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2. Stem decomposition of temperate tree species is determined by stem traits and fungal community composition during early stem decay

Author

Yang, Shanshan, primary, Poorter, Lourens, additional, Sterck, Frank J., additional, Cornelissen, Johannes H. C., additional, van Logtestijn, Richardus S. P., additional, Kuramae, Eiko E., additional, Kowalchuk, George A., additional, Hefting, Mariet M., additional, Goudzwaard, Leo, additional, Chang, Chenhui, additional, and Sass‐Klaassen, Ute, additional

Published
2024
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4. Stem decomposition of temperate tree species is determined by stem traits and fungal community composition during early stem decay

Author

Yang, S.S., Poorter, Lourens, Sterck, Frank J., Cornelissen, Johannes H.C., van Logtestijn, Richardus S.P., Kuramae, Eiko E., Hefting, Mariet M., Goudzwaard, Leo, Chang, Chenhui, Sass-Klaassen, Ute, Yang, S.S., Poorter, Lourens, Sterck, Frank J., Cornelissen, Johannes H.C., van Logtestijn, Richardus S.P., Kuramae, Eiko E., Hefting, Mariet M., Goudzwaard, Leo, Chang, Chenhui, and Sass-Klaassen, Ute

Abstract

Dead trees are vital structural elements in forests playing key roles in the carbon and nutrient cycle. Stem traits and fungal community composition are both important drivers of stem decay, and thereby affect ecosystem functioning, but their relative importance for stem decomposition over time remains unclear. To address this issue, we used a common garden decomposition experiment in a Dutch larch forest hosting fresh logs from 13 common temperate tree species. In total 25 fresh wood and bark traits were measured as indicators of wood accessibility for decomposers, nutritional quality, and chemical or physical defense mechanisms. After one and four years of decay, we assessed the richness and composition of wood-inhabiting fungi using amplicon sequencing and determined the proportional wood density loss. Average proportional wood density loss for the first year was 18.5%, with further decomposition occurring at a rate of 4.3% yr-1 for the subsequent three years across tree species. Proportional wood density loss varied widely across tree species in the first year (8.7-24.8% yr-1) and subsequent years (0-11.3% yr-1). The variation was directly driven by initial wood traits during the first decay year, then later directly driven by bark traits and fungal community composition. Moreover, bark traits affected the composition of wood-inhabiting fungi and thereby indirectly affected decomposition rates. Specifically, traits promoting resource acquisition of the living tree, such as wide conduits that increase accessibility and high nutrient concentration, increased initial wood decomposition rates. Fungal community composition, but not fungal richness explained differences in wood decomposition after four years of exposure in the field, where fungal communities dominated by brown-rot and white-rot Basidiomycetes were linked to higher wood decomposition rate. Synthesis. Understanding what drives deadwood decomposition through time is important to understand the dynamics o, Dead trees are vital structural elements in forests playing key roles in the carbon and nutrient cycle. Stem traits and fungal community composition are both important drivers of stem decay, and thereby affect ecosystem functioning, but their relative importance for stem decomposition over time remains unclear. To address this issue, we used a common garden decomposition experiment in a Dutch larch forest hosting fresh logs from 13 common temperate tree species. In total 25 fresh wood and bark traits were measured as indicators of wood accessibility for decomposers, nutritional quality, and chemical or physical defense mechanisms. After one and four years of decay, we assessed the richness and composition of wood-inhabiting fungi using amplicon sequencing and determined the proportional wood density loss. Average proportional wood density loss for the first year was 18.5%, with further decomposition occurring at a rate of 4.3% yr-1 for the subsequent three years across tree species. Proportional wood density loss varied widely across tree species in the first year (8.7-24.8% yr-1) and subsequent years (0-11.3% yr-1). The variation was directly driven by initial wood traits during the first decay year, then later directly driven by bark traits and fungal community composition. Moreover, bark traits affected the composition of wood-inhabiting fungi and thereby indirectly affected decomposition rates. Specifically, traits promoting resource acquisition of the living tree, such as wide conduits that increase accessibility and high nutrient concentration, increased initial wood decomposition rates. Fungal community composition, but not fungal richness explained differences in wood decomposition after four years of exposure in the field, where fungal communities dominated by brown-rot and white-rot Basidiomycetes were linked to higher wood decomposition rate. Synthesis. Understanding what drives deadwood decomposition through time is important to understand the dynamics o

Published
2024

5. Stem decomposition of temperate tree species is determined by stem traits and fungal community composition during early stem decay

Author

Yang, Shanshan, Poorter, Lourens, Sterck, Frank J., Cornelissen, Johannes H. C., van Logtestijn, Richardus S. P., Kuramae, Eiko E., Kowalchuk, George A., Hefting, Mariet M., Goudzwaard, Leo, Chang, Chenhui, Sass‐Klaassen, Ute, Yang, Shanshan, Poorter, Lourens, Sterck, Frank J., Cornelissen, Johannes H. C., van Logtestijn, Richardus S. P., Kuramae, Eiko E., Kowalchuk, George A., Hefting, Mariet M., Goudzwaard, Leo, Chang, Chenhui, and Sass‐Klaassen, Ute

Abstract

Dead trees are vital structural elements in forests playing key roles in the carbon and nutrient cycle. Stem traits and fungal community composition are both important drivers of stem decay, and thereby affect ecosystem functioning, but their relative importance for stem decomposition over time remains unclear.To address this issue, we used a common garden decomposition experiment in a Dutch larch forest hosting fresh logs from 13 common temperate tree species. In total, 25 fresh wood and bark traits were measured as indicators of wood accessibility for decomposers, nutritional quality and chemical or physical defence mechanisms. After 1 and 4 years of decay, we assessed the richness and composition of wood-inhabiting fungi using amplicon sequencing and determined the proportional wood density loss.Average proportional wood density loss for the first year was 18.5%, with further decomposition occurring at a rate of 4.3% year−1 for the subsequent 3 years across tree species. Proportional wood density loss varied widely across tree species in the first year (8.7–24.8% year−1) and subsequent years (0–11.3% year−1). The variation was directly driven by initial wood traits during the first decay year, then later directly driven by bark traits and fungal community composition. Moreover, bark traits affected the composition of wood-inhabiting fungi and thereby indirectly affected decomposition rates. Specifically, traits promoting resource acquisition of the living tree, such as wide conduits that increase accessibility and high nutrient concentration, increased initial wood decomposition rates. Fungal community composition, but not fungal richness explained differences in wood decomposition after 4 years of exposure in the field, where fungal communities dominated by brown-rot and white-rot Basidiomycetes were linked to higher wood decomposition rate.Synthesis: Understanding what drives deadwood decomposition through time is importa

Published
2024

6. Facilitation: Isotopic evidence that wood-boring beetles drive the trophic diversity of secondary decomposers

Author

Sub Ecology and Biodiversity, Ecology and Biodiversity, Tuo, Bin, Hu, Yu Kun, Logtestijn, Richardus S.P.van, Zuo, Juan, Goudzwaard, Leo, Hefting, Mariet M., Berg, Matty P., Cornelissen, Johannes H.C., Sub Ecology and Biodiversity, Ecology and Biodiversity, Tuo, Bin, Hu, Yu Kun, Logtestijn, Richardus S.P.van, Zuo, Juan, Goudzwaard, Leo, Hefting, Mariet M., Berg, Matty P., and Cornelissen, Johannes H.C.

