Reconsidering environmental diversity (ED) as a biodiversity surrogacy strategy
Environmental Diversity (ED) has been proposed as a potential biodiversity surrogate for use in spatial biodiversity planning. The concept is based on the premise that differences in species composition between areas are correlated with differences in environmental conditions. If this is true then sites selected to represent the full range of environmental conditions in an area should provide good coverage of species diversity. This is potentially significant for conservation planning because environmental data are more easily available while species distribution data are often incomplete, but empirical tests of ED have been inconclusive. We explored the value of ED as a biodiversity surrogate using species distribution data from South Africa, focusing on how implementation affects its performance. We used empirical distribution datasets for birds, butterflies, frogs, and reptiles as well as artificial species distributions and modeled distributions for butterflies. Our results show that the form of the underlying optimization model and the number of environmental variables have a significant effect on the performance of ED while the choice of heuristic procedures for selecting sites has no significant effect. We conclude that ED can perform well as a biodiversity surrogacy strategy if it is implemented correctly.
Invertebrates constitute a substantial proportion of terrestrial and freshwater biodiversity and are critical to ecosystem function. However, their inclusion in biodiversity monitoring and conservation planning and management has lagged behind better-known, more widely appreciated taxa. Significant progress in invertebrate surveys, systematics and bioindication, both globally and locally, means that their use in biodiversity monitoring and conservation is becoming increasingly feasible. Here we outline challenges and solutions to the integration of invertebrates into biodiversity management objectives and monitoring in protected areas in South Africa. We show that such integration is relevant and possible, and assess the relative suitability of seven key taxa in this context. Finally, we outline a series of recommendations for mainstreaming invertebrates in conservation planning, surveys and monitoring in and around protected areas.<p><strong>Conservation implications:</strong> Invertebrates constitute a substantial and functionally significant component of terrestrial biodiversity and are valuable indicators of environmental condition. Although consideration of invertebrates has historically been neglected in conservation planning and management, substantial progress with surveys, systematics and bioindication means that it is now both feasible and advisable to incorporate them into protected area monitoring activities.</p><p><strong>How to cite this article:</strong> McGeoch, M.A., Sithole, H., Samways, M.J., Simaika, J.P., Pryke, J.S., Picker, M., <em>et al</em>., 2011, ‘Conservation and monitoring of invertebrates in terrestrial protected areas’, <em>Koedoe</em> 53(2), Art. #1000, 13 pages. doi:10.4102/koedoe.v53i2.1000</p>
Charismatic invertebrates are popular subjects for citizen science but it is harder to engage the public in research on animals that are perceived as dangerous. Many successful citizen science projects exist in North America and Europe, but with the increased use of new technologies and social media, there is a greater capacity to expand citizen science to less developed regions. Baboon spiders are African members of the tarantula family. They are threatened by habitat loss and illegal harvesting for the pet trade, and conservation efforts are hampered by a lack of knowledge on their ecology. Here, we describe the Baboon Spider Atlas, a project combining traditional research with citizen science to map the diversity and distributions of baboon spiders (Araneae: Theraphosidae) in Southern Africa. Our project embraces the ‘fear factor’ associated with spiders to obtain photographic records from the public. The Baboon Spider Atlas has assembled the largest database of information on baboon spiders in Southern Africa and is providing novel insights into their biology. Distribution ranges have been extended and potential new species discovered. Preliminary results suggest that their distribution may be limited more by cold, wet climatic conditions than hot, dry conditions. Records for wandering adult females and immatures highlight a previously undocumented behaviour and challenges the notion that baboon spiders are sedentary animals. Ultimately, the project is generating the data needed for effective conservation and motivating further research that will provide a better understanding of baboon spider biology.
Inventories of invertebrate species are produced by a number of workers for protected areas in South Africa. The value of these inventories for the protected area management process was investigated using a questionnaire to protected area managers, and by examining a sample of published inventories. The questionnaire results indicate that species inventories are sought after, but that they are largely not used in the management process. Invertebrate species inventories have the potential to be useful in several stages of the protected area management process, but making inventories useful requires more than a list of species names. To make inventories more useful they should include estimates of inventory completeness or statistically rigorous estimates of relative species richness, information on spatial distribution of species richness within a protected area, or their design should target threatened and rare species or aim to identify potential indicator species. Protected area managers and scientists producing inventories should collaborate to ensure that the resultant information is most useful.
