Register      Login
Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
Shopping Cart: ( empty )
You are here: Home > Journals > WR > WR21048
RESEARCH ARTICLE
Contents Vol 49(3)

The value of pastoral ranches for wildlife conservation in the Kalahari

Leanne K. Van der Weyde https://orcid.org/0000-0003-0981-8856 A B C , Ole Theisinger A , Christopher Mbisana A , Marie-Charlotte Gielen A and Rebecca Klein A
+ Author Affiliations
- Author Affiliations

A Cheetah Conservation Botswana, B5 Kgale Siding Office Park, Gaborone, Botswana.

B San Diego Zoo Institute for Conservation Research, 15600 San Pasqual Valley Road, Escondido, CA 92027-7000, USA.

C Corresponding author. Email: leannevdw@gmail.com

Wildlife Research 49(3) 215-226 https://doi.org/10.1071/WR21048
Submitted: 6 March 2021  Accepted: 25 July 2021   Published: 10 December 2021

Abstract

Context: Rangelands can play an important role in conservation by providing additional habitat for many threatened species and maintaining global biodiversity. Identifying areas that can integrate both pastoral and conservation activities is important for capturing benefits from wildlife in non-protected areas.

Aims: To investigate wildlife distribution in a contiguous landscape comprising both pastoral ranches and wildlife-based areas in western Botswana.

Methods: We deployed motion-activated camera traps to assess mammal richness and occupancy using a multi-species occupancy model. We tested whether environmental factors influenced these parameters in a commercial ranching block in the western Kalahari region of Botswana, and whether species-specific occupancy varied between ranches and neighbouring wildlife management areas.

Key results: In the ranching block, vegetation, season and distance to wildlife areas influenced species-specific occupancy and species richness, whereas farm type and water availability affected only a few carnivore species. Commercial ranches supported several threatened species such as African wild dog, cheetah and pangolin, and we detected two species, African civet and serval, not previously considered being present in this region. Mammal diversity was similar between ranches and wildlife areas, but species composition varied. Land use affected species-specific occupancy, with many carnivore species occurring close to or in wildlife areas.

Conclusions: We showed that commercial ranches in the Kalahari are utilised by many mammal species, and these areas may play an important role in the conservation of threatened species. Understanding species-, group- and community-level responses to the impacts of human activities in rangelands is vital as the need for pastoral land increases.

Implications: We predicted regions of high occurrence of carnivores that can be important for tackling human–wildlife conflict as well as regions with high species diversity that may be useful for increasing integration of conservation endeavours (e.g. eco-tourism) that promote the benefits of wildlife in predominantly livestock regions.

Keywords: occupancy, species richness, Wildlife Management Areas, Botswana, livestock, human-wildlife conflict, threatened species, coexistence.


References

Barnes, J. I., and de Jaeger, J. L. V. (1996). Economic and financial incentives for wildlife use on private land in Namibia and the implications for policy. South African Journal of Wildlife Research 26, 37–46.

Bivand, R., and Wong, D. W. (2018). Comparing implementations of global and local indicators of spatial association. Test 27, 716–748.
Comparing implementations of global and local indicators of spatial association.Crossref | GoogleScholarGoogle Scholar |

Blaum, N., Rossmanith, E., and Jeltsch, F. (2007a). Land use affects rodent communities in Kalahari savannah rangelands. African Journal of Ecology 45, 189–195.
Land use affects rodent communities in Kalahari savannah rangelands.Crossref | GoogleScholarGoogle Scholar |

Blaum, N., Rossmanith, E., Popp, A., and Jeltsch, F. (2007b). Shrub encroachment affects mammalian carnivore abundance and species richness in semiarid rangelands. Acta Oecologica 31, 86–92.
Shrub encroachment affects mammalian carnivore abundance and species richness in semiarid rangelands.Crossref | GoogleScholarGoogle Scholar |

