Your search keyword '"SEIDEL, DOMINIK"' showing total 19 results

1. Effect of competition intensity and neighbor identity on architectural traits of Fagus sylvatica.

Author

Penanhoat, Alice, Guerrero Ramirez, Nathaly, Aubry-Kientz, Mélaine, Diekmann, Lucas, Paligi, Sharath, Audisio, Michela, Mrak, Klara, and Seidel, Dominik

Abstract

Key message: Differences in architectural traits of European beech saplings submitted to different levels of competition intensity and neighborhood diversity show a shift toward lateral growth exploration for overtopped trees but less expressed apical control is maintained for beech grown with conifers. Crown plasticity is a fundamental process to optimize the acquisition of light in forests, where it is often the limiting factor for growth. The processes leading to crown dynamics in response to biotic interaction are controlled by the competitive status of a tree, as well as the species diversity of the neighborhood. Yet, the ontogenic diversity of the different branches leading to crown structure makes it difficult to model crown plasticity. In this study, we used single-image photogrammetry and a semi-automatic topology reconstruction software to map the architecture of 3-year-old European beech trees (Fagus sylvatica L.) grown in pure pots or mixed with Douglas fir (Pseudotsuga menziesii (Mirbel) Franco) or Norway spruce (Piceaabies L. H.Karst). Further, we investigated the effect of competition intensity (estimated with height rank) and neighbourhood diversity on architectural traits. To do so, we quantified the mean volume, slenderness, number of branches, branching rate, internode length, and diameter ratio for each stem and branch, up to the order three. Overtopped trees developed fewer branches and biomass but allocated more biomass to branches of a higher order than to the stem. The increase in the ramification of the stem and the diameter ratio of the first-order branches for overtopped trees indicate a shift in the growth strategy and a decrease in apical control. As competition intensity and neighbour identity have opposite effects on stem traits, it seems that the positive effect of plant diversity on growth can be attributed to the intrinsic effects of species identity rather than to competition release. [ABSTRACT FROM AUTHOR]

Published

2024

2. 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

3. Increase in forest structural complexity along a precipitation gradient is mediated by partial harvests in temperate Patagonian forests.

Author

Soto, Daniel P., Seidel, Dominik, Hernández-Moreno, Ángela, Puettmann, Klaus J., and Donoso, Pablo J.

Abstract

Increasing forest structural complexity is becoming a common goal in forestry worldwide. However, the lack of empirical quantification clouds its implementation. Here we quantified the long-term effects (> 30 y) of partial harvest on stand structural complexity and net primary productivity using the east–west precipitation gradient (318–2508 mm, mean annual precipitation-MAP) of western Patagonian as a study system. In this gradient, pairs of 1-ha plots on 20 sites (20 plots harvested and 20 plots unharvested) were installed. In each plot terrestrial laser scanning was used to quantify the stand structural complexity index (SSCI), and Sentinel satellite images to obtain the Enhanced Vegetation Index (EVI: proxy of net primary productivity). Generalized linear mixed-effect models were used to relate SSCI to MAP and EVI to SSCI, with harvesting as indicator variable, and site as random variable (two plots nested to same precipitation). Results showed that harvested plots on mesic-to-humid sites (but not on dry sites) had higher SSCI and EVI values compared to unharvested plots, likely due to a greater vertical canopy packing. These results show the influence of precipitation on SSCI, which resulted in a more diversified stand structure and higher EVI. Such insights support site-specific management aimed to increase forest structural complexity. [ABSTRACT FROM AUTHOR]

Published

2024

4. Insights into the relationship between hydraulic safety, hydraulic efficiency and tree structural complexity from terrestrial laser scanning and fractal analysis.

