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2. “Ectomycorrhizal exploration type” could be a functional trait explaining the spatial distribution of tree symbiotic fungi as a function of forest humus forms

Author

Khalfallah, F., Bon, L., El Mazlouzi, M., Bakker, M.R., Fanin, N., Bellanger, R., Bernier, F., De Schrijver, A., Ducatillon, C., Fotelli, M., Gateble, G., Gundale, M.J., Larsson, M., Legout, A., Mason, W.L., Nordin, A., Smolander, A., Spyroglou, G., Vanguelova, E.I., Verheyen, K., Vesterdal, L., Zeller, B., Augusto, L., Derrien, D., Buée, M., Khalfallah, F., Bon, L., El Mazlouzi, M., Bakker, M.R., Fanin, N., Bellanger, R., Bernier, F., De Schrijver, A., Ducatillon, C., Fotelli, M., Gateble, G., Gundale, M.J., Larsson, M., Legout, A., Mason, W.L., Nordin, A., Smolander, A., Spyroglou, G., Vanguelova, E.I., Verheyen, K., Vesterdal, L., Zeller, B., Augusto, L., Derrien, D., and Buée, M.

Abstract

In European forests, most tree species form symbioses with ectomycorrhizal (EM) and arbuscular mycorrhizal (AM) fungi. The EM fungi are classified into different morphological types based on the development and structure of their extraradical mycelium. These structures could be root extensions that help trees to acquire nutrients. However, the relationship between these morphological traits and functions involved in soil nutrient foraging is still under debate. We described the composition of mycorrhizal fungal communities under 23 tree species in a wide range of climates and humus forms in Europe and investigated the exploratory types of EM fungi. We assessed the response of this tree extended phenotype to humus forms, as an indicator of the functioning and quality of forest soils. We found a significant relationship between the relative proportion of the two broad categories of EM exploration types (short- or long-distance) and the humus form, showing a greater proportion of long-distance types in the least dynamic soils. As past land-use and host tree species are significant factors structuring fungal communities, we showed this relationship was modulated by host trait (gymnosperms versus angiosperms), soil depth and past land use (farmland or forest). We propose that this potential functional trait of EM fungi be used in future studies to improve predictive models of forest soil functioning and tree adaptation to environmental nutrient conditions.

Published
2024

3. Mengen van boomsoorten verhoogt weerbaarheid van jonge bossen tegen droogte

Author

Blondeel, H., Verheyen, K., Baeten, L., Blondeel, H., Verheyen, K., and Baeten, L.

Abstract

Meer en meer wetenschappelijk onderzoek toont aan dat een hogere diversiteit aan boomsoorten de weerbaarheid van bossen tegen klimaatextremen kan verhogen. Momenteel is er nog maar weinig aandacht besteed aan hoe mengen van boomsoorten de overleving van jonge bomen bij aanplant kan verbeteren. In dit artikel presenteren we de resultaten van een mondiale analyse op overleving van jonge bomen in functie van boomsoortendiversiteit. Hogere boomsoortendiversiteit kan de overleving stabiliseren bij droogte. Deze risicospreiding zorgt ervoor dat de kans op mislukking van de aanplant verkleint bij mengingen, terwijl monoculturen sterk kunnen variëren in overleving (tussen droogtegevoelige en droogtetolerante soorten). Droogtegevoelige soorten hebben het meeste baat bij een diverse menging. Het mengen van boomsoorten kan dus een verzekering zijn tegen klimaatextremen in jonge aanplanten. Deze stap richting klimaatadaptatie van jonge bossen is ook toepasbaar in Vlaanderen.

Published
2024

4. Effects of plant diversity on productivity strengthen over time due to trait-dependent shifts in species overyielding

Author

Zheng, L., Barry, K.E., Guerrero-Ramírez, N.R., Craven, D., Reich, P.B., Verheyen, K., Scherer-Lorenzen, M., Eisenhauer, N., Barsoum, N., Bauhus, J., Bruelheide, H., Cavender-Bares, J., Dolezal, J., Auge, Harald, Fagundes, M.V., Ferlian, O., Fiedler, S., Forrester, D.I., Ganade, G., et al., Zheng, L., Barry, K.E., Guerrero-Ramírez, N.R., Craven, D., Reich, P.B., Verheyen, K., Scherer-Lorenzen, M., Eisenhauer, N., Barsoum, N., Bauhus, J., Bruelheide, H., Cavender-Bares, J., Dolezal, J., Auge, Harald, Fagundes, M.V., Ferlian, O., Fiedler, S., Forrester, D.I., and Ganade, G., et al.

Abstract

Plant diversity effects on community productivity often increase over time. Whether the strengthening of diversity effects is caused by temporal shifts in species-level overyielding (i.e., higher species-level productivity in diverse communities compared with monocultures) remains unclear. Here, using data from 65 grassland and forest biodiversity experiments, we show that the temporal strength of diversity effects at the community scale is underpinned by temporal changes in the species that yield. These temporal trends of species-level overyielding are shaped by plant ecological strategies, which can be quantitatively delimited by functional traits. In grasslands, the temporal strengthening of biodiversity effects on community productivity was associated with increasing biomass overyielding of resource-conservative species increasing over time, and with overyielding of species characterized by fast resource acquisition either decreasing or increasing. In forests, temporal trends in species overyielding differ when considering above- versus belowground resource acquisition strategies. Overyielding in stem growth decreased for species with high light capture capacity but increased for those with high soil resource acquisition capacity. Our results imply that a diversity of species with different, and potentially complementary, ecological strategies is beneficial for maintaining community productivity over time in both grassland and forest ecosystems.

Published
2024

5. Soil legacies of tree species richness in a young plantation do not modulate tree seedling response to watering regime

Author

Dhiedt, Els, Baeten, L., De Smedt, P., Verheyen, K., Dhiedt, Els, Baeten, L., De Smedt, P., and Verheyen, K.

Abstract

•Trees have a strong and species-specific influence on biotic and abiotic properties of the soil. Even after the vegetation is removed, the effect can persist to form so-called soil legacies. We investigated the effects of soil legacies of tree species richness on the emergence and growth of tree seedlings, and how these legacy effects modulate the seedling responses to irrigation frequency. •We used a 9-year-old tree plantation on former agricultural land in Belgium, which is part of a biodiversity-ecosystem functioning experiment (FORBIO). Soil originating from monocultures and four-species plots, with different species combinations, was translocated to a greenhouse. Five tree species (Betula pendula, Fagus sylvatica, Pinus sylvestris, Quercus robur, and Tilia cordata) were sown and grown for one growing season in these soils. We performed a watering treatment (low and high irrigation frequency) to measure any potential interaction effects between the soil legacies and irrigation frequency. •There was no evidence for soil legacy effects of species richness on plant performance or their response to the irrigation frequency. However, the effect of irrigation frequency was dependent on species identity of the tree seedlings. Despite the lack of clear legacy effects, performance measures did show correlated responses that are likely due to species composition effects. •We ascribe these patterns to the young age of the forest and the agricultural past land use. At this early stage in forest development, the land-use history likely has a more important role in shaping soil characteristics that affect plant growth and their response to drought, than species diversity.

