNA methyltransferases expression and mitochondrial DNA copies in mouse embryonic fibroblasts.

Author

Krasilnikova, Jelena, Lauberte, Liga, Stoyanova, Elena, Abadjieva, Desislava, Chervenkov, Mihail, Mori, Mattia, De Paolis, Elisa, Mladenova, Vanya, Telysheva, Galina, Botta, Bruno, and Kistanova, Elena

Subjects

*ALNUS incana, *GENE expression, *DNA methyltransferases, *MITOCHONDRIAL DNA, *LABORATORY mice, *FIBROBLASTS

Abstract

Oregonin is an open-chain diarylheptanoid isolated from Alnus incana bark that possesses remarkable antioxidant and anti-inflammatory properties, inhibits adipogenesis, and can be used in the prevention of obesity and related metabolic disorders. Here, we aimed to investigate the effects of oregonin on the epigenetic regulation in cells as well as its ability to modulate DNA methylating enzymes expression and mitochondrial DNA (mtDNA) copies. Our results show that oregonin altered the expression of DNA methyltransferases and mtDNA copy numbers in dependency on concentration and specificity of cells genotype. A close correlation between mtDNA copy numbers and mRNA expression of the mtDnmt1 and Dnmt3b was established. Moreover, molecular modeling suggested that oregonin fits the catalytic site of DNMT1 and partially overlaps with binding of the cofactor. These findings further extend the knowledge on oregonin, and elucidate for the first time its potential to affect the key players of the DNA methylation process, namely DNMTs transcripts and mtDNA. [ABSTRACT FROM AUTHOR]

Published

2018

23. Inter- and intraspecific variability of selected diarylheptanoid compounds and leaf morphometric traits in Alnus glutinosa and Alnus incana.

Author

Vidaković, Vera, Stefanović, Milena, Novaković, Miroslav, Jadranin, Milka, Popović, Zorica, Matić, Rada, Tešević, Vele, and Bojović, Srdjan

Subjects

*ALNUS glutinosa, *ALNUS incana, *ETHANOL, *LIQUID chromatography, *TANDEM mass spectrometry, *MULTIPLE correspondence analysis (Statistics)

Abstract

The reliability of diarylheptanoids as chemotaxonomic markers at inter- and intraspecific levels has been investigated. Six diarylheptanoids were quantified in bark ethanol extracts of four Alnus spp. populations by ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). The populations described here as locus classicus Alnus glutinosa (I) and locus classicus Alnus incana (III) are clearly differentiated. Compared to population I, individuals in population III have higher extract yields and hirsutanonol-5-O-β-D-glucopyranoside content and lower contents of hirsutanonol, rubranoside A and oregonin. Individuals from neighboring populations of A. glutinosa (II) and A. incana (IV) share similar contents of hirsutanonol. All the studied populations exhibit a high intrapopulation variability of the selected diarylheptanoids; they have a heterogeneous chemotype and they partially overlap. The geographical proximity of populations II and IV increases their chemical similarity. Principal component analysis (PCA) clearly shows that the biggest dispersion of individuals lies within population IV. The reason for its heterogeneity might be its physical proximity to population II, i.e. the appearance of hybrids. Also, geometric morphometrics of leaves was performed as a screening criterion for spontaneous hybrids. [ABSTRACT FROM AUTHOR]

Published

2018

24. Tree size as a determinant of recovery of birch (Betula pendula and B. pubescens) and grey alder (Alnus incana) trees after cutting and inoculation with Chondrostereum purpureum.

Author

Hamberg, Leena and Hantula, Jarkko

Subjects

*TREE size, *BIRCH, *ALNUS incana, *CYPHELLACEAE, *FUNGAL diseases of plants

Abstract

We investigated the ability of birch ( Betula pendula Roth. and B. pubescens Ehrh.) and grey alder ( Alnus incana (L.) Moench) trees of different sizes to recover after cutting and artificial infection with a common decay fungus, Chondrostereum purpureum (Pers. Ex Fr.) Pouzar. In birch, resistance to C. purpureum was initially highest among stumps of 13 cm diameter but by the end of the experiment almost all stumps were dead, whereas in grey alder mortality happened more slowly than in birch and was the same across the size range of stumps. After two growing seasons when almost all the original stumps were dead due to fungal infection, alder root suckers developed around small alder stumps, showing a high level of compensation compared to birch. These results indicate that birch and alder have different strategies for survival after biocontrol treatment. [ABSTRACT FROM AUTHOR]

Published

2018

25. Not one but three: undetected invasive Alnus species in northwestern Patagonia confirmed with cpDNA and ITS sequences.

Author

Calviño, Carolina I., Edwards, Priscila, Fernández, Martina, Relva, María Andrea, and Ezcurra, Cecilia

Abstract

Species of Alnus (alders) have become invaders in several parts of the world. Here we report the presence of three naturalized alien species: A. glutinosa, A. incana and A. rubra from several populations in nature reserves of northwestern Patagonia, an area of remarkably high biodiversity. Alnus glutinosa had been cited previously for Chile and southern Argentina, but A. incana and A. rubra are here reported for the first time. As we found morphological variation within and among the populations of these introduced species that makes their discrimination difficult, we used chloroplast (trnH-psbA) and nuclear ribosomal (ITS) DNA sequences to confirm their identifications from morphological characteristics. Results from nuclear and chloroplast sequence data confirm the morphological tentative identification of the three species and remark the utility of molecular information together with morphology for the detection of introduced species of taxonomically difficult groups. The invasive characteristics of these alien tree species are discussed in relation to the conservation of the nature reserves where they are found. [ABSTRACT FROM AUTHOR]

Published

2018

26. Significance of diarylheptanoids for chemotaxonomical distinguishing between Alnus glutinosa and Alnus incana.

Author

Vidaković, Vera, Novaković, Miroslav, Popović, Zorica, Janković, Milan, Matić, Rada, Tešević, Vele, and Bojović, Srdjan

Subjects

*ALNUS glutinosa, *ALNUS incana, *MASS spectrometry, *ALDER, *NUCLEAR spectroscopy