Author

Dorji, Yonten, Isasa, Emilie, Pierick, Kerstin, Cabral, Juliano Sarmento, Tobgay, Tashi, Annighöfer, Peter, Schuldt, Bernhard, and Seidel, Dominik

Abstract

Key message: This research focused on the interplay between tree structural complexity and drought tolerance, unraveling the crucial role of Db as an indicator of hydraulic efficiency and vulnerability in several tree species. The potential of trees to adapt to drier and hotter climates will determine the future state of forests in the wake of a changing climate. Attributes connected to the hydraulic network are likely to determine a tree's ability to endure drought. However, how a tree's architectural attributes related to drought tolerance remains understudied. To fill this gap, we compared the structural complexity of 71 trees of 18 species obtained from terrestrial laser scanning (TLS) with key hydraulic thresholds. We used three measures of xylem safety, i.e., the water potential at 12%, 50%, and 88% loss of hydraulic conductance (P12, P50, P88) and specific hydraulic conductivity (Ks) to assess the trees' drought tolerance. TLS data were used to generate 3D attributes of each tree and to construct quantitative structure models (QSMs) to characterize the branching patterns. Fractal analysis (box-dimension approach) was used to evaluate the overall structural complexity of the trees (Db) by integrating horizontal and vertical extent as well as internal branching patterns. Our findings revealed a significant relationship between the structural complexity (Db) and the three measures of xylem safety along with Ks. Tree species with low structural complexity developed embolism-resistant xylem at the cost of hydraulic efficiency. Our findings also revealed that the Db had a stronger and more significant relationship with branch hydraulic safety and efficiency compared to other structural attributes examined. We conclude that Db seems to be a robust descriptor of tree architecture that relates to important branch hydraulic properties of a tree. [ABSTRACT FROM AUTHOR]

Published

2024

5. Tree species identity, canopy structure and prey availability differentially affect canopy spider diversity and trophic composition.

Author

Wildermuth, Benjamin, Dönges, Clemens, Matevski, Dragan, Penanhoat, Alice, Seifert, Carlo L., Seidel, Dominik, Scheu, Stefan, and Schuldt, Andreas

Subjects

PREY availability, FOREST biodiversity, BIOTIC communities, EUROPEAN beech, SPIDERS, STABLE isotope analysis, ARTHROPOD diversity, PLANT diversity

Abstract

Forest canopies maintain a high proportion of arthropod diversity. The drivers that structure these communities, however, are poorly understood. Therefore, integrative research connecting tree species identity and environmental stand properties with taxonomic and functional community composition of canopy arthropods is required. In this study, we investigated how the taxonomic, functional and trophic composition of arboreal spider communities is affected by tree species composition and associated differences in canopy structure and prey availability in temperate forests. We sampled canopy spiders as well as their potential prey using insecticidal fogging in monospecific and mixed stands of native European beech, native Norway spruce and non-native Douglas fir. Trophic metrics were obtained from stable isotope analysis and structural canopy properties were assessed with mobile laser scanning. Monospecific native spruce stands promoted local canopy spider abundance and diversity, but native beech and beech–conifer mixtures had the highest diversity at landscape scale. Spider community composition differed between monospecific stands, with broadleaf–conifer mixtures mitigating these differences. Irrespective of tree species identity, spider abundance, taxonomic diversity, functional richness and isotopic richness increased in structurally heterogeneous canopies with high prey abundances, but functional evenness and trophic divergence decreased. Our study shows that canopy spiders are differentially affected by tree species identity, canopy structure and prey availability. Broadleaf–conifer mixtures mitigated negative effects of (non-native) conifers, but positive mixture effects were only evident at the landscape scale. Structurally heterogeneous canopies promoted the dominance of only specific trait clusters. This indicates that intermediate heterogeneity might result in high stability of ecological communities. [ABSTRACT FROM AUTHOR]

Published

2023

6. Three-dimensional quantification of tree architecture from mobile laser scanning and geometry analysis.

Author

Dorji, Yonten, Schuldt, Bernhard, Neudam, Liane, Dorji, Rinzin, Middleby, Kali, Isasa, Emilie, Körber, Klaus, Ammer, Christian, Annighöfer, Peter, and Seidel, Dominik