Many studies that evaluate rehabilitation make use of invertebrate bioindicators. Invertebrates, especially ants, make useful indicators as they are sensitive to environmental change. We compared ant assemblages in rehabilitated and control sites in the Rietvlei Nature Reserve, a protected area important for grassland conservation in South Africa. Pitfall traps were used to sample ant assemblages at six control sites and six rehabilitated sites. In addition, environmental and vegetation surveys were conducted at each site. We found that the ant assemblages differed significantly between the control and rehabilitated sites, although there was considerable overlap; the control sites supported a greater species density and higher abundance of ants than the rehabilitated sites. In total, 36 ant species were collected (control sites: 34 species; rehabilitated sites: 26 species). The environmental survey revealed that percentages of bare ground and coarse sand, as well as soil pH, differed significantly between the control and rehabilitated sites. The control and rehabilitated sites also supported significantly different plant assemblages. Three indicator ant species were identified for the control sites: Crematogaster rectinota, Crematogaster amita and Monomorium fastidium. No indicator species were identified for the rehabilitated sites. These results suggest that recovery from the previous agricultural use of the area is still incomplete and highlights the lack of research examining the success of rehabilitation in the grassland biome.Conservation implications: The present study illustrates the need for further research on rehabilitation techniques utilised in the grassland biome. This is of value as the remainder of South African grasslands are considered critically endangered.
Abstract. Trapdoor spiders are challenging to sample using active searching methods because of their cryptic burrowing behavior. This poses problems for ecological studies and for gathering the data needed for conservation assessments. Pitfall trapping provides an alternative method that targets adult males as they wander from their burrows in search of females. Using pitfall trapping requires considerations of the timing of sampling within the year, the effects of environmental conditions on spider activity, and sampling effort required for a high probability of detecting species that are present at a sample site. To investigate these factors, pitfall-trapping surveys were conducted at several localities in Gauteng Province, South Africa. The results showed that trapdoor spider activity occurs in all seasons. Each species has a discrete period of activity ranging from a few weeks to several months in duration. Some species are active at different times of the year at different localities. Statistical analysis showed soil moisture as the only significant predictor of activity from amongst seven environmental variables, and the survey results indicate that trapdoor spiders are active under wet conditions following rainfall. Between two and seven nights of trapping are required for a high probability of detecting all species present and active at a site, using the trap design employed for this study with ten trap arrays per site. Trapping must be repeated at regular intervals throughout the year in order to obtain a near complete inventory of the species assemblage. The number of species collected ranged from two to eight per site, with most sites having six or eight species. Pitfall trapping yielded 1.2 3.0 times the number of species obtained by active searching at sites where both methods were employed. Guidelines for planning pitfall-trapping surveys of trapdoor spiders are presented and future research directions are discussed.
Background: Gauteng, the smallest of South Africa’s nine provinces, is rich in biodiversity; yet it is also the most densely populated province and thus faces significant development pressures.Objective: A project was therefore initiated in 2001 to identify areas of biodiversity importance in the province, using the systematic spatial biodiversity planning approach that has been adopted in South Africa. This article reports on the final version of the provincial conservation plan as completed in 2011.Method: Vegetation types and quaternary catchments constituted the coarse filter biodiversity features, while rare and threatened taxa constituted the fine filter features. Ecological processes were captured by a range of landscape features, while planning for climate change primarily involved the design of a corridor network. Planning was undertaken within the ArcView linked C-plan decision support system, where a cost surface preferentially directed the selection of available sites towards low-cost areas.Results: Forty-four per cent of the province is required to achieve targets. Only 8% of features are close to having their targets met or are adequately conserved in the current protected area network of 23 protected areas covering 2.4% of the province, while 73% of features are absent or poorly represented.Conclusion: The existing protected area network is inadequate for the conservation of biodiversity in Gauteng. The Gauteng Conservation Plan identifies a set of areas that are required to achieve conservation targets. It is important that identified areas currently not in the protected area network are protected either formally or through legislated land use management processes.
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