Abstract

Diarylheptanoids are a group of secondary metabolites widely distributed in the Betulaceae family and characteristic for Alnus species. In this study, the chemotaxonomic power of diarylheptanoids, such as hirsutanonol-5-O-β-d-glucopyranoside, rubranoside A, oregonin, platyphylloside, alnuside A and hirsutanonol, has been investigated in combination with principal component analysis (PCA) for differentiation of Alnus species. Concentrations of six diarylheptanoids in the bark extracts of two natural populations of Alnus glutinosa (black alder) and Alnus incana (gray alder) were determined by ultraperformance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). PCA clearly shows the separation of three groups. Populations I (A. glutinosa) and II (A. incana) both consisted of individuals of the corresponding species. Four individuals from both sampled populations formed a separate group (population III), which possibly represents a hybrid group. Accordingly, diarylheptanoids may serve in combination with PCA as chemotaxonomic markers at the species level, which may also reveal hybrid species. [ABSTRACT FROM AUTHOR]

Published

2018

27. Clear-cutting impacts nutrient, carbon and water exchange parameters in woody plants in an east Fennoscandian pine forest

Author

Yulia Tkachenko, Vladislava Pridacha, Vera Timofeeva, Elena V. Novichonok, Olga Bakhmet, T. A. Sazonova, Alexey N. Pekkoev, Alexander Olchev, and Denis E. Semin

Subjects

0106 biological sciences, Canopy, Alnus incana, Tree canopy, Stomatal conductance, biology, Taiga, Scots pine, Soil Science, 04 agricultural and veterinary sciences, Plant Science, biology.organism_classification, 01 natural sciences, Deciduous, Agronomy, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, 010606 plant biology & botany, Transpiration

Abstract

Clear-cut logging currently is a key factor transforming forest communities in many boreal regions. The dynamics of biogeochemical processes taking place in clear-cuts makes them a good model for studying the response of plants to changes in environmental conditions. This study aimed to assess the response of nutrient, carbon and water exchange parameters in coniferous and deciduous plants after clear-cut forest harvesting. The effects of environmental factors on the functional traits of regrowing trees in Scots pine (Pinus sylvestris L.), silver birch (Betula pendula Roth), aspen (Populus tremula L.) and grey alder (Alnus incana (L.) Moench) were analysed during four growing seasons (2016–2019) in a clear-cut site and under the canopy of an undisturbed bilberry-type pine forest in the middle taiga of Karelia, Northwest Russia. Unidirectional changes were observed in the specific nutrient content, specific leaf area, biological macronutrient absorption capacity, stomatal conductance, and rates of photosynthesis and transpiration in the different tree species along a gradient of environmental factors. In most cases, the nutrient concentrations and N:P:K ratio were consistent in all species as environmental conditions changed. Species-specific responses were observed for the N:P:K and K:Ca:Mg ratios, photosynthetic water use and nitrogen use efficiency. Contrasting environmental conditions in the clear-cut and under forest canopy most significantly affect plant capacity to absorb nitrogen. Variation in functional traits in the coniferous and deciduous species reflects their specific resource-use strategies in a heterogeneous environment and, hence, indicates the different adaptation potentials for various plant species.

Published

2021

28. Lake Heimtjønna at Dovre, Mid-Norway, reveals remarkable late-glacial and Holocene sedimentary environments and the early establishment of spruce (Picea abies), alder (Alnus cf. incana), and alpine plants with present centric distributions

Author

Aage Paus

Subjects

010506 paleontology, Alnus incana, geography, Nunatak, geography.geographical_feature_category, biology, Picea abies, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Deglaciation, Glacial period, Physical geography, Stadial, Younger Dryas, Geology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Two and a half meters of sediments from Lake Heimtjonna in the Scandes Mountains reveal changes in the vegetation, climate, and sediment environment since deglaciation. The lake was deglaciated in the Late-Glacial (LG), perhaps as early as 16-18 ka cal BP. After deglaciation, the sediment environment at the Heimtjonna coring point was extraordinary and challenging to interpret. The genesis of the 1.7 m basal unsorted sediments including large stones is discussed concluding that the layer was rafted by lake-ice after the LG deglaciation. The Younger Dryas (YD) established a semi-perennial lake-ice that stopped the deposition of the ice-rafted stone-rich sediments. In the early Holocene, the unstratified and well-sorted clayey silt shows fluvial origin. In late Holocene, strong flood activity including the major flood disaster ‘Stor-Ofsen’ in AD 1789, caused a sediment hiatus at the coring point from ca 9.5 ka cal BP to ca 250 a cal BP. The LG interstadial warming initiated the succession from pioneer plants on mineral soils towards local dwarf-shrub heath. July temperatures reached at least 7–8 OC. In the LG and early Holocene, Papaver radicatum, Artemisia norvegica, and Campanula cf. uniflora today occurring at Dovre and with centric Scandinavian distributions, locally established. All have previously been connected to Weichselian survival on nunatak refugia. Continuous pollen curves of spruce (Picea abies) support the much-debated LG and early Holocene presence of spruce in the Scandes mountains. For the first time, it is shown that both grey alder (Alnus incana) and Armeria occurred in the Scandes in the LG and early Holocene. Due to dating errors, LG ages is exclusively based on stratigraphical correlations and considerations. The LG chronology must be thoroughly tested by future studies providing reliable AMS 14C-dates of terrestrial fossils.

