Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization?

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Standard

Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization? / Hansen, Rikke Reisner; Nielsen, Knud Erik; Offenberg, Joachim; Damgaard, Christian; Byriel, David Bille; Schmidt, Inger Kappel; Sørensen, Peter Borgen; Kjær, Christian; Strandberg, Morten Tune.

I: Biological Conservation, Bind 242, 108422, 2020.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Hansen, RR, Nielsen, KE, Offenberg, J, Damgaard, C, Byriel, DB, Schmidt, IK, Sørensen, PB, Kjær, C & Strandberg, MT 2020, 'Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization?', Biological Conservation, bind 242, 108422. https://doi.org/10.1016/j.biocon.2020.108422

APA

Hansen, R. R., Nielsen, K. E., Offenberg, J., Damgaard, C., Byriel, D. B., Schmidt, I. K., Sørensen, P. B., Kjær, C., & Strandberg, M. T. (2020). Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization? Biological Conservation, 242, [108422]. https://doi.org/10.1016/j.biocon.2020.108422

Vancouver

Hansen RR, Nielsen KE, Offenberg J, Damgaard C, Byriel DB, Schmidt IK o.a. Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization? Biological Conservation. 2020;242. 108422. https://doi.org/10.1016/j.biocon.2020.108422

Author

Hansen, Rikke Reisner ; Nielsen, Knud Erik ; Offenberg, Joachim ; Damgaard, Christian ; Byriel, David Bille ; Schmidt, Inger Kappel ; Sørensen, Peter Borgen ; Kjær, Christian ; Strandberg, Morten Tune. / Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization?. I: Biological Conservation. 2020 ; Bind 242.

Bibtex

@article{e4d6430b9c604acb856c30863cd01992,
title = "Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization?",
abstract = "Maintaining heathland ecosystems in an early successional stage is a major aim of most management regimes, such as harvesting, burning or grazing. However, how these types of management affect important ecosystem engineers such as ants, are poorly understood. We registered the density of ant colonies in managed plots (harvested, burned and grazed) and plots with long succession (so forth unmanaged) across six different dry lowland heath sites. With these data, we investigated how composition and richness varied across management regimes and elucidated the direct effects of management from the indirect effects of environmental covariates. Ant species richness was significantly lower in managed plots compared to unmanaged plots. Harvest and grazing regimes were associated with the lowest richness, while intermediate richness was registered in burned plots. Smallest variation in species composition was found in the harvested, followed by grazed, burned and unmanaged heathlands. There was an overall negative association between abundances of organic mound forming species and all types of management, while non-mound forming species where negatively affected by grazing. In addition, Non- and organic mound forming species were indirectly affected through decreasing vegetation complexity. Only ants with mineral mounds benefitted from grazing and burning, but not from harvesting. To promote ant richness and abundance, we propose to downscale the frequency and intensity of management, as well as designating certain parts of the heathland area for later successional vegetation stages.",
keywords = "Composition, Ecosystem engineers, Heathland management, Species conservation, Species richness",
author = "Hansen, {Rikke Reisner} and Nielsen, {Knud Erik} and Joachim Offenberg and Christian Damgaard and Byriel, {David Bille} and Schmidt, {Inger Kappel} and S{\o}rensen, {Peter Borgen} and Christian Kj{\ae}r and Strandberg, {Morten Tune}",
year = "2020",
doi = "10.1016/j.biocon.2020.108422",
language = "English",
volume = "242",
journal = "Biological Conservation",
issn = "0006-3207",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Implications of heathland management for ant species composition and diversity – Is heathland management causing biotic homogenization?

AU - Hansen, Rikke Reisner

AU - Nielsen, Knud Erik

AU - Offenberg, Joachim

AU - Damgaard, Christian

AU - Byriel, David Bille

AU - Schmidt, Inger Kappel

AU - Sørensen, Peter Borgen

AU - Kjær, Christian

AU - Strandberg, Morten Tune

PY - 2020

Y1 - 2020

N2 - Maintaining heathland ecosystems in an early successional stage is a major aim of most management regimes, such as harvesting, burning or grazing. However, how these types of management affect important ecosystem engineers such as ants, are poorly understood. We registered the density of ant colonies in managed plots (harvested, burned and grazed) and plots with long succession (so forth unmanaged) across six different dry lowland heath sites. With these data, we investigated how composition and richness varied across management regimes and elucidated the direct effects of management from the indirect effects of environmental covariates. Ant species richness was significantly lower in managed plots compared to unmanaged plots. Harvest and grazing regimes were associated with the lowest richness, while intermediate richness was registered in burned plots. Smallest variation in species composition was found in the harvested, followed by grazed, burned and unmanaged heathlands. There was an overall negative association between abundances of organic mound forming species and all types of management, while non-mound forming species where negatively affected by grazing. In addition, Non- and organic mound forming species were indirectly affected through decreasing vegetation complexity. Only ants with mineral mounds benefitted from grazing and burning, but not from harvesting. To promote ant richness and abundance, we propose to downscale the frequency and intensity of management, as well as designating certain parts of the heathland area for later successional vegetation stages.

AB - Maintaining heathland ecosystems in an early successional stage is a major aim of most management regimes, such as harvesting, burning or grazing. However, how these types of management affect important ecosystem engineers such as ants, are poorly understood. We registered the density of ant colonies in managed plots (harvested, burned and grazed) and plots with long succession (so forth unmanaged) across six different dry lowland heath sites. With these data, we investigated how composition and richness varied across management regimes and elucidated the direct effects of management from the indirect effects of environmental covariates. Ant species richness was significantly lower in managed plots compared to unmanaged plots. Harvest and grazing regimes were associated with the lowest richness, while intermediate richness was registered in burned plots. Smallest variation in species composition was found in the harvested, followed by grazed, burned and unmanaged heathlands. There was an overall negative association between abundances of organic mound forming species and all types of management, while non-mound forming species where negatively affected by grazing. In addition, Non- and organic mound forming species were indirectly affected through decreasing vegetation complexity. Only ants with mineral mounds benefitted from grazing and burning, but not from harvesting. To promote ant richness and abundance, we propose to downscale the frequency and intensity of management, as well as designating certain parts of the heathland area for later successional vegetation stages.

KW - Composition

KW - Ecosystem engineers

KW - Heathland management

KW - Species conservation

KW - Species richness

U2 - 10.1016/j.biocon.2020.108422

DO - 10.1016/j.biocon.2020.108422

M3 - Journal article

AN - SCOPUS:85078476022

VL - 242

JO - Biological Conservation

JF - Biological Conservation

SN - 0006-3207

M1 - 108422

ER -

ID: 236710913