Published
2024

9. Considering inner and outer bark as distinctive tissues helps to disentangle the effects of bark traits on decomposition

Author

Lin, Li, Song, Yao Bin, Li, Yikang, Goudzwaard, Leo, van Logtestijn, Richard S.P., Chang, Chenhui, Broekman, Rob, van Hal, Jurgen, Zuo, Juan, Sterck, Frank J., Poorter, Lourens, Sass-Klaassen, Ute, Hefting, Mariet M., Cornelissen, Johannes H.C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Systems Ecology, Animal Ecology, Ecology and Biodiversity, and Sub Ecology and Biodiversity

Subjects
deadwood, Ecology, gymnosperms, Evolution, early decomposition stage, ecosystem function and services, Plant Science, PE&RC, Forest Ecology and Forest Management, bark layer, decomposability, Behavior and Systematics, Bosecologie en Bosbeheer, functional traits, Ecology, Evolution, Behavior and Systematics
Abstract

Revealing the ecological consequences of bark multifunctionality and its underlying traits has become a relatively new but essential focus in plant ecology. Although the enormous differences between the most crucial bark layers, that is, inner and outer bark, in structure and functions have been widely recognized, the overall bark has been regarded as a homogenous tissue in most bark-related studies. This has led to poor knowledge on the functional independence, specialized contributions and possible linkages of inner and outer bark traits across tree species when further evaluating the crucial ecosystem functions that bark provides, especially in driving variation in bark decomposition. To fill this research gap, we used a ‘common garden experiment’ on deadwood of six gymnosperms in a temperate forest in the Netherlands over 4 years of decomposition. We evaluated the differences and associations between the inner and outer bark in initial functional traits, decomposition rates and afterlife effects of traits in driving in situ bark decomposition across tree species at the earlier decomposition stage. We report four main findings: (1) inner and outer bark traits varied significantly and were not coordinated across tree species; (2) correspondingly, the decomposition of the inner and outer bark were asynchronous and not coordinated across species and inner bark generally decomposed faster than outer bark; (3) the strong predictive traits driving bark decomposability were bark layer-specific, with several inner bark traits controlling inner bark decomposition rates but outer bark decomposability being poorly predicted by outer bark traits and (4) besides being controlled by inner bark traits, inner bark decomposition was also indirectly regulated by several functional traits and the structure-related trait spectrum of outer bark. Synthesis. This is the first study that has linked functional traits, decomposability and afterlife effects of the inner and outer bark within the bark quantitatively. We highlight the significance of separating functional traits and ecological consequences of the inner and outer bark in research in bark ecology and deadwood dynamics, rather than erroneously considering bark as a homogeneous tissue. Such research will help to better evaluate the function-oriented contribution of bark to the turnover of forest carbon and biogeochemical cycles from local to global scale.

Published
2022
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10. Stem traits, compartments, and tree species affect fungal communities on decaying wood

Author

Yang, Shanshan, Poorter, Lourens, Kuramae, Eiko E., Sass-Klaassen, Ute, Leite, Marcio F.A., Costa, Ohana Y.A., Kowalchuk, George A., Cornelissen, Johannes H.C., van Hal, Jurgen, Goudzwaard, Leo, Hefting, Mariet M., van Logtestijn, Richard S.P., Sterck, Frank J., Ecology and Biodiversity, Sub Ecology and Biodiversity, Microbial Ecology (ME), Systems Ecology, Ecology and Biodiversity, and Sub Ecology and Biodiversity

Subjects
Identification, Physicochemical properties, Evolution, Forests, Microbiology, complex mixtures, Plan_S-Compliant-OA, Trees, Soil, Behavior and Systematics, Life Science, Bosecologie en Bosbeheer, Ecology, Evolution, Behavior and Systematics, SDG 15 - Life on Land, Decomposition, Diversity, Ecology, Fungi, national, Enzyme-activities, Biodiversity, PE&RC, Quality, Wood, Forest Ecology and Forest Management, Deadwood, Dynamics, Debris, Mycobiome
Abstract

Dead wood quantity and quality is important for forest biodiversity, by determining wood-inhabiting fungal assemblages. We therefore evaluated how fungal communities were regulated by stem traits and compartments (i.e. bark, outer- and inner wood) of 14 common temperate tree species. Fresh logs were incubated in a common garden experiment in a forest site in the Netherlands. After 1 and 4 years of decay, the fungal composition of different compartments was assessed using Internal Transcribed Spacer amplicon sequencing. We found that fungal alpha diversity differed significantly across tree species and stem compartments, with bark showing significantly higher fungal diversity than wood. Gymnosperms and Angiosperms hold different fungal communities, and distinct fungi were found between inner wood and other compartments. Stem traits showed significant afterlife effects on fungal communities; traits associated with accessibility (e.g. conduit diameter), stem chemistry (e.g. C, N, lignin) and physical defence (e.g. density) were important factors shaping fungal community structure in decaying stems. Overall, stem traits vary substantially across stem compartments and tree species, thus regulating fungal communities and the long-term carbon dynamics of dead trees.