Published
2024

6. Enhancing tree performance through species mixing: review of a quarter-century of TreeDivNet experiments reveals research gaps and practical insights

Author

Depauw, L., De Lombaerde, E., Dhiedt, E., Blondeel, H., Abdala-Roberts, L., Auge, Harald, Barsoum, N., Bauhus, J., Chu, C., Damtew, A., Eisenhauer, N., Fagundes, M.V., Ganade, G., Gendreau-Berthiaume, B., Godbold, D., Gravel, D., Guillemot, J., Hajek, P., Hector, A., Hérault, B., Jactel, H., Koricheva, J., Kreft, H., Liu, X., Mereu, S., Messier, C., Muys, B., Nock, C.A., Paquette, A., Parker, J.D., Parker, W.C., Paterno, G.B., Perring, M.P., Ponette, Q., Potvin, C., Reich, P.B., Rewald, B., Scherer-Lorenzen, M., Schnabel, F., Sousa-Silva, R., Weih, M., Zemp, D.C., Verheyen, K., Baeten, L., Depauw, L., De Lombaerde, E., Dhiedt, E., Blondeel, H., Abdala-Roberts, L., Auge, Harald, Barsoum, N., Bauhus, J., Chu, C., Damtew, A., Eisenhauer, N., Fagundes, M.V., Ganade, G., Gendreau-Berthiaume, B., Godbold, D., Gravel, D., Guillemot, J., Hajek, P., Hector, A., Hérault, B., Jactel, H., Koricheva, J., Kreft, H., Liu, X., Mereu, S., Messier, C., Muys, B., Nock, C.A., Paquette, A., Parker, J.D., Parker, W.C., Paterno, G.B., Perring, M.P., Ponette, Q., Potvin, C., Reich, P.B., Rewald, B., Scherer-Lorenzen, M., Schnabel, F., Sousa-Silva, R., Weih, M., Zemp, D.C., Verheyen, K., and Baeten, L.

Abstract

Purpose of Review International ambitions for massive afforestation and restoration are high. To make these investments sustainable and resilient under future climate change, science is calling for a shift from planting monocultures to mixed forests. But what is the scientific basis for promoting diverse plantations, and what is the feasibility of their establishment and management? As the largest global network of tree diversity experiments, TreeDivNet is uniquely positioned to answer these pressing questions. Building on 428 peer-reviewed TreeDivNet studies, combined with the results of a questionnaire completed by managers of 32 TreeDivNet sites, we aimed to answer the following questions: (i) How and where have TreeDivNet experiments enabled the relationship between tree diversity and tree performance (including productivity, survival, and pathogen damage) to be studied, and what has been learned? (ii) What are the remaining key knowledge gaps in our understanding of the relationship between tree diversity and tree performance? and (iii) What practical insights can be gained from the TreeDivNet experiments for operational, real-world forest plantations? Recent Findings We developed a conceptual framework that identifies the variety of pathways through which target tree performance is related to local neighbourhood diversity and mapped the research efforts for each of those pathways. Experimental research on forest mixtures has focused primarily on direct tree diversity effects on productivity, with generally positive effects of species and functional diversity on productivity. Fewer studies focused on indirect effects mediated via biotic growing conditions (e.g. soil microbes and herbivores) and resource availability and uptake. Most studies examining light uptake found positive effects of species diversity. For pests and diseases, the evidence points mostly towards lower levels of infection for target trees when growing in mixed plantations. Tree diversity effe

Published
2024

7. Tree diversity reduces variability in sapling survival under drought

Author

Blondeel, H., Guillemot, J., Martin-StPaul, N., Druel, A., Bilodeau-Gauthier, S., Bauhus, J., Grossiord, C., Hector, A., Jactel, H., Jensen, J., Messier, C., Muys, B., Serrano-León, H., Auge, Harald, Barsoum, N., Birhane, E., Bruelheide, H., Cavender-Bares, J., Chu, C., Cumming, J.R., Damtew, A., Eisenhauer, N., Ferlian, O., Fiedler, S., Ganade, G., Godbold, D.L., Gravel, D., Hall, J.S., Hölscher, D., Hulvey, K.B., Koricheva, J., Kreft, H., Lapadat, C., Liang, J., Liu, X., Meredieu, C., Mereu, S., Montgomery, R., Morillas, L., Nock, C., Paquette, A., Parker, J.D., Parker, W.C., Paterno, G.B., Perring, M.P., Ponette, Q., Potvin, C., Reich, P.B., Rentch, J., Rewald, B., Sandén, H., Sinacore, K., Standish, R.J., Stefanski, A., Tobin, P.C., van Breugel, M., Vergara Fagundes, M., Weih, M., Williams, L.J., Zhou, M., Scherer-Lorenzen, M., Verheyen, K., Baeten, L., Blondeel, H., Guillemot, J., Martin-StPaul, N., Druel, A., Bilodeau-Gauthier, S., Bauhus, J., Grossiord, C., Hector, A., Jactel, H., Jensen, J., Messier, C., Muys, B., Serrano-León, H., Auge, Harald, Barsoum, N., Birhane, E., Bruelheide, H., Cavender-Bares, J., Chu, C., Cumming, J.R., Damtew, A., Eisenhauer, N., Ferlian, O., Fiedler, S., Ganade, G., Godbold, D.L., Gravel, D., Hall, J.S., Hölscher, D., Hulvey, K.B., Koricheva, J., Kreft, H., Lapadat, C., Liang, J., Liu, X., Meredieu, C., Mereu, S., Montgomery, R., Morillas, L., Nock, C., Paquette, A., Parker, J.D., Parker, W.C., Paterno, G.B., Perring, M.P., Ponette, Q., Potvin, C., Reich, P.B., Rentch, J., Rewald, B., Sandén, H., Sinacore, K., Standish, R.J., Stefanski, A., Tobin, P.C., van Breugel, M., Vergara Fagundes, M., Weih, M., Williams, L.J., Zhou, M., Scherer-Lorenzen, M., Verheyen, K., and Baeten, L.

Abstract

Enhancing tree diversity may be important to fostering resilience to drought-related climate extremes. So far, little attention has been given to whether tree diversity can increase the survival of trees and reduce its variability in young forest plantations.We conducted an analysis of seedling and sapling survival from 34 globally distributed tree diversity experiments (363,167 trees, 168 species, 3744 plots, 7 biomes) to answer two questions: (1) Do drought and tree diversity alter the mean and variability in plot-level tree survival, with higher and less variable survival as diversity increases? and (2) Do species that survive poorly in monocultures survive better in mixtures and do specific functional traits explain monoculture survival?Tree species richness reduced variability in plot-level survival, while functional diversity (Rao's Q entropy) increased survival and also reduced its variability. Importantly, the reduction in survival variability became stronger as drought severity increased. We found that species with low survival in monocultures survived comparatively better in mixtures when under drought. Species survival in monoculture was positively associated with drought resistance (indicated by hydraulic traits such as turgor loss point), plant height and conservative resource-acquisition traits (e.g. low leaf nitrogen concentration and small leaf size).Synthesis. The findings highlight: (1) The effectiveness of tree diversity for decreasing the variability in seedling and sapling survival under drought; and (2) the importance of drought resistance and associated traits to explain altered tree species survival in response to tree diversity and drought. From an ecological perspective, we recommend mixing be considered to stabilize tree survival, particularly when functionally diverse forests with drought-resistant species also promote high survival of drought-sensitive species.

Published
2024

8. Hoe belangrijk is bosbiodiversiteit voor ons thermisch comfort en mentaal welzijn?

Author

Gillerot, L., Landuyt, D., Frenne, P. De, Muys, B., Verheyen, K., Gillerot, L., Landuyt, D., Frenne, P. De, Muys, B., and Verheyen, K.