Abstract

Key message: Mobile laser scanning and geometrical analysis revealed relationships between tree geometry and seed dispersal mechanism, latitude of origin, as well as growth. The structure and dynamics of a forest are defined by the architecture and growth patterns of its individual trees. In turn, tree architecture and growth result from the interplay between the genetic building plans and environmental factors. We set out to investigate whether (1) latitudinal adaptations of the crown shape occur due to characteristic solar elevation angles at a species' origin, (2) architectural differences in trees are related to seed dispersal strategies, and (3) tree architecture relates to tree growth performance. We used mobile laser scanning (MLS) to scan 473 trees and generated three-dimensional data of each tree. Tree architectural complexity was then characterized by fractal analysis using the box-dimension approach along with a topological measure of the top heaviness of a tree. The tree species studied originated from various latitudinal ranges, but were grown in the same environmental settings in the arboretum. We found that trees originating from higher latitudes had significantly less top-heavy geometries than those from lower latitudes. Therefore, to a certain degree, the crown shape of tree species seems to be determined by their original habitat. We also found that tree species with wind-dispersed seeds had a higher structural complexity than those with animal-dispersed seeds (p < 0.001). Furthermore, tree architectural complexity was positively related to the growth performance of the trees (p < 0.001). We conclude that the use of 3D data from MLS in combination with geometrical analysis, including fractal analysis, is a promising tool to investigate tree architecture. [ABSTRACT FROM AUTHOR]

Published

2021

7. Distribution of the timber quality attribute 'knot surface' in logs of Fagus sylvatica L. from pure and mixed forest stands.

Author

Höwler, Kirsten, Vor, Torsten, Schall, Peter, Annighöfer, Peter, Seidel, Dominik, and Ammer, Christian

Subjects

EUROPEAN beech, MIXED forests, TREE growth, TIMBER, FOREST productivity, NORWAY spruce, BEECH

Abstract

Research on mixed forests has mostly focused on tree growth and productivity, or resistance and resilience in changing climate conditions, but only rarely on the effects of tree species mixing on timber quality. In particular, it is still unclear whether the numerous positive effects of mixed forests on productivity and stability come at the expense of timber quality. In this study, we used photographs of sawn boards from 90 European beech (Fagus sylvatica L.) trees of mixed and pure forest stands to analyze internal timber quality through the quality indicator knot surface that was quantitatively assessed using the software Datinf® Measure. We observed a decrease in knot surface with increasing distance from the pith as well as smaller values in the lower log sections. Regarding the influence of neighborhood species identity, we found only minor effects meaning that timber qualities in mixed stands of beech and Norway spruce (Picea abies (L.) H. Karst.) tended to be slightly worse compared to pure beech stands. [ABSTRACT FROM AUTHOR]

Published

2021

8. Influence of heterozygosity and competition on morphological tree characteristics of Quercus rubra L.: a new single-tree based approach.

Author

Burkardt, Katharina, Pettenkofer, Tim, Ammer, Christian, Gailing, Oliver, Leinemann, Ludger, Seidel, Dominik, and Vor, Torsten

Subjects

RED oak, HETEROZYGOSITY, MICROSATELLITE repeats, TREES, FORESTS & forestry

Abstract

In Europe, the non-native Northern red oak (Quercus rubra L.) is widely recommended for future cultivation. However, outside its natural range, Northern red oak has to date been insufficiently studied both in terms of silviculture and genetics. To clarify this, we studied the architecture of 92 (pre-) dominant Northern red oak trees in five German federal states using the non-destructive terrestrial laser scanning method (TLS). In addition, individual-based heterozygosity was calculated based on microsatellite data obtained by analyzing twelve potentially adaptive genic (EST derived markers) and eight putatively selectively neutral nuclear microsatellite markers. With these data the individual heterozygosity of the sample trees was calculated. Mean or median branch angles as well as branch angle ranges of first order branches decreased with individual heterozygosity calculated group-wise for all markers (HoAll) and for EST-derived markers (HoEST). Most other tree characteristics, including the number of bark anomalies and mean stem non-circularity and crown characteristics such as crown volume, crown surface area, or mean branch length of first order branches responded exclusively to competition. We conclude that competition, not genetics, is the main driver of Northern red oak stem and crown characteristics. Thus, stem quality and crown dimension can primarily be controlled by silvicultural interventions. The significant relationship between Northern red oak branch angle traits and individual tree heterozygosity was unexpected, and at this time we do not have any validated explanation for this. This issue needs to be further investigated. [ABSTRACT FROM AUTHOR]

Published

2021

9. From facilitation to competition: the effect of black locust (Robinia pseudoacacia L.) on the growth performance of four poplar-hybrids (Populus spp.) in mixed short rotation coppice.