Published
2022
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11. Stem Trait Spectra Underpin Multiple Functions of Temperate Tree Species

Author

Yang, Shanshan, Sterck, Frank J., Sass-Klaassen, Ute, Cornelissen, J. Hans C., van Logtestijn, Richard S.P., Hefting, Mariet, Goudzwaard, Leo, Zuo, Juan, Poorter, Lourens, Ecology and Biodiversity, Sub Ecology and Biodiversity, Ecology and Biodiversity, Sub Ecology and Biodiversity, and Systems Ecology

Subjects
stem economics spectra, trade-offs, plant functions, physiochemical traits, plant strategies, Bosecologie en Bosbeheer, Plant Science, PE&RC, complex mixtures, Forest Ecology and Forest Management
Abstract

A central paradigm in comparative ecology is that species sort out along a slow-fast resource economy spectrum of plant strategies, but this has been rarely tested for a comprehensive set of stem traits and compartments. We tested how stem traits vary across wood and bark of temperate tree species, whether a slow-fast strategy spectrum exists, and what traits make up this plant strategy spectrum. For 14 temperate tree species, 20 anatomical, chemical, and morphological traits belonging to six key stem functions were measured for three stem compartments (inner wood, outer wood, and bark). The trait variation was explained by major taxa (38%), stem compartments (24%), and species within major taxa (19%). A continuous plant strategy gradient was found across and within taxa, running from hydraulic safe gymnosperms to conductive angiosperms. Both groups showed a second strategy gradient related to chemical defense. Gymnosperms strongly converged in their trait strategies because of their uniform tracheids. Angiosperms strongly diverged because of their different vessel arrangement and tissue types. The bark had higher concentrations of nutrients and phenolics whereas the wood had stronger physical defense. The gymnosperms have a conservative strategy associated with strong hydraulic safety and physical defense, and a narrow, specialized range of trait values, which allow them to grow well in drier and unproductive habitats. The angiosperm species show a wider trait variation in all stem compartments, which makes them successful in marginal- and in mesic, productive habitats. The associations between multiple wood and bark traits collectively define a slow-fast stem strategy spectrum as is seen also for each stem compartment.

Published
2022
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12. Stem traits, compartments and tree species affect fungal communities on decaying wood

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Yang, Shanshan, Poorter, Lourens, Kuramae, Eiko E., Sass-Klaassen, Ute, Leite, Marcio F.A., Costa, Ohana Y.A., Kowalchuk, George A., Cornelissen, Johannes H.C., van Hal, Jurgen, Goudzwaard, Leo, Hefting, Mariet M., van Logtestijn, Richard S.P., Sterck, Frank J., Ecology and Biodiversity, Sub Ecology and Biodiversity, Yang, Shanshan, Poorter, Lourens, Kuramae, Eiko E., Sass-Klaassen, Ute, Leite, Marcio F.A., Costa, Ohana Y.A., Kowalchuk, George A., Cornelissen, Johannes H.C., van Hal, Jurgen, Goudzwaard, Leo, Hefting, Mariet M., van Logtestijn, Richard S.P., and Sterck, Frank J.

Published
2022

13. Stem Trait Spectra Underpin Multiple Functions of Temperate Tree Species

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Yang, Shanshan, Sterck, Frank J., Sass-Klaassen, Ute, Cornelissen, J. Hans C., van Logtestijn, Richard S.P., Hefting, Mariet, Goudzwaard, Leo, Zuo, Juan, Poorter, Lourens, Ecology and Biodiversity, Sub Ecology and Biodiversity, Yang, Shanshan, Sterck, Frank J., Sass-Klaassen, Ute, Cornelissen, J. Hans C., van Logtestijn, Richard S.P., Hefting, Mariet, Goudzwaard, Leo, Zuo, Juan, and Poorter, Lourens

Published
2022

14. Considering inner and outer bark as distinctive tissues helps to disentangle the effects of bark traits on decomposition

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Lin, Li, Song, Yao Bin, Li, Yikang, Goudzwaard, Leo, van Logtestijn, Richard S.P., Chang, Chenhui, Broekman, Rob, van Hal, Jurgen, Zuo, Juan, Sterck, Frank J., Poorter, Lourens, Sass-Klaassen, Ute, Hefting, Mariet M., Cornelissen, Johannes H.C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Lin, Li, Song, Yao Bin, Li, Yikang, Goudzwaard, Leo, van Logtestijn, Richard S.P., Chang, Chenhui, Broekman, Rob, van Hal, Jurgen, Zuo, Juan, Sterck, Frank J., Poorter, Lourens, Sass-Klaassen, Ute, Hefting, Mariet M., and Cornelissen, Johannes H.C.

Published
2022

15. Factsheet Acer campestre – Veldesdoorn/Spaanse aak

Author

Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, Lindenbergh, Dennis, Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, and Lindenbergh, Dennis

Published
2022

16. Factsheet Cedrus atlantica – Atlasceder en Cedrus libani – Libanonceder

Author

Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, Lindenbergh, Dennis, Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, and Lindenbergh, Dennis

Published
2022

17. Factsheet Corylus colurna – Boomhazelaar

Author

Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, Lindenbergh, Dennis, Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, and Lindenbergh, Dennis

Published
2022

18. Factsheet Platanus orientalis – Oosterse plataan

Author

Kremers, Jasperina, Boosten, Martijn, Kelder, Gera op den, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, Lindenbergh, Dennis, Kremers, Jasperina, Boosten, Martijn, Kelder, Gera op den, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, and Lindenbergh, Dennis

Published
2022

19. Factsheet Sequoia sempervirens – Kustmammoetboom/Kustsequoia

Author

Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, Lindenbergh, Dennis, Kremers, Jasperina, Boosten, Martijn, Best, Sven van, Kelder, Gera op den, Groot, Casper de, Penninkhof, Joyce, Copini, Paul, Goudzwaard, Leo, Wiersma, Hinke, Kragt, Lammert, and Lindenbergh, Dennis

Published
2022

20. Controls on Coarse Wood Decay in Temperate Tree Species: Birth of the LOGLIFE Experiment

Author

Cornelissen, Johannes H. C., Sass-Klaassen, Ute, Poorter, Lourens, van Geffen, Koert, van Logtestijn, Richard S. P., van Hal, Jurgen, Goudzwaard, Leo, Sterck, Frank J., Klaassen, René K. W. M., Freschet, Grégoire T., van der Wal, Annemieke, Eshuis, Henk, Zuo, Juan, de Boer, Wietse, Lamers, Teun, Weemstra, Monique, Cretin, Vincent, Martin, Rozan, den Ouden, Jan, Berg, Matty P., Aerts, Rien, Mohren, Godefridus M. J., and Hefting, Mariet M.

