Increased Central European forest mortality explained by higher harvest rates driven by enhanced productivity

Marieke Scheel; Mats Lindeskog; Benjamin Smith; Susanne Suvanto; Thomas A.M. Pugh

doi:10.1088/1748-9326/ac9635

Increased Central European forest mortality explained by higher harvest rates driven by enhanced productivity

Marieke Scheel^*, Mats Lindeskog, Benjamin Smith, Susanne Suvanto, Thomas A.M. Pugh

^*Corresponding author for this work

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Abstract

Increasing tree growth and mortality rates in Europe are still poorly understood and have been attributed to a variety of drivers. This study explored the role of climate drivers, management and age structure in driving changes in tree mortality rates in six Central European countries from 1985 to 2010, using the process-based vegetation model LPJ-GUESS. Simulations show a strong positive trend in canopy mortality rates in Central Europe, consistent with satellite observations. This trend was explained by an assumed increase in managed thinning in response to a modelled increase in forest productivity caused by climate change and rising atmospheric CO₂ concentration. Simulated rates of canopy mortality were highly sensitive to the minimum tree size threshold applied for inclusion in the rate calculation, agreeing with satellite observations that are likely to only capture the loss of relatively large trees. The calculated trends in mortality rate also differed substantially depending on the metric used (i.e. carbon, stem or canopy mortality), highlighting the challenge of comparing tree mortality trends from different observation types. We conclude that changes in forest productivity and management in combination can profoundly affect regional-scale patterns of tree mortality. Our findings underscore the fact that increasing forest mortality can occur without reductions in forest growth when mediated by management responses to increasing productivity.

Original language	English
Article number	114007
Number of pages	9
Journal	Environmental Research Letters
Volume	17
Issue number	11
Early online date	19 Oct 2022
DOIs	https://doi.org/10.1088/1748-9326/ac9635
Publication status	Published - Nov 2022

Bibliographical note

Funding Information:
M S, M L and T A M P acknowledge support from the European Research Council under the European Union Horizon 2020 programme (Grant 758873, TreeMort). S S received funding from the innovation programme under the Marie Skłodowska-Curie grant agreement (No 895158, ForMMI). This study contributes to the Strategic Research Areas BECC and MERGE. We thank Cornelius Senf for helpful comments on the manuscript and Mart-Jan Schelhaas, Adriane Esquivel-Muelbert, Louis König, Sophie Radcliffe and Gerald Kändler for assistance with the German NFI data processing.

Publisher Copyright:
© 2022 The Author(s). Published by IOP Publishing Ltd.

Keywords

climate
CO fertilisation
European forest
forest management
harvest
tree mortality

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
General Environmental Science
Public Health, Environmental and Occupational Health

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/1748-9326/ac9635Licence: Creative Commons: Attribution (CC BY)

ScheelM2022IncreasedFinal published version, 849 KBLicence: Creative Commons: Attribution (CC BY)

Cite this

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title = "Increased Central European forest mortality explained by higher harvest rates driven by enhanced productivity",

abstract = "Increasing tree growth and mortality rates in Europe are still poorly understood and have been attributed to a variety of drivers. This study explored the role of climate drivers, management and age structure in driving changes in tree mortality rates in six Central European countries from 1985 to 2010, using the process-based vegetation model LPJ-GUESS. Simulations show a strong positive trend in canopy mortality rates in Central Europe, consistent with satellite observations. This trend was explained by an assumed increase in managed thinning in response to a modelled increase in forest productivity caused by climate change and rising atmospheric CO2 concentration. Simulated rates of canopy mortality were highly sensitive to the minimum tree size threshold applied for inclusion in the rate calculation, agreeing with satellite observations that are likely to only capture the loss of relatively large trees. The calculated trends in mortality rate also differed substantially depending on the metric used (i.e. carbon, stem or canopy mortality), highlighting the challenge of comparing tree mortality trends from different observation types. We conclude that changes in forest productivity and management in combination can profoundly affect regional-scale patterns of tree mortality. Our findings underscore the fact that increasing forest mortality can occur without reductions in forest growth when mediated by management responses to increasing productivity.",