Abstract

Hitte vormt wereldwijd een groeiend risico voor de volksgezondheid, vooral in steden waar het stedelijk hitte-eiland effect de situatie sterk verergert. In Europa zorgden de hete zomers van 2019, 2020 en 2021 telkens voor grofweg 100.000 overlijdens bij 65-plussers. Klimaatopwarming zal zorgen voor een verdere veralgemening van hitte en is nu al verantwoordelijk voor meer dan een derde van de hitte-gerelateerde sterfgevallen. Een welgekende oplossing voor het lokaal temperen van hitte is stedelijke vergroening, waarbij specifiek bossen bijzonder efficiënt zijn.

Published
2024

9. Explore before you restore : Incorporating complex systems thinking in ecosystem restoration

Author

Maes, S.L., Perring, M.P., Cohen, R., Akinnifesi, F.K., Bargués-Tobella, A., Bastin, J.F., Bauters, M., Bernardino, P.N., Brancalion, P.H.S., Bullock, J.M., Ellison, D., Fayolle, A., Fremout, T., Gann, G.D., Hishe, H., Holmgren, M., Ilstedt, U., Mahy, G., Messier, C., Parr, C.L., Ryan, C.M., Sacande, M., Sankaran, M., Scheffer, M.S., Suding, K.N., Van Meerbeek, K., Verbeeck, H., Verbist, B.J.P., Verheyen, K., Winowiecki, L.A., Muys, B., Maes, S.L., Perring, M.P., Cohen, R., Akinnifesi, F.K., Bargués-Tobella, A., Bastin, J.F., Bauters, M., Bernardino, P.N., Brancalion, P.H.S., Bullock, J.M., Ellison, D., Fayolle, A., Fremout, T., Gann, G.D., Hishe, H., Holmgren, M., Ilstedt, U., Mahy, G., Messier, C., Parr, C.L., Ryan, C.M., Sacande, M., Sankaran, M., Scheffer, M.S., Suding, K.N., Van Meerbeek, K., Verbeeck, H., Verbist, B.J.P., Verheyen, K., Winowiecki, L.A., and Muys, B.

Abstract

The global movement for ecosystem restoration has gained momentum in response to the Bonn Challenge (2010) and the UN Decade on Ecosystem Restoration (UNDER, 2021–2030). While several science-based guidelines exist to aid in achieving successful restoration outcomes, significant variation remains in the outcomes of restoration projects. Some of this disparity can be attributed to unexpected responses of ecosystem components to planned interventions. Given the complex nature of ecosystems, we propose that concepts from Complex Systems Science (CSS) that are linked to non-linearity, such as regime shifts, ecological resilience and ecological feedbacks, should be employed to help explain this variation in restoration outcomes from an ecological perspective. Our framework, Explore Before You Restore, illustrates how these concepts impact restoration outcomes by influencing degradation and recovery trajectories. Additionally, we propose incorporating CSS concepts into the typical restoration project cycle through a CSS assessment phase and suggest that the need for such assessment is explicitly included in the guidelines to improve restoration outcomes. To facilitate this inclusion and make it workable by practitioners, we describe indicators and methods available for restoration teams to answer key questions that should make up such CSS assessment. In doing so, we identify key outstanding science and policy tasks that are needed to further operationalize CSS assessment in restoration. Synthesis and applications. By illustrating how key Complex Systems Science (CSS) concepts linked to non-linear threshold behaviour can impact restoration outcomes through influencing recovery trajectories, our framework Explore Before You Restore demonstrates the need to incorporate Complex Systems thinking in ecosystem restoration. We argue that inclusion of CSS assessment into restoration project cycles, and more broadly, into international restoration guidelines, may significantly impr

Published
2024

10. Reading tea leaves worldwide: Decoupled drivers of initial litter decomposition mass‐loss rate and stabilization

Author

Sarneel, J., Hefting, M., Sandén, T., van den Hoogen, J., Routh, D., Adhikari, B., Alatalo, J., Aleksanyan, A., Althuizen, I., Alsafran, M., Atkins, J., Augusto, L., Aurela, M., Azarov, A., Barrio, I., Beier, C., Bejarano, M., Benham, S., Berg, B., Bezler, N., Björnsdóttir, K., Bolinder, M., Carbognani, M., Cazzolla Gatti, R., Chelli, S., Chistotin, M., Christiansen, C., Courtois, P., Crowther, T., Dechoum, M., Djukic, I., Duddigan, S., Egerton‐Warburton, L., Fanin, N., Fantappiè, M., Fares, S., Fernandes, G., Filippova, N., Fliessbach, A., Fuentes, D., Godoy, R., Grünwald, T., Guzmán, G., Hawes, J., He, Y., Hero, J.‐M., Hess, L., Hogendoorn, K., Høye, T., Jans, W., Jónsdóttir, I., Keller, S., Kepfer‐Rojas, S., Kuz'menko, N., Larsen, K., Laudon, H., Lembrechts, J., Li, J., Limousin, J.‐M., Lukin, S., Marques, R., Marín, C., McDaniel, M., Meek, Q., Merzlaya, G., Michelsen, A., Montagnani, L., Mueller, P., Murugan, R., Myers‐Smith, I., Nolte, S., Ochoa‐Hueso, R., Okafor, B., Okorkov, V., Onipchenko, V., Orozco, M., Parkhurst, T., Peres, C., Petit Bon, M., Petraglia, A., Pingel, M., Rebmann, C., Scheffers, B., Schmidt, I., Scholes, M., Sheffer, E., Shevtsova, L., Smith, S., Sofo, A., Stevenson, P., Strouhalová, B., Sundsdal, A., Sühs, R., Tamene, G., Thomas, H., Tolunay, D., Tomaselli, M., Tresch, S., Tucker, D., Ulyshen, M., Valdecantos, A., Vandvik, V., Vanguelova, E., Verheyen, K., Wang, X., Yahdjian, L., Yumashev, X., Keuskamp, J., Sarneel, J., Hefting, M., Sandén, T., van den Hoogen, J., Routh, D., Adhikari, B., Alatalo, J., Aleksanyan, A., Althuizen, I., Alsafran, M., Atkins, J., Augusto, L., Aurela, M., Azarov, A., Barrio, I., Beier, C., Bejarano, M., Benham, S., Berg, B., Bezler, N., Björnsdóttir, K., Bolinder, M., Carbognani, M., Cazzolla Gatti, R., Chelli, S., Chistotin, M., Christiansen, C., Courtois, P., Crowther, T., Dechoum, M., Djukic, I., Duddigan, S., Egerton‐Warburton, L., Fanin, N., Fantappiè, M., Fares, S., Fernandes, G., Filippova, N., Fliessbach, A., Fuentes, D., Godoy, R., Grünwald, T., Guzmán, G., Hawes, J., He, Y., Hero, J.‐M., Hess, L., Hogendoorn, K., Høye, T., Jans, W., Jónsdóttir, I., Keller, S., Kepfer‐Rojas, S., Kuz'menko, N., Larsen, K., Laudon, H., Lembrechts, J., Li, J., Limousin, J.‐M., Lukin, S., Marques, R., Marín, C., McDaniel, M., Meek, Q., Merzlaya, G., Michelsen, A., Montagnani, L., Mueller, P., Murugan, R., Myers‐Smith, I., Nolte, S., Ochoa‐Hueso, R., Okafor, B., Okorkov, V., Onipchenko, V., Orozco, M., Parkhurst, T., Peres, C., Petit Bon, M., Petraglia, A., Pingel, M., Rebmann, C., Scheffers, B., Schmidt, I., Scholes, M., Sheffer, E., Shevtsova, L., Smith, S., Sofo, A., Stevenson, P., Strouhalová, B., Sundsdal, A., Sühs, R., Tamene, G., Thomas, H., Tolunay, D., Tomaselli, M., Tresch, S., Tucker, D., Ulyshen, M., Valdecantos, A., Vandvik, V., Vanguelova, E., Verheyen, K., Wang, X., Yahdjian, L., Yumashev, X., and Keuskamp, J.