Published

2021

29. Investigation of a Grey Alder Particleboard Bonded by Different Industrial Side-Stream Lignins

Author

Janis Gravitis, R. Tupciauskas, M. Andzs, Tiina Liitiä, A. Veveris, and Tarja Tamminen

Subjects

Absorption of water, Materials science, Polymers and Plastics, grey alder wood, General Mathematics, Young's modulus, 02 engineering and technology, Hot pressing, law.invention, Biomaterials, hot pressing, swelling, symbols.namesake, Sieve, chemistry.chemical_compound, industrial lignins, 0203 mechanical engineering, Flexural strength, law, medicine, Lignin, Composite material, Alnus incana, flexural and tensile properties, biology, biodegradable composites, 021001 nanoscience & nanotechnology, Condensed Matter Physics, biology.organism_classification, 020303 mechanical engineering & transports, chemistry, IR spectroscopy, Mechanics of Materials, Ceramics and Composites, symbols, Swelling, medicine.symptom, 0210 nano-technology

Abstract

Particleboards based on a mixture of grey alder (Alnus incana (L.) Moench) wood particles (sieve fraction 0.4-2 mm) and 15 or 25% of lignin powder obtained by hot pressing from four different industrial sources were investigated. Their density, thickness swelling, water absorption, modulus of rupture, modulus of elasticity in bending, and internal bond strength were determined. It was founded that the source and amount of the added lignin noticeably affected all tested properties of the particleboards.

Published

2021

30. Ancient CO2 levels favor nitrogen fixing plants over a broader range of soil N compared to present

Author

John Markham and Haoran Chen

Subjects

0106 biological sciences, 0301 basic medicine, Science, chemistry.chemical_element, Betula pumila, 01 natural sciences, 03 medical and health sciences, Alnus viridis, Alnus incana, Biomass (ecology), Multidisciplinary, biology, fungi, food and beverages, biology.organism_classification, Nitrogen, Betula glandulosa, Horticulture, 030104 developmental biology, chemistry, Nitrogen fixation, Medicine, Alnus rubra, 010606 plant biology & botany

Abstract

Small inreases in CO2 stimulate nitrogen fixation and plant growth. Increasing soil N can inhibit nitrogen fixation. However, no studies to date have tested how nitrogen fixing plants perform under ancient CO2 levels (100 MYA), when nitrogen fixing plants evolved, with different levels of N additions. The aim of this study was to assess if ancient CO2, compared to present, favors nitrogen fixers over a range of soil nitrogen concentrations. Nitrogen fixers (Alnus incana ssp. rugosa, Alnus viridis ssp. crispa, and Alnus rubra) and their close non-nitrogen fixing relatives (Betula pumila, Betula papyrifera, Betula glandulosa) were grown at ancient (1600 ppm) or present (400 ppm) CO2 over a range of soil N levels, equivalent to 0, 10, 50, and 200 kg N ha−1 year−1. The growth of non-N fixing plants increased more than N fixing plants in response to the increasing N levels. When grown at an ancient CO2 level, the N level at which non-nitrogen fixing plant biomass exceeded nitrogen fixing plant biomass was twice as high (61 kg N ha−1 year−1) as the N level when plants were grown at the ambient CO2 level. Specific nodule activity was also reduced with an increasing level of soil N. Our results show there was a greater advantage in being a nitrogen fixer under ancient levels of CO2 compared with the present CO2 level.

Published

2021

31. Phenological trends of multi-taxonomic groups in Latvia, 1970–2018

Author

Andis Kalvāns and Gunta Kalvāne

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, Climate Change, Health, Toxicology and Mutagenesis, Tilia cordata, Acer platanoides, Biology, 01 natural sciences, Alder, Birds, 03 medical and health sciences, 0302 clinical medicine, Animals, Humans, Betula, 0105 earth and related environmental sciences, 030203 arthritis & rheumatology, Abiotic component, Alnus incana, Pioneer species, Ecology, Phenology, Temperature, biology.organism_classification, Latvia, Betula pendula, Seasons

Abstract

Phenology provides intimate insights into ongoing changes in nature and seasonality with respect to humans. In this study, the most complete volunteer observer phenological data set for the territory of Latvia from 1970 to 2018 was evaluated. The data set includes observations of 159 phases of eight taxonomical groups, as well as abiotic phenomena such as the first snow, last spring frost, and agrarian activities. With reducing dimensionality, a hierarchical cluster analysis was used to group the 66 phenological phases of most observations into 7 clusters. The largest changes were observed in the early spring phenological phases of the pioneer species such as the start of flowering of Corylus avellana (hazel), Alnus incana (grey alder) and Populus tremula (aspen), noted as -8 days/decade. The trend of the spring emergence of insects and spring migratory birds also showed a negative tendency. The phenology of crops and agrarian activities has not changed significantly. The trends of the autumn phases were heterogeneous-leaf colouration and fall for some species (Populus tremula) and (Acer platanoides, Norway maple) was recorded on average later; for other species, there was a slightly earlier trend (Betula pendula, silver birch; Tilia cordata, linden). Earlier onset of the spring phases affects the changes in the length of the growing season (for Acer platanoides + 7.7 days/decade; Betula pendula + 3.3 days/decade). Since 1990, it has been common that many phases have begun sooner (particularly spring phases), whilst abiotic autumn phases have been characterised by late years. This study has shown that significant seasonal changes have taken place across the Latvian landscape due to climate change.

Published

2021

32. Carbon budgets in fertile grey alder (Alnus incana (L.) Moench.) stands of different ages.

Author

Uri, V., Kukumägi, M., Aosaar, J., Varik, M., Becker, H., Soosaar, K., Morozov, G., Ligi, K., Padari, A., Ostonen, I., and Karoles, K.