Published
2012
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21. Methodology matters for comparing coarse wood and bark decay rates across tree species

Author

Chang, Chenhui, Logtestijn, Richard S. P., Goudzwaard, Leo, Hal, Jurgen, Zuo, Juan, Hefting, Mariet, Sass‐klaassen, Ute, Yang, Shanshan, Sterck, Frank J., Poorter, Lourens, Cornelissen, Johannes H. C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Ecology and Biodiversity, Sub Ecology and Biodiversity, Systems Ecology, and Animal Ecology

Subjects
0106 biological sciences, Nutrient cycle, 010603 evolutionary biology, 01 natural sciences, complex mixtures, ecological methodology, Dry weight, inner barkthickness, Forest ecology, Temperate climate, volume loss, fragment loss, Bosecologie en Bosbeheer, interspecific variation, Ecology, Evolution, Behavior and Systematics, SDG 15 - Life on Land, asynchronous, Stem bark, dead wood, decomposition, 010604 marine biology & hydrobiology, Ecological Modeling, PE&RC, Forest Ecology and Forest Management, Horticulture, Volume (thermodynamics), visual_art, visual_art.visual_art_medium, Environmental science, inner bark thickness, Bark, Tree species
Abstract

The importance of wood decay for global carbon and nutrient cycles is widely recognized. However, relatively little is known about bark decay dynamics, even though bark represents up to 25% of stem dry mass. Moreover, bark presence versus absence can significantly alter wood decay rates. Therefore, it really matters for the fate of carbon whether variation in bark and wood decay rates is coordinated across tree species. Answering this question requires advances in methodology to measure both bark and wood mass loss accurately. Decay rates of large logs in the field are often quantified as loss in tissue density, in which case volume depletions of bark and wood can yield large underestimations. To quantify the real decay rates, we assessed bark mass loss per stem surface area and wood mass loss based on volume-corrected density loss. We further defined the range of actual bark mass loss by considering bark cover loss. Then, we tested the correlation between bark and wood mass loss across 20 temperate tree species during 4 years of decomposition. The area-based method generally showed more than 3-fold higher bark mass loss than the density-based method (even higher if considering bark cover loss), and volume-corrected wood mass losses were 1.08–1.12 times higher than density-based mass loss. The deviation of bark mass loss between the two methods was higher for tree species with thicker inner bark. Bark generally decomposed twice as fast as wood across species, and faster decaying bark came with faster decaying wood (R2 = 0.26, p = 0.006). We strongly suggest using corrected volume when assessing wood mass loss especially for the species with faster decomposable sapwood and all the wood at advanced decay stages. Further studies of coarse stem decomposition should consider trait ‘afterlife’ effects of inner bark and estimate fraction of stem bark cover to obtain more accurate decay rates. Our new method should benefit our understanding of the in situ dynamics of woody debris decay and monitoring research in different forest ecosystems world-wide, and should aid meta-analyses across diverse studies.

Published
2020
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22. Dead wood diversity promotes fungal diversity

Author

Yang, Shanshan, primary, Limpens, Juul, additional, Sterck, Frank J., additional, Sass‐Klaassen, Ute, additional, Cornelissen, Johannes H. C., additional, Hefting, Mariet, additional, van Logtestijn, Richard S. P., additional, Goudzwaard, Leo, additional, Dam, Nico, additional, Dam, Marjo, additional, Veerkamp, Mirjam T., additional, van den Berg, Bart, additional, Brouwer, Emiel, additional, Chang, Chenghui, additional, and Poorter, Lourens, additional

Published
2021
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23. Considering inner and outer bark as distinctive tissues helps to disentangle the effects of bark traits on decomposition.

Author

Li Lin, Yao-Bin Song, Yikang Li, Goudzwaard, Leo, van Logtestijn, Richard S. P., Chenhui Chang, Broekman, Rob, van Hal, Jurgen, Juan Zuo, Sterck, Frank J., Poorter, Lourens, Sass-Klaassen, Ute, Hefting, Mariet M., and Cornelissen, Johannes H. C.

Subjects
PLANT ecology, TEMPERATE forests, CARBON cycle, GYMNOSPERMS, AFTERLIFE
Abstract

1. Revealing the ecological consequences of bark multifunctionality and its underlying traits has become a relatively new but essential focus in plant ecology. Although the enormous differences between the most crucial bark layers, that is, inner and outer bark, in structure and functions have been widely recognized, the overall bark has been regarded as a homogenous tissue in most bark-related studies. This has led to poor knowledge on the functional independence, specialized contributions and possible linkages of inner and outer bark traits across tree species when further evaluating the crucial ecosystem functions that bark provides, especially in driving variation in bark decomposition. 2. To fill this research gap, we used a ‘common garden experiment’ on deadwood of six gymnosperms in a temperate forest in the Netherlands over 4 years of decomposition. We evaluated the differences and associations between the inner and outer bark in initial functional traits, decomposition rates and afterlife effects of traits in driving in situ bark decomposition across tree species at the earlier decomposition stage. 3. We report four main findings: (1) inner and outer bark traits varied significantly and were not coordinated across tree species; (2) correspondingly, the decomposition of the inner and outer bark were asynchronous and not coordinated across species and inner bark generally decomposed faster than outer bark; (3) the strong predictive traits driving bark decomposability were bark layer-specific, with several inner bark traits controlling inner bark decomposition rates but outer bark decomposability being poorly predicted by outer bark traits and (4) besides being controlled by inner bark traits, inner bark decomposition was also indirectly regulated by several functional traits and the structure-related trait spectrum of outer bark. 4. Synthesis. This is the first study that has linked functional traits, decomposability and afterlife effects of the inner and outer bark within the bark quantitatively. We highlight the significance of separating functional traits and ecological consequences of the inner and outer bark in research in bark ecology and deadwood dynamics, rather than erroneously considering bark as a homogeneous tissue. Such research will help to better evaluate the function-oriented contribution of bark to the turnover of forest carbon and biogeochemical cycles from local to global scale. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Dead wood diversity promotes fungal diversity

Author

Yang, Shanshan, Limpens, Juul, Sterck, Frank J., Sass-Klaassen, Ute, Cornelissen, Johannes H.C., Hefting, Mariet, van Logtestijn, Richard S.P., Goudzwaard, Leo, Dam, Nico, Dam, Marjo, Veerkamp, Mirjam T., van den Berg, Bart, Brouwer, Emiel, Chang, Chenghui, Poorter, Lourens, Yang, Shanshan, Limpens, Juul, Sterck, Frank J., Sass-Klaassen, Ute, Cornelissen, Johannes H.C., Hefting, Mariet, van Logtestijn, Richard S.P., Goudzwaard, Leo, Dam, Nico, Dam, Marjo, Veerkamp, Mirjam T., van den Berg, Bart, Brouwer, Emiel, Chang, Chenghui, and Poorter, Lourens

