Your search keyword '"Tanneberger, F."' showing total 5 results

1. Klima - Wasserhaushalt - Biodiversität: für eine integrierende Nutzung von Mooren und Auen. Stellungnahme

Author

Trockner, K., Hansjürgens, Bernd, Hering, D., Kollmann, J., Kreyling, J., Mitter, H., Möckel, Stefan, Prochnow, A., Renn, O., Tanneberger, F., Tetzlaff, D., Ziel, F., Anton, C., von Hoven, G., Roller, S., Steinicke, H., Wetterich, S., Trockner, K., Hansjürgens, Bernd, Hering, D., Kollmann, J., Kreyling, J., Mitter, H., Möckel, Stefan, Prochnow, A., Renn, O., Tanneberger, F., Tetzlaff, D., Ziel, F., Anton, C., von Hoven, G., Roller, S., Steinicke, H., and Wetterich, S.

Published

2024

2. 10 Must Knows from Biodiversity Science 2024

Author

Thonicke, K., Rahner, E., Arneth, A., Bonn, Aletta, Borchard, N., Chaudhary, A., Darbi, Marianne, Dutta, T., Eberle, U., Eisenhauer, N., Farwig, N., Flocco, C.G., Freitag, J., Grobe, P., Grosch, R., Grossart, H.-P., Grosse, A., Grützmacher, K., Hagemann, Nina, Hansjürgens, Bernd, Hartman Scholz, A., Hassenrück, C., Häuser, C., Hickler, T., Hölker, F., Jacob, U., Jähnig, S.C., Jürgens, K., Kramer-Schadt, S., Kretsch, C., Krug, C., Lakner, S., Lindner, J.P., Loft, L., Mann, C., Matzdorf, B., Mehring, M., Meier, R., Meusemann, K., Müller, D., Nieberg, M., Overmann, J., Peters, R.S., Pörtner, L., Pradhan, P., Prochnow, A., Rduch, V., Reyer, C., Roos, C., Scherber, C., Scheunemann, N., Schroer, S., Schuck, A., Sioen, G.B., Sommer, S., Sommerwerk, N., Tanneberger, F., Tockner, K., van der Voort, H., Veenstra, T., Verburg, P., Voss, M., Warner, B., Wende, W., Wesche, K., Thonicke, K., Rahner, E., Arneth, A., Bonn, Aletta, Borchard, N., Chaudhary, A., Darbi, Marianne, Dutta, T., Eberle, U., Eisenhauer, N., Farwig, N., Flocco, C.G., Freitag, J., Grobe, P., Grosch, R., Grossart, H.-P., Grosse, A., Grützmacher, K., Hagemann, Nina, Hansjürgens, Bernd, Hartman Scholz, A., Hassenrück, C., Häuser, C., Hickler, T., Hölker, F., Jacob, U., Jähnig, S.C., Jürgens, K., Kramer-Schadt, S., Kretsch, C., Krug, C., Lakner, S., Lindner, J.P., Loft, L., Mann, C., Matzdorf, B., Mehring, M., Meier, R., Meusemann, K., Müller, D., Nieberg, M., Overmann, J., Peters, R.S., Pörtner, L., Pradhan, P., Prochnow, A., Rduch, V., Reyer, C., Roos, C., Scherber, C., Scheunemann, N., Schroer, S., Schuck, A., Sioen, G.B., Sommer, S., Sommerwerk, N., Tanneberger, F., Tockner, K., van der Voort, H., Veenstra, T., Verburg, P., Voss, M., Warner, B., Wende, W., and Wesche, K.

Abstract

"There are no scientifically justified obstacles to protecting biodiversity in all its beauty and diversity. There are only six years left to achieve the biodiversity targets by 2030. We must work together now to get there in time."In the 10 Must Knows from Biodiversity Science 2024, 64 scientists have further developed their well-founded and diverse findings and recommendations from the 10MustKnows22. The content of the ten selected key areas of the Earth-human system is supplemented by relevant publications from 2022 and 2023 and linked to the 23 global goals of the Kunming-Montreal Global Biodiversity Framework (GBF) adopted in December 2022. The authors are aware that the next six years until 2030 are essential for achieving an ecologically sustainable and socially just life on our planet in the medium and long term. With the 10MustKnows24, they want to actively contribute to accelerating the socio-ecological transformation by providing scientifically sound recommendations for politics and society.These are the 10MustKnows24: 1: Achieving climate and biodiversity protection together 2: Enabling a healthy life on a healthy planet 3: Considering undiscovered biodiversity 4: Linking linguistic, cultural and biological diversity 5: Harmonising the diverse use of forest ecosystems and biodiversity conservation 6: Transforming agricultural and food systems 7: Protecting land and resources 8: Releasing transformative change through international collaboration and Education for Sustainable Development 9: Ensuring free access and open use of biodiversity-related data 10: Reducing biodiversity impacts from food consumption