Subjects

ALNUS incana, CARBON, BETULACEAE, ECOSYSTEMS, BIOTIC communities

Abstract

Estimation of the carbon (C) storages and fluxes in different forest ecosystems is essential for understanding their C sequestration ability. Grey alder ( Alnus incana (L.) Moench) is a fast growing tree species with a great potential for short-rotation forestry in the Nordic and Baltic countries and its stands are considered C accumulating ecosystems. We hypothesized that grey alder stands growing at fertile sites act as C sinks in the young and middle-age stages, while mature stands become C sources as a consequence of declined net primary production (NPP). Net ecosystem production (NEP) was studied in five grey alder stands aged between 9 and 40 years. It was found that the NEP of the studied grey alder stands of different ages varied from −1.98 to +4.14 t C ha −1 yr −1 . The oldest grey alder stand proved to be a weak C source (−0.77 t C ha −1 yr −1 ). However, also young alder stands regenerated in a clear-cut area may emit C in the earlier stage, owing to previous cutting and decomposition of organic residues matter. In this aspect, the land use history is of great significance. Leaf litter accounted for the largest (44–61%) annual organic C input to soil, the fine roots contributed with 12–32% and the herbaceous understorey (aboveground + belowground), with 14–26% to it. Annual cumulative soil heterotrophic respiration (Rh) in the studied stands ranged between 2.6 and 5.8 t C ha −1 yr −1 ; C leaching was negligible, being 10–30 kg C ha −1 yr −1 . The C sequestration to soil depended on previous land use; in the first forest generation, i.e. a stand growing on previous agricultural land, the annual C org input into soil exceeded Rh, which indicated C accumulation in soil. Although grey alder stands are generally C accumulating ecosystems, the annual biomass production of the studied stands was highly variable; thus annual NEP depended on the effect of the year rather than on stand age. The current study demonstrates that use of repeated time-series measurements applied for stands of different development stages can provide more detailed estimation of C accumulation in forest ecosystems. [ABSTRACT FROM AUTHOR]

Published

2017

33. Protective effects of proanthocyanidins extracts from the bark of deciduous trees in lipid systems.

Author

Janceva, Sarmite, Lauberte, Liga, Dizhbite, Tatiana, Telysheva, Galina, Krasilnikova, Jelena, and Dzenis, Marcis

Subjects

*PROANTHOCYANIDINS, *DECIDUOUS plants, *LIPIDS, *ALNUS glutinosa, *FREE radicals

Abstract

Oligomeric proanthocyanidins (OPC) rich extracts (OPCEs) were isolated by sequential extraction from the bark of the deciduous trees grey alder (Alnus incana), black alder (Alnus glutinosa) and goat willow (Salix caprea). The yields of OPCE from all barks under study were rather similar and varied between 12.3% and 15.4% based on the oven dry (o.d.) bark. Content of proanthocyanidins in OPCEs ranged from 16.6% to 25% based on o.d. extract. The OPCEs were characterised by means of antioxidant activity with ABTS˙+ and DPPH˙ radical scavenging tests. All extracts being introduced into lipid-based substrates, i.e. mayonnaise and a basic composition of a cosmetic cream, showed antioxidant activity comparable to the reference commercial antioxidant tert-butylhydroquinone (TBHQ). The results of in vitro tests have revealed that the OPCEs could be useful for the human organism as they activated malfunctions of amylase, inhibited pancreatic lipase activity (duodenal digestion model), decreased lipid absorption in blood and decreased pyruvate level in blood plasma essential for regulation of carbohydrate metabolism. The data obtained confirms the advantages of OPC and OPCEs applications as an antioxidant additive for food, cosmetic and health industries. [ABSTRACT FROM AUTHOR]

Published

2017

34. Biomass conversion into blow-in heat insulation materials by steam explosion.

Author

Andzs, Martins, Tupciauskas, Ramunas, Veveris, Andris, Andze, Laura, Abolins, Janis, and Gravitis, Janis

Subjects

*BIOMASS conversion, *ALNUS incana, *THERMAL conductivity, *PLYWOOD construction, *INSULATING materials

Abstract

The study of converting grey alder (Alnus incana) chips and silver birch (Betula pendula) flakes - residues from plywood manufacture - into blow-in insulation material by steam explosion (SE) is reported. The SE was conducted at temperatures between 200 and 235°C, for 0-5 min at pressures between 16 and 32 MPa. The severity parameters (logR0) of the SE was calculated, from which logR0≈3.6 was the most appropriate for production of blow-in materials. Thermal conductivity of the obtained insulating material was found to be in the range of 0.053-0.057 W m-1·K-1. [ABSTRACT FROM AUTHOR]

Published

2017

35. Utilization of lignin powder for manufacturing self-binding HDF.

Author

Tupciauskas, Ramunas, Gravitis, Janis, Veveris, Andris, Andzs, Martins, Abolins, Janis, Liitia, Tiina, and Tamminen, Tarja

Subjects

*LIGNOCELLULOSE, *FIBERBOARD, *ALNUS incana, *SOFTWOOD

Abstract

The preparation of self-binding lignocellulosic fibreboards has been investigated. Different high-density fibreboards (HDF) were hot-pressed based on a mixture of grey alder (Alnus incana L. Moench) wood chips processed by steam explosion auto-hydrolysis (SE) and 15% or 25% lignin content from three different industrial sources: softwood kraft lignin (SWKL), soda wheat straw lignin (SoWhStL) and hydrolysis wheat straw lignin (HWhStL). Density, thickness swelling (TS) after immersion in water for 24 h, modulus of rupture (MOR), modulus of elasticity (MOE) and strength of internal bond (IB) of the board samples were determined. The amount (15% or 25%) and moisture content (MC) (18 ± 1% or 5 ± 2%) of the added lignin affected all the tested properties of the HDF except for density. However, the kind of the added lignin affects the obtained fibreboard more significantly compared to the control sample made without an admixture of lignin. In some cases, the tested values were diminished to half. The tested properties of the HDF samples produced with SoWhStL or HWhStL are compatible with standard requirements for medium-density fibreboard (MDF) for general use under dry conditions (EN 622-5, MDF), however, it depends on the lignin amount and MC. [ABSTRACT FROM AUTHOR]

Published

2017

36. Moisture and decay resistance and reaction to fire properties of self-binding fibreboard made from steam-exploded grey alder wood.

Author

Tupciauskas, Ramunas, Irbe, Ilze, Janberga, Anna, and Buksans, Edgars

Subjects

ALNUS incana, HOT pressing, HUMIDITY, TEMPERATURE effect, HEATING

Abstract

A study of self-binding fibreboards pressed without synthetic adhesives is reported. The board samples of steam-exploded grey alder (Alnus incanaL. Moench) particles hot-pressed under a variety of conditions including moisture content of the mat (8% and 12%), temperature (150°C, 160°C, 170°C and 180°C) and pressure (0.2–8 MPa) are tested for moisture resistance (standard EN 1087-1), decay resistance (standard ENV 12038) and reaction to fire performance (ISO 5660-1). The moisture resistance of the board samples is found to satisfy the standard EN 622-5 for load-bearing medium-density fibreboard for use in humid conditions (MDF.HLS). The tested board samples are not fully resistant to theTrametes versicolorfungus, the mass loss of specimens exceeding 3%. Reaction to fire performance of the self-binding board evaluated by the average rate of heat emission being by about 25% higher is worse compared with MDF.HLS. [ABSTRACT FROM AUTHOR]

Published

2017

37. Congregations of the leaf-shredding insect Lepidostoma togatum mediate exceptionally rapid mass loss from leaf litter in Nova Scotia rivers.