Blaum, N., Rossmanith, E., Schwager, M., and Jeltsch, F. (2007c). Responses of mammalian carnivores to land use in arid savanna rangelands. Basic and Applied Ecology 8, 552–564.
Responses of mammalian carnivores to land use in arid savanna rangelands.Crossref | GoogleScholarGoogle Scholar |

Blaum, N., Tietjen, B., and Rossmanith, E. (2009). Impact of livestock husbandry on small- and medium-sized carnivores in Kalahari savannah rangelands. The Journal of Wildlife Management 73, 60–67.
Impact of livestock husbandry on small- and medium-sized carnivores in Kalahari savannah rangelands.Crossref | GoogleScholarGoogle Scholar |

Boast, L. K., and Houser, A. M. (2012). Density of large predators on commercial farmlands in Ghanzi, Botswana. South African Journal of Wildlife Research 42, 138–143.
Density of large predators on commercial farmlands in Ghanzi, Botswana.Crossref | GoogleScholarGoogle Scholar |

Boast, L. K., Good, K., and Klein, R. (2016a). Translocation of problem predators: is it an effective way to mitigate conflict between farmers and cheetahs Acinonyx jubatus in Botswana? Oryx 50, 537–544.
Translocation of problem predators: is it an effective way to mitigate conflict between farmers and cheetahs Acinonyx jubatus in Botswana?Crossref | GoogleScholarGoogle Scholar |

Boast, L. K., Houser, A. M., Horgan, J., Reeves, H., Phale, P., and Klein, R. (2016b). Prey preferences of free-ranging cheetahs on farmlands: scat analysis versus farmer perceptions. African Journal of Ecology 54, 424–433.
Prey preferences of free-ranging cheetahs on farmlands: scat analysis versus farmer perceptions.Crossref | GoogleScholarGoogle Scholar |

Bowler, M. T., Tobler, M. W., Endress, B. A., Gilmore, M. P., Anderson, M. J., Rowcliffe, M., and Sollmann, R. (2017). Estimating mammalian species richness and occupancy in tropical forest canopies with arboreal camera traps. Remote Sensing in Ecology and Conservation , .
Estimating mammalian species richness and occupancy in tropical forest canopies with arboreal camera traps.Crossref | GoogleScholarGoogle Scholar |

Brassine, E., and Parker, D. (2015). Trapping elusive cats: using intensive camera trapping to estimate the density of a rare African felid. PLoS One 10, e0142508.
Trapping elusive cats: using intensive camera trapping to estimate the density of a rare African felid.Crossref | GoogleScholarGoogle Scholar | 26698574PubMed |

Cole, M. M., and Brown, R. C. (1976). The vegetation of the Ghanzi area of western Botswana. Journal of Biogeography 3, 169–196.
The vegetation of the Ghanzi area of western Botswana.Crossref | GoogleScholarGoogle Scholar |

Cooke, H. J. (1985). The Kalahari today: the case of conflict over resource use. The Geographical Journal 151, 75–85.
The Kalahari today: the case of conflict over resource use.Crossref | GoogleScholarGoogle Scholar |

Department of Wildlife and National Parks (1982). ‘Wildlife Management Areas: Definition, Functions and Management.’ (Department of Wildlife and National Parks, Government of Botswana: Gaborone, Botswana.)

Di Minin, E., Slotow, R., Hunter, L. T. B., Pouzols, F. M., Toivonen, T., Verburg, P. H., Leader-Williams, N., Petracca, L., and Moilanen, A. (2016). Global priorities for national carnivore conservation under land use change Scientific Reports 6, 23814.
Global priorities for national carnivore conservation under land use changeCrossref | GoogleScholarGoogle Scholar | 27034197PubMed |

Dougill, A. J., Akanyang, L., Perkins, J. S., Eckardt, F. D., Stringer, L. C., Favretto, N., Atlhopheng, J., and Mulale, K. (2016). Land use, rangeland degradation and ecological changes in the southern Kalahari, Botswana. African Journal of Ecology 54, 59–67.
Land use, rangeland degradation and ecological changes in the southern Kalahari, Botswana.Crossref | GoogleScholarGoogle Scholar |