Abstract

Dead wood is a source of life as it provides habitat and substrate for a wide range of fungal species. A growing number of studies show an important role of wood quality for fungal diversity, but in most cases for a limited number of wood traits or tree species. In this study, we evaluate how abiotic and biotic factors affect the fungal diversity and composition during dead wood decomposition. For ten common European tree species, fresh similar-sized logs were incubated simultaneously in two Dutch forests. Annual surveys of fungal fruiting bodies were made for an 8-year period. For each tree species, 20 fresh stem traits were measured that are important for chemical and physical defence and for nutritional quality. Throughout eight years, 4644 fruiting bodies belonging to 255 species and 90 genera were recorded on the logs of ten tree species. Fungal frequency and richness were higher for Angiosperms than for Gymnosperms, both for individual tree species and as a group, and higher for tree species with more acquisitive stem trait strategies (i.e. high nutritional value and low physical defence). Differences in fungal communities were strongly driven by phylogenetic group (Gymnosperms versus Angiosperms), stem traits, decay time and forest sites, together explaining 23% of the variation. Fungal communities in sandy site diverged early in the decay process but converged later because of substrate homogenization. Of the 128 fungal species included in the analyses, 41% showed a preference for specific tree species and 34% for a specific successional year. In conclusion, dead wood quality, determined by tree species and decay stage, is an important driver of fungal diversity. For forest management, promoting a wide array of dead tree species (especially angiosperm species), a range of stem trait values and decay stages will increase fungal and, thereby, forest biodiversity.

Published
2021

26. Fauna Community Convergence During Decomposition of Deadwood Across Tree Species and Forests

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Zuo, Juan, Berg, Matty P., Van Hal, Jurgen, Van Logtestijn, Richard S. P., Goudzwaard, Leo, Hefting, Mariet M., Poorter, Lourens, Sterck, Frank J., Cornelissen, Johannes H. C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Zuo, Juan, Berg, Matty P., Van Hal, Jurgen, Van Logtestijn, Richard S. P., Goudzwaard, Leo, Hefting, Mariet M., Poorter, Lourens, Sterck, Frank J., and Cornelissen, Johannes H. C.

Published
2021

27. Dead wood diversity promotes fungal diversity

Author

Sub Ecology and Biodiversity, Ecology and Biodiversity, Yang, Shanshan, Limpens, Juul, Sterck, Frank J., Sass-Klaassen, Ute, Cornelissen, Johannes H.C., Hefting, Mariet, van Logtestijn, Richard S.P., Goudzwaard, Leo, Dam, Nico, Dam, Marjo, Veerkamp, Mirjam T., van den Berg, Bart, Brouwer, Emiel, Chang, Chenghui, Poorter, Lourens, Sub Ecology and Biodiversity, Ecology and Biodiversity, Yang, Shanshan, Limpens, Juul, Sterck, Frank J., Sass-Klaassen, Ute, Cornelissen, Johannes H.C., Hefting, Mariet, van Logtestijn, Richard S.P., Goudzwaard, Leo, Dam, Nico, Dam, Marjo, Veerkamp, Mirjam T., van den Berg, Bart, Brouwer, Emiel, Chang, Chenghui, and Poorter, Lourens

Published
2021

28. Growth of 19 conifer species is highly sensitive to winter warming, spring frost and summer drought

Author

Song, Yanjun, Sass-Klaassen, Ute, Sterck, Frank, Goudzwaard, Leo, Akhmetzyanov, Linar, Poorter, Lourens, Song, Yanjun, Sass-Klaassen, Ute, Sterck, Frank, Goudzwaard, Leo, Akhmetzyanov, Linar, and Poorter, Lourens

Abstract

Background and Aims: Conifers are key components of many temperate and boreal forests and are important for forestry, but species differences in stem growth responses to climate are still poorly understood and may hinder effective management of these forests in a warmer and drier future. Methods: We studied 19 Northern Hemisphere conifer species planted in a 50-year-old common garden experiment in the Netherlands to (1) assess the effect of temporal dynamics in climate on stem growth, (2) test for a possible positive relationship between the growth potential and climatic growth sensitivity across species, and (3) evaluate the extent to which stem growth is controlled by phylogeny. Key results: Eighty-nine per cent of the species showed a significant reduction in stem growth to summer drought, 37 % responded negatively to spring frost and 32 % responded positively to higher winter temperatures. Species differed largely in their growth sensitivity to climatic variation and showed, for example, a four-fold difference in growth reduction to summer drought. Remarkably, we did not find a positive relationship between productivity and climatic sensitivity, but instead observed that some species combined a low growth sensitivity to summer drought with high growth potential. Both growth sensitivity to climate and growth potential were partly phylogenetically controlled. Conclusions: A warmer and drier future climate is likely to reduce the productivity of most conifer species. We did not find a relationship between growth potential and growth sensitivity to climate; instead, some species combined high growth potential with low sensitivity to summer drought. This may help forest managers to select productive species that are able to cope with a warmer and drier future.

Published
2021

29. Factsheet Juglans regia – walnoot

Author

Kremers, Jasprina, Boosten, Martijn, Groot, Casper de, Copini, Paul, Goudzwaard, Leo, Kremers, Jasprina, Boosten, Martijn, Groot, Casper de, Copini, Paul, and Goudzwaard, Leo

Abstract

Walnoot (Juglans regia), ook wel okkernoot genoemd, is een loofboomsoort uit de okkernootfamilie (Juglandaceae). Het natuurlijk verspreidingsgebied van de walnoot ligt in Turkije, Centraal Azië en de Himalaya. Omdat de walnoot al zo lang wordt gecultiveerd, komt de soort tegenwoordig in vrijwel heel Europa voor. Walnoot groeit vaak in bosverband in monoculturen , als solitaire boom en in boomweides. Walnoot als mengboomsoort in bosverband is vooralsnog minder gebruikelijk. Bosgemeenschappen waar walnoot wel in menging voorkomt zijn onder andere loofbossen met zomerlinde, Noorse esdoorn, haagbeuk en ruwe iep. Ook komt de soort voor in ooibossen.

Published
2021

30. Factsheet Abies alba – gewone zilverspar

Author

Kremers, Jasprina, Boosten, Martijn, Groot, Casper de, Kragt, Lammert, Copini, Paul, Wiersma, Hinke, Goudzwaard, Leo, Kremers, Jasprina, Boosten, Martijn, Groot, Casper de, Kragt, Lammert, Copini, Paul, Wiersma, Hinke, and Goudzwaard, Leo

Abstract

Gewone zilverspar (Abies alba) is een naaldboomsoort uit de dennenfamilie (Pinaceae). De soort is niet inheems in Nederland, maar komt wel van nature in Europa voor. Het verspreidingsgebied ligt in Centraal-Europa, in met name: Zuid- en Oost- Duitsland, Zwitserland, Oostenrijk, Tsjechië, Noord-Italië en de Balkan. In de Pyreneeën en in Zuid-Italië bevinden zich geïsoleerde populaties.