Author

Andrushchenko, Irene, Taylor, Barry, Toxopeus, Jantina, and Wilson, Erin

Subjects

*FOREST litter, *RED maple, *LARVAE, *ALNUS incana, *RIVERS

Abstract

In shallow, rocky-bottomed river systems in Nova Scotia, Canada, decomposition rates of autumn-fallen red maple ( Acer rubrum) and speckled alder ( Alnus incana) leaf litter were determined in spring and early summer using litter bags. In most shaded upstream tributaries, decomposition followed a typical exponential curve ( k = −0.013 to −0.032 day). In unshaded, downstream reaches, and sometimes in low-order tributaries, decomposition was often exceptionally rapid (2-5% day) and followed a linear pattern, associated with dense congregations of the caddisfly Lepidostoma togatum. Linear mass loss persisted until litter bags were empty, after 35-50 days. Colonization of litter bags by L. togatum was advanced after 1 week, and peak densities (40-120 animals/bag) could be reached in 2-3 weeks. In a feeding experiment, alder litter in fine mesh litter bags containing 30 L. togatum larvae lost ~2.1% mass day, compared with only 0.1% day without L. togatum. The L. togatum congregations were a distinctly seasonal phenomenon, beginning in early June and ending in mid-July when the last of the larvae (one or two cohorts) pupated. Severe resource limitation among detritivores in these degraded river systems apparently leads to dense colonization of added litter and extremely fast, shredder-mediated decomposition. [ABSTRACT FROM AUTHOR]

Published

2017

38. Variability of alder-dominated forest vegetation along a latitudinal gradient in Slovakia

Author

Michal Slezák, Richard Hrivnák, Anna Petrášová, and Daniel Dítě

Subjects

syntaxonomy, Alnus glutinosa, Alnus incana, numerical classification, nomenclature, Botany, QK1-989

Abstract

Syntaxonmical revision of azonal forest vegetation with dominance of Alnus glutinosa and A. incana was done along a latitudinal transect of Slovakia. A data matrix consisting of 240 phytosociological relevés was obtained in accordance with the standard Zürich-Montpellier approach. Detrended correspondence analysis was used to clarify the relationships between the vegetation composition and environmental variables, whereas one-way ANOVA was applied to quantify the differences in site requirements of particular vegetation types. The unsupervised numerical classification resulted in identification of five clusters corresponding to the traditionally described and ecologically interpretable associations within the Euro-Siberian alder carr forests of Alnion glutinosae and the European broad-leaved floodplain forests of Alnion incanae: Carici elongatae-Alnetum glutinosae Schwickerath 1933 (alder carr forests on permanently waterlogged soils), Stellario-Alnetum glutinosae Lohmeyer 1957 (riparian alder vegetation on mesic to humid sites along small brooks), Piceo-Alnetum Mráz 1959 (submontane and montane oligotrophic spruce-alder forests on waterlogged habitats), Cardamino amarae-Alnetum incanae Šomšák 1961 (grey alder vegetation in spring fed areas) and Alnetum incanae Lüdi 1921 (submontane and montane streamside grey alder forests on mesic sites). They significantly (P < 0.05) differed in the Ellenberg's indicator values for nutrients, moisture, temperature and altitude. These environmental variables were also established by DCA analysis as underlying sources of variation in alder-dominated forest composition. Special attention was given to discussion of their syntaxonomy, nomenclature, floristic structure, ecological features and distribution.

Published

2013

39. Dead wood carbon density for the main tree species in the Lithuanian hemiboreal forest

Author

Milda Muraškienė, Vidas Stakėnas, Vaida Sirgedaitė-Šėžienė, Kęstutis Armolaitis, Valda Araminienė, Povilas Žemaitis, and Iveta Varnagirytė-Kabašinskienė

Subjects

0106 biological sciences, Alnus incana, 010504 meteorology & atmospheric sciences, biology, Scots pine, Forestry, Picea abies, Plant Science, Betula pubescens, biology.organism_classification, 01 natural sciences, Alder, Quercus robur, Alnus glutinosa, Betula pendula, Environmental science, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

Aboveground dead wood has a range of important ecological functions, including carbon (C) storage. According to the Intergovernmental Panel on Climate Change guidelines for National Greenhouse Gas Inventories established on the basis of the United Nations Framework Convention on Climate Change and the Kyoto Protocol, Lithuania is encouraged to quantify C pools in forests, including C in living biomass, soil and dead wood. The aim of this study was to assess species-specific dead wood density (DWD) and carbon content (CC) per decay class for Scots pine (Pinus sylvestris L.), Norway spruce (Picea abies (L.) H. Karst.), silver birch or downy birch (Betula pendula Roth or Betula pubescens Ehrh.), European aspen (Populus tremula L.), grey alder (Alnus incana (L.) Moench), black alder (Alnus glutinosa (L.) Gaertn.), common oak (Quercus robur L.) and European ash (Fraxinus excelsior L.), as the main representative hemiboreal forest tree species. The study findings revealed that mean DWD significantly decreased, while mean CC slightly increased during the wood decomposition process, which led to carbon density (CD) reduction over five decay classes. The mean CC showed little variation among the eight tree species and ranged between 47 and 54%. The lower CDs in the dead wood of decay classes 1 and 2 were more associated with coniferous than deciduous species. The estimated CD significantly decreased in all species with increasing decay class. Dead wood at decay class 5 of Scots pine, silver or downy birch, European ash and common oak had the highest CD, followed by Norway spruce and grey alder, and the lowest CDs were obtained for European aspen and black alder.