Drouilly, M., Clark, A., and O’Riain, M. J. (2018). Multi-species occupancy modelling of mammal and ground bird communities in rangeland in the Karoo: a case for dryland systems globally. Biological Conservation 224, 16–25.
Multi-species occupancy modelling of mammal and ground bird communities in rangeland in the Karoo: a case for dryland systems globally.Crossref | GoogleScholarGoogle Scholar |

Du Plessis, J. J., Avenant, N. L., and De Waal, H. O. (2015). Quality and quantity of the scientific information available on black-backed jackals and caracals: contributing to human–predator conflict management? African Journal of Wildlife Research 45, 138–157.
Quality and quantity of the scientific information available on black-backed jackals and caracals: contributing to human–predator conflict management?Crossref | GoogleScholarGoogle Scholar |

Durant, S. (1998). Competition refuges and coexistence: an example from Serengeti carnivores. Journal of Animal Ecology 67, 370–386.
Competition refuges and coexistence: an example from Serengeti carnivores.Crossref | GoogleScholarGoogle Scholar |

Durant, S. M., Pettorelli, N., Bashir, S., Woodroffe, R., Wacher, T., De Ornellas, P., Ransom, C., Abaigar, T., Abdelgadir, M., El Alqamy, H., Beddiaf, M., Belbachir, F., Belbachir-Bazi, A., Berbash, A. A., Beudels-Jamar, R., Boitani, L., Breitenmoser, C., Cano, M., Chardonnet, P., Collen, B., Cornforth, W. A., Cuzin, F., Gerngross, P., Haddane, B., Hadjeloum, M., Jacobson, A., Jebali, A., Lamarque, F., Mallon, D., Minkowski, K., Monfort, S., Ndoassal, B., Newby, J., Ngakoutou, B. E., Niagate, B., Purchase, G., Samaila, S., Samna, A. K., Sillero-Zubiri, C., Soultan, A. E., Stanley Price, M. R., and Baillie, J. E. (2012). Forgotten biodiversity in desert ecosystems. Science 336, 1379–1380.
Forgotten biodiversity in desert ecosystems.Crossref | GoogleScholarGoogle Scholar | 22700901PubMed |

Durant, S. M., Mitchell, N., Groom, R., Pettorelli, N., Ipavec, A., Jacobson, A. P., Woodroffe, R., Böhm, M., Hunter, L. T. B., Becker, M. S., Broekhuis, F., Bashir, S., Andresen, L., Aschenborn, O., Beddiaf, M., Belbachir, F., Belbachir-Bazi, A., Berbash, A., Brandao de Matos Machado, I., Breitenmoser, C., Chege, M., Cilliers, D., Davies-Mostert, H., Dickman, A. J., Ezekiel, F., Farhadinia, M. S., Funston, P., Henschel, P., Horgan, J., de Iongh, H. H., Jowkar, H., Klein, R., Lindsey, P. A., Marker, L., Marnewick, K., Melzheimer, J., Merkle, J., M’soka, J., Msuha, M., O’Neill, H., Parker, M., Purchase, G., Sahailou, S., Saidu, Y., Samna, A., Schmidt-Küntzel, A., Selebatso, E., Sogbohossou, E. A., Soultan, A., Stone, E., van der Meer, E., van Vuuren, R., Wykstra, M., and Young-Overton, K. (2017). The global decline of cheetah Acinonyx jubatus and what it means for conservation. Proceedings of the National Academy of Sciences of the United States of America 114, 528–533.
The global decline of cheetah Acinonyx jubatus and what it means for conservation.Crossref | GoogleScholarGoogle Scholar | 28028225PubMed |

Elizade, D. (2018). Household digitization web tool. Available at www.houses.dicombe.com.