Abstract

The breakdown of plant material fuels soil functioning and biodiversity. Currently, process understanding of global decomposition patterns and the drivers of such patterns are hampered by the lack of coherent large-scale datasets. We buried 36,000 individual litterbags (tea bags) worldwide and found an overall negative correlation between initial mass-loss rates and stabilization factors of plant-derived carbon, using the Tea Bag Index (TBI). The stabilization factor quantifies the degree to which easy-to-degrade components accumulate during early-stage decomposition (e.g. by environmental limitations). However, agriculture and an interaction between moisture and temperature led to a decoupling between initial mass-loss rates and stabilization, notably in colder locations. Using TBI improved mass-loss estimates of natural litter compared to models that ignored stabilization. Ignoring the transformation of dead plant material to more recalcitrant substances during early-stage decomposition, and the environmental control of this transformation, could overestimate carbon losses during early decomposition in carbon cycle models.

Published
2024
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18. Soil legacies of tree species richness in a young plantation do not modulate tree seedling response to watering regime.

Author

Dhiedt, E., Baeten, L., De Smedt, P., and Verheyen, K.

Subjects
TREE seedlings, SPECIES diversity, EUROPEAN beech, ALNUS glutinosa, FARMS, EUROPEAN white birch
Abstract

Trees have a strong and species‐specific influence on biotic and abiotic properties of the soil. Even after the vegetation is removed, the effect can persist to form so‐called soil legacies. We investigated the effects of soil legacies of tree species richness on the emergence and growth of tree seedlings, and how these legacy effects modulate the seedling responses to irrigation frequency.We used a 9‐year‐old tree plantation on former agricultural land in Belgium, which is part of a biodiversity‐ecosystem functioning experiment (FORBIO). Soil originating from monocultures and four‐species plots, with different species combinations, was translocated to a greenhouse. Five tree species (Betula pendula, Fagus sylvatica, Pinus sylvestris, Quercus robur, and Tilia cordata) were sown and grown for one growing season in these soils. We performed a watering treatment (low and high irrigation frequency) to measure any potential interaction effects between the soil legacies and irrigation frequency.There was no evidence for soil legacy effects of species richness on plant performance or their response to the irrigation frequency. However, the effect of irrigation frequency was dependent on species identity of the tree seedlings. Despite the lack of clear legacy effects, performance measures did show correlated responses that are likely due to species composition effects.We ascribe these patterns to the young age of the forest and the agricultural past land use. At this early stage in forest development, the land‐use history likely has a more important role in shaping soil characteristics that affect plant growth and their response to drought, than species diversity. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Former charcoal platforms in Mediterranean forest areas: a hostile microhabitat for the recolonization by woody species

Author

Carrari E, Ampoorter E, Verheyen K, Coppi A, and Selvi F

Subjects
Charcoal Platforms, Diversity, Forest Recolonization, Mediterranean Area, Tree Regeneration, Species Composition, Woody Species, Forestry, SD1-669.5
Abstract

Production of wood charcoal is a traditional form of forest use that lasted for millennia in the Mediterranean countries. Following their almost complete abandonment in the last century, thousands of old charcoal platforms remain in present-day forest landscapes. These sites are characterized by peculiar ecological conditions, whose effects on the recolonization by woody plants are still unknown. We examined 61 platforms in evergreen sclerophyllous woodlands and deciduous broadleaf forests with oaks and beech, spread over a wide geographic range in Tuscany (Italy). At each site, one kiln plot (on charcoal platform) and one control plot (in the adjacent stand) were established, and soil, light conditions and herb cover were measured. We examined species richness and composition of trees and shrubs in the understorey layer ( 1.3-4 m). In the latter, structural parameters such as number of stools, dbh, mean height and number of stems were compared. The density of seedlings of dominant tree species in the understorey was also measured in a subsample of sites per forest type. In the understorey, a general positive effect of kiln platforms was found on species richness at both the habitat and plot-scale level, as well as on species composition, especially in oak forests. Increased light availability, total C content and soil pH were positively related with species richness, while N content was a negative predictor. Density of seedlings was not substantially affected. Contrastingly, woody species richness in the established regeneration layer was considerably lower in the kiln plots of all three forest types. In sclerophyllous forests, all species in this layer were taller, denser and with a higher basal area compared to control plots, while regeneration was completely lacking on platforms of the two other forest types. Soil N content had a positive influence on structural parameters, while total C content resulting from charcoal accumulation had a negative influence. We conclude that charcoal platforms are a favorable microhabitat only in the first regeneration stages of woody species, as their further growth is hindered by long-term effects that should be investigated with an experimental approach.

Published
2017
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21. Vegetatieontwikkeling in onbeheerde bosreservaten na de intrede van essentaksterfte

Author

Van den Bossche, A., De Keersmaeker, L., Verheyen, K., Van den Bossche, A., De Keersmaeker, L., and Verheyen, K.

Abstract

Es (Fraxinus excelsior) wordt in heel Europa bedreigd door de invasieve Aziatische schimmel Hymenoscyphus fraxineus die essentaksterfte veroorzaakt. Reeds in 2012 werd in Bosrevue een beschrijvend artikel gepubliceerd over het typische ziektebeeld van essentaksterfte (Roskams & De Haeck, 2012). De schimmel was toen nog maar recent in Vlaanderen aanwezig en de kennis over de ziekte was beperkt. Ondertussen is er veel meer geweten over essentaksterfte – hoe de ziekte zich verspreid heeft doorheen Europa, hoe de levenscyclus van de schimmel eruitziet en welke symptomen de ziekte veroorzaakt.

Published
2023

22. Forests are chill: The interplay between thermal comfort and mental wellbeing

Author

Gillerot, L., Rozario, Kevin, De Frenne, P., Oh, Rui Ying Rachel, Ponette, Q., Bonn, Aletta, Chow, W., Godbold, D., Steinparzer, M., Haluza, D., Landuyt, D., Muys, B., Verheyen, K., Gillerot, L., Rozario, Kevin, De Frenne, P., Oh, Rui Ying Rachel, Ponette, Q., Bonn, Aletta, Chow, W., Godbold, D., Steinparzer, M., Haluza, D., Landuyt, D., Muys, B., and Verheyen, K.

Abstract

As global warming and urbanisation intensify unabated, a growing share of the human population is exposed to dangerous heat levels. Trees and forests can effectively mitigate such heat alongside numerous health co-benefits like improved mental wellbeing. Yet, which forest types are objectively and subjectively coolest to humans, and how thermal and mental wellbeing interact, remain understudied. We surveyed 223 participants in peri-urban forests with varying biodiversity levels in Austria, Belgium and Germany. Using microclimate sensors, questionnaires and saliva cortisol measures, we monitored intra-individual changes in thermal and mental states from non-forest baseline to forest conditions. Forests reduced daytime modified Physiologically Equivalent Temperature (mPET; an indicator for perceived temperature) by an average of 9.2 °C. High diversity forests were the coolest, likely due to their higher stand density. Forests also lowered thermal sensation votes, with only 1 % of participants feeling ‘warm’ or ‘hot’ compared to 34 % under baseline conditions. Despite the desire for a temperature increase among 47 % participants under cool forest conditions, approximately two-thirds still reported feeling very comfortable, in contrast to only one-third under baseline conditions. Even at a constant perceived temperature, participants were 2.7 times more likely to feel warmer under baseline conditions compared to forests. A forest-induced psychological effect may underlie these discrepancies, as supported by significant improvements in positive and negative affect (emotional state), state anxiety and perceived stress observed in forests. Additionally, thermal and mental wellbeing were significantly correlated, indicating that forest environments might foster a synergy in wellbeing benefits.