Published

2020

40. Physical engineering of an island‐braided river by two riparian tree species: Evidence from aerial images and airborne lidar

Author

Angela M. Gurnell and Walter Bertoldi

Subjects

Alnus incana, geography, geography.geographical_feature_category, biology, Floodplain, Landform, Vegetation, biology.organism_classification, Spatial distribution, Black poplar, Environmental Chemistry, Physical geography, Channel (geography), Geology, General Environmental Science, Water Science and Technology, Riparian zone

Abstract

Following a review of the European distribution, habitat requirements and life history characteristics of two riparian tree species, Alnus incana (L.) Moench (grey alder, a member of the Betulaceae family) and Populus nigra L. (black poplar, a member of the Salicaceae family), we explore their changing spatial distribution and topographic position within a 7 km, island braided reach of the Tagliamento River, Italy, where Populus nigra dominates the woody vegetation cover. Combining field observations and information extracted from aerial images, airborne lidar data and river flow time series for the period 1986–2017, we investigate (a) the changing spatial distribution of all (P. nigra‐dominated) woody vegetation and of A. incana alone; (b) whether river bed topography can be associated with these changing spatial distributions and (c) we consider whether A. incana displays any particular characteristics in its spatial and topographic distribution that may indicate that it is complementing the physical engineering role of P. nigra. We show that A. incana predominantly grows in lines along channel, island and floodplain edges, bordering wooded areas dominated by P. nigra and that areas supporting A. incana are associated with the topographic development of the river bed. We conclude that A. incana appears to be acting as a complementary physical engineer to P. nigra, suggesting that similar complementary physical engineering of river beds may be achieved by species with different life history traits to influence landform development in other river environments.

Published

2020

41. Effects of afforestation of agricultural land with grey alder (Alnus incana (L.) Moench) on soil chemical properties, comparing two contrasting soil groups

Author

Oļģerts Nikodemus, Guntis Brūmelis, Iluta Dauškane, Dārta Kaupe, Imants Kukuļs, Agita Treimane, and Raimonds Kasparinskis

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, 01 natural sciences, Alder, Grey alder, Agricultural land, Afforestation, lcsh:QH540-549.5, Organic matter, Arenosols, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation, chemistry.chemical_classification, Alnus incana, Topsoil, Ecology, biology, Forestry, biology.organism_classification, Soil type, Umbrisols, chemistry, Agronomy, Soil water, Environmental science, Soil properties, lcsh:Ecology, 010606 plant biology & botany

Abstract

Background Natural afforestation of former agricultural lands with alder species is common in Europe. Symbiotic nitrogen fixation by actinomycetes associated with alder species has been widely used for improvement of soil properties of abandoned agricultural lands, but relatively little is known of the interactions of these processes with soil type and chemical composition. We conducted a space-for time study with soil sampling under and outside grey alder tree canopies on two different soil groups to explore effects of colonisation of former agricultural lands by alder on soil properties. Results The results were analysed using analysis of variance. During the first 25 years after afforestation of former agricultural lands there was a significant increase in content of Ctot, Ntot, K+, Fe3+, Mn2+ and available P in the topsoil (0–10 cm and 11–20 cm) of Dystric Arenosols soils, which are deficient in organic matter. Such trends were not evident in organic matter rich Endostagnic Umbrisols soils, in which exchangeable K+ concentration decreased and exchangeable Fe3+ and Al3+ concentration increased. Conclusions The results show that the effects of grey alder on soil chemical properties depend on initial soil properties. The invasion of agricultural land by grey alder leads to spatial variability of soil chemical properties creating a mosaic pattern.

Published

2020

42. Bioautographic identification of alder gray Alnus incana (L.) Moench. fruits and geranium meadow Geranium pratense L. rhizomes extracts active components exhibiting synergism of antimicrobial action with macrolides

Author

О.І. Yurchyshyn

Subjects

Paper chromatography, Alnus incana, biology, Inoculation, Chemistry, Geranium, Microorganism, Botany, General Medicine, biology.organism_classification, Alder, Geranium pratense, Rhizome

Abstract

Annotation. The increase in the number of isolated antibiotic-resistant strains of microorganisms stimulates the search for alternative sources of biologically active substances that have antibiotic-potentiating action and are able to block the mechanisms of bacterial resistance to antibiotics. The aim of the study was to carry out bioautographic identification of the active components of gray alder fruits, geranium meadow rhizomes extracts and preparation “Altan” (extractant 90% aqueous-ethanolic), which showed synergism of antimicrobial action with erythromycin against skin isolates of staphylococci with different MLS phenotypes. Paper chromatography, thin-layer chromatography and bioautography were performed. Statistical processing of results: UTHSCSA ImageTool 2.0, Microsoft Office Excel 2011 On bioautograms of gray alder fruits extract and Altan with subinhibitory concentrations of erythromycin inoculated with S. epidermidis culture (inductive MLS-resistance phenotype), near the start line, areas with clear edges of growth inhibition were detected indicating the presence of hydrolysable tannins. Bioautograms of geranium meadow rhizomes extract showed the presence of compounds with antibiotic-potentiating activity with pronounced hydrophobic properties, indicating the presence of essential oils. In the extracts of gray alder fruits and geranium meadow rhizomes, the active components with antibiotic-potentiating properties, namely hydrolysable tannins and essential oils, have been identified. The fruits of gray alder and geranium meadow rhizomes are recommended for their preclinical and in-depth pharmacological study.