Published
2021

31. Factsheet Populus tremula - ratelpopulier

Author

Kremers, Jasprina, Boosten, Martijn, Copini, Paul, Groot, Casper de, Kragt, Lammert, Goudzwaard, Leo, Kremers, Jasprina, Boosten, Martijn, Copini, Paul, Groot, Casper de, Kragt, Lammert, and Goudzwaard, Leo

Abstract

Ratelpopulier (Populus tremula), ook wel esp genoemd, is een in Nederland inheemse, tweehuizige loofboomsoort. De ratelpopulier heeft een groot natuurlijk verspreidingsgebied dat zich uitstrekt over heel Europa en de boreale en gematigde zones van Azië. Op grove den na is ratelpopulier de meest verspreide boomsoort in de wereld.

Published
2021

32. Factsheet Castanea sativa – tamme kastanje

Author

Kremers, Jasprina, Boosten, Martijn, Best, Sven van, Groot, Casper de, Copini, Paul, Wiersma, Hinke, Lindenbergh, Dennis, Goudzwaard, Leo, Kremers, Jasprina, Boosten, Martijn, Best, Sven van, Groot, Casper de, Copini, Paul, Wiersma, Hinke, Lindenbergh, Dennis, and Goudzwaard, Leo

Abstract

Tamme kastanje (Castanea sativa) is een loofboomsoort uit de napjesdragerfamilie (Fagaceae). De soort is niet inheems in Nederland, maar wordt al eeuwenlang hier aangeplant en is al sinds lange tijd een ingeburgerde soort. Aangenomen wordt dat de soort al door de Romeinen in Noordwest Europa is geïntroduceerd. Het natuurlijke verspreidingsgebied ligt rond de Middellandse Zee, Anatolië en de Noord-Afrikaanse kuststrook, waar de soort voorkomt op groeiplaatsen tussen 300-1800 meter hoogte.

Published
2021

33. Factsheet Sorbus torminalis – elsbes

Author

Kremers, Jasprina, Groot, Casper de, Boosten, Martijn, Best, Sven van, Copini, Paul, Kragt, Lammert, Lindenbergh, Dennis, Goudzwaard, Leo, Kremers, Jasprina, Groot, Casper de, Boosten, Martijn, Best, Sven van, Copini, Paul, Kragt, Lammert, Lindenbergh, Dennis, and Goudzwaard, Leo

Abstract

Elsbes (Sorbus torminalis) is een loofboomsoort uit de rozenfamilie (Rosaceae). De soort is verwant aan meelbes (Sorbus aria) en de inheemse wilde lijsterbes (Sorbus aucuparia). Elsbes is niet inheems in Nederland, maar komt wel uit de buurt. De soort is in Duitsland en zuidelijk Groot-Brittannië wel inheems. Het verspreidingsgebied strekt zich uit van Midden-Europa (tot aan de Duitse Eifel en Noord-Duitsland) en Zuid-Europa tot Noord-Afrika en Zuidwest-Azië.

Published
2021

34. Stem traits, compartments and tree species affect fungal communities on decaying wood

Author

Yang, Shanshan, Poorter, Lourens, Kuramae, Eiko E., Sass-Klaassen, Ute, Leite, Marcio F.A., Costa, Ohana Y.A., Kowalchuk, George A., Cornelissen, Johannes H.C., van Hal, Jurgen, Goudzwaard, Leo, Hefting, Mariet M., van Logtestijn, Richard S.P., Sterck, Frank J., Yang, Shanshan, Poorter, Lourens, Kuramae, Eiko E., Sass-Klaassen, Ute, Leite, Marcio F.A., Costa, Ohana Y.A., Kowalchuk, George A., Cornelissen, Johannes H.C., van Hal, Jurgen, Goudzwaard, Leo, Hefting, Mariet M., van Logtestijn, Richard S.P., and Sterck, Frank J.

Abstract

Dead wood quantity and quality is important for forest biodiversity, by determining the wood-inhabiting fungal assemblages. We therefore evaluated how fungal communities were regulated by stem traits and compartments (i.e., bark, outer- and inner wood) of 14 common temperate tree species. Fresh logs were incubated in a common garden experiment in a forest site in the Netherlands. After 1 and 4 years of decay, the fungal composition of different compartments was assessed using Internal Transcribed Spacer amplicon sequencing. We found that fungal alpha diversity differed significantly across tree species and stem compartments, with bark showing significantly higher fungal diversity than wood. Gymnosperms and Angiosperms hold different fungal communities, and distinct fungi were found between inner wood and other compartments. Stem traits showed significant afterlife effects on fungal communities; traits associated with accessibility (e.g. conduit diameter), stem chemistry (e.g. C, N, lignin) and physical defence (e.g. density) were important factors shaping fungal community structure in decaying stems. Overall, stem traits vary substantially across stem compartment and tree species, thus regulating fungal communities and the long-term carbon dynamics of dead trees., Dead wood quantity and quality is important for forest biodiversity, by determining the wood-inhabiting fungal assemblages. We therefore evaluated how fungal communities were regulated by stem traits and compartments (i.e., bark, outer- and inner wood) of 14 common temperate tree species. Fresh logs were incubated in a common garden experiment in a forest site in the Netherlands. After 1 and 4 years of decay, the fungal composition of different compartments was assessed using Internal Transcribed Spacer amplicon sequencing. We found that fungal alpha diversity differed significantly across tree species and stem compartments, with bark showing significantly higher fungal diversity than wood. Gymnosperms and Angiosperms hold different fungal communities, and distinct fungi were found between inner wood and other compartments. Stem traits showed significant afterlife effects on fungal communities; traits associated with accessibility (e.g. conduit diameter), stem chemistry (e.g. C, N, lignin) and physical defence (e.g. density) were important factors shaping fungal community structure in decaying stems. Overall, stem traits vary substantially across stem compartment and tree species, thus regulating fungal communities and the long-term carbon dynamics of dead trees.