Author

Rebola-Lichtenberg, Jessica, Streit, Juliane, Schall, Peter, Ammer, Christian, and Seidel, Dominik

Subjects

BLACK locust, COPPICE forests, ROTATIONAL motion, POPLARS, OPTICAL scanners, NITROGEN in soils

Abstract

Short rotation coppices play an important role in providing biomass for energetic use. Mixing fast-growing tree species in short rotation coppices may show complementarity effects and increased yield. The aim of this study was to analyze the effect of species interaction in mixed short rotation coppices with fast-growing Populus spp.-hybrids and the N-fixing Robinia pseudoacacia. Four different Populus-hybrids (AF2, Fritzi Pauley, Hybride 275 and Max 1), planted alternately in pure and mixed stands with R. pseudoacacia were used for the analysis. Height and root collar diameter were measured once a year, over a period of four years (2014–2017). Additionally, in the third year, aboveground competition was surveyed with a terrestrial laser scanner and root biomass was analyzed to assess belowground competition. Soil nitrogen was also determined in order to verify enrichment properties of mixtures compared to pure stands. Populus-hybrids' stem volume showed no significant differences between stand types in the first year after planting. In the second and third year, however, two Populus-hybrids (AF2 and Max 1) had a higher stem volume increment of up to 3.8 times than stem volume increment in pure stands. This may be related to the fact that soil nitrogen was 39% higher in the mixtures than in pure stands. However, in the 4th year after stand establishment, R. pseudoacacia's crowns were so massive and broad, that this species was far more competitive than the Populus-hybrids. With the exception of P. 'Fritzi Pauley', which showed no significant differences between stand types, growth rates reversed for the other three Populus-hybrids. AF2, Max 1 and Hybride 275 showed up to 75% lower stem volume increment in mixtures compared to pure stands. We assume that, in spite of the initially observed facilitation between the species, the competition exerted by R. pseudoacacia started dominating after 4 years and began to surpass the benefits of facilitation. [ABSTRACT FROM AUTHOR]

Published

2021

10. On the structural complexity of central European agroforestry systems: a quantitative assessment using terrestrial laser scanning in single-scan mode.

Author

Seidel, Dominik, Stiers, Melissa, Ehbrecht, Martin, Werning, Maik, and Annighöfer, Peter

Subjects

ORCHARDS, CHRISTMAS trees, SILVOPASTORAL systems, AGROFORESTRY, OPTICAL scanners, ANIMAL shelters, LASERS, PLANTATIONS

Abstract

Agroforestry systems provide important ecosystem functions and services. They have the potential to enrich agricultural monocultures in central Europe with structural elements otherwise absent, which is expected to be accompanied by a surplus of ecosystem functions. Here we used quantitative measures derived from terrestrial laser scanning in single-scan mode to describe the structural complexity, the canopy openness, the foliage height diversity and the understory complexity of four common agroforest systems in central Europe. We accessed silvopasture systems with grazing ponies and cattle as well as fellow deer, short rotation forests with agricultural use between the tree rows, tree orchards with grazing sheep and Christmas tree plantations on which chickens forage. As a reference, we used data for 65 forest sites across Germany, representing different forest types, various dominant tree species, stand ages and management systems. We found that overall stand structural complexity is ranked as follows: forest > silvopasture systems > short rotation forest > tree orchard > Christmas tree plantation. Consequently, if overall structural complexity of an agricultural landscape shall be enriched, there is now strong evidence on how this may be achieved using agroforests. However, if the focus lies on selected structures that serve specific functions, e.g. dense understory to provide animal shelter, specific types of agroforests may be chosen and the ranking in overall structural complexity may be less important. [ABSTRACT FROM AUTHOR]