Published

2020

43. Foundation Species Loss Affects Leaf Breakdown and Aquatic Invertebrate Resource Use in Black Ash Wetlands

Author

Anthony W. D'Amato, Brian J. Palik, Robert A. Slesak, Chandra Wiley, Melissa B. Youngquist, and Susan L. Eggert

Subjects

0106 biological sciences, Fraxinus nigra, geography, Alnus incana, Carex lacustris, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, biology, 010604 marine biology & hydrobiology, Plant litter, biology.organism_classification, 01 natural sciences, Swamp, Quercus bicolor, Emerald ash borer, Agronomy, Environmental Chemistry, Populus balsamifera, 0105 earth and related environmental sciences, General Environmental Science

Abstract

The invasion by emerald ash borer (Agrilus planipennis) of extensive black ash wetlands in the upper Great Lakes region of North America is expected to alter plant community structure and composition and, therefore, abiotic factors like temperature and hydrology. We conducted two experiments to examine how changes in leaf litter could alter ecosystem function via 1) changes in litter breakdown and 2) aquatic invertebrate feeding. For the first experiment, we placed litter bags containing black ash (Fraxinus nigra), swamp white oak (Quercus bicolor), and lake sedge (Carex lacustris), in either control or clear-cut black ash plots. We found that black ash litter broke down 2-3 times faster than other species and broke down faster in control plots than in clear-cuts. There was no effect of clear cutting on swamp white oak or lake sedge breakdown rates. For the second experiment, we fed shredding caddisfly larvae (Limnephilus indivisus) one of six species: black ash, swamp white oak, lake sedge, balsam poplar (Populus balsamifera), American elm (Ulmus americana), or speckled alder (Alnus incana) for 14 days. Caddisflies had the highest survival and greater resource use when given black ash or speckled alder, which are abundant in black ash wetlands. These results suggest that loss of black ash will alter ecosystem processes via changes in the physical environment, changes in leaf litter properties, and changes in shredder processing rates of leaf litter.

Published

2020

44. Are arbuscular-mycorrhizal Alnus incana seedlings more resistant to drought than ectomycorrhizal and nonmycorrhizal ones?

Author

Jouni Kilpeläinen, Tarja Lehto, Sammi Alam Nipu, Bartosz Adamczyk, Pedro J. Aphalo, and Aitor Barbero-López

Subjects

0106 biological sciences, Stomatal conductance, Physiology, Plant Science, Alnus, Plant Roots, 01 natural sciences, Alder, Nutrient, Mycorrhizae, Symbiosis, 2. Zero hunger, Alnus incana, biology, Wilting, 04 agricultural and veterinary sciences, biology.organism_classification, Droughts, Ectomycorrhiza, Arbuscular mycorrhiza, Horticulture, Seedlings, Shoot, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, 010606 plant biology & botany

Abstract

Arbuscular mycorrhizas (AMs) prevail in warm and dry climates and ectomycorrhizas (EMs) in cold and humid climates. We suggest that the fungal symbionts benefit their host plants especially in the corresponding conditions. The hypothesis tested was that AM plants are more drought-resistant than EM or nonmycorrhizal (NM) plants. Grey alder (Alnus incana (L.) Moench) seedlings were inoculated with two species of either AM or EM fungi or none. In one controlled-environment experiment, there was a watering and a drought treatment. Another set of seedlings were not watered until permanent wilting. The AM plants were somewhat smaller than EM and NM, and at the early stage of the drought treatment, the soil-moisture content was slightly higher in the AM pots. Shoot water potential was highest in the AM treatment during severe drought, while stomatal conductance and photosynthesis did not show a mycorrhizal effect. In the lethal-drought set, the AM plants maintained their leaves longer than EM and NM plants, and the AM seedlings survived longer than NM seedlings. Foliar phosphorus and sulfur concentrations remained higher in AM plants than EM or NM, but potassium, copper and iron increased in EM during drought. The root tannin concentration was lower in AM than EM and drought doubled it. Although the difference in drought resistance was not large, the hypothesis was supported by the better performance of AM plants during a severe short-term drought. Sustained phosphorus nutrition during drought in AM plants was a possible reason for this. Moreover, the higher foliar sulfur and lower metal-nutrient concentrations in AM may reflect differences in nutrient uptake or (re)translocation during drought, which merit further research. The much larger tannin concentrations in EM root systems than AM did not appear to protect the EM plants from drought. The differential tannin accumulation in AM and EM plants needs further attention.

Published

2020

45. INFLUENCE OF THE FERMENTATION PROCESS ON THE QUALITY INDICATORS OF ALDER LEAVES OF ALNUS INCANA ( L.) MOENCH AND ALNUS GLUTINOSA (L.) GAERTH SPECIES 68

Author

S V Kondrashev, G V Nesterov, and T M Litvinova

Subjects

Alnus incana, Horticulture, Alnus glutinosa, General Engineering, Fermentation, Biology, biology.organism_classification, Alder

Published

2020

46. Cultivation of speckled alder under harsh mountain conditions

Author

I. Kuneš, M. Baláš, T. Koňasová, D. Zahradník, V. Balcar, O. Špulák, D. Kacálek, M. Jakl, and J. Jaklová Dytrtová

Subjects

alnus incana, grey alder, site amelioration, slow-acting amendments, biological amelioration, Forestry, SD1-669.5

Abstract

The aims of the paper were as follows: (1) to assess the applicability of speckled alder for pioneer stands on the mountainous clear-cut tracts and (2) to evaluate the effects of slow-release fertilizer on the survival and growth of speckled alder under harsh environmental conditions. On the basis of seven-year results we can presume that speckled alder is a convenient pioneer species that can be cultivated on harsh mountain sites where the climatic extremes need to be alleviated and a layer of surface humus renewed. The initial slow-release fertilization is, nonetheless, highly desirable. As contrasted to the control the surface and planting hole applications of amendment reduced the total seven-year mortality rate by 9.5% and 20.1%, respectively, and the periodic annual height increment (2003-2009) was promoted by 47% and 59%, respectively. Analogous results were obtained when the values of basal stem diameter and crown diameter were compared. As for the method of application, the placement of the slow-release amendment in the planting holes seems to be more efficient mainly in terms of survival promoting. The surface application is, nonetheless, less laborious and also yielded satisfactory results.