Published
2023

23. Dataset S1 used for the paper 'Forests are chill: The interplay between thermal comfort and mental wellbeing'

Author

Gillerot, L., Rozario, Kevin, De Frenne, P., Oh, Rui Ying Rachel, Ponette, Q., Bonn, Aletta, Chow, W., Godbold, D., Steinparzer, M., Haluza, D., Landuyt, D., Muys, B., Verheyen, K., Gillerot, L., Rozario, Kevin, De Frenne, P., Oh, Rui Ying Rachel, Ponette, Q., Bonn, Aletta, Chow, W., Godbold, D., Steinparzer, M., Haluza, D., Landuyt, D., Muys, B., and Verheyen, K.

Abstract

As global warming and urbanisation intensify unabated, a growing share of the human population is exposed to dangerous heat levels. Trees and forests can effectively mitigate such heat alongside numerous health co-benefits like improved mental wellbeing. Yet, which forest types are objectively and subjectively coolest to humans, and how thermal and mental wellbeing interact, remain understudied. We surveyed 223 participants in peri-urban forests with varying biodiversity levels in Austria, Belgium and Germany. Using microclimate sensors, questionnaires and saliva cortisol measures, we monitored intra-individual changes in thermal and mental states from non-forest baseline to forest conditions. Forests reduced daytime modified Physiologically Equivalent Temperature (mPET; an indicator for perceived temperature) by an average of 9.2 °C. High diversity forests were the coolest, likely due to their higher stand density. Forests also lowered thermal sensation votes, with only 1 % of participants feeling ‘warm’ or ‘hot’ compared to 34 % under baseline conditions. Despite the desire for a temperature increase among 47 % participants under cool forest conditions, approximately two-thirds still reported feeling very comfortable, in contrast to only one-third under baseline conditions. Even at a constant perceived temperature, participants were 2.7 times more likely to feel warmer under baseline conditions compared to forests. A forest-induced psychological effect may underlie these discrepancies, as supported by significant improvements in positive and negative affect (emotional state), state anxiety and perceived stress observed in forests. Additionally, thermal and mental wellbeing were significantly correlated, indicating that forest environments might foster a synergy in wellbeing benefits.

Published
2023

24. The more the merrier? Perceived forest biodiversity promotes short-term mental health and well-being - A multicentre study

Author

Rozario, Kevin, Oh, Rui Ying Rachel, Marselle, Melissa, Schröger, E., Gillerot, L., Ponette, Q., Godbold, D., Haluza, D., Kilpi, K., Müller, D., Roeber, U., Verheyen, K., Muys, B., Müller, S., Shaw, T., Bonn, Aletta, Rozario, Kevin, Oh, Rui Ying Rachel, Marselle, Melissa, Schröger, E., Gillerot, L., Ponette, Q., Godbold, D., Haluza, D., Kilpi, K., Müller, D., Roeber, U., Verheyen, K., Muys, B., Müller, S., Shaw, T., and Bonn, Aletta

Abstract

1. Forests can foster mental health and well-being. Yet, the contribution of forest biodiversity remains unclear, and experimental research is needed to unravel pathways of biodiversity–health linkages. Here, we assess the role of tree species richness, both actual and perceived, and how stress reduction and attention restoration can serve as potential mediating pathways to achieve positive mental health and well-being outcomes.2. We conducted an experimental, multicentric field study in three peri-urban forests in Europe, employing a mixed design with 223 participants, that comprised 20-min stays in forests with either low, medium or high tree species richness or a built control. Participants' short-term mental health and well-being and saliva cortisol as a biomarker of stress were measured before and after the intervention.3. Forest visits for 20 min were found to be beneficial for participants' short-term mental health, short-term mental well-being, subjective stress, subjective directed attention and perceived restorativeness compared with a built environment. No differences were found for the physiological stress indicator saliva cortisol, which decreased in both the forest and the built environments.4. Increased perceived biodiversity—possibly linked to structural forest attributes—was significantly associated with well-being outcomes, while no association was found for differences in actual tree species richness. Structural equation modelling indicates that higher levels of perceived biodiversity had an indirect effect on short-term mental health and well-being through enhancing perceived restorativeness.5. While we found no evidence of actual tree species richness effects, perceived biodiversity was associated with positive short-term mental health and well-being outcomes. Understanding these biodiversity–health linkages can inform conservation management and help develop effective nature-based interventions for promoting public health through nature visits.

Published
2023

25. 500 years of coppice-with-standards management in Meerdaal Forest (Central Belgium)

Author

Vandekerkhove K, Baeté H, Van Der Aa B, De Keersmaeker L, Thomaes A, Leyman A, and Verheyen K

Subjects
Coppice-with-standards, Archive Documents, Ancient Maps, Long-term Forest Changes, Grazing, Pannage, Forestry, SD1-669.5
Abstract

For centuries, coppice and coppice-with-standards were the main forest management systems in the northern and central parts of present Belgium. A high population density and a low forest cover in the whole region resulted in a high demand for wood, therefore strict regulations and management regimes were necessary to prevent overexploitation. We illustrate this with a well-documented case, that of Meerdaal Forest in Central Belgium, with reference to other sites in the region. Meerdaal Forest is a woodland 30 km east of Brussels. For centuries its high quality timber stands, especially oak, were managed as coppice-with-standards, with a gradually increasing share of standard trees. Using archive documents and ancient maps, we have reconstructed how this coppice-with-standard management has been developed and optimized over a period of about 500 years. Changes in cutting cycles and configurations were discerned, with a gradual increase of the importance of the standard layer over time. The analysis also showed how wood production could be successfully combined with other sources of income like grazing and pannage. We conclude that former managers of Meerdaal Forest, notwithstanding their lack of scholarship and reference works, developed a state-of-the-art sustainable and flexible management regime that allowed to provide high revenues during many centuries.

Published
2016
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26. Integrating conservation objectives into forest management: coppice management and forest habitats in Natura 2000 sites

Author

Mairota P, Buckley P, Suchomel C, Heinsoo K, Verheyen K, Hédl R, Terzuolo Pier G, Sindaco R, and Carpanelli A

Subjects
Habitats Directive, Natura 2000, Forest Habitat Types, Coppice, Biodiversity, Landscape, Forestry, SD1-669.5
Abstract

Most forest habitats, as defined and listed for their nature conservation importance in the Habitats Directive of the European Union and in the Bern Convention, result from centuries of human intervention. This paper explores the scope for, and the attitudes towards coppicing in Natura 2000 sites in some of the EU28 countries where coppice was historically one of the most important traditional silvicultural systems. A questionnaire survey was circulated to experts involved with Natura 2000 sites and case studies were conducted in Belgium, the Czech Republic, Estonia, Germany, Italy and the United Kingdom, to investigate attitudes to coppice silviculture within the framework of Natura 2000 site management plans. A list of forest habitat types capable of being managed as coppices was compiled and populated with sites at national and regional levels. At the regional level, management plans for the relevant forest habitat types in Natura 2000 sites were critically scrutinised together with other statutory, administrative or contractual measures. The results show that approaches to integrate coppice management into conservation plans differ widely. Examples of disparities are given and the possible causes discussed. A case is made for coppicing to be continued, where appropriate, as an important strategy in site management plans that aim to conserve habitats and improve forest biodiversity.