Fischer, J., Brosi, B., Daily, G. C., Ehrlich, P. R., Goldman, R., Goldstein, J., Lindenmayer, D. B., Manning, A. D., Mooney, H. A., Pejchar, L., Ranganathan, J., and Tallis, H. (2008). Should agricultural policies encourage land sparing or wildlife-friendly farming? Frontiers in Ecology and the Environment 6, 380–385.
Should agricultural policies encourage land sparing or wildlife-friendly farming?Crossref | GoogleScholarGoogle Scholar |

Fritz, H., Garine-Wichatitsky, M. D., and Letessier, G. (1996). Habitat use by sympatric wild and domestic herbivores in an African savanna woodland: the influence of cattle spatial behaviour. Journal of Applied Ecology 33, 589–598.
Habitat use by sympatric wild and domestic herbivores in an African savanna woodland: the influence of cattle spatial behaviour.Crossref | GoogleScholarGoogle Scholar |

Gelman, A., and Hill, J. (2007). ‘Data Analysis using Regression and Multilevel/Hierarchical Models.’ (Cambridge University Press: New York, NY, USA.)

Hemson, G., Maclennan, S., Mills, G., Johnson, P., and Macdonald, D. (2009). Community, lions, livestock and money: a spatial and social analysis of attitudes to wildlife and the conservation value of tourism in a human–carnivore conflict in Botswana. Biological Conservation 142, 2718–2725.
Community, lions, livestock and money: a spatial and social analysis of attitudes to wildlife and the conservation value of tourism in a human–carnivore conflict in Botswana.Crossref | GoogleScholarGoogle Scholar |

IUCN/SSC (2015). Review of the Regional Conservation Strategy for the Cheetah and African Wild Dogs in Southern Africa. IUCN/SSC Gland, Switzerland and Range Wide Conservation Program for Cheetah and African Wild Dogs. Available at www.cheetahandwilddog.org.

Keeping, D. (2014). Rapid assessment of wildlife abundance: estimating animal density with track counts using body mass-day range scaling rules. Animal Conservation 17, 486–497.
Rapid assessment of wildlife abundance: estimating animal density with track counts using body mass-day range scaling rules.Crossref | GoogleScholarGoogle Scholar |

Kellner, K. (2019). ‘jagsUI: a Wrapper Around ‘rjags’ to Streamline ‘JAGS’ Analyses.’ R package version 1.5.1. Available at https://CRAN.R-project.org/package=jagsUI.

Kery, M., and Schaub, M. (2012). ‘Bayesian Population Analysis Using WinBUGS. A hierarchical perspective.’ (Academic Press: Waltham, MA, USA.)

Kinnaird, M. F., and O’Brien, T. G. (2012). Effects of private-land use, livestock management, and human tolerance on diversity, distribution, and abundance of large African mammals. Conservation Biology 26, 1026–1039.
Effects of private-land use, livestock management, and human tolerance on diversity, distribution, and abundance of large African mammals.Crossref | GoogleScholarGoogle Scholar | 23082891PubMed |

Klein, R. (2007). Status report for the cheetah in Botswana. CAT News , 14–21.

Lindsey, P., Du Toit, J. T., and Mills, M. G. L. (2004). The distribution and population status of African wild dogs (Lycaon pictus) outside protected areas in South Africa. South African Journal of Wildlife Research 34, 143–151.

Lindsey, P. A., Alexander, R., Mills, M. G. L., Romañach, S., and Woodroffe, R. (2007). Wildlife viewing preferences of visitors to protected areas in South Africa: implications for the role of ecotourism in conservation. Journal of Ecotourism 6, 19–33.
Wildlife viewing preferences of visitors to protected areas in South Africa: implications for the role of ecotourism in conservation.Crossref | GoogleScholarGoogle Scholar |

Lindsey, P. A., Havemann, C. P., Lines, R., Palazy, L., Price, A. E., Retief, T. A., Rhebergen, T., and Van der Waal, C. (2013). Determinants of persistence and tolerance of carnivores on Namibian ranches: implications for conservation on Southern African private lands. PLoS One 8, e52458.
Determinants of persistence and tolerance of carnivores on Namibian ranches: implications for conservation on Southern African private lands.Crossref | GoogleScholarGoogle Scholar | 23326333PubMed |

