Grazing alters insect visitation networks and plant mating systems

Vanbergen, Adam J.; Woodcock, Ben A.; Gray, Alan; Grant, Fiona; Telford, Annika; Lambdon, Philip W.; Chapman, Daniel S.; Pywell, Richard F.; Heard, Matt S.; Cavers, Stephen

doi:10.1111/1365-2435.12191

Cited by 72 publications

(122 citation statements)

References 51 publications

(123 reference statements)

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“…Previous works showed that the disturbances generated by human activity caused pollinator and plant diversity declines worldwide [5][6][7][8][9][10][11]. One of the main human-disturbance that may affect plant-pollinator interactions is the introduction of livestock for grazing in natural areas [12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Variation in Insect Assemblage and Functional Groups along a Grazing Gradient in an Arid Environment

Tadey¹

2016

Entomol Ornithol Herpetol

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Exotic livestock may affect plant and pollinator composition as well as their interactions. Changes in pollinator assemblage (e.g. composition) may alter pollination process and, therefore, plant reproduction. This study examined seven independent paddocks environmentally similar but with increasing livestock densities, in Patagonian Monte Desert. This allows investigating the response of different insect groups to livestock effect on vegetation along a grazing gradient. Water traps was used to capture insects (focusing on pollinators) and pollinator visitation frequencies were measured in five of the most abundant native plant species of the region. Regressions between livestock density and insect richness and abundance of the different functional groups of insects (dipterans, herbivores and pollinators) were performed. Insect assemblage was mostly composed, in decreasing order, by hymenopterans, coleopterans, dipterans and lepidopterans. Ordination analysis of insect composition showed a high correlation between the first axis and livestock density (r=0.95). In the first year of sampling, pollinators significantly decreased in richness and wasps increased in abundance with livestock density. In the second year of sampling, pollinator abundance increased and herbivores decreased as livestock density increased. Unimodal ordination analyses showed that plant species were significantly associated to insect composition and livestock density marginally explained the variation in insect composition that visited the five studied plant species across paddocks.Interacting factors such as livestock density and climatic conditions may partially explain the patterns observed in this work. Disturbances may alter the ecological scenarios, impoverishing the composition and abundance of flora and fauna. This study describes that changes in the density of exotic livestock can affect insect assemblage associated to pollination process differently through the years. Changes through time may determine population dynamic and their response to anthropogenic disturbances.

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Section: Introductionmentioning

confidence: 99%

Variation in Insect Assemblage and Functional Groups along a Grazing Gradient in an Arid Environment

Tadey¹

2016

Entomol Ornithol Herpetol

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“…Sociality is another trait affecting vulnerability to landscape alteration. Social bees are central location foragers tied to the colony location, consequently they are more sensitive to the distance to forage resource patches in the surrounding landscape [20 ,38] than nonsocial insects with free-living progeny, such as Diptera [38,39 ]. Even within social bee taxa, species-specific differences in mobility and dispersal range will govern responses to habitat loss and/or fragmentation.…”

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confidence: 99%

Landscape alteration and habitat modification: impacts on plant–pollinator systems

Vanbergen

2014

Current Opinion in Insect Science

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“…With many tree species being animal pollinated (at least in tropical systems), the genetic diversity and fitness of progeny of woody plants sired in fragmented landscapes are expected to decline due to shifts in plant-mating patterns (for example, reduced outcrossing rate and/or pollen diversity due to habitat fragmentation and/or changes in pollinator community composition and behavior, Vanbergen et al, 2013). This hypothesis is tested by Breed et al (2015a) in a case study of three ecologically divergent Eucalyptus tree species, and from a meta-analysis of the literature.…”

Section: Overview Of the Focal Issue Studiesmentioning

confidence: 99%

“…A continued focus on these three areas is likely to be scientifically fruitful and deliver real progress on management strategies for trees in impacted landscapes. In particular, a more quantitative approach to linking changes in pollination to mating systems to fitness is likely to yield important insights on the mechanisms driving the changes we observe (for example, Vanbergen et al, 2013). We look forward to reviewing new hypotheses, developments and latest research in this area in 10 years time!…”

mentioning

confidence: 98%

The resilience of forest fragmentation genetics—no longer a paradox—we were just looking in the wrong place

et al. 2015

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Grazing alters insect visitation networks and plant mating systems

Cited by 72 publications

References 51 publications

Variation in Insect Assemblage and Functional Groups along a Grazing Gradient in an Arid Environment

Variation in Insect Assemblage and Functional Groups along a Grazing Gradient in an Arid Environment

Landscape alteration and habitat modification: impacts on plant–pollinator systems

The resilience of forest fragmentation genetics—no longer a paradox—we were just looking in the wrong place

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