Development of the breeding bird community of a silvoarable agroforestry system with short rotation coppice strips over a 16-year period

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Felix Zitzmann
  • Maren Langhof

External Research Organisations

  • Julius Kühn Institute - Federal Research Centre for Cultivated Plants (JKI)
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Details

Original languageEnglish
Pages (from-to)1601–1612
Number of pages12
JournalAgroforestry Systems
Volume97
Issue number8
Early online date27 Aug 2023
Publication statusPublished - Dec 2023

Abstract

Modern silvoarable agroforestry systems (AFS) with short rotation coppice strips (CS) are considered as a potential measure to increase structural diversity in agricultural landscapes and to promote biodiversity while simultaneously producing arable crops and woody biomass. However, studies investigating the actual potential of these novel land use systems to promote biodiversity are scarce. We therefore investigated the importance of a silvoarable AFS with different CS variants as habitat for breeding birds on an experimental site in northern Germany, which was studied several times over a 16-year period since its establishment. In addition, the habitat function and quality of CS was compared with hedgerows. The results show that establishing CS on arable land creates additional habitats for shrub and tree breeding species and thus increases species numbers and territory densities. Tree harvest resulted in a decrease in species numbers and densities. However, since Aspen rows (for timber production) or native woody species were retained during harvesting in some CS, suitable nesting opportunities for some species remained. A sharp decline in Skylark territories was observed within the open land of the AFS, from nine breeding pairs in the year after establishment (2009) to only two breeding pairs each in 2022 and 2023. Compared to CS, hedgerows were more species-rich and had much higher territory densities. We conclude that the integration of CS into croplands can promote some species of woody habitats, especially if measures such as the integration of trees of different heights or native woody species and sectional harvesting are implemented. However, CS still clearly lag behind hedgerows in terms of their habitat quality. Furthermore, the establishment of CS may have negative effects on threatened open land species like the Skylark. The requirements of these species should therefore be considered when planning AFS. Establishing AFS with CS could especially be an option in cleared, intensively used agricultural landscapes, where CS could represent a trade-off between the promotion of birds and agricultural production.

Keywords

    Alley cropping, Biodiversity, Bioenergy, Hedgerow, Perennial biomass crop, Species richness

ASJC Scopus subject areas

Cite this

Development of the breeding bird community of a silvoarable agroforestry system with short rotation coppice strips over a 16-year period. / Zitzmann, Felix; Langhof, Maren.
In: Agroforestry Systems, Vol. 97, No. 8, 12.2023, p. 1601–1612 .

Research output: Contribution to journalArticleResearchpeer review

Zitzmann F, Langhof M. Development of the breeding bird community of a silvoarable agroforestry system with short rotation coppice strips over a 16-year period. Agroforestry Systems. 2023 Dec;97(8):1601–1612 . Epub 2023 Aug 27. doi: 10.1007/s10457-023-00881-9
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title = "Development of the breeding bird community of a silvoarable agroforestry system with short rotation coppice strips over a 16-year period",
abstract = "Modern silvoarable agroforestry systems (AFS) with short rotation coppice strips (CS) are considered as a potential measure to increase structural diversity in agricultural landscapes and to promote biodiversity while simultaneously producing arable crops and woody biomass. However, studies investigating the actual potential of these novel land use systems to promote biodiversity are scarce. We therefore investigated the importance of a silvoarable AFS with different CS variants as habitat for breeding birds on an experimental site in northern Germany, which was studied several times over a 16-year period since its establishment. In addition, the habitat function and quality of CS was compared with hedgerows. The results show that establishing CS on arable land creates additional habitats for shrub and tree breeding species and thus increases species numbers and territory densities. Tree harvest resulted in a decrease in species numbers and densities. However, since Aspen rows (for timber production) or native woody species were retained during harvesting in some CS, suitable nesting opportunities for some species remained. A sharp decline in Skylark territories was observed within the open land of the AFS, from nine breeding pairs in the year after establishment (2009) to only two breeding pairs each in 2022 and 2023. Compared to CS, hedgerows were more species-rich and had much higher territory densities. We conclude that the integration of CS into croplands can promote some species of woody habitats, especially if measures such as the integration of trees of different heights or native woody species and sectional harvesting are implemented. However, CS still clearly lag behind hedgerows in terms of their habitat quality. Furthermore, the establishment of CS may have negative effects on threatened open land species like the Skylark. The requirements of these species should therefore be considered when planning AFS. Establishing AFS with CS could especially be an option in cleared, intensively used agricultural landscapes, where CS could represent a trade-off between the promotion of birds and agricultural production.",
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note = "Funding Information: Open Access funding enabled and organized by Projekt DEAL. Field work in 2009 was carried out within the research project “{\"O}konomische und {\"o}kologische Bewertung von Agroforstsystemen in der landwirtschaftlichen Praxis; Teilvorhaben 3: Gr{\"u}nland- und Ackerfl{\"a}chen in Niedersachsen” (Grant No. 22009807), funded by the Bundesministerium f{\"u}r Ern{\"a}hrung und Landwirtschaft (BMEL) and the Fachagentur Nachwachsende Rohstoffe e. V. (FNR). Field work in 2013 and 2014 was carried out within the research project “Nachhaltige Erzeugung von Energieholz in Agroforstsystemen, Teilvorhaben 3: Strukturvielfalt und Biodiversit{\"a}t (AgroForstEnergie II)” (Grant No. 22000412), also funded by BMEL and FNR. No funding was received for conducting field work in 2022 and 2023 and no funding was received to assist with the preparation of this manuscript.",
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AU - Langhof, Maren