Marnewick, K., Bothma, J. P., and Verdoorn, G. H. (2006). Using camera-trapping to investigate the use of a tree as a scent-marking post by cheetahs in the Thabazimbi district. South African Journal of Wildlife Research 36, 139–145.
Using camera-trapping to investigate the use of a tree as a scent-marking post by cheetahs in the Thabazimbi district.Crossref | GoogleScholarGoogle Scholar |

Naidoo, R., Weaver, L. C., Diggle, R. W., Matongo, G., Stuart-Hill, G., and Thouless, C. (2016). Complementary benefits of tourism and hunting to communal conservancies in Namibia. Conservation Biology 30, 628–638.
Complementary benefits of tourism and hunting to communal conservancies in Namibia.Crossref | GoogleScholarGoogle Scholar | 26537845PubMed |

Nsinamwa, M., Moleele, N. M., and Sebego, R. J. (2005). Vegetation patterns and nutrients in relation to grazing pressure and soils in the sandveld and hardveld communal grazing areas of Botswana. African Journal of Range & Forage Science 22, 17–28.
Vegetation patterns and nutrients in relation to grazing pressure and soils in the sandveld and hardveld communal grazing areas of Botswana.Crossref | GoogleScholarGoogle Scholar |

Parry, D. C., and Campbell, B. M. (1990). Wildlife management areas of Botswana. Botswana Notes and Records 22, 65–77.

Perkins, J. S. (2018). Southern Kalahari piospheres: looking beyond the sacrifice zone. Land Degradation & Development 29, 2778–2784.
Southern Kalahari piospheres: looking beyond the sacrifice zone.Crossref | GoogleScholarGoogle Scholar |

Perkins, J. S., and Thomas, D. S. G. (1993). Spreading deserts or spatially confined environmental impacts? Land degradation and cattle ranching in the Kalahari desert of Botswana. Land Degradation & Rehabilitation 4, 179–194.
Spreading deserts or spatially confined environmental impacts? Land degradation and cattle ranching in the Kalahari desert of Botswana.Crossref | GoogleScholarGoogle Scholar |

Phalan, B. (2018). What have we learned from the Land Sparing-sharing Model? Sustainability 10, 1760.
What have we learned from the Land Sparing-sharing Model?Crossref | GoogleScholarGoogle Scholar |

Pienaar, U. (1974). Habitat-preference in South African antelope species and its significance in natural and artificial distribution patterns. Koedoe 17, 185–195.
Habitat-preference in South African antelope species and its significance in natural and artificial distribution patterns.Crossref | GoogleScholarGoogle Scholar |

Plummer, M. (2003). JAGS: a program for analysis of Bayesian graphical models using Gibbs sampling. In ‘Proceedings of the 3rd International Workshop on Distributed Statistical Computing’, Vienna, Austria. (Eds K. Hornik, F. Leisch, and A. Zeileis.) pp. 1–10. (Vienna, Austria.)

R Core Team (2019). ‘R: a Language and Environment for Statistical Computing.’ (R Foundation for Statistical Computing: Vienna, Austria.)

Rich, L. N., Miller, D. A., Robinson, H. S., McNutt, J. W., and Kelly, M. J. (2016). Using camera trapping and hierarchical occupancy modelling to evaluate the spatial ecology of an African mammal community. Journal of Applied Ecology 53, 1225–1235.
Using camera trapping and hierarchical occupancy modelling to evaluate the spatial ecology of an African mammal community.Crossref | GoogleScholarGoogle Scholar |

Ringrose, S., Matheson, W., Wolski, P., and Huntsman-Mapila, P. (2003). Vegetation cover trends along the Botswana Kalahari transect. Journal of Arid Environments 54, 297–317.
Vegetation cover trends along the Botswana Kalahari transect.Crossref | GoogleScholarGoogle Scholar |

