National Forest Inventories capture the multifunctionality of managed forests in Germany

National Forest Inventories capture the multifunctionality of managed forests in Germany

Abstract Background Forests perform various important ecosystem functions that contribute to ecosystem services. In many parts of the world, forest management has shifted from a focus on timber production to multi-purpose forestry, combining timber production with the supply of other forest ecosyste...

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Main Authors: Nadja K. Simons, María R. Felipe-Lucia, Peter Schall, Christian Ammer, Jürgen Bauhus, Nico Blüthgen, Steffen Boch, François Buscot, Markus Fischer, Kezia Goldmann, Martin M. Gossner, Falk Hänsel, Kirsten Jung, Peter Manning, Thomas Nauss, Yvonne Oelmann, Rodica Pena, Andrea Polle, Swen C. Renner, Michael Schloter, Ingo Schöning, Ernst-Detlef Schulze, Emily F. Solly, Elisabeth Sorkau, Barbara Stempfhuber, Tesfaye Wubet, Jörg Müller, Sebastian Seibold, Wolfgang W. Weisser
Format: Article
Language:English
Published: SpringerOpen 2021-01-01
Series:Forest Ecosystems
Subjects:
Ecosystem processes and services
Forest management
Structural diversity
Tree species composition
Trade-offs and synergies
Forest productivity
Online Access:https://doi.org/10.1186/s40663-021-00280-5
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author Nadja K. Simons
María R. Felipe-Lucia
Peter Schall
Christian Ammer
Jürgen Bauhus
Nico Blüthgen
Steffen Boch
François Buscot
Markus Fischer
Kezia Goldmann
Martin M. Gossner
Falk Hänsel
Kirsten Jung
Peter Manning
Thomas Nauss
Yvonne Oelmann
Rodica Pena
Andrea Polle
Swen C. Renner
Michael Schloter
Ingo Schöning
Ernst-Detlef Schulze
Emily F. Solly
Elisabeth Sorkau
Barbara Stempfhuber
Tesfaye Wubet
Jörg Müller
Sebastian Seibold
Wolfgang W. Weisser
spellingShingle Nadja K. Simons
María R. Felipe-Lucia
Peter Schall
Christian Ammer
Jürgen Bauhus
Nico Blüthgen
Steffen Boch
François Buscot
Markus Fischer
Kezia Goldmann
Martin M. Gossner
Falk Hänsel
Kirsten Jung
Peter Manning
Thomas Nauss
Yvonne Oelmann
Rodica Pena
Andrea Polle
Swen C. Renner
Michael Schloter
Ingo Schöning
Ernst-Detlef Schulze
Emily F. Solly
Elisabeth Sorkau
Barbara Stempfhuber
Tesfaye Wubet
Jörg Müller
Sebastian Seibold
Wolfgang W. Weisser
National Forest Inventories capture the multifunctionality of managed forests in Germany
Forest Ecosystems
Ecosystem processes and services
Forest management
Structural diversity
Tree species composition
Trade-offs and synergies
Forest productivity
author_facet Nadja K. Simons
María R. Felipe-Lucia
Peter Schall
Christian Ammer
Jürgen Bauhus
Nico Blüthgen
Steffen Boch
François Buscot
Markus Fischer
Kezia Goldmann
Martin M. Gossner
Falk Hänsel
Kirsten Jung
Peter Manning
Thomas Nauss
Yvonne Oelmann
Rodica Pena
Andrea Polle
Swen C. Renner
Michael Schloter
Ingo Schöning
Ernst-Detlef Schulze
Emily F. Solly
Elisabeth Sorkau
Barbara Stempfhuber
Tesfaye Wubet
Jörg Müller
Sebastian Seibold
Wolfgang W. Weisser
author_sort Nadja K. Simons
title National Forest Inventories capture the multifunctionality of managed forests in Germany
title_short National Forest Inventories capture the multifunctionality of managed forests in Germany
title_full National Forest Inventories capture the multifunctionality of managed forests in Germany
title_fullStr National Forest Inventories capture the multifunctionality of managed forests in Germany
title_full_unstemmed National Forest Inventories capture the multifunctionality of managed forests in Germany
title_sort national forest inventories capture the multifunctionality of managed forests in germany
publisher SpringerOpen
series Forest Ecosystems
issn 2197-5620
publishDate 2021-01-01
description Abstract Background Forests perform various important ecosystem functions that contribute to ecosystem services. In many parts of the world, forest management has shifted from a focus on timber production to multi-purpose forestry, combining timber production with the supply of other forest ecosystem services. However, it is unclear which forest types provide which ecosystem services and to what extent forests primarily managed for timber already supply multiple ecosystem services. Based on a comprehensive dataset collected across 150 forest plots in three regions differing in management intensity and species composition, we develop models to predict the potential supply of 13 ecosystem services. We use those models to assess the level of multifunctionality of managed forests at the national level using national forest inventory data. Results Looking at the potential supply of ecosystem services, we found trade-offs (e.g. between both bark beetle control or dung decomposition and both productivity or soil carbon stocks) as well as synergies (e.g. for temperature regulation, carbon storage and culturally interesting plants) across the 53 most dominant forest types in Germany. No single forest type provided all ecosystem services equally. Some ecosystem services showed comparable levels across forest types (e.g. decomposition or richness of saprotrophs), while others varied strongly, depending on forest structural attributes (e.g. phosphorous availability or cover of edible plants) or tree species composition (e.g. potential nitrification activity). Variability in potential supply of ecosystem services was only to a lesser extent driven by environmental conditions. However, the geographic variation in ecosystem function supply across Germany was closely linked with the distribution of main tree species. Conclusions Our results show that forest multifunctionality is limited to subsets of ecosystem services. The importance of tree species composition highlights that a lack of multifunctionality at the stand level can be compensated by managing forests at the landscape level, when stands of complementary forest types are combined. These results imply that multi-purpose forestry should be based on a variety of forest types requiring coordinated planning across larger spatial scales.