Published
2016
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27. Initial oak regeneration responses to experimental warming along microclimatic and macroclimatic gradients

Author

Meeussen, C., De Pauw, K., Sanczuk, P., Brunet, J., Cousins, S. A. O., Gasperini, C., Hedwall, P.‐O., Iacopetti, G., Lenoir, J., Plue, J., Selvi, F., Spicher, F., Uria Diez, J., Verheyen, K., Vangansbeke, P., and De Frenne, P.

Subjects
Climate Change, edge influence, Plant Science, INFRARED HEATER, Forests, Trees, Quercus, climate change, edge influence, forest structure, temperate deciduous forests, transplant experiment, Quercus, FAGUS-SYLVATICA, temperate deciduous forests, transplant experiment, TREE, Ecology, Evolution, Behavior and Systematics, BUD BURST, QUERCUS-ROBUR, CLIMATE-CHANGE, FROST HARDINESS, Biology and Life Sciences, Microclimate, General Medicine, FOREST, climate change, LIGHT, Earth and Environmental Sciences, GROWTH, forest structure
Abstract

Quercus spp. are one of the most important tree genera in temperate deciduous forests in terms of biodiversity, economic and cultural perspectives. However, natural regeneration of oaks, depending on specific environmental conditions, is still not sufficiently understood. Oak regeneration dynamics are impacted by climate change, but these climate impacts will depend on local forest management and light and temperature conditions. Here, we studied germination, survival and seedling performance (i.e. aboveground biomass, height, root collar diameter and specific leaf area) of four oak species (Q. cerris, Q. ilex, Q. robur and Q. petraea). Acorns were sown across a wide latitudinal gradient, from Italy to Sweden, and across several microclimatic gradients located within and beyond the species' natural ranges. Microclimatic gradients were applied in terms of forest structure, distance to the forest edge and experimental warming. We found strong interactions between species and latitude, as well as between microclimate and latitude or species. The species thus reacted differently to local and regional changes in light and temperature ; in southern regions the temperate Q. robur and Q. petraea performed best in plots with a complex structure, whereas the Mediterranean Q. ilex and Q. cerris performed better in simply structured forests with a reduced microclimatic buffering capacity. The experimental warming treatment only enhanced height and aboveground biomass of Mediterranean species. Our results show that local microclimatic gradients play a key role in the initial stages of oak regeneration; however, one needs to consider the species-specific responses to forest structure and the macroclimatic context.

Published
2022
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28. Where are we now with European forest multi-taxon biodiversity and where can we head to?

Author

Burrascano, S., Chianucci, F., Trentanovi, G., Kepfer-Rojas, S., Sitzia, T., Tinya, F., Doerfler, I., Paillet, Y., Nagel, T. A., Mitic, B., Morillas, L., Munzi, S., Van der Sluis, T., Alterio, E., Balducci, L., de Andrade, R. B., Bouget, C., Giordani, P., Lachat, T., Matosevic, D., Napoleone, F., Nascimbene, J., Paniccia, C., Roth, N., Aszalos, R., Brazaitis, G., Cutini, A., D'Andrea, E., De Smedt, P., Heilmann-Clausen, J., Janssen, P., Kozak, D., Marell, A., Mikolas, M., Norden, B., Matula, R., Schall, P., Svoboda, M., Ujhazyova, M., Vandekerkhove, K., Wohlwend, M., Xystrakis, F., Aleffi, M., Ammer, C., Archaux, F., Asbeck, T., Avtzis, D., Ayasse, M., Bagella, S., Balestrieri, R., Barbati, A., Basile, M., Bergamini, A., Bertini, G., Biscaccianti, A. B., Boch, S., Boloni, J., Bombi, P., Boscardin, Y., Brunialti, G., Bruun, H. H., Buscot, F., Byriel, D. B., Campagnaro, T., Campanaro, A., Chauvat, M., Ciach, M., Ciliak, M., Cistrone, L., Pereira, J. M. C., Daniel, R., De Cinti, B., De Filippo, G., Dekoninck, W., Di Salvatore, U., Dumas, Y., Elek, Z., Ferretti, F., Fotakis, D., Frank, T., Frey, J., Giancola, C., Gomoryova, E., Gosselin, M., Gosselin, F., Gossner, M. M., Gotmark, F., Haeler, E., Hansen, A. K., Hertzog, L., Hofmeister, J., Hosek, J., Johannsen, V. K., Justensen, M. J., Korboulewsky, N., Kovacs, B., Lakatos, F., Landivar, C. M., Lens, L., Lingua, E., Lombardi, F., Malis, F., Marchino, L., Marozas, V., Matteucci, G., Mattioli, W., Moller, P. F., Muller, J., Nemeth, C., Onodi, G., Parisi, F., Perot, T., Perret, S., Persiani, A. M., Portaccio, A., Posillico, M., Preiksa, Z., Rahbek, C., Rappa, N. J., Ravera, S., Romano, A., Samu, F., Scheidegger, C., Schmidt, I. K., Schwegmann, S., Sicuriello, F., Spinu, A. P., Spyroglou, G., Stillhard, J., Topalidou, E., Tottrup, A. P., Ujhazy, K., Veres, K., Verheyen, K., Weisser, W. W., Zapponi, L., and Odor, P.

Published
2023

38. Logging operations in pine stands in Belgium with additional harvest of woody biomass: yield, economics, and energy balance

Author

Vangansbeke, P., Osselaere, J., Van Dael, M., De Frenne, P., Gruwez, R., Pelkmans, L., Gorissen, L., and Verheyen, K.

Subjects
Harvesting, Pine -- Economic aspects, Agricultural productivity, Biomass, Earth sciences
Abstract

Due to the enhanced demands for woody biomass, it is increasingly relevant to assess possibilities to harvest forest residues in addition to logs. Here, eight strategies for whole-tree harvesting from clearcuts and early thinnings of pine (Pinus nigra Arnold) stands in northern Belgium are evaluated. A detailed cost analysis using the machine-rate method was conducted along with scenario and sensitivity analyses of the variables affecting the harvesting cost. On average, we found much higher revenue for logs than for wood chips from forest residues. In clearcuts, a mobile chipper was more profitable than a roadside chipper. On the other hand, the harvesting cost of logs was higher for early thinnings than for clearcuts. However, the revenue remained higher than for chips, making the separate harvesting of logs and chips more cost effective than chipping whole trees. In the latter case, an excavator, a forwarder, and a roadside chipper were more cost effective than a harvester, a tractor with trailer, and a mobile chipper, respectively. Harvest of additional woody biomass required limited energy input compared with processing and intercontinental transportation of wood pellets. However, at present, we find very small profits from local additional biomass harvests. The low and fragmented forest cover and important sustainability issues further impede the development of a viable production sector in this region. Key words: whole-tree harvesting, woody biomass, harvest strategies, economic analysis, energy balance. Resume: Etant donne la demande accrue de biomasse ligneuse, il est de plus en plus pertinent d'evaluer la possibility d'exploiter les residus forestiers en plus des billes. Huit strategies d'exploitation par arbres entiers appliquees lors de coupes a blanc et d'eclaircies precoces dans des peuplements de pin (Pinus nigra Arnold) situes dans le nord de la Belgique ont ete evaluees. Une analyse de cout detaillee par la methode des taux de machinerie a ete realisee ainsi que des analyses de scenarios et de sensibilite des variables qui influencent le cout d'exploitation. En moyenne, nous avons obtenu un revenu beaucoup plus eleve pour les billes que pour les copeaux de bois produits a partir des residus forestiers. Dans les coupes a blanc, une dechiqueteuse mobile etait plus rentable qu'une dechiqueteuse en bordure de route. Par contre, dans les eclaircies precoces le cout d'exploitation des billes etait plus eleve que dans les coupes a blanc. Cependant, les revenus sont demeures plus eleves que pour les copeaux de telle sorte qu'il etait plus rentable d'exploiter les billes et les copeaux separement que de dechiqueter des arbres entiers. Dans le dernier cas, une excavatrice, un porteur et une dechiqueteuse en bordure de route etaient plus rentables qu'une machine multifonctionnelle, un tracteur avec une remorque et une dechiqueteuse mobile. La recolte de biomasse ligneuse additionnelle a necessite un apport limite d'energie comparativement a la fabrication et au transport intercontinental de granule de bois. Cependant, nous constatons que les profits tires de la recolte locale de biomasse additionnelle sont actuellement tres faibles. Le couvert forestier clairseme et fragmente ainsi que les questions de durabilite constituent une entrave supplementaire au developpement d'un secteur de production viable dans cette region. [Traduit par la Redaction] Mots-cles: exploitation par arbres entiers, biomasse ligneuse, strategies d'exploitation, analyse economique, bilan energetique., Introduction The use of woody biomass for bioenergy has increased by almost 80% in the 27 European Union (EU) member states between 1990 and 2008 (Eurostat 2011). Moreover, the demand [...]

