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dc.contributor.author Burge, Olivia R.
dc.contributor.author Bodmin, Kerry A.
dc.contributor.author Clarkson, Beverley R.
dc.contributor.author Bartlam, Scott
dc.contributor.author Watts, Corinne H.
dc.contributor.author Tanner, Chris C.
dc.coverage.spatial New Zealand
dc.coverage.spatial Waikato
dc.coverage.spatial Whangamarino wetland
dc.coverage.temporal Holocene
dc.date.accessioned 2017-06-19T11:31:45Z
dc.date.available 2017-06-19T11:31:45Z
dc.date.issued 2017-06-07
dc.identifier doi:10.5061/dryad.1nn35
dc.identifier.citation Burge OR, Bodmin KA, Clarkson BR, Bartlam S, Watts CH, Tanner CC (2017) Glyphosate redirects wetland vegetation trajectory following willow invasion. Applied Vegetation Science, online in advance of print.
dc.identifier.issn 1654-109X
dc.identifier.uri http://hdl.handle.net/10255/dryad.140966
dc.description Aims: Aerially applied glyphosate is an economic tool to deal with large areas of invasive plants. However, there are few studies investigating non-target effects or rates of reinvasion, particularly over multi-year timeframes. The aims were to evaluate the effectiveness of aerial application of glyphosate for control of dense stands of the invasive grey willow Salix cinerea, and determine the vegetation trajectory over the subsequent two years. Location: Whangamarino Wetland, Waikato, New Zealand. Methods: A before-after control-impact (BACI) experiment was conducted in a Ramsar-listed wetland in New Zealand. Effects on S. cinerea cover, canopy light interception and non-target damage were monitored over a 7.1 ha experimental area prior to, and for two years following, aerial application of glyphosate. Vegetation classification, ordination, and species richness analyses were undertaken to describe community-level effects. Results: Aerial application of glyphosate to an established willow canopy was effective in reducing cover to < 5% on average for up to two years post-spray when assessed using 100 m2 vegetation survey plots. Smaller 1 m2 plots were more sensitive for detecting willow reinvasion, which was noted from one year post-spray. Collateral damage to non-target sub-canopy species was generally minimal, except for the native tree-fern Dicksonia squarrosa which showed marked reductions in cover and no recovery over the study period. Species richness was higher in sprayed plots post-spray and a shift towards a native Carex-dominated sedgeland community was detected. Conclusions: Aerial application of glyphosate to a dense canopy of mature willow was effective in reducing the cover and dominance of this invasive wetland tree species. Minimal collateral damage occurred, facilitating recovery and expansion of a native sedgeland community. The risk of secondary invasion did not eventuate, although exotic species richness spiked in the year following spraying. Sedgelands are susceptible to willow reinvasion via seed so longer-term trajectories will diverge depending on management intensity. Using currently available tools the rehabilitation options are either repeated cycles of herbicide application to redirect the trajectory from reinvasion back to short-statured sedgelands, or intensive initial management to establish an alternative, more resilient trajectory to native wetland forest.
dc.relation.haspart doi:10.5061/dryad.1nn35/1
dc.relation.isreferencedby doi:10.1111/avsc.12320
dc.subject Succession
dc.subject Glyphosate
dc.subject Herbicide
dc.subject Ramsar
dc.subject Wetland restoration
dc.subject Invasive species
dc.title Data from: Glyphosate redirects wetland vegetation trajectory following willow invasion
dc.type Article
dwc.ScientificName Salix cinerea
dc.contributor.correspondingAuthor Burge, Olivia
prism.publicationName Applied Vegetation Science

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Title Glyphosate redirects wetland vegetation trajectory following willow invasion
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Description Vegetation data collected to describe the effect of glyphosate in a Salix cinerea invaded wetland. See the README file in the zip folder for further details
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