Alien plants have greater impact than habitat fragmentation on native insect flower visitation networks

Aim: Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural systems, networks of natural corridors and patches of natural habitat are often maintained within the afforested matrix, yet these can be subject...

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Vydané v:Diversity & distributions Ročník 24; číslo 1/2; s. 58 - 68
Hlavní autori: Hansen, Simone, Roets, Francois, Seymour, Colleen L., van Veen, F.J. Frank, Pryke, James S., Thébault, Elisa S.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Oxford John Wiley & Sons Ltd 01.01.2018
John Wiley & Sons, Inc
Wiley
Predmet:
Abundance
Afforestation
Biodiversity
Biodiversity and Ecology
biodiversity conservation
Biodiversity loss
BIODIVERSITY RESEARCH
brambles
Complexity
conservation areas
Corridors
ecological networks
Ecology, environment
Environmental Sciences
flower network analyses
Flowers
food web
Forestry
Fragmentation
Grasslands
Habitat fragmentation
Habitats
Herbivores
Indigenous plants
Indigenous species
insect conservation
introduced plants
Introduced species
Invasive plants
Invasive species
landscape ecology
landscapes
Life Sciences
Modularity
Networks
Plant species
Plantations
Plants (botany)
pollination
Protected areas
Rubus cuneifolius
South Africa
Species composition
species diversity
Wildlife conservation
South Africa
ISSN:1366-9516, 1472-4642
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Abstract Aim: Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural systems, networks of natural corridors and patches of natural habitat are often maintained within the afforested matrix, yet these can be subject to degradation by invasion of nonnative species. Both habitat fragmentation and alien invasive species disrupt the complex interaction networks typical of native communities. This study examines whether an invasive plant and/or the fragmented nature of the forestry landscape influences natural flower visitation networks (FVNs), flower-visitor abundance and richness or flower/visitor species composition. Location: The species rich and diverse grasslands in the KwaZulu-Natal Midlands, South Africa is under threat from transformation, particularly by commercial forestry plantations, restricting much of the remaining untransformed grasslands into remnant grassland patches (RGPs). Remaining patches are under additional threat from the invasive Rubus cuneifolius Pursh (bramble). Sites were established in RGPs and in a nearby protected area (PA), with and without brambles present for both areas. Results: Flower abundance and flower area of native plant species were greater within RGP than in PA, but only in the absence of R. cuneifolius. Flower-visitor assemblages differed between invaded and uninvaded sites and also differed between PA and RGP sites. Both areas lost specialist flower-visitor species in the presence of brambles. Network modularity was greatly reduced by the presence of bramble, indicating a reduction in complexity and organization. The structure of FVNs was otherwise unaffected by presence of bramble or being located in RGPs or the PA. Main conclusions: The RPGs contribute to regional biodiversity conservation through additional compositional diversity and intact FVNs. Rubus cuneifolius reduces ecological complexity of both RGPs and PAs, however, and its removal must be prioritized to conserve FVNs.
AbstractList Aim: Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural systems, networks of natural corridors and patches of natural habitat are often maintained within the afforested matrix, yet these can be subject to degradation by invasion of nonnative species. Both habitat fragmentation and alien invasive species disrupt the complex interaction networks typical of native communities. This study examines whether an invasive plant and/or the fragmented nature of the forestry landscape influences natural flower visitation networks (FVNs), flower-visitor abundance and richness or flower/visitor species composition. Location: The species rich and diverse grasslands in the KwaZulu-Natal Midlands, South Africa is under threat from transformation, particularly by commercial forestry plantations, restricting much of the remaining untransformed grasslands into remnant grassland patches (RGPs). Remaining patches are under additional threat from the invasive Rubus cuneifolius Pursh (bramble). Sites were established in RGPs and in a nearby protected area (PA), with and without brambles present for both areas. Results: Flower abundance and flower area of native plant species were greater within RGP than in PA, but only in the absence of R. cuneifolius. Flower-visitor assemblages differed between invaded and uninvaded sites and also differed between PA and RGP sites. Both areas lost specialist flower-visitor species in the presence of brambles. Network modularity was greatly reduced by the presence of bramble, indicating a reduction in complexity and organization. The structure of FVNs was otherwise unaffected by presence of bramble or being located in RGPs or the PA. Main conclusions: The RPGs contribute to regional biodiversity conservation through additional compositional diversity and intact FVNs. Rubus cuneifolius reduces ecological complexity of both RGPs and PAs, however, and its removal must be prioritized to conserve FVNs.
