Do spotted hyaenas outcompete the big cats in a small, enclosed system in South Africa?:
- Comley, J, Joubert, C J, Mgqatsa, Nokubonga, Parker, Daniel M
- Authors: Comley, J , Joubert, C J , Mgqatsa, Nokubonga , Parker, Daniel M
- Date: 2020
- Language: English
- Type: text , article
- Identifier: http://hdl.handle.net/10962/150099 , vital:38940 , doi:10.1111/jzo.12772
- Description: Carnivores are adapted to kill, meaning sympatric carnivores can have particularly aggressive and harmful competitive interactions. The co‐existence of multiple carnivores in an ecosystem could be restricted by their similarity in ecological niches (e.g. dietary overlap); however, high prey abundances could facilitate their co‐existence. Although the development of small, enclosed reserves (over 400 km2) in South Africa has reduced human–carnivore conflict, these systems may increase the likelihood of carnivore intra‐guild competition due to the clumping of competing carnivores into these restricted spaces. Using carnivore scat and kill site analyses, we determined the dietary preferences and overlap of sympatric large carnivores in a small, enclosed reserve, Selati Game Reserve (Selati).
- Full Text:
- Date Issued: 2020
- Authors: Comley, J , Joubert, C J , Mgqatsa, Nokubonga , Parker, Daniel M
- Date: 2020
- Language: English
- Type: text , article
- Identifier: http://hdl.handle.net/10962/150099 , vital:38940 , doi:10.1111/jzo.12772
- Description: Carnivores are adapted to kill, meaning sympatric carnivores can have particularly aggressive and harmful competitive interactions. The co‐existence of multiple carnivores in an ecosystem could be restricted by their similarity in ecological niches (e.g. dietary overlap); however, high prey abundances could facilitate their co‐existence. Although the development of small, enclosed reserves (over 400 km2) in South Africa has reduced human–carnivore conflict, these systems may increase the likelihood of carnivore intra‐guild competition due to the clumping of competing carnivores into these restricted spaces. Using carnivore scat and kill site analyses, we determined the dietary preferences and overlap of sympatric large carnivores in a small, enclosed reserve, Selati Game Reserve (Selati).
- Full Text:
- Date Issued: 2020
Lions do not change rivers: complex African savannas preclude top-down forcing by large carnivores
- Comley, Jessica, Joubert, Christoffel J, Mgqatsa, Nokubonga, Parker, Daniel M
- Authors: Comley, Jessica , Joubert, Christoffel J , Mgqatsa, Nokubonga , Parker, Daniel M
- Date: 2020
- Language: English
- Type: text , article
- Identifier: http://hdl.handle.net/10962/149215 , vital:38816 , https://doi.org/10.1016/j.jnc.2020.125844
- Description: Trophic cascade theories such as the ‘behaviourally-mediated trophic cascade hypothesis’ (BMTCH), have mainstreamed as ecological tools for conserving biodiversity and restoring ecosystems. The BMTCH relies on indirect negative effects of large carnivores through suppression of mesocarnivore activity and habitat use. Importantly, effects of top carnivores on mesocarnivores varies over time and space, is dependent on the species involved, and local context. In South Africa, there are very few free-ranging carnivores, as populations are often restricted to enclosed reserves. While predator-proof fences reduce human-wildlife conflict, they also influence space use within communities. We used an enclosed reserve with a relatively full complement of carnivores to test the generality of the BMTCH in the African context. Using single-species, multi-season occupancy models we investigated the spatial dynamics of multiple carnivores. We also investigated spatial partitioning by vegetation type and temporal partitioning.
- Full Text:
- Date Issued: 2020
- Authors: Comley, Jessica , Joubert, Christoffel J , Mgqatsa, Nokubonga , Parker, Daniel M
- Date: 2020
- Language: English
- Type: text , article
- Identifier: http://hdl.handle.net/10962/149215 , vital:38816 , https://doi.org/10.1016/j.jnc.2020.125844
- Description: Trophic cascade theories such as the ‘behaviourally-mediated trophic cascade hypothesis’ (BMTCH), have mainstreamed as ecological tools for conserving biodiversity and restoring ecosystems. The BMTCH relies on indirect negative effects of large carnivores through suppression of mesocarnivore activity and habitat use. Importantly, effects of top carnivores on mesocarnivores varies over time and space, is dependent on the species involved, and local context. In South Africa, there are very few free-ranging carnivores, as populations are often restricted to enclosed reserves. While predator-proof fences reduce human-wildlife conflict, they also influence space use within communities. We used an enclosed reserve with a relatively full complement of carnivores to test the generality of the BMTCH in the African context. Using single-species, multi-season occupancy models we investigated the spatial dynamics of multiple carnivores. We also investigated spatial partitioning by vegetation type and temporal partitioning.