Ripple, W. J., Estes, J. A., Beschta, R. L., Wilmers, C. C., Ritchie, E. G., Hebblewhite, M., Berger, J., Elmhagen, B., Letnic, M., Nelson, M. P., Schmitz, O. J., Smith, D. W., Wallach, A. D., and Wirsing, A. J. (2014). Status and ecological effects of the world’s largest carnivores. Science 343, 1241484.
Status and ecological effects of the world’s largest carnivores.Crossref | GoogleScholarGoogle Scholar | 24408439PubMed |

Royle, J. A., and Dorazio, R. M. (2008) ‘Hierarchical Modeling and Inference in Ecology. The analysis of data from populations, metapopulations and communities.’ (Academic Press: London, UK.)

Royle, J. A., and Nichols, J. D. (2003). Estimating abundance from repeated presence–absence data or point counts. Ecology 84, 777–790.
Estimating abundance from repeated presence–absence data or point counts.Crossref | GoogleScholarGoogle Scholar |

Scantlebury, D. M., Mills, M. G., Wilson, R. P., Wilson, J. W., Mills, M. E., Durant, S. M., Bennett, N. C., Bradford, P., Marks, N. J., and Speakman, J. R. (2014). Mammalian energetics. Flexible energetics of cheetah hunting strategies provide resistance against kleptoparasitism. Science 346, 79–81.
Mammalian energetics. Flexible energetics of cheetah hunting strategies provide resistance against kleptoparasitism.Crossref | GoogleScholarGoogle Scholar | 25278609PubMed |

Selebatso, M., Moe, S. R., and Swenson, J. E. (2008). Do farmers support cheetah Acinonyx jubatus conservation in Botswana despite livestock depredation? Oryx 42, 430–436.
Do farmers support cheetah Acinonyx jubatus conservation in Botswana despite livestock depredation?Crossref | GoogleScholarGoogle Scholar |

Selebatso, M., Bennitt, E., Maude, G., and Fynn, R. W. (2018). Water provision alters wildebeest adaptive habitat selection and resilience in the central Kalahari. African Journal of Ecology 56, 225–234.
Water provision alters wildebeest adaptive habitat selection and resilience in the central Kalahari.Crossref | GoogleScholarGoogle Scholar |

Skarpe, C. (1990). Shrub layer dynamics under different herbivore densities in an arid savanna, Botswana. Journal of Applied Ecology 27, 873–885.
Shrub layer dynamics under different herbivore densities in an arid savanna, Botswana.Crossref | GoogleScholarGoogle Scholar |

Swanson, A., Caro, T., Davies-Mostert, H., Mills, M. G., Macdonald, D. W., Borner, M., Masenga, E., and Packer, C. (2014). Cheetahs and wild dogs show contrasting patterns of suppression by lions. Journal of Animal Ecology 83, 1418–1427.
Cheetahs and wild dogs show contrasting patterns of suppression by lions.Crossref | GoogleScholarGoogle Scholar |

Tews, J., Esther, A., Milton, S. J., and Jeltsch, F. (2006). Linking a population model with an ecosystem model: assessing the impact of land use and climate change on savanna shrub cover dynamics. Ecological Modelling 195, 219–228.
Linking a population model with an ecosystem model: assessing the impact of land use and climate change on savanna shrub cover dynamics.Crossref | GoogleScholarGoogle Scholar |

Tobler, M. W., Zuniga Hartley, A., Carrilo-Percastegui, S. E., and Powell, G. V. N. (2015). Spatiotemporal hierarchical modelling of species richness and occupancy using camera trap data. Journal of Applied Ecology 52, 413–421.
Spatiotemporal hierarchical modelling of species richness and occupancy using camera trap data.Crossref | GoogleScholarGoogle Scholar |