AIM: Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural systems, networks of natural corridors and patches of natural habitat are often maintained within the afforested matrix, yet these can be subject to degradation by invasion of non‐native species. Both habitat fragmentation and alien invasive species disrupt the complex interaction networks typical of native communities. This study examines whether an invasive plant and/or the fragmented nature of the forestry landscape influences natural flower visitation networks (FVNs), flower–visitor abundance and richness or flower/visitor species composition. LOCATION: The species rich and diverse grasslands in the KwaZulu‐Natal Midlands, South Africa is under threat from transformation, particularly by commercial forestry plantations, restricting much of the remaining untransformed grasslands into remnant grassland patches (RGPs). Remaining patches are under additional threat from the invasive Rubus cuneifolius Pursh (bramble). Sites were established in RGPs and in a nearby protected area (PA), with and without brambles present for both areas. RESULTS: Flower abundance and flower area of native plant species were greater within RGP than in PA, but only in the absence of R. cuneifolius. Flower–visitor assemblages differed between invaded and uninvaded sites and also differed between PA and RGP sites. Both areas lost specialist flower–visitor species in the presence of brambles. Network modularity was greatly reduced by the presence of bramble, indicating a reduction in complexity and organization. The structure of FVNs was otherwise unaffected by presence of bramble or being located in RGPs or the PA. MAIN CONCLUSIONS: The RPGs contribute to regional biodiversity conservation through additional compositional diversity and intact FVNs. Rubus cuneifolius reduces ecological complexity of both RGPs and PAs, however, and its removal must be prioritized to conserve FVNs.
Aim Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural systems, networks of natural corridors and patches of natural habitat are often maintained within the afforested matrix, yet these can be subject to degradation by invasion of non‐native species. Both habitat fragmentation and alien invasive species disrupt the complex interaction networks typical of native communities. This study examines whether an invasive plant and/or the fragmented nature of the forestry landscape influences natural flower visitation networks (FVNs), flower–visitor abundance and richness or flower/visitor species composition. Location The species rich and diverse grasslands in the KwaZulu‐Natal Midlands, South Africa is under threat from transformation, particularly by commercial forestry plantations, restricting much of the remaining untransformed grasslands into remnant grassland patches (RGPs). Remaining patches are under additional threat from the invasive Rubus cuneifolius Pursh (bramble). Sites were established in RGPs and in a nearby protected area (PA), with and without brambles present for both areas. Results Flower abundance and flower area of native plant species were greater within RGP than in PA, but only in the absence of R. cuneifolius. Flower–visitor assemblages differed between invaded and uninvaded sites and also differed between PA and RGP sites. Both areas lost specialist flower–visitor species in the presence of brambles. Network modularity was greatly reduced by the presence of bramble, indicating a reduction in complexity and organization. The structure of FVNs was otherwise unaffected by presence of bramble or being located in RGPs or the PA. Main conclusions The RPGs contribute to regional biodiversity conservation through additional compositional diversity and intact FVNs. Rubus cuneifolius reduces ecological complexity of both RGPs and PAs, however, and its removal must be prioritized to conserve FVNs.
Author Roets, Francois
Seymour, Colleen L.
Hansen, Simone
Thébault, Elisa S.
van Veen, F.J. Frank
Pryke, James S.
Author_xml – sequence: 1
  givenname: Simone
  surname: Hansen
  fullname: Hansen, Simone
– sequence: 2
  givenname: Francois
  surname: Roets
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  givenname: Colleen L.
  surname: Seymour
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  givenname: F.J. Frank
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  givenname: James S.
  surname: Pryke
  fullname: Pryke, James S.
– sequence: 6
  givenname: Elisa S.
  surname: Thébault
  fullname: Thébault, Elisa S.
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2017 John Wiley & Sons Ltd
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Snippet Aim: Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural...
Aim Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural...
Aim Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural...
AIM: Habitat fragmentation and alien species are among the leading causes of biodiversity loss. In an attempt to reduce the impact of forestry on natural...
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StartPage 58
SubjectTerms Abundance
Afforestation
Biodiversity
Biodiversity and Ecology
biodiversity conservation
Biodiversity loss
BIODIVERSITY RESEARCH
brambles
Complexity
conservation areas
Corridors
ecological networks
Ecology, environment
Environmental Sciences
flower network analyses
Flowers
food web
Forestry
Fragmentation
Grasslands
Habitat fragmentation
Habitats
Herbivores
Indigenous plants
Indigenous species
insect conservation
introduced plants
Introduced species
Invasive plants
Invasive species
landscape ecology
landscapes
Life Sciences
Modularity
Networks
Plant species
Plantations
Plants (botany)
pollination
Protected areas
Rubus cuneifolius
South Africa
Species composition
species diversity
Wildlife conservation
Title Alien plants have greater impact than habitat fragmentation on native insect flower visitation networks
URI https://www.jstor.org/stable/44896734
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fddi.12656
https://www.proquest.com/docview/1974914720
https://www.proquest.com/docview/2020906620
https://hal.sorbonne-universite.fr/hal-03992025
Volume 24
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