Published
2015
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39. Growth and yield of mixed versus pure stands of Scots pine (Pinus sylvestris L.) and European beech (Fagus sylvatica L.) analysed along a productivity gradient through Europe

Author

Pretzsch, H., del Río, M., Ammer, Ch., Avdagic, A., Barbeito, I., Bielak, K., Brazaitis, G., Coll, L., Dirnberger, G., Drössler, L., Fabrika, M., Forrester, D. I., Godvod, K., Heym, M., Hurt, V., Kurylyak, V., Löf, M., Lombardi, F., Matović, B., Mohren, F., Motta, R., den Ouden, J., Pach, M., Ponette, Q., Schütze, G., Schweig, J., Skrzyszewski, J., Sramek, V., Sterba, H., Stojanović, D., Svoboda, M., Vanhellemont, M., Verheyen, K., Wellhausen, K., Zlatanov, T., and Bravo-Oviedo, A.

Published
2015
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41. The Italian forest sites of FunDivEUROPE: a new FP7 project on the functional significance of forest biodiversity in Europe

Author

Bussotti F, Coppi A, Pollastrini M, Feducci M, Baeten L, Scherer-Lorenzen M, Verheyen K, and Selvi F

Subjects
FunDivEUROPE, Forest biodiversity, Ecosystem functions, Ecosystem services, Forestry, SD1-669.5
Abstract

The Italian forest sites of FunDivEUROPE: a new FP7 project on the functional significance of forest biodiversity in Europe. FunDivEUROPE is a new project aiming at a deeper understanding of the role of forest diversity on ecosystem functions and service provisioning for society. This project combines three scientific platforms: experimental, exploratory and inventory. The exploratory platform is based on the observation of a broad range of properties, traits and ecological processes on a network of ca. 240 natural forest sites representing a gradient of tree species diversity in six focal regions of Europe (Spain, Italy, Germany, Poland, Finland and Romania). The Italian sites are located on the hills of central and Southern Tuscany and represent the category “thermophilous deciduous forest”. Almost one year of fieldwork was needed to select and characterize 36 plots measuring 30 x 30 m. Selection was based on criteria concerning tree mixtures and richness, structural parameters and main environmental variables. The main features of these sites are synthetically presented in this paper together with a short description of the project structure and scope. The aim is also to enhance dissemination of the potential implications for a sustainable forest management in Italy.

Published
2012
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43. Different effects of warming treatments in forests versus hedgerows on the understorey plant Geum urbanum

Author

Fernández-Fernández, P., Sanczuk, P., Vanneste, T., Brunet, J., Ehrlén, Johan, Hedwall, P.-O., Hylander, Kristoffer, Van Den Berge, S., Verheyen, K., De Frenne, P., Fernández-Fernández, P., Sanczuk, P., Vanneste, T., Brunet, J., Ehrlén, Johan, Hedwall, P.-O., Hylander, Kristoffer, Van Den Berge, S., Verheyen, K., and De Frenne, P.

Abstract

The effectiveness of hedgerows as functional corridors in the face of climate warming has been little researched. Here we investigated the effects of warming temperatures on plant performance and population growth of Geum urbanum in forests versus hedgerows in two European temperate regions. Adult individuals were transplanted in three forest–hedgerow pairs in each of two different latitudes, and an experimental warming treatment using open-top chambers was used in a full factorial design. Plant performance was analysed using mixed models and population performance was analysed using Integral Projection Models and elasticity analyses. Temperature increases due to open-top chamber installation were higher in forests than in hedgerows. In forests, the warming treatment had a significant negative effect on the population growth rate of G. urbanum. In contrast, no significant effect of the warming treatment on population dynamics was detected in hedgerows. Overall, the highest population growth rates were found in the forest control sites, which was driven by a higher fecundity rather than a higher survival probability. Effects of warming treatments on G. urbanum population growth rates differed between forests and hedgerows. In forests, warming treatments negatively affected population growth, but not in hedgerows. This could be a consequence of the overall lower warming achieved in hedgerows. We conclude that maintenance of cooler forest microclimates coul, at least temporarily, moderate the species response to climate warming.

Published
2022
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44. Biotic interactions as mediators of context-dependent biodiversity-ecosystem functioning relationships

Author

Eisenhauer, N., Bonfante, P., Buscot, Francois, Cesarz, S., Guerra, C.A., Heintz-Buschart, A., Hines, J., Patoine, G., Rillig, M.C., Schmidt, B., Verheyen, K., Wirth, C., Ferlian, O., Eisenhauer, N., Bonfante, P., Buscot, Francois, Cesarz, S., Guerra, C.A., Heintz-Buschart, A., Hines, J., Patoine, G., Rillig, M.C., Schmidt, B., Verheyen, K., Wirth, C., and Ferlian, O.

Abstract

Biodiversity drives the maintenance and stability of ecosystem functioning as well as many of nature’s benefits to people, yet people cause substantial biodiversity change. Despite broad consensus about a positive relationship between biodiversity and ecosystem functioning (BEF), the underlying mechanisms and their context-dependencies are not well understood. This proposal, submitted to the European Research Council (ERC), aims at filling this knowledge gap by providing a novel conceptual framework for integrating biotic interactions across guilds of organisms, i.e. plants and mycorrhizal fungi, to explain the ecosystem consequences of biodiversity change. The overarching hypothesis is that EF increases when more tree species associate with functionally dissimilar mycorrhizal fungi. Taking a whole-ecosystem perspective, we propose to explore the role of tree-mycorrhiza interactions in driving BEF across environmental contexts and how this relates to nutrient dynamics. Given the significant role that mycorrhizae play in soil nutrient and water uptake, BEF relationships will be investigated under normal and drought conditions. Resulting ecosystem consequences will be explored by studying main energy channels and ecosystem multifunctionality using food web energy fluxes and by assessing carbon storage. Synthesising drivers of biotic interactions will allow us to understand context-dependent BEF relationships. This interdisciplinary and integrative project spans the whole gradient from local-scale process assessments to global relationships by building on unique experimental infrastructures like the MyDiv Experiment, iDiv Ecotron and the global network TreeDivNet, to link ecological mechanisms to reforestation initiatives. This innovative combination of basic scientific research with real-world interventions links trait-based community ecology, global change research and ecosystem ecology, pioneering a new generation of BEF research and represents a significant step to

