Species stratification and weather conditions drive tree growth in Scots pine and Norway spruce mixed stands along Europe

Species stratification and weather conditions drive tree growth in Scots pine and Norway spruce mixed stands along Europe

[Display omitted] •Size-asymmetric and inter-specific competition drove tree growth in mixtures.•Tree growth and size of Scots pine was higher in mixtures compared to monocultures.•Drought drove tree growth for both species, but temperature only affects pine.•Weather conditions modified inter-specif...

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Published in:Forest ecology and management Vol. 481; p. 118697
Main Authors: Aldea, Jorge, Ruiz-Peinado, Ricardo, del Río, Miren, Pretzsch, Hans, Heym, Michael, Brazaitis, Gediminas, Jansons, Aris, Metslaid, Marek, Barbeito, Ignacio, Bielak, Kamil, Granhus, Aksel, Holm, Stig-Olof, Nothdurft, Arne, Sitko, Roman, Löf, Magnus
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2021
Subjects:
Climate change
Competition-weather interaction
Forest Science
Mixed stands
Picea abies
Pinus sylvestris
Skogsvetenskap
Mixed stands
Climate change
Pinus sylvestris
Picea abies
Competition-weather interaction
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Abstract [Display omitted] •Size-asymmetric and inter-specific competition drove tree growth in mixtures.•Tree growth and size of Scots pine was higher in mixtures compared to monocultures.•Drought drove tree growth for both species, but temperature only affects pine.•Weather conditions modified inter-specific tree competition for both species.•Growth reduction of Norway spruce in mixtures may be offset by faster Scots pine growth. Mixed forests are suggested as a strategic adaptation of forest management to climate change. Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies (L.) Karst.) are tree species of high economic and ecological value for European forestry. Both species coexist naturally in a large part of their distributions but there is a lack of knowledge on the ecological functioning of mixtures of these species and how to manage such stands. This paper analyses these species’ intra- and inter-specific competition, including size-symmetric vs. size-asymmetric competition, and explore the effect of weather conditions on tree growth and competition. We studied basal area growth at tree level for Scots pine and Norway spruce in mixed versus pure stands in 22 triplets of fully-stocked plots along a broad range of ecological conditions across Europe. Stand inventory and increment cores provided insights into how species mixing modifies tree growth compared with neighbouring pure stands. Five different competition indices, weather variables and their interactions were included and checked in basal area growth models using a linear mixed model approach. Interspecific size-asymmetric competition strongly influenced growth for both tree species, and was modulated by weather conditions. However, species height stratification in mixed stands resulted in a greater tree basal area growth of Scots pine (10.5 cm2 year−1) than in pure stands (9.3 cm2 year−1), as this species occupies the upper canopy layer. Scots pine growth depended on temperature and drought, whereas Norway spruce growth was influenced only by drought. Interspecific site-asymmetric competition increased in cold winters for Scots pine, and decreased after a drought year for Norway spruce. Although mixtures of these species may reduce tree size for Norway spruce, our results suggest that this could be offset by faster growth in Scots pine. How inter-specific competition and weather conditions alter tree growth may have strong implications for the management of Scots pine-Norway spruce mixtures along the rotation period into the ongoing climate change scenario.
AbstractList Mixed forests are suggested as a strategic adaptation of forest management to climate change. Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies (L.) Karst.) are tree species of high economic and ecological value for European forestry. Both species coexist naturally in a large part of their distributions but there is a lack of knowledge on the ecological functioning of mixtures of these species and how to manage such stands. This paper analyses these species' intra- and inter-specific competition, including size-symmetric vs. size-asymmetric competition, and explore the effect of weather conditions on tree growth and competition. We studied basal area growth at tree level for Scots pine and Norway spruce in mixed versus pure stands in 22 triplets of fully-stocked plots along a broad range of ecological conditions across Europe. Stand inventory and increment cores provided insights into how species mixing modifies tree growth compared with neighbouring pure stands. Five different competition indices, weather variables and their interactions were included and checked in basal area growth models using a linear mixed model approach. Interspecific size-asymmetric competition strongly influenced growth for both tree species, and was modulated by weather conditions. However, species height stratification in mixed stands resulted in a greater tree basal area growth of Scots pine (10.5 em(2) year(-1)) than in pure stands (9.3 em(2) year(-1)), as this species occupies the upper canopy layer. Scots pine growth depended on temperature and drought, whereas Norway spruce growth was influenced only by drought. Interspecific site-asymmetric competition increased in cold winters for Scots pine, and decreased after a drought year for Norway spruce. Although mixtures of these species may reduce tree size for Norway spruce, our results suggest that this could be offset by faster growth in Scots pine. How inter-specific competition and weather conditions alter tree growth may have strong implications for the management of Scots pine-Norway spruce mixtures along the rotation period into the ongoing climate change scenario.