N1 - Funding Information: Open Access funding enabled and organized by Projekt DEAL. Field work in 2009 was carried out within the research project “Ökonomische und ökologische Bewertung von Agroforstsystemen in der landwirtschaftlichen Praxis; Teilvorhaben 3: Grünland- und Ackerflächen in Niedersachsen” (Grant No. 22009807), funded by the Bundesministerium für Ernährung und Landwirtschaft (BMEL) and the Fachagentur Nachwachsende Rohstoffe e. V. (FNR). Field work in 2013 and 2014 was carried out within the research project “Nachhaltige Erzeugung von Energieholz in Agroforstsystemen, Teilvorhaben 3: Strukturvielfalt und Biodiversität (AgroForstEnergie II)” (Grant No. 22000412), also funded by BMEL and FNR. No funding was received for conducting field work in 2022 and 2023 and no funding was received to assist with the preparation of this manuscript.

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N2 - Modern silvoarable agroforestry systems (AFS) with short rotation coppice strips (CS) are considered as a potential measure to increase structural diversity in agricultural landscapes and to promote biodiversity while simultaneously producing arable crops and woody biomass. However, studies investigating the actual potential of these novel land use systems to promote biodiversity are scarce. We therefore investigated the importance of a silvoarable AFS with different CS variants as habitat for breeding birds on an experimental site in northern Germany, which was studied several times over a 16-year period since its establishment. In addition, the habitat function and quality of CS was compared with hedgerows. The results show that establishing CS on arable land creates additional habitats for shrub and tree breeding species and thus increases species numbers and territory densities. Tree harvest resulted in a decrease in species numbers and densities. However, since Aspen rows (for timber production) or native woody species were retained during harvesting in some CS, suitable nesting opportunities for some species remained. A sharp decline in Skylark territories was observed within the open land of the AFS, from nine breeding pairs in the year after establishment (2009) to only two breeding pairs each in 2022 and 2023. Compared to CS, hedgerows were more species-rich and had much higher territory densities. We conclude that the integration of CS into croplands can promote some species of woody habitats, especially if measures such as the integration of trees of different heights or native woody species and sectional harvesting are implemented. However, CS still clearly lag behind hedgerows in terms of their habitat quality. Furthermore, the establishment of CS may have negative effects on threatened open land species like the Skylark. The requirements of these species should therefore be considered when planning AFS. Establishing AFS with CS could especially be an option in cleared, intensively used agricultural landscapes, where CS could represent a trade-off between the promotion of birds and agricultural production.

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KW - Alley cropping

KW - Biodiversity

KW - Bioenergy

KW - Hedgerow

KW - Perennial biomass crop

KW - Species richness

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