topic Ecosystem processes and services
Forest management
Structural diversity
Tree species composition
Trade-offs and synergies
Forest productivity
url https://doi.org/10.1186/s40663-021-00280-5
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spelling doaj-536167b6bb3542f985241bde4e7159402021-01-31T16:15:07ZengSpringerOpenForest Ecosystems2197-56202021-01-018111910.1186/s40663-021-00280-5National Forest Inventories capture the multifunctionality of managed forests in GermanyNadja K. Simons0María R. Felipe-Lucia1Peter Schall2Christian Ammer3Jürgen Bauhus4Nico Blüthgen5Steffen Boch6François Buscot7Markus Fischer8Kezia Goldmann9Martin M. Gossner10Falk Hänsel11Kirsten Jung12Peter Manning13Thomas Nauss14Yvonne Oelmann15Rodica Pena16Andrea Polle17Swen C. Renner18Michael Schloter19Ingo Schöning20Ernst-Detlef Schulze21Emily F. Solly22Elisabeth Sorkau23Barbara Stempfhuber24Tesfaye Wubet25Jörg Müller26Sebastian Seibold27Wolfgang W. Weisser28Terrestrial Ecology Research Group, Technische Universität MünchenHelmholtz Centre for Environmental Research - UFZ, Department of Ecosystem ServicesHelmholtz Centre for Environmental Research - UFZ, Department of Ecosystem ServicesSilviculture and Forest Ecology of the Temperate Zones, University of GöttingenChair of Silviculture, Faculty of Environment and Natural Resources, University of FreiburgEcological Networks, Technische Universität DarmstadtInstitute of Plant Sciences, University of BernHelmholtz Centre for Environmental Research – UFZ, Department of Soil EcologyInstitute of Plant Sciences, University of BernHelmholtz Centre for Environmental Research – UFZ, Department of Soil EcologyForest Entomology, WSL Swiss Federal Research InstituteEnvironmental Informatics, University of MarburgEvolutionary Ecology and Conservation Genomics, Ulm UniversitySenckenberg Biodiversity and Climate Research CentreEnvironmental Informatics, University of MarburgGeoecology, University of TübingenCentre for Biodiversity and Sustainable Land-use, University of GöttingenCentre for Biodiversity and Sustainable Land-use, University of GöttingenOrnithology, Natural History Museum ViennaInstitute for Comparative Microbiome AnalysisMax Planck Institute for BiogeochemistryMax Planck Institute for BiogeochemistryMax Planck Institute for BiogeochemistryGeoecology, University of TübingenInstitute for Comparative Microbiome AnalysisGerman Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-LeipzigBavarian Forest National ParkTerrestrial Ecology Research Group, Technische Universität MünchenTerrestrial Ecology Research Group, Technische Universität MünchenAbstract Background Forests perform various important ecosystem functions that contribute to ecosystem services. In many parts of the world, forest management has shifted from a focus on timber production to multi-purpose forestry, combining timber production with the supply of other forest ecosystem services. However, it is unclear which forest types provide which ecosystem services and to what extent forests primarily managed for timber already supply multiple ecosystem services. Based on a comprehensive dataset collected across 150 forest plots in three regions differing in management intensity and species composition, we develop models to predict the potential supply of 13 ecosystem services. We use those models to assess the level of multifunctionality of managed forests at the national level using national forest inventory data. Results Looking at the potential supply of ecosystem services, we found trade-offs (e.g. between both bark beetle control or dung decomposition and both productivity or soil carbon stocks) as well as synergies (e.g. for temperature regulation, carbon storage and culturally interesting plants) across the 53 most dominant forest types in Germany. No single forest type provided all ecosystem services equally. Some ecosystem services showed comparable levels across forest types (e.g. decomposition or richness of saprotrophs), while others varied strongly, depending on forest structural attributes (e.g. phosphorous availability or cover of edible plants) or tree species composition (e.g. potential nitrification activity). Variability in potential supply of ecosystem services was only to a lesser extent driven by environmental conditions. However, the geographic variation in ecosystem function supply across Germany was closely linked with the distribution of main tree species. Conclusions Our results show that forest multifunctionality is limited to subsets of ecosystem services. The importance of tree species composition highlights that a lack of multifunctionality at the stand level can be compensated by managing forests at the landscape level, when stands of complementary forest types are combined. These results imply that multi-purpose forestry should be based on a variety of forest types requiring coordinated planning across larger spatial scales.https://doi.org/10.1186/s40663-021-00280-5Ecosystem processes and servicesForest managementStructural diversityTree species compositionTrade-offs and synergiesForest productivity

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