- Full Text:
- Date Issued: 2020
Tree toppling by elephants and its consequences in thicket mosaic vegetation of Addo Elephant National Park
- Authors: Mgqatsa, Nokubonga
- Date: 2017
- Subjects: Elephants -- Behavior -- South Africa -- Addo Elephant National Park Woody plants -- South Africa -- Addo Elephant National Park
- Language: English
- Type: Thesis , Doctoral , PhD
- Identifier: http://hdl.handle.net/10948/19365 , vital:28859
- Description: This study explored the extent of elephant tree toppling and possible cascading effects in Karoo Thicket Mosaic habitat in the Eastern Cape Province, South Africa. While the notion that elephants topple trees is well recognised, little is known about their indirect effects and the possible influence on several trophic levels. Changes brought about by elephants have the potential to influence microclimatic conditions, soil litter processes, plant community composition and other animals. Therefore, this study determined the impacts of elephants on tree toppling, and hence the production of coarse woody debris and the Coarse Woody Debris Profile. Additionally, I explored the consequences of elephant tree toppling on the plant community, small mammals and seed removal. Furthermore, I explored the potential factors facilitating the coexistence of woody plants and elephants. I compared coarse woody debris production and the Coarse Woody Debris Profile between sites with and without elephants. Further, I assessed the consequences of tree toppling in the elephant present site at a patch scale to explore the possible cascading effects of elephants. Firstly, I showed that elephants impacted woody plants through branch/stem breakages and toppling of trees, but that effects vary for different categories of the Coarse Woody Debris Profile. This result confirms the most recent findings that woody plants are at risk from elephant herbivory in Karoo Thicket Mosaic habitat. The elephant toppling effect on these landscapes is largely influenced by plant growth form, with woody trees suffering high levels of elephant toppling than shrubs of comparable size. However, toppled Pappea capensis is able to persist from being toppled by elephants, either through coppicing or resprouting. Additionally, I showed that toppled trees form discrete patches on the landscape, with altered microclimate and browsing pressures. While I detected no significant effect of these changes on plant composition and abundance within these patches, these findings indicate the possible influence of elephants on facilitating plant recruitment and altering plant communities of thicket through toppling of trees. Moreover, I showed that elephant toppling of trees provide habitat patches for small mammals, thus affecting seed removal by vertebrates within patches. These changes had no discernable effect on soil seed banks. However, they highlight the need to better understand the temporal dynamics of these patches and implications for seed dynamics and plant communities on the landscape. The results show the patterns of elephant impacts on woody plants and possible cascading effects in the presence of elephants. Therefore, the study advances our understanding of top-down effects of elephants and shows the relevance of understanding these effects in order to effectively manage elephant impacts in different systems.
- Full Text:
- Date Issued: 2017
- Authors: Mgqatsa, Nokubonga
- Date: 2017
- Subjects: Elephants -- Behavior -- South Africa -- Addo Elephant National Park Woody plants -- South Africa -- Addo Elephant National Park
- Language: English
- Type: Thesis , Doctoral , PhD
- Identifier: http://hdl.handle.net/10948/19365 , vital:28859
- Description: This study explored the extent of elephant tree toppling and possible cascading effects in Karoo Thicket Mosaic habitat in the Eastern Cape Province, South Africa. While the notion that elephants topple trees is well recognised, little is known about their indirect effects and the possible influence on several trophic levels. Changes brought about by elephants have the potential to influence microclimatic conditions, soil litter processes, plant community composition and other animals. Therefore, this study determined the impacts of elephants on tree toppling, and hence the production of coarse woody debris and the Coarse Woody Debris Profile. Additionally, I explored the consequences of elephant tree toppling on the plant community, small mammals and seed removal. Furthermore, I explored the potential factors facilitating the coexistence of woody plants and elephants. I compared coarse woody debris production and the Coarse Woody Debris Profile between sites with and without elephants. Further, I assessed the consequences of tree toppling in the elephant present site at a patch scale to explore the possible cascading effects of elephants. Firstly, I showed that elephants impacted woody plants through branch/stem breakages and toppling of trees, but that effects vary for different categories of the Coarse Woody Debris Profile. This result confirms the most recent findings that woody plants are at risk from elephant herbivory in Karoo Thicket Mosaic habitat. The elephant toppling effect on these landscapes is largely influenced by plant growth form, with woody trees suffering high levels of elephant toppling than shrubs of comparable size. However, toppled Pappea capensis is able to persist from being toppled by elephants, either through coppicing or resprouting. Additionally, I showed that toppled trees form discrete patches on the landscape, with altered microclimate and browsing pressures. While I detected no significant effect of these changes on plant composition and abundance within these patches, these findings indicate the possible influence of elephants on facilitating plant recruitment and altering plant communities of thicket through toppling of trees. Moreover, I showed that elephant toppling of trees provide habitat patches for small mammals, thus affecting seed removal by vertebrates within patches. These changes had no discernable effect on soil seed banks. However, they highlight the need to better understand the temporal dynamics of these patches and implications for seed dynamics and plant communities on the landscape. The results show the patterns of elephant impacts on woody plants and possible cascading effects in the presence of elephants. Therefore, the study advances our understanding of top-down effects of elephants and shows the relevance of understanding these effects in order to effectively manage elephant impacts in different systems.