Published
2021

35. Methodology matters for comparing coarse wood and bark decay rates across tree species

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Chang, Chenhui, Logtestijn, Richard S. P., Goudzwaard, Leo, Hal, Jurgen, Zuo, Juan, Hefting, Mariet, Sass‐klaassen, Ute, Yang, Shanshan, Sterck, Frank J., Poorter, Lourens, Cornelissen, Johannes H. C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Chang, Chenhui, Logtestijn, Richard S. P., Goudzwaard, Leo, Hal, Jurgen, Zuo, Juan, Hefting, Mariet, Sass‐klaassen, Ute, Yang, Shanshan, Sterck, Frank J., Poorter, Lourens, and Cornelissen, Johannes H. C.

Published
2020

36. Assessment of workflow feature selection on forest LAI prediction with sentinel-2A MSI, landsat 7 ETM+ and Landsat 8 OLI

Author

Brede, Benjamin, Verrelst, Jochem, Gastellu-Etchegorry, Jean Philippe, Clevers, Jan G.P.W., Goudzwaard, Leo, den Ouden, Jan, Verbesselt, Jan, Herold, Martin, Brede, Benjamin, Verrelst, Jochem, Gastellu-Etchegorry, Jean Philippe, Clevers, Jan G.P.W., Goudzwaard, Leo, den Ouden, Jan, Verbesselt, Jan, and Herold, Martin

Abstract

The European Space Agency (ESA)'s Sentinel-2A (S2A) mission is providing time series that allow the characterisation of dynamic vegetation, especially when combined with the National Aeronautics and Space Administration (NASA)/United States Geological Survey (USGS) Landsat 7 (L7) and Landsat 8 (L8) missions. Hybrid retrieval workflows combining non-parametric Machine Learning Regression Algorithms (MLRAs) and vegetation Radiative Transfer Models (RTMs) were proposed as fast and accurate methods to infer biophysical parameters such as Leaf Area Index (LAI) from these data streams. However, the exact design of optimal retrieval workflows is rarely discussed. In this study, the impact of five retrieval workflow features on LAI prediction performance of MultiSpectral Instrument (MSI), Enhanced Thematic Mapper Plus (ETM+) and Operational Land Imager (OLI) observations was analysed over a Dutch beech forest site for a one-year period. The retrieval workflow features were the (1) addition of prior knowledge of leaf chemistry (two alternatives), (2) the choice of RTM (two alternatives), (3) the addition of Gaussian noise to RTM produced training data (four and five alternatives), (4) possibility of using Sun Zenith Angle (SZA) as an additional MLRA training feature (two alternatives), and (5) the choice of MLRA (six alternatives). The featureswere varied in a full grid resulting in 960 inversionmodels in order to find the overall impact on performance as well as possible interactions among the features. A combination of a Terrestrial Laser Scanning (TLS) time series with litter-trap derived LAI served as independent validation. The addition of absolute noise had the most significant impact on prediction performance. It improved the median prediction RootMean Square Error (RMSE) by 1.08m2m-2 when 5% noise was added compared to inversions with 0% absolute noise. The choice of the MLRA was second most important in terms of median prediction performance, which differed by 0.52m

Published
2020

37. Is there a tree economics spectrum of decomposability?

Author

Zuo, Juan, Hefting, Mariet M., Berg, Matty P., van Logtestijn, Richard S.P., van Hal, Jurgen, Goudzwaard, Leo, Liu, Jin Chun, Sass-Klaassen, Ute, Sterck, Frank J., Poorter, Lourens, Cornelissen, Johannes H.C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Systems Ecology, Animal Ecology, Conservation Ecology Group, Ecology and Biodiversity, and Sub Ecology and Biodiversity

Subjects
0106 biological sciences, Range (biology), Soil Science, Biology, 010603 evolutionary biology, 01 natural sciences, Microbiology, Twig, LITTER DECOMPOSITION, CARBON, WIDE-RANGE, PLANT TRAIT, Temperate climate, Bosecologie en Bosbeheer, Ecosystem, RATES, Branch, Decomposition, Ecology, Plant afterlife effects, Interspecific competition, Plant litter, PE&RC, Forest Ecology and Forest Management, TERRESTRIAL ECOSYSTEMS, CLIMATE, Leaf, FUNCTIONAL TRAITS, Terrestrial ecosystem, Functional traits, 010606 plant biology & botany, Woody plant, WOOD DECOMPOSITION
Abstract

The plant economics spectrum (PES) integrates trade-offs and coordination in resource traits among species within and between organs, and affects ecosystem processes such as litter decomposition. This PES is currently based on trait variation among a wide range of plant types and growth forms. Here we ask whether the PES also features within the same growth form, i.e. within and between organs among temperate tree species. If so, is there a tree economics spectrum (TES) of decomposability driving the decomposition rates across the coarse branches, twigs and leaves of different species? And how robust would this TES of decomposability be to different environmental conditions?To investigate these questions, we conducted a "common garden decomposition experiment" with ten temperate tree species in two contrasting forest environments in the Netherlands for 47 months. We evaluated the effects of functional traits of leaves, twigs, branch wood and branch bark on the decomposition rates of those organs. We measured the same resource traits for all those organs of the ten tree species and assessed whether there was a multivariate axis of functional traits explaining decomposition rates in both environments.We report three key findings. First, tree organ specific economics spectra were significantly correlated with each other for the studied tree species. Second, tree organs differ significantly in decomposition rates, i.e. leaves were consistently more decomposable than twigs and twigs more than coarse branches. Third, we found some evidence of a TES with important afterlife effects driving coordinated decomposability of twigs and leaves but not of coarse branches across the tree species, and the effects of this TES on decomposition rates strongly depended on local forest environment.The consistent contrasting decomposability between tree organs across species confirms an important role of plant litter inputs of different organs in forest biogeochemistry and carbon storage. There is also substantial coordination of interspecific trait variation between the finer tree organs. Knowledge about relationships of the TES and decomposability taking interactions with environmental variation into account can help for predicting whole-tree carbon and nutrient turnover as dependent on forest and soil type, even within the same climate zone.

Published
2018
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41. Combining tree species and decay stages to increase invertebrate diversity in dead wood

Author

Andringa, Joke I., Zuo, Juan, Berg, Matty P., Klein, Roy, van't Veer, Jip, de Geus, Rick, de Beaumont, Marco, Goudzwaard, Leo, van Hal, Jurgen, Broekman, Rob, van Logtestijn, Richard S.P., Li, Yikang, Fujii, Saori, Lammers, Mark, Hefting, Mariet M., Sass-Klaassen, Ute, Cornelissen, Johannes H.C., Andringa, Joke I., Zuo, Juan, Berg, Matty P., Klein, Roy, van't Veer, Jip, de Geus, Rick, de Beaumont, Marco, Goudzwaard, Leo, van Hal, Jurgen, Broekman, Rob, van Logtestijn, Richard S.P., Li, Yikang, Fujii, Saori, Lammers, Mark, Hefting, Mariet M., Sass-Klaassen, Ute, and Cornelissen, Johannes H.C.