[Display omitted] •Size-asymmetric and inter-specific competition drove tree growth in mixtures.•Tree growth and size of Scots pine was higher in mixtures compared to monocultures.•Drought drove tree growth for both species, but temperature only affects pine.•Weather conditions modified inter-specific tree competition for both species.•Growth reduction of Norway spruce in mixtures may be offset by faster Scots pine growth. Mixed forests are suggested as a strategic adaptation of forest management to climate change. Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies (L.) Karst.) are tree species of high economic and ecological value for European forestry. Both species coexist naturally in a large part of their distributions but there is a lack of knowledge on the ecological functioning of mixtures of these species and how to manage such stands. This paper analyses these species’ intra- and inter-specific competition, including size-symmetric vs. size-asymmetric competition, and explore the effect of weather conditions on tree growth and competition. We studied basal area growth at tree level for Scots pine and Norway spruce in mixed versus pure stands in 22 triplets of fully-stocked plots along a broad range of ecological conditions across Europe. Stand inventory and increment cores provided insights into how species mixing modifies tree growth compared with neighbouring pure stands. Five different competition indices, weather variables and their interactions were included and checked in basal area growth models using a linear mixed model approach. Interspecific size-asymmetric competition strongly influenced growth for both tree species, and was modulated by weather conditions. However, species height stratification in mixed stands resulted in a greater tree basal area growth of Scots pine (10.5 cm2 year−1) than in pure stands (9.3 cm2 year−1), as this species occupies the upper canopy layer. Scots pine growth depended on temperature and drought, whereas Norway spruce growth was influenced only by drought. Interspecific site-asymmetric competition increased in cold winters for Scots pine, and decreased after a drought year for Norway spruce. Although mixtures of these species may reduce tree size for Norway spruce, our results suggest that this could be offset by faster growth in Scots pine. How inter-specific competition and weather conditions alter tree growth may have strong implications for the management of Scots pine-Norway spruce mixtures along the rotation period into the ongoing climate change scenario.
ArticleNumber 118697
Author Heym, Michael
Jansons, Aris
Nothdurft, Arne
Granhus, Aksel
Sitko, Roman
Löf, Magnus
Ruiz-Peinado, Ricardo
Bielak, Kamil
Aldea, Jorge
Pretzsch, Hans
Metslaid, Marek
Barbeito, Ignacio
Holm, Stig-Olof
del Río, Miren
Brazaitis, Gediminas
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  organization: Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences (SLU), Sweden
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  organization: Spanish Institute for Agriculture and Food Research and Technology (INIA), Forest Research Center (CIFOR), Spain
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  surname: Pretzsch
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  surname: Brazaitis
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  email: gediminas.brazaitis@vdu.lt
  organization: Vytautas Magnus University (VDU), Lithuania
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  givenname: Aris
  orcidid: 0000-0001-7981-4346
  surname: Jansons
  fullname: Jansons, Aris
  email: aris.jansons@silava.lv
  organization: Latvian State Forest Research Institute (SILAVA), Latvia
– sequence: 8
  givenname: Marek
  surname: Metslaid
  fullname: Metslaid, Marek
  email: marek.metslaid@emu.ee
  organization: Estonian University of Life Sciences (EMU), Estonia
– sequence: 9
  givenname: Ignacio
  surname: Barbeito
  fullname: Barbeito, Ignacio
  email: ignacio.barbeito@slu.se
  organization: Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences (SLU), Sweden
– sequence: 10
  givenname: Kamil
  surname: Bielak
  fullname: Bielak, Kamil
  email: kamil.bielak@wl.sggw.pl
  organization: Warsaw University of Life Sciences (SGGW), Poland
– sequence: 11
  givenname: Aksel
  surname: Granhus
  fullname: Granhus, Aksel
  email: aksel.granhus@nibio.no
  organization: Norwegian Institute of Bioeconomy Research (NIBIO), Norway
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  givenname: Stig-Olof
  surname: Holm
  fullname: Holm, Stig-Olof
  email: stig-olof.holm@umu.se
  organization: Umeå University (UMU), Sweden
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  givenname: Arne
  orcidid: 0000-0002-7065-7601
  surname: Nothdurft
  fullname: Nothdurft, Arne
  email: arne.nothdurft@boku.ac.at
  organization: University of Natural Resources and Life Sciences (BOKU), Austria
– sequence: 14
  givenname: Roman
  surname: Sitko
  fullname: Sitko, Roman
  email: roman.sitko@tuzvo.sk
  organization: Technical University in Zvolen (TUZVO), Slovakia
– sequence: 15
  givenname: Magnus
  orcidid: 0000-0002-9173-2156
  surname: Löf
  fullname: Löf, Magnus
  email: magnus.lof@slu.se
  organization: Southern Swedish Forest Research Centre, Swedish University of Agricultural Sciences (SLU), Sweden
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Keywords Mixed stands
Climate change
Pinus sylvestris
Picea abies
Competition-weather interaction
Language English
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Snippet [Display omitted] •Size-asymmetric and inter-specific competition drove tree growth in mixtures.•Tree growth and size of Scots pine was higher in mixtures...
Mixed forests are suggested as a strategic adaptation of forest management to climate change. Scots pine (Pinus sylvestris L.) and Norway spruce (Picea abies...
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StartPage 118697
SubjectTerms Climate change
Competition-weather interaction
Forest Science
Mixed stands
Picea abies
Pinus sylvestris
Skogsvetenskap
Title Species stratification and weather conditions drive tree growth in Scots pine and Norway spruce mixed stands along Europe
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