Published

2021

11. Identifying architectural characteristics that determine tree structural complexity.

Author

Seidel, Dominik, Ehbrecht, Martin, Dorji, Yonten, Jambay, Jambay, Ammer, Christian, and Annighöfer, Peter

Abstract

Key message: We found structural complexity can best be predicted from a combination of measures that relate to the horizontal and vertical, as well as the internal branching pattern of the trees (range of branch angles). Forest structure is related to several ecosystem services and functions provided by forests. To support a management for structural complexity, which is considered to have beneficial effects on most forest functions and services, it is crucial to understand how tree and stand structural complexity are created. We used fractal analysis to describe the structural complexity of trees and investigated how it depends on a tree architectural properties using a combination of measures that relate to vertical, horizontal and internal branching characteristics. Across a large range of tree sizes, we found that the structural complexity can best be predicted from a combination of conventional measures that relate to the horizontal and vertical extent as well as to the internal branching pattern of the trees (R2 = 0.73). Our findings also indicate that large trees tend to possess a greater structural complexity than small trees, which is not due to their size per se but due to a more complex architecture. [ABSTRACT FROM AUTHOR]

Published

2019

12. Analyzing effects of intra- and interspecific competition on timber quality attributes of Fagus sylvatica L.—from quality assessments on standing trees to sawn boards.

Author

Höwler, Kirsten, Vor, Torsten, Seidel, Dominik, Annighöfer, Peter, and Ammer, Christian

Subjects

BEECH, COMPETITION (Biology), EUROPEAN beech

Abstract

Timber quality is the main driver of timber prices and is strongly influenced by the competition a tree experiences until its day of harvest. Regulating competition is an integral part of silviculture, and therefore, deeper understanding of the competitor's influence on timber quality is important. Since mixed forest stands and the share of broadleaved tree species have increased in the recent past because of a changed forest policy in several countries, effects of mixture types on timber quality are of increasing importance. In this study, we investigated the effects of intra- and interspecific competition on the internal timber quality of European beech (Fagus sylvatica L.). To analyze the effects of competition intensity and competitor species identity on the timber quality of 82 target beech trees, three different approaches were used: terrestrial laser scanning (TLS), a quality assessment on the standing tree by local district foresters, and a quality assessment of the sawn wood (boards) after harvesting. We investigated the relationship between external and internal quality features and additionally compared the different approaches to assess quality. We found that the present competitive situation was partly related to internal timber quality, with increasing competition leading to increased internal timber quality. We further observed more discoloration in timber of beech trees growing in mixture with other broadleaved tree species. We also showed that predicting discoloration is possible through the number of bark anomalies on the stem surface. Also, the external quality assessment of local foresters on standing trees predicted the internal timber features well. Finally, TLS appeared to be a valuable addition for assessing timber quality in situ. [ABSTRACT FROM AUTHOR]

Published

2019

13. How management intensity and neighborhood composition affect the structure of beech ( Fagus sylvatica L.) trees.

Author

Juchheim, Julia, Annighöfer, Peter, Ammer, Christian, Calders, Kim, Raumonen, Pasi, and Seidel, Dominik

Abstract

Key message: The intensity of silvicultural interventions and the neighborhood composition determine branching patterns, crown shape, and trunk attributes of beech ( Fagus sylvatica L.) trees. Abstract: The intensity of silvicultural interventions and the composition of tree species are important forest management decisions. Both determine tree shape and thus influence the value of a tree, be it in terms of economy (trunk form, branchiness), or in terms of ecology (microhabitats). However, our knowledge on the distinct changes in tree architecture due to silvicultural management intensity or different neighborhood diversities is still limited, especially if the focus is on single tree attributes, e.g., branching patterns or crown shapes. We used terrestrial laser scanner data to calculate 25 structural measures for 55 European beech ( Fagus sylvatica L.) trees that grew either in pure stands along a gradient of management intensity or in intra or interspecific neighborhoods in unmanaged stands. We found a lower height of maximal horizontal crown extension, a higher crown surface area, and straighter trunks with increasing management intensity. Moreover, our study revealed that beech trees surrounded by valuable hardwoods showed a lower height of maximal horizontal crown extension, a lower height-diameter ratio, and longer branches with flatter branch angles than beech trees surrounded by conspecific neighbors. Our findings provide evidence of phenotypic plasticity of European beech to diverse environmental conditions. The differences in tree structure indicate an increasing crown competition with decreasing management intensity and stronger competitive pressure for beech surrounded by conspecific neighbors in comparison to alien neighbors. [ABSTRACT FROM AUTHOR]