Abstract

Dead wood availability and the variability in dead wood quality, i.e. tree species and decay stages, are often low in managed forests, which negatively affects biodiversity of invertebrate species. Leaving more (coarse) dead wood can increase invertebrate richness, but it remains unclear how many and which combinations of tree taxa and decay stages are required to optimize niche heterogeneity in managed forests. We investigated the diversity of the main arthropod groups associated with dead wood, i.e. millipedes, centipedes, isopods and beetles, through the first four years of decomposition of logs of twenty common temperate tree species placed in the “common garden” experiment LOGLIFE. We hypothesized that (1) invertebrate richness for combinations of a given number of tree species would be promoted by mixing both tree species and decay period and that (2) invertebrate richness increases up to a saturation point with more tree species at different decay stages added. We also hypothesized that (3) an increase in phylogenetic distance among the tree species in combinations would promote their overall invertebrate diversity. We found that the better combinations, in terms of invertebrate richness, after one and two years of decay, but not after four years, consisted of a mix of gymnosperms and angiosperms, indicating that variation in tree species is especially important during the initial decomposition period. The best combinations in terms of invertebrate richness consisted of at least one tree species from each decay period, indicating that also variation in the decay stage of the tree is important to promote invertebrate diversity. We observed that at least four wood types were required to approach the 95% saturation point for species richness. The third hypothesis, that dissimilarity in phylogenetic position could be a predictive tool for increasing invertebrate richness in combinations of tree species, was not supported by our results. Thus, in order to maint

Published
2019

42. Combining tree species and decay stages to increase invertebrate diversity in dead wood

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Andringa, Joke I., Zuo, Juan, Berg, Matty P., Klein, Roy, van't Veer, Jip, de Geus, Rick, de Beaumont, Marco, Goudzwaard, Leo, van Hal, Jurgen, Broekman, Rob, van Logtestijn, Richard S.P., Li, Yikang, Fujii, Saori, Lammers, Mark, Hefting, Mariet M., Sass-Klaassen, Ute, Cornelissen, Johannes H.C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Andringa, Joke I., Zuo, Juan, Berg, Matty P., Klein, Roy, van't Veer, Jip, de Geus, Rick, de Beaumont, Marco, Goudzwaard, Leo, van Hal, Jurgen, Broekman, Rob, van Logtestijn, Richard S.P., Li, Yikang, Fujii, Saori, Lammers, Mark, Hefting, Mariet M., Sass-Klaassen, Ute, and Cornelissen, Johannes H.C.

Published
2019

43. Combining tree species and decay stages to increase invertebrate diversity in dead wood

Author

Andringa, Joke I., primary, Zuo, Juan, additional, Berg, Matty P., additional, Klein, Roy, additional, van't Veer, Jip, additional, de Geus, Rick, additional, de Beaumont, Marco, additional, Goudzwaard, Leo, additional, van Hal, Jurgen, additional, Broekman, Rob, additional, van Logtestijn, Richard S.P., additional, Li, Yikang, additional, Fujii, Saori, additional, Lammers, Mark, additional, Hefting, Mariet M., additional, Sass-Klaassen, Ute, additional, and Cornelissen, Johannes H.C., additional

Published
2019
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45. Is there a tree economics spectrum of decomposability?

Author

Ecology and Biodiversity, Sub Ecology and Biodiversity, Zuo, Juan, Hefting, Mariet M., Berg, Matty P., van Logtestijn, Richard S.P., van Hal, Jurgen, Goudzwaard, Leo, Liu, Jin Chun, Sass-Klaassen, Ute, Sterck, Frank J., Poorter, Lourens, Cornelissen, Johannes H.C., Ecology and Biodiversity, Sub Ecology and Biodiversity, Zuo, Juan, Hefting, Mariet M., Berg, Matty P., van Logtestijn, Richard S.P., van Hal, Jurgen, Goudzwaard, Leo, Liu, Jin Chun, Sass-Klaassen, Ute, Sterck, Frank J., Poorter, Lourens, and Cornelissen, Johannes H.C.

Published
2018

47. Flood-ring formation and root development in response to experimental flooding of young Quercus robur trees

Author

Copini, Paul, den Ouden, Jan, Robert, Elisabeth M.R., Tardif, Jacques C., Loesberg, Walter A., Goudzwaard, Leo, Sass-Klaassen, Ute, Copini, Paul, den Ouden, Jan, Robert, Elisabeth M.R., Tardif, Jacques C., Loesberg, Walter A., Goudzwaard, Leo, and Sass-Klaassen, Ute

Abstract

Spring flooding in riparian forests can cause significant reductions in earlywood-vessel size in submerged stem parts of ring-porous tree species, leading to the presence of ‘flood rings’ that can be used as a proxy to reconstruct past flooding events, potentially over millennia. The mechanism of flood-ring formation and the relation with timing and duration of flooding are still to be elucidated. In this study, we experimentally flooded 4-year-old Quercus robur trees at three spring phenophases (late bud dormancy, budswell, and internode expansion) and over different flooding durations (2, 4, and 6 weeks) to a stem height of 50 cm. The effect of flooding on root and vessel development was assessed immediately after the flooding treatment and at the end of the growing season. Ring width and earlywood-vessel size and density were measured at 25- and 75-cm stem height and collapsed vessels were recorded. Stem flooding inhibited earlywood-vessel development in flooded stem parts. In addition, flooding upon budswell and internode expansion led to collapsed earlywood vessels below the water level. At the end of the growing season, mean earlywood- vessel size in the flooded stem parts (upon budswell and internode expansion) was always reduced by approximately 50% compared to non-flooded stem parts and 55% compared to control trees. This reduction was already present 2 weeks after flooding and occurred independent of flooding duration. Stem and root flooding were associated with significant root dieback after 4 and 6 weeks and mean radial growth was always reduced with increasing flooding duration. By comparing stem and root flooding, we conclude that flood rings only occur after stem flooding. As earlywood- vessel development was hampered during flooding, a considerable number of narrow earlywood vessels present later in the season, must have been formed after the actual flooding events. Our study indicates that root dieback, together with strongly reduced hydraulic condu

Published
2016

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