Published

2024

3. 10 Must Knows aus der Biodiversitätsforschung 2024

Author

Thonicke, K., Rahner, E., Arneth, A., Bonn, Aletta, Borchard, N., Chaudhary, A., Darbi, Marianne, Dutta, T., Eberle, U., Eisenhauer, N., Farwig, N., Flocco, C.G., Freitag, J., Grobe, P., Grosch, R., Grossart, H.-P., Grosse, A., Grützmacher, K., Hagemann, Nina, Hansjürgens, Bernd, Hartman Scholz, A., Hassenrück, C., Häuser, C., Hickler, T., Hölker, F., Jacob, U., Jähnig, S.C., Jürgens, K., Kramer-Schadt, S., Kretsch, C., Krug, C., Lakner, S., Lindner, J.P., Loft, L., Mann, C., Matzdorf, B., Mehring, M., Meier, R., Meusemann, K., Müller, D., Nieberg, M., Overmann, J., Peters, R.S., Pörtner, L., Pradhan, P., Prochnow, A., Rduch, V., Reyer, C., Roos, C., Scherber, C., Scheunemann, N., Schroer, S., Schuck, A., Sioen, G.B., Sommer, S., Sommerwerk, N., Tanneberger, F., Tockner, K., van der Voort, H., Veenstra, T., Verburg, P., Voss, M., Warner, B., Wende, W., Wesche, K., Thonicke, K., Rahner, E., Arneth, A., Bonn, Aletta, Borchard, N., Chaudhary, A., Darbi, Marianne, Dutta, T., Eberle, U., Eisenhauer, N., Farwig, N., Flocco, C.G., Freitag, J., Grobe, P., Grosch, R., Grossart, H.-P., Grosse, A., Grützmacher, K., Hagemann, Nina, Hansjürgens, Bernd, Hartman Scholz, A., Hassenrück, C., Häuser, C., Hickler, T., Hölker, F., Jacob, U., Jähnig, S.C., Jürgens, K., Kramer-Schadt, S., Kretsch, C., Krug, C., Lakner, S., Lindner, J.P., Loft, L., Mann, C., Matzdorf, B., Mehring, M., Meier, R., Meusemann, K., Müller, D., Nieberg, M., Overmann, J., Peters, R.S., Pörtner, L., Pradhan, P., Prochnow, A., Rduch, V., Reyer, C., Roos, C., Scherber, C., Scheunemann, N., Schroer, S., Schuck, A., Sioen, G.B., Sommer, S., Sommerwerk, N., Tanneberger, F., Tockner, K., van der Voort, H., Veenstra, T., Verburg, P., Voss, M., Warner, B., Wende, W., and Wesche, K.

Abstract

"Es gibt wissenschaftlich keine begründeten Hindernisse, die Biodiversität in ihrer Schönheit und Vielfalt zu schützen. Es bleiben nur noch sechs Jahre, um die Biodiversitätsziele bis 2030 zu erreichen. Dafür müssen wir jetzt gemeinsam anpacken."In den 10 Must-Knows aus der Biodiversitätsforschung 2024 haben 64 Wissenschaftlerinnen und Wissenschaftler ihre fundierten und vielseitigen Erkenntnisse und Empfehlungen aus den 10MustKnows22 weiterentwickelt. Die zehn ausgewählten Schlüsselbereiche des Erde-Mensch-Systems werden inhaltlich durch relevante Publikationen von 2022 und 2023 ergänzt und mit den im Dezember 2022 verabschiedeten 23 globalen Zielen des Kunming-Montreal Global Biodiversity Framework (GBF) verknüpft. Den Autorinnen und Autoren ist bewusst, dass die kommenden sechs Jahre bis 2030 wesentlich sind, um mittel- und langfristig ein ökologisch nachhaltiges und sozial gerechtes Leben auf unserer Erde zu erreichen. Mit den 10MustKnows24 möchten sie durch wissenschaftlich gesicherte Empfehlungen für Politik und Gesellschaft ihren aktiven Beitrag leisten, um die sozial-ökologische Transformation zu beschleunigen.Das sind die 10MustKnows24: 1. Klima- und Biodiversitätsschutz gemeinsam verwirklichen 2. Ein gesundes Leben auf einem gesunden Planeten ermöglichen 3. Unentdeckte Biodiversität beachten 4. Sprachliche, kulturelle und biologische Vielfalt verknüpfen 5. Vielfältige Nutzung von Waldökosystemen und Biodiversitätsschutz in Einklang bringen 6. Agrar- und Ernährungssysteme transformieren 7. Land und Ressourcen schützen 8. Transformativen Wandel durch internationale Zusammenarbeit und Bildung für nachhaltige Entwicklung bewirken 9. Freien Zugang und offene Nutzung von biodiversitätsbezogenen Daten sicherstellen 10. Auswirkungen des Lebensmittelkonsums auf die Biodiversität verringern

