Caroline Gelderblom scite author profile

Invasive alien plants are consumptive water-users, and may have reduced river flows in South Africa by about 6.7% according to a broad-scale study. An effective programme to bring the invasions under control would cost about US$ 92 million per year for the next 20 years. This paper reports on studies of four representative catchments (the Sonderend, Keurbooms, Upper Wilge and Sabie-Sand) to assess the impacts and costs of invasions at a scale that is more relevant to managers. Several alien plant species have invaded the catchments. Non-riverine invasions are mainly Pinus and Hakea species in Sonderend and Keurbooms, eucalypts in the Upper Wilge, and pines and scramblers (e.g. Lantana camara) in the Sabie-Sand catchment. Riverine invasions are dominated by Acacia mearnsii and, to a lesser extent, A. dealbata, except in the Sabie-Sand and the lower Sonderend River where Eucalyptus species are important. About 44% of the Sonderend, 54% of the Keurbooms, 2% of the Upper Wilge and 23% of the Sabie-Sand catchments has been invaded to some degree. The corresponding reductions in the natural river flows attributed to these invasions are about 7.2, 22.1, 6.0 and 9.4%. If the invasions are not controlled they could potentially spread, and occupy 51, 77, 70%, respectively, of the first three catchments. At an annual expansion rate of 10-15% this would take about 13, 26 and 63 years, respectively. The invadable areas in the Sabie-Sand catchment are already invaded so invasions will only increase in density. It would take about 26-30 years to reach 100% canopy cover. The projected flow reductions for the four catchments would increase to 41.5, 95.5, 25.1 and 22.3%, respectively. The estimated cost of the control programmes to prevent these losses would be about US$ 13.2, 9.9, 4.1 and 6.6 million for the Sonderend, Keurbooms, Upper Wilge and Sabie-Sand catchments, respectively. Should the catchments be allowed to become fully invaded before control operations were started, then the costs would rise to US$ 86.5, 20.5, 278.0 and 11.1 million, respectively. The impacts and costs are significant and are comparable with those calculated independently for other South African catchments. Water is acknowledged to be a key constraint to economic growth in South Africa and there is considerable pressure for efficient and sustainable use of the limited water resources. The projected impacts would justify control programmes aimed at clearing alien invaders for water conservation. #

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Recovery of South African fynbos vegetation following alien woody plant clearing and fire: implications for restoration

Holmes

Richardson

Wilgen³

et al. 2000

Austral Ecology

111

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The recovery of fynbos vegetation after invasion by dense stands of alien trees, and clearing by either 'burn standing', 'fell and burn', or 'fell, remove and burn' treatments, was investigated in two watersheds in the Western Cape Province, South Africa. Native plant density, cover, functional and biological guilds and species richness were compared with matched control sites that were not invaded, but were burnt in the same fires. Species richness was lower for invaded sites compared to controls, at all scales measured (up to 2000 m 2 ). Species area curves for invaded sites did not converge with those of controls, indicating that lower richness at smaller scales was not compensated by increased species survival at a larger scale. Indigenous plant density and cover were lower for invaded sites compared to controls. Overall, treatment differences were non-significant, but the 'burn standing' treatment caused the least change to vegetation variables, and the 'fell, remove and burn' and 'fell and burn' treatments caused greater, similar changes. Changes to the guild structure of the recovering fynbos stands differed among treatments, and indicated that the 'fell and burn' treatment had the greatest negative effect on guild survival. In the 'fell and burn' treatment, which resulted in an exceptionally intense fire, only non-mycorrhizal graminoids (predominantly myrmecochores) persisted relatively well. Because of practical problems associated with the 'burn standing' and 'fell, remove and burn' treatments, managers often have little option but to apply the 'fell and burn' treatment. Our results illustrate the dangers of this, and highlight the need for intervention before areas become densely invaded. They also highlight the need for effective biological control agents to reduce rates of spread of aggressively invasive species.

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Improving the Key Biodiversity Areas Approach for Effective Conservation Planning

Knight¹,

Smith

Cowling

et al. 2007

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Recovery of South African fynbos vegetation following alien woody plant clearing and fire: implications for restoration

Holmes

Richardson

Wilgen³

et al. 2000

Austral Ecol

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Patterns of distribution and current protection status of the Carnivora, Chiroptera and Insectivora in South Africa

Gelderblom

Bronner

Lombard³

et al. 1995

South African Journal of Zoology

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Geographic patterns of species richness and endemism in three mammalian orders (Chiroptera, lnsectivora and Carnivora) were studied in relation to the biomes and existing protected areas of greater South Africa (including Lesotho and Swaziland). Locality data for 21 500 specimens representing 124 species were analysed with a geographical information system. Species richness of Chiroptera is high in the savanna biome, particularly in the north-east of the country, owing to the marginal intrusion of 14 tropical species. Endemism in Chiroptera is low, however, with only two endemic species in the fynbos and Karoo biomes. The Carnivora display less biome specificity and endemism than the Chiroptera. Whereas the north-eastern savannas have the highest species richness, the transition between the Nama-Karoo and grassland biomes is an important southern African centre of endemism for the Carnivora, particularly the smaller species. In addition to being an important centre for species richness in the Carnivora and Chiroptera, the Kruger National Park is also particularly important for Red Data Book spec1es in both orders. The lnsectivora display both high species richness and endemism. Species richness of the lnsectivora is greatest in the mesic south-east of the country, whereas endemism is most pronounced in the forest and grassland biomes. Differences in biome specificity and endemism between these orders reflect not only phylogenetic divergence, but also variation in body size, vagility and life-history strategies. Most of South Africa's endemics are small mammals and many of them are listed in the Red Data Book. Distributions, life-history strategies and trends in man-induced habitat degradation were used to re-evaluate the protection status of the 124 species. We conclude that at least 11 endemic species are not adequately protected by existing publicly owned protected areas and consequently identify several areas which need to be added to the existing protected area system.Die geografiese patrone van spesiesverskeidenheid en endemisme in drie soogdier ordes (Chiroptera, lnsectivora en Carnivora) is bestudeer in verhouding tot die biome en bestaande beskermde areas van grater Suid-Afrika (insluitend Lesotho en Swaziland). Lokaliteitdata vir 21500 eksemplare verteenwoordigend van 124 spesies is geanaliseer met behulp van 'n geografiese informasiesisteem. Spesiesverskeidenheid van Chiroptera is die hoogste in die savanna-bloom, veral in die noord-oostelike dele van die land as gevolg van die marginale indringing van 14 tropiese spesies. Endemisme in Chiroptera is laag, met slegs twee endemiese spesies, een elk in die fynbos-en Karoo-biome. Die Carnivora vertoon minder bioomspesifisiteit en laer endemisme as die Chiroptera. Terwyl die noord-oostelike savannas die hoogste Carnivora spesiesverskeidenheid het, is die oargang tussen die Nama-Karoo-en grasland-biome belangrik vir die endemiese Carnivora van suidelike Afrika, veral wat bet ref die kleiner spesies. Die Nasionale Kruger Wildtuin is nie net 'n belangrike sen...

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