Twyman, C. (2001). Natural resource use and livelihoods in Botswana’s wilflife management areas. Applied Geography (Sevenoaks, England) 21, 45–68.
Natural resource use and livelihoods in Botswana’s wilflife management areas.Crossref | GoogleScholarGoogle Scholar |

Valeix, M., Fritz, H., Sabatier, R., Murindagomo, F., Cumming, D., and Duncan, P. (2011). Elephant-induced structural changes in the vegetation and habitat selection by large herbivores in an African savanna. Biological Conservation 144, 902–912.
Elephant-induced structural changes in the vegetation and habitat selection by large herbivores in an African savanna.Crossref | GoogleScholarGoogle Scholar |

Van der Weyde, L. K., Mbisana, C., and Klein, R. (2018). Multi-species occupancy modelling of a carnivore guild in wildlife management areas in the Kalahari. Biological Conservation 220, 21–28.
Multi-species occupancy modelling of a carnivore guild in wildlife management areas in the Kalahari.Crossref | GoogleScholarGoogle Scholar |

Verlinden, A. (1997). Human settlements and wildlife distribution in the southern Kalahari of Botswana Biological Conservation 82, 129–136.
Human settlements and wildlife distribution in the southern Kalahari of BotswanaCrossref | GoogleScholarGoogle Scholar |

Verlinden, A. (1998). Seasonal movement patterns of some ungulates in the Kalahari ecosystem of Botswana between 1990 and 1995. African Journal of Ecology 36, 117–128.

Verlinden, A., Perkins, J. S., Murray, M., and Masunga, G. S. (1998). How are people affecting the distribution of less migratory wildlife in the souther Kalahari of Botswana? A spatial analysis. Journal of Arid Environments 38, 129–141.
How are people affecting the distribution of less migratory wildlife in the souther Kalahari of Botswana? A spatial analysis.Crossref | GoogleScholarGoogle Scholar |

Wallgren, M., Skarpe, C., Bergström, R., Danell, K., Bergström, A., Jakobsson, T., Karlsson, K., and Strand, T. (2009a). Influence of land use on the abundance of wildlife and livestock in the Kalahari, Botswana. Journal of Arid Environments 73, 314–321.
Influence of land use on the abundance of wildlife and livestock in the Kalahari, Botswana.Crossref | GoogleScholarGoogle Scholar |

Wallgren, M., Skarpe, C., Bergström, R., Danell, K., Granlund, L., and Bergström, A. (2009b). Mammal community structure in relation to disturbance and resources gradients in southern Africa. African Journal of Ecology 47, 20–31.
Mammal community structure in relation to disturbance and resources gradients in southern Africa.Crossref | GoogleScholarGoogle Scholar |

Weise, F. J., Vijay, V., Jacobson, A. P., Schoonover, R. F., Groom, R. J., Horgan, J., Keeping, D., Klein, R., Marnewick, K., Maude, G., Melzheimer, J., Mills, G., van der Merwe, V., van der Meer, E., van Vuuren, R. J., Wachter, B., and Pimm, S. L. (2017). The distribution and numbers of cheetah (Acinonyx jubatus) in southern Africa. PeerJ 5, e4096.
The distribution and numbers of cheetah (Acinonyx jubatus) in southern Africa.Crossref | GoogleScholarGoogle Scholar | 29250465PubMed |

Wells, H. B. M., Kimuyu, D. M., Odadi, W. O., Dougill, A. J., Stringer, L. C., and Young, T. P. (2021). Wild and domestic savanna herbivores increase smaller vertebrate diversity, but less than additively. Journal of Applied Ecology 58, 953–963.
Wild and domestic savanna herbivores increase smaller vertebrate diversity, but less than additively.Crossref | GoogleScholarGoogle Scholar |

Woodroffe, R., and Frank, L. G. (2005). Lethal control of African lions (Panthera leo): local and regional population impacts. Animal Conservation 8, 91–98.
Lethal control of African lions (Panthera leo): local and regional population impacts.Crossref | GoogleScholarGoogle Scholar |