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note = "Funding Information: M S, M L and T A M P acknowledge support from the European Research Council under the European Union Horizon 2020 programme (Grant 758873, TreeMort). S S received funding from the innovation programme under the Marie Sk{\l}odowska-Curie grant agreement (No 895158, ForMMI). This study contributes to the Strategic Research Areas BECC and MERGE. We thank Cornelius Senf for helpful comments on the manuscript and Mart-Jan Schelhaas, Adriane Esquivel-Muelbert, Louis K{\"o}nig, Sophie Radcliffe and Gerald K{\"a}ndler for assistance with the German NFI data processing. Publisher Copyright: {\textcopyright} 2022 The Author(s). Published by IOP Publishing Ltd.",

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N1 - Funding Information: M S, M L and T A M P acknowledge support from the European Research Council under the European Union Horizon 2020 programme (Grant 758873, TreeMort). S S received funding from the innovation programme under the Marie Skłodowska-Curie grant agreement (No 895158, ForMMI). This study contributes to the Strategic Research Areas BECC and MERGE. We thank Cornelius Senf for helpful comments on the manuscript and Mart-Jan Schelhaas, Adriane Esquivel-Muelbert, Louis König, Sophie Radcliffe and Gerald Kändler for assistance with the German NFI data processing. Publisher Copyright: © 2022 The Author(s). Published by IOP Publishing Ltd.

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N2 - Increasing tree growth and mortality rates in Europe are still poorly understood and have been attributed to a variety of drivers. This study explored the role of climate drivers, management and age structure in driving changes in tree mortality rates in six Central European countries from 1985 to 2010, using the process-based vegetation model LPJ-GUESS. Simulations show a strong positive trend in canopy mortality rates in Central Europe, consistent with satellite observations. This trend was explained by an assumed increase in managed thinning in response to a modelled increase in forest productivity caused by climate change and rising atmospheric CO2 concentration. Simulated rates of canopy mortality were highly sensitive to the minimum tree size threshold applied for inclusion in the rate calculation, agreeing with satellite observations that are likely to only capture the loss of relatively large trees. The calculated trends in mortality rate also differed substantially depending on the metric used (i.e. carbon, stem or canopy mortality), highlighting the challenge of comparing tree mortality trends from different observation types. We conclude that changes in forest productivity and management in combination can profoundly affect regional-scale patterns of tree mortality. Our findings underscore the fact that increasing forest mortality can occur without reductions in forest growth when mediated by management responses to increasing productivity.

AB - Increasing tree growth and mortality rates in Europe are still poorly understood and have been attributed to a variety of drivers. This study explored the role of climate drivers, management and age structure in driving changes in tree mortality rates in six Central European countries from 1985 to 2010, using the process-based vegetation model LPJ-GUESS. Simulations show a strong positive trend in canopy mortality rates in Central Europe, consistent with satellite observations. This trend was explained by an assumed increase in managed thinning in response to a modelled increase in forest productivity caused by climate change and rising atmospheric CO2 concentration. Simulated rates of canopy mortality were highly sensitive to the minimum tree size threshold applied for inclusion in the rate calculation, agreeing with satellite observations that are likely to only capture the loss of relatively large trees. The calculated trends in mortality rate also differed substantially depending on the metric used (i.e. carbon, stem or canopy mortality), highlighting the challenge of comparing tree mortality trends from different observation types. We conclude that changes in forest productivity and management in combination can profoundly affect regional-scale patterns of tree mortality. Our findings underscore the fact that increasing forest mortality can occur without reductions in forest growth when mediated by management responses to increasing productivity.

KW - climate

KW - CO fertilisation

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Increased Central European forest mortality explained by higher harvest rates driven by enhanced productivity

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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