landscape-scale assessment of the long-term integrated control of an invasive shrub in South Africa

The control of invasive alien plants often involves the integration two or more approaches, including mechanical clearing, the application of herbicides, burning, and biological control. More than one species of invasive plant can threaten the same area, which necessitates prioritization in the allo...

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Veröffentlicht in:	Biological invasions 2010-01, Vol.12 (1), p.211-218
Hauptverfasser:	Esler, Karen J, van Wilgen, Brian W, te Roller, Kerry S, Wood, Alan R, van der Merwe, Johannes H
Format:	Artikel
Sprache:	eng
Schlagworte:	Biological control biological control agents Biomedical and Life Sciences Burning control methods Data processing Developmental Biology Dispersal ecological invasion Ecology Fires Freshwater & Marine Ecology Hakea Hakea sericea Herbicides Infestation Integrated control integrated weed management Integration Introduced species invasion management Invasions Invasive plants Invasive species landscapes Life Sciences mechanical clearing Mechanical control Mountain regions Mountains Nonnative species noxious weeds Original Paper plant density Plant populations Plant reproduction Plant Sciences prescribed burning Seeds Shrubs spatial distribution Wildfire Wildfires Wind
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container_title	Biological invasions
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creator	Esler, Karen J van Wilgen, Brian W te Roller, Kerry S Wood, Alan R van der Merwe, Johannes H
description	The control of invasive alien plants often involves the integration two or more approaches, including mechanical clearing, the application of herbicides, burning, and biological control. More than one species of invasive plant can threaten the same area, which necessitates prioritization in the allocation of scarce resources to support the control of different species. This paper describes the integrated control of the invasive shrub Hakea sericea over four decades in South Africa. The species is widespread across an area of approximately 800 × 200 km, and occurs mainly in rugged, inaccessible and fire-prone mountain areas. The species is serotinous, and produces copious amounts of seed that are wind dispersed after fires. We present a brief history of the control measures which included a combination of felling and burning, augmented by biological control. We used data from two surveys, 22 years apart, to assess changes in distribution and density of the species. The assessment suggested that the overall distribution of the species was reduced by 64%, from ~530,000 to ~190,000 ha between 1979 and 2001. The species either decreased in density, or was eliminated from 492,113 ha, while it increased in density, or colonised 107,192 ha. We conclude that initial programs of mechanical clearing were responsible for reducing the density and extent of infestations, and biological control was largely responsible for the failure of the species to re-colonize cleared sites, or to spread to new areas following unplanned wildfires. We propose that a significant portion of the resources used for clearing Hakea in the past can be reallocated to mechanical control efforts against other invasive species (such as alien pines) for which effective biological control options are not available, provided that sufficient resources are allocated to ensure the widespread and effective implementation of all biological control agents to maintain the advances reported on here.
doi_str_mv	10.1007/s10530-009-9443-2
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More than one species of invasive plant can threaten the same area, which necessitates prioritization in the allocation of scarce resources to support the control of different species. This paper describes the integrated control of the invasive shrub Hakea sericea over four decades in South Africa. The species is widespread across an area of approximately 800 × 200 km, and occurs mainly in rugged, inaccessible and fire-prone mountain areas. The species is serotinous, and produces copious amounts of seed that are wind dispersed after fires. We present a brief history of the control measures which included a combination of felling and burning, augmented by biological control. We used data from two surveys, 22 years apart, to assess changes in distribution and density of the species. The assessment suggested that the overall distribution of the species was reduced by 64%, from ~530,000 to ~190,000 ha between 1979 and 2001. 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More than one species of invasive plant can threaten the same area, which necessitates prioritization in the allocation of scarce resources to support the control of different species. This paper describes the integrated control of the invasive shrub Hakea sericea over four decades in South Africa. The species is widespread across an area of approximately 800 × 200 km, and occurs mainly in rugged, inaccessible and fire-prone mountain areas. The species is serotinous, and produces copious amounts of seed that are wind dispersed after fires. We present a brief history of the control measures which included a combination of felling and burning, augmented by biological control. We used data from two surveys, 22 years apart, to assess changes in distribution and density of the species. The assessment suggested that the overall distribution of the species was reduced by 64%, from ~530,000 to ~190,000 ha between 1979 and 2001. The species either decreased in density, or was eliminated from 492,113 ha, while it increased in density, or colonised 107,192 ha. We conclude that initial programs of mechanical clearing were responsible for reducing the density and extent of infestations, and biological control was largely responsible for the failure of the species to re-colonize cleared sites, or to spread to new areas following unplanned wildfires. We propose that a significant portion of the resources used for clearing Hakea in the past can be reallocated to mechanical control efforts against other invasive species (such as alien pines) for which effective biological control options are not available, provided that sufficient resources are allocated to ensure the widespread and effective implementation of all biological control agents to maintain the advances reported on here.</abstract><cop>Dordrecht</cop><pub>Dordrecht : Springer Netherlands</pub><doi>10.1007/s10530-009-9443-2</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Biological control biological control agents Biomedical and Life Sciences Burning control methods Data processing Developmental Biology Dispersal ecological invasion Ecology Fires Freshwater & Marine Ecology Hakea Hakea sericea Herbicides Infestation Integrated control integrated weed management Integration Introduced species invasion management Invasions Invasive plants Invasive species landscapes Life Sciences mechanical clearing Mechanical control Mountain regions Mountains Nonnative species noxious weeds Original Paper plant density Plant populations Plant reproduction Plant Sciences prescribed burning Seeds Shrubs spatial distribution Wildfire Wildfires Wind
title	landscape-scale assessment of the long-term integrated control of an invasive shrub in South Africa
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