Published

2017

14. Correction to: Influence of heterozygosity and competition on morphological tree characteristics of Quercus rubra L.: a new single‑tree based approach.

Author

Burkardt, Katharina, Pettenkofer, Tim, Ammer, Christian, Gailing, Oliver, Leinemann, Ludger, Seidel, Dominik, and Vor, Torsten

Subjects

RED oak, HETEROZYGOSITY, WEB portals, TREES, LINES of credit

Published

2022

15. Quantification of Biomass Production Potentials from Trees Outside Forests-A Case Study from Central Germany.

Author

Seidel, Dominik, Busch, Gerald, Krause, Benjamin, Bade, Claudia, Fessel, Carola, and Kleinn, Christoph

Subjects

*BIOMASS production, *BIOMASS energy, *RENEWABLE energy sources, *CARTOGRAPHIC services, *GEOGRAPHIC information systems

Abstract

Woody biomass of trees outside forests (TOF) is gaining increasing interest in many countries as it is a renewable energy source that has not been managed for bioenergy production. Our case study describes two independent approaches to assess regional area of TOF as a means for the biomass production potential of TOF within a study region in Germany, the Göttingen district (area: 1,118 km): (1) a statistical sampling with field inventory data, and (2) an area-wide GIS-mapping approach based on open-access aerial imagery. For our particular study, the differences between the mapping-based approach and the sample-based approach were minor (sampling: 24.37 ha and 16,670 t of dry wood per year with a relative standard error 11.6 % vs. area-wide mapping: 24.35 ha and 16,055 t; standard error not available). Due to a minor difference of only 3.7 % between the two approaches, we conclude that area-wide mapping serves as a sound basis for a quantification of bioenergy potentials from TOF. It also shown that only about 62 % of all TOF objects (74 % of the total annual biomass production) would be directly accessible via the existing road infrastructure (without heavy machinery). In terms of available end-use energy, the regional biomass potential translates to an annual amount of 233 TJ which, in turn, reflects only about 0.9 % of the annual end-use energy demand in the study area. This marginal contribution to the region's energy supply is due to the fact that TOF covers only around 24 km (~2 %) in our study area. [ABSTRACT FROM AUTHOR]

Published

2015

16. Sampling for landscape elements-a case study from Lower Saxony, Germany.

Author

Fehrmann, Lutz, Seidel, Dominik, Krause, Benjamin, and Kleinn, Christoph

Subjects

ENVIRONMENTAL monitoring, LAND cover, AERIAL photography, SCIENTIFIC observation

Abstract

The estimation of coverage, i.e., the proportion of the total area in a study region covered by a given target class, is essential to many aspects of environmental monitoring. We analyze and compare the efficiency of different sample-based approaches for the estimation of coverage of different land cover classes from aerial imagery in a case study in Lower Saxony, Germany on the basis of the estimated standard errors. A complete delineation of vegetation classes in n = 279 aerial photo plots of 400 × 400 m thrown onto the study region of 1,117.7 km in accordance with a systematic grid is compared to different configurations of line intercept sampling and clusters of points. The observation designs under study are characterized by different complexity and total size of the observation units and therefore also to the efforts related to yield a single observation. Especially for those classes that cover a relatively large proportion of the sampling frame, our results show that difference in performance between the different designs are negligible. A cluster of four transects of 200 m each allows estimating the area of land cover classes with high coverage with nearly similar precision as a complete mapping of fixed area plots of 16 ha each. Clusters of points show unexpected high precision for the estimated coverage of land cover classes with relatively high coverage. [ABSTRACT FROM AUTHOR]