Published
2022

45. Disentangling drivers of litter decomposition in a multi-continent network of tree diversity experiments

Author

Desie, E., Zuo, J., Verheyen, K., Djukic, I., Van Meerbeek, K., Auge, Harald, Barsoum, N., Baum, C., Bruelheide, H., Eisenhauer, N., Feldhaar, H., Ferlian, O., Gravel, D., Jactel, H., Kappel Schmidt, I., Kepfer-Rojas, S., Meredieu, C., Mereu, S., Messier, C., Morillas, L., Nock, C., Paquette, A., Ponette, Q., Reich, P.B., Roales, J., Scherer-Lorenzen, M., Seitz, S., Schmidt, Anja, Stefanski, A., Trogisch, S., van Halder, I., Weih, M., Williams, L.J., Yang, B., Muys, B., Desie, E., Zuo, J., Verheyen, K., Djukic, I., Van Meerbeek, K., Auge, Harald, Barsoum, N., Baum, C., Bruelheide, H., Eisenhauer, N., Feldhaar, H., Ferlian, O., Gravel, D., Jactel, H., Kappel Schmidt, I., Kepfer-Rojas, S., Meredieu, C., Mereu, S., Messier, C., Morillas, L., Nock, C., Paquette, A., Ponette, Q., Reich, P.B., Roales, J., Scherer-Lorenzen, M., Seitz, S., Schmidt, Anja, Stefanski, A., Trogisch, S., van Halder, I., Weih, M., Williams, L.J., Yang, B., and Muys, B.

Abstract

Litter decomposition is a key ecosystem function in forests and varies in response to a range of climatic, edaphic, and local stand characteristics. Disentangling the relative contribution of these factors is challenging, especially along large environmental gradients. In particular, knowledge of the effect of management options, such as tree planting density and species composition, on litter decomposition would be highly valuable in forestry. In this study, we made use of 15 tree diversity experiments spread over eight countries and three continents within the global TreeDivNet network. We evaluated the effects of overstory composition (tree identity, species/mixture composition and species richness), plantation conditions (density and age), and climate (temperature and precipitation) on mass loss (after 3 months and 1 year) of two standardized litters: high-quality green tea and low-quality rooibos tea. Across continents, we found that early-stage decomposition of the low-quality rooibos tea was influenced locally by overstory tree identity. Mass loss of rooibos litter was higher under young gymnosperm overstories compared to angiosperm overstories, but this trend reversed with age of the experiment. Tree species richness did not influence decomposition and explained almost no variation in our multi-continent dataset. Hence, in the young plantations of our study, overstory composition effects on decomposition were mainly driven by tree species identity on decomposer communities and forest microclimates. After 12 months of incubation, mass loss of the high-quality green tea litter was mainly influenced by temperature whereas the low-quality rooibos tea litter decomposition showed stronger relationships with overstory composition and stand age. Our findings highlight that decomposition dynamics are not only affected by climate but also by management options, via litter quality of the identity of planted trees but also by overstory composition and structure.

Published
2022

46. Forest structure and composition alleviate human thermal stress

Author

Gillerot, L., Landuyt, D., Oh, Rui Ying Rachel, Chow, W., Haluza, D., Ponette, Q., Jactel, H., Bruelheide, H., Jaroszewicz, B., Scherer-Lorenzen, M., De Frenne, P., Muys, B., Verheyen, K., Gillerot, L., Landuyt, D., Oh, Rui Ying Rachel, Chow, W., Haluza, D., Ponette, Q., Jactel, H., Bruelheide, H., Jaroszewicz, B., Scherer-Lorenzen, M., De Frenne, P., Muys, B., and Verheyen, K.

Abstract

Current climate change aggravates human health hazards posed by heat stress. Forests can locally mitigate this by acting as strong thermal buffers, yet potential mediation by forest ecological characteristics remains underexplored. We report over 14 months of hourly microclimate data from 131 forest plots across four European countries and compare these to open-field controls using physiologically equivalent temperature (PET) to reflect human thermal perception. Forests slightly tempered cold extremes, but the strongest buffering occurred under very hot conditions (PET > 35°C), where forests reduced strong to extreme heat stress day occurrence by 84.1%. Mature forests cooled the microclimate by 12.1 to 14.5°C PET under, respectively, strong and extreme heat stress conditions. Even young plantations reduced those conditions by 10°C PET. Forest structure strongly modulated the buffering capacity, which was enhanced by increasing stand density, canopy height and canopy closure. Tree species composition had a more modest yet significant influence: i.e., strongly shade-casting, small-leaved evergreen species amplified cooling. Tree diversity had little direct influences, though indirect effects through stand structure remain possible. Forests in general, both young and mature, are thus strong thermal stress reducers, but their cooling potential can be even further amplified given targeted (urban) forest management that considers these new insights.

Published
2022

47. Tree diversity effects on soil microbial biomass and respiration are context dependent across forest diversity experiments

Author

Cesarz, S., Craven, D., Auge, Harald, Bruelheide, H., Castagneyrol, B., Gutknecht, J., Hector, A., Jactel, H., Koricheva, J., Messier, C., Muys, B., O’Brien, M.J., Paquette, A., Ponette, Q., Potvin, C., Reich, P.B., Scherer-Lorenzen, M., Smith, A.R., Verheyen, K., Eisenhauer, N., Cesarz, S., Craven, D., Auge, Harald, Bruelheide, H., Castagneyrol, B., Gutknecht, J., Hector, A., Jactel, H., Koricheva, J., Messier, C., Muys, B., O’Brien, M.J., Paquette, A., Ponette, Q., Potvin, C., Reich, P.B., Scherer-Lorenzen, M., Smith, A.R., Verheyen, K., and Eisenhauer, N.

Abstract

Aim Soil microorganisms are essential for the functioning of terrestrial ecosystems. Although soil microbial communities and functions are linked to tree species composition and diversity, there has been no comprehensive study of the generality or context dependence of these relationships. Here, we examine tree diversity–soil microbial biomass and respiration relationships across environmental gradients using a global network of tree diversity experiments. Location Boreal, temperate, subtropical and tropical forests. Time period 2013. Major taxa studied Soil microorganisms. Methods Soil samples collected from 11 tree diversity experiments were used to measure microbial respiration, biomass and respiratory quotient using the substrate-induced respiration method. All samples were measured using the same analytical device, method and procedure to reduce measurement bias. We used linear mixed-effects models and principal components analysis (PCA) to examine the effects of tree diversity (taxonomic and phylogenetic), environmental conditions and interactions on soil microbial properties. Results Abiotic drivers, mainly soil water content, but also soil carbon and soil pH, significantly increased soil microbial biomass and respiration. High soil water content reduced the importance of other abiotic drivers. Tree diversity had no effect on the soil microbial properties, but interactions with phylogenetic diversity indicated that the effects of diversity were context dependent and stronger in drier soils. Similar results were found for soil carbon and soil pH. Main conclusions Our results indicate the importance of abiotic variables, especially soil water content, for maintaining high levels of soil microbial functions and modulating the effects of other environmental drivers. Planting tree species with diverse water-use strategies and structurally complex canopies and high leaf area might be crucial for maintaining high soil microbial biomass and respiration. Give

Published
2022

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