Published

2024

4. Peat formation potential of temperate fens increases with hydrological stability.

Author

Jaszczuk I, Jabłońska E, Kozub Ł, Tanneberger F, Aggenbach C, Seeber E, van Diggelen R, Kreyling J, Silvennoinen HM, and Kotowski W

Subjects

Poland, Hydrology, Carbon Sequestration, Environmental Monitoring, Bryophyta growth & development, Soil chemistry, Wetlands, Biomass

Abstract

Peat formation is the key process responsible for carbon sequestration in peatlands. In rich fens, peat is formed by brown mosses and belowground biomass of vascular plants. However, the impact of ecohydrological settings on the contribution of mosses and belowground biomass to peat formation remains an open question. We established seven transects in well-preserved fens in NE Poland along an ecohydrological gradient from mesotrophic sedge-moss communities with stable water levels, to more eutrophic tall sedge communities with higher water level fluctuations. In each transect, we measured the production of brown mosses (using the plug method), aboveground vascular plant biomass (one year after cutting) and belowground biomass (using ingrowth cores). Decomposition rates of all biomass fractions were assessed using litter bags. The first-year surplus of potentially peat-forming fractions, i.e., mosses and belowground biomass, decreased with increasing water level fluctuations and along a vegetation gradient from sedge-moss to tall sedge communities. Moss production was highest in the sedge-moss fen with a stable water level at the ground surface. We did not detect any difference in belowground biomass production across the gradient but found it to be consistently higher in the upper 0-5 cm than in the deeper layers. The decomposition rate also showed no response to the gradient, but differed between biomass types, with aboveground biomass of vascular plants decomposing 2.5 times faster than belowground biomass and mosses. Pattern of peat formation potential along the ecohydrological gradient in rich fen was strongly driven by brown moss production. Sedge-moss fens with a stable water level at the ground surface have the highest peat formation capacity compared to other vegetation types. In the part of the gradient that is poorer in nutrients, vascular plants invest in belowground production, and mosses dominate the aboveground layer., Competing Interests: Declaration of competing interest The authors declare that they have no competing interests., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

5. Active afforestation of drained peatlands is not a viable option under the EU Nature Restoration Law.

Author

Jurasinski G, Barthelmes A, Byrne KA, Chojnicki BH, Christiansen JR, Decleer K, Fritz C, Günther AB, Huth V, Joosten H, Juszczak R, Juutinen S, Kasimir Å, Klemedtsson L, Koebsch F, Kotowski W, Kull A, Lamentowicz M, Lindgren A, Lindsay R, Linkevičienė R, Lohila A, Mander Ü, Manton M, Minkkinen K, Peters J, Renou-Wilson F, Sendžikaitė J, Šimanauskienė R, Taminskas J, Tanneberger F, Tegetmeyer C, van Diggelen R, Vasander H, Wilson D, Zableckis N, Zak DH, and Couwenberg J

Subjects

Forests, Carbon Sequestration, Environmental Restoration and Remediation methods, Climate Change, Ecosystem, Wetlands, Conservation of Natural Resources legislation & jurisprudence, Conservation of Natural Resources methods, Forestry legislation & jurisprudence, Forestry methods, Soil chemistry, European Union

Abstract

The EU Nature Restoration Law (NRL) is critical for the restoration of degraded ecosystems and active afforestation of degraded peatlands has been suggested as a restoration measure under the NRL. Here, we discuss the current state of scientific evidence on the climate mitigation effects of peatlands under forestry. Afforestation of drained peatlands without restoring their hydrology does not fully restore ecosystem functions. Evidence on long-term climate benefits is lacking and it is unclear whether CO 2 sequestration of forest on drained peatland can offset the carbon loss from the peat over the long-term. While afforestation may offer short-term gains in certain cases, it compromises the sustainability of peatland carbon storage. Thus, active afforestation of drained peatlands is not a viable option for climate mitigation under the EU Nature Restoration Law and might even impede future rewetting/restoration efforts. Instead, restoring hydrological conditions through rewetting is crucial for effective peatland restoration., (© 2024. The Author(s).)

Published

2024