Published

2014

17. Climate Responses of Aboveground Productivity and Allocation in Fagus sylvatica: A Transect Study in Mature Forests.

Author

Müller-Haubold, Hilmar, Hertel, Dietrich, Seidel, Dominik, Knutzen, Florian, and Leuschner, Christoph

Subjects

FORESTS & forestry, CLIMATE change, EUROPEAN beech, PRECIPITATION (Chemistry), FOREST microclimatology, BIOMASS

Abstract

According to recent climate change scenarios, temperate forests will be increasingly exposed to droughts in the 21st century which are thought to affect productivity. Although decreasing timber yield with reduced precipitation has frequently been reported from temperate forests, the dependence of forest net primary production (NPP) on precipitation is little understood. In a 3-year transect study (2009–2011) carried out in 12 mature beech forests ( Fagus sylvatica) along a precipitation gradient (820–540 mm y −1) in Northern Germany, we measured all aboveground NPP components (NPP a; stem wood, leaf mass, flower and fruit production) and analyzed relationships with monthly weather data. Because we measured NPP a under a broad range of precipitation levels, drought lengths and mast fruiting intensities, the climatic controls of aboveground productivity and carbon allocation could be analyzed in detail. Despite a significant decrease in annual (and growing season) precipitation sums along the transect, NPP a remained largely invariant in each of the years, but varied remarkably between the years (means of 981, 702, 955 g DM m −2 y −1, respectively). Variation in NPP a was most closely related to current year’s early summer weather conditions (June–July), whereas the patterns of biomass allocation to wood, leaf, and fruit production responded to the previous summer’s weather. Wood production cannot predict NPP a in beech due to alternative allocation priorities of vegetative and reproductive growth. Our results show that apparent drought-induced reductions in beech timber yield often are the result of allocation shifts toward fruit production triggered by warm and dry weather in the previous summer. [ABSTRACT FROM AUTHOR]

Published

2013

18. Correction to: From facilitation to competition: the effect of black locust (Robinia pseudoacacia L.) on the growth performance of four poplar-hybrids (Populus spp.) in mixed short rotation coppice.

Author

Rebola‑Lichtenberg, Jessica, Streit, Juliane, Schall, Peter, Ammer, Christian, and Seidel, Dominik

Subjects

BLACK locust, COPPICE forests, POPLARS, ROTATIONAL motion, BLACK poplar

Abstract

Unfortunately, there is information missing in Fig. 3. This figure represents all 4 poplar genotypes and black locust, which are differentiated by the letters (a) to (e). [ABSTRACT FROM AUTHOR]

Published

2021

19. A unified framework for land cover monitoring based on a discrete global sampling grid (GSG).

Author

Fehrmann, Lutz, Kukunda, Collins B., Nölke, Nils, Schnell, Sebastian, Seidel, Dominik, Magnussen, Steen, and Kleinn, Christoph

Subjects

LAND cover, ENVIRONMENTAL monitoring, LAND use, RENEWABLE natural resources, REMOTE sensing

Abstract

Environmental monitoring and assessment of the extent and change of land uses and their renewable natural resources over time is a key element in many international processes and one crucial basis for sustainable management. Remote sensing plays an increasingly important role in these monitoring systems, especially if the interest is in large areas. Integration of remote sensing requires comprehensive and careful preprocessing and a high level of expertise which is not always at hand in all applications. However, easy-to-implement sampling techniques based on visual interpretation are an alternative approach for utilizing remote sensing imagery, including the evolving archives of georeferenced and preprocessed data provided by virtual globes like Google Earth, Bing, and others. The goal of this paper is to propose a simple unified framework that may be used in the context of sampling studies and environmental monitoring from local to global scale. Besides the definition of a sampling design, the observation or plot design, i.e., defining how observations are to be made and recorded, has a strong influence on the precision of estimates as well as the overall efficiency of a sampling exercise. As an example, we present a simulation study focusing on the estimation of forest cover in artificial landscapes with different coverage and degree of fragmentation. The sampling units we compare are point clusters with different configuration and spatial extent. [ABSTRACT FROM AUTHOR]

Published

2019