Published

2012

47. GREY ALDER ALNUS INCANA (L.) MOENCH ADDITIONAL GROWTH CHANGES AFTER THINNING IN AEGOPODIOSA SITE TYPE.

Author

Miezīte, Olga, Liepa, Imants, Šereiko, Arnita, and Luguza, Solveiga

Subjects

*ALNUS incana, *PLANT growth, *PLANT physiology, *FOREST thinning, *EFFECT of soil fertility on plants

Abstract

Grey alder stands Alnus incana (L.) Moench have a number of distinctive features. In fertile soils it successfully forms productive forest stands without any human intervention. Therefore, relatively few publications can be found on the thinning effects on stand reaction after thinning. It is possible that due to the highly intensive circulation of substances in the ecosystems of grey alder (high photosynthesis and canopy thinning, withering and breaking off of the lower branches, litter decomposition within a few years, thereby ensuring a continuous and stable plant mineral nutrition substance complementarity in the soil) response reaction of the remaining trees and management of grey alder forest stands could be different comparing to other tree species. The study analyses stock volume additional increment dynamics during 10'year period after the thinning in 24'year'old grey alder pure stands in Aegopodiosa site type. Thinning of grey alder forest stands have caused a moderate positive reference reaction - during 10 years, in addition to the total increase, 3.17 m3 ha-1 have been added. During the valuation interval response reaction differs among the years. In the first four years it is relatively small as accumulation of the growing potential is taking place. From the fifth to seventh year after felling an intensive growing takes place, which results in repeatedly additional annual increment. Starting from the eighth year, the trees show tendency to return to a steady state as it was before the thinning. [ABSTRACT FROM AUTHOR]

Published

2015

48. IMPACT OF BIOMASS EXTRACTION METHOD ON DAMAGE TO REMAINING TREES IN MECHANIZED THINNING OF DECIDUOUS STANDS.

Author

Prindulis, Uldis, Lazdiņš, Andis, and Kalēja, Santa

Subjects

*DECIDUOUS forests, *FOREST thinning, *FOREST management, *TREE injuries, *ALNUS incana

Abstract

Thinning of young forest stands is a contribution to the future of the stand development. Our study focuses on damage of the remaining trees and soil. Now it is common to see thinning of young stands with heavy forest machines, but most of these operations take place in commercial thinning. This study is focused on precommercial thinning to evaluate different mechanized thinning methods in relation to the damage done to the remaining trees and soil in deciduous tree stands. Data were collected in four stands where the average diameter of trees at breast height was 6.2 cm, the height of average trees - 9.5 m, but number of trees per hectare was more than 2900. The stands regenerate naturally. Damage was evaluated separately after harvester and forwarder operations. The study proves that forwarding makes much less damage to the remaining trees than harvesting. According to the study data, the traditional method results in the largest number of damaged trees, because operators need to cut all trees closer than 1.5 m from the target tree. Both schematic thinning methods result in significantly less damage. A statistically significant difference (p<0.001) was found in a proportion of damaged remaining trees between all of the applied working methods. The smallest amount of damage is associated with complex symmetrical thinning method. The most damage appears during harvesting. The aim of this study was to compare three working methods of biofuel production in pre-commercial thinning using harvester John Deere 1070D with accumulating felling head Bracke C16.b in grey alder (Alnus incana) pure stand. [ABSTRACT FROM AUTHOR]

Published

2015

49. POTENTIAL OF PRODUCING WOOD BIOMASS IN SHORT-ROTATION GREY ALDER (ALNUS INCANA MOENCH) PLANTATIONS ON AGRICULTURAL LANDS.

Author

DAUGAVIETE, Mudrīte, BĀRDULIS, Andis, DAUGAVIETIS, Uldis, LAZDIŅA, Dagnija, and BĀRDULE, Arta

Subjects

*ALNUS incana, *PLANT biomass, *PLANTATIONS, *FARM research, *WOOD

Abstract

The paper describes the potential of producing wood biomass in short rotation tree plantations (rotation period 5, 10 and 15 years) on agricultural lands. The research is focused on managing naturally emerging grey alder (Alnus incana Moench) coppice on agricultural lands, following up its course of growth and estimating the volume of biomass to be recovered. Grey alder as a fast-growing specie is suitable for short-rotation plantation cultivation in sites of nutrient-rich soils (site index H20=12m). Coppice of grey alder between the age of 5 and 15 years may be cultivated as a short-rotation plantation with the biomass yield depending on growing conditions from 20 to 445 loose m³ ha-1 and gross income between 189 and 4201 EUR ha-1. In grey alder plantations of site index H20=12, H20=16 and H20=20 you may already at the age of 10 to 15 years harvest pulpwood (top diameter 7cm under bark), packaging wood and fuel wood; the amount to be obtained depends on the intensity of thinnings done in age class I. As follows from the results, the average volume of fresh biomass in one year-old untended coppice of grey alder varies from 1.43 t ha-1 to 11.15 t ha-1 with the mean shoot height Hv=1.4 m and highly variable number of stems per unit area. In two-year old stands this variation is from 5.27 t ha-1 to 28.50 t ha-1 with the mean stem height Hv=2.5 m; in three-year old stands - from 7.95 t ha-1 to 36.60 t ha-1 (mean height Hv=3.0 m); in four-year old stands - from 18.83 t ha-1 to 52.80 t ha-1 (mean height Hv=4.4 m); in five-year old stands - from 22.91 t ha-1 to 64.23 t ha-1 (mean height Hv=4.8 m). [ABSTRACT FROM AUTHOR]

Published

2015

50. Phytophthora alder decline: disease symptoms, causal agent and its distribution in the Czech Republic

Author

Karel Černý and Veronika Strnadová

Subjects

phytophthora alni, alnus glutinosa, alnus incana, common alder, grey alder, alder decline, bleeding canker, czech republic, Plant culture, SB1-1110

Abstract

Phytophthora decline of riparian alder populations has recently become an important problem in many European countries, including the Czech Republic. The causal agent, Phytophthora alni, has spread quickly in the Czech Republic. Hundreds of kilometres of riparian alder stands, especially in the western part of the country, have been severely affected to date. Diseased trees show symptoms characteristic of Phytophthora root and collar rot; these include small, sparse and yellowing foliage, crown dieback, presence of exudates on the bark and necroses of collar and root tissues. Infected trees usually die within a few years, or they become irreversibly damaged, and their function in bank reinforcement declines. The ecological and mechanical functioning of severely affected alder stands may be seriously disrupted.

Published

2010