- Full Text:
- Date Issued: 2017
Diet and population trends of warthog in the Addo Elephant National Park
- Authors: Mgqatsa, Nokubonga
- Date: 2010
- Subjects: Warthog -- South Africa -- Addo Elelphant National Park
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10693 , http://hdl.handle.net/10948/1277 , Warthog -- South Africa -- Addo Elelphant National Park
- Description: The common warthog (Phacochoerus africanus) has recently been recognised as an alien invasive species in the Eastern Cape and their population is increasing rapidly within the region. This then raises a concern as it is recorded that invasive species have negative impacts on both economic and ecological aspects of biodiversity in the receiving community. There are few studies that have documented the impacts of this species in the Eastern Cape. This study therefore seeks to determine the diet and population trends of this species in the Addo Elephant National Park (AENP) Main Camp and the results obtained can be correlated with previous studies and used to quantify the impacts of this species in the Eastern Cape. Warthogs are specialized grazers, it was therefore hypothesized that they will have potential impacts on grazing resources in the AENP Main Camp. The diet of common warthogs in the AENP Main Camp was determined through microhistological analysis of faecal material of samples collected seasonally. Population trends of common warthogs were determined in relation to the effects of predation on the population growth and population age structure of these animals within the AENP Main Camp. The results were compared with the findings for common warthog population growth and population age structure of Great Fish River Nature Reserve (GFRNR), a predator free population. It was hypothesized that the population growth rate of common warthogs in the AENP Main Camp before the introduction of lions and hyaenas in the AENP would not differ from the population growth rate of common warthogs in GFRNR. Secondly, the post-lion/hyaena common warthog population in the AENP Main Camp would differ from both the AENP Main Camp pre-lion/hyaena and GFRNR common warthog populations due to the presence of large predators in the AENP Main Camp. For population age structure it was hypothesized that the two populations, AENP Main Camp and GFRNR would differ because of predators increasing mortality. The diet of common warthogs was dominated by grass (87.4 percent), with Cynodon dactylon being the dominant grass species. Common warthogs in the AENP Main Camp should be properly managed because they have potential impact on grasses. The population growth of common warthogs in the AENP Main Camp showed no effect of predation, with population growth not differing from that of GFRNR. Predation had an effect on common warthog population age structure with AENP Main Camp and GFRNR populations differing, particularly in terms of adult structure. Thus, population growth of common warthogs in the AENP Main Camp is not determined by the presence of predators. These findings highlight the status of common warthog as an invasive species in the AENP Main Camp and potentially impacting on grass species and show little effects of top-down population regulation. These results show a need of monitoring common warthog population as well as their potential impacts in the area.
- Full Text:
- Date Issued: 2010
- Authors: Mgqatsa, Nokubonga
- Date: 2010
- Subjects: Warthog -- South Africa -- Addo Elelphant National Park
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10693 , http://hdl.handle.net/10948/1277 , Warthog -- South Africa -- Addo Elelphant National Park
- Description: The common warthog (Phacochoerus africanus) has recently been recognised as an alien invasive species in the Eastern Cape and their population is increasing rapidly within the region. This then raises a concern as it is recorded that invasive species have negative impacts on both economic and ecological aspects of biodiversity in the receiving community. There are few studies that have documented the impacts of this species in the Eastern Cape. This study therefore seeks to determine the diet and population trends of this species in the Addo Elephant National Park (AENP) Main Camp and the results obtained can be correlated with previous studies and used to quantify the impacts of this species in the Eastern Cape. Warthogs are specialized grazers, it was therefore hypothesized that they will have potential impacts on grazing resources in the AENP Main Camp. The diet of common warthogs in the AENP Main Camp was determined through microhistological analysis of faecal material of samples collected seasonally. Population trends of common warthogs were determined in relation to the effects of predation on the population growth and population age structure of these animals within the AENP Main Camp. The results were compared with the findings for common warthog population growth and population age structure of Great Fish River Nature Reserve (GFRNR), a predator free population. It was hypothesized that the population growth rate of common warthogs in the AENP Main Camp before the introduction of lions and hyaenas in the AENP would not differ from the population growth rate of common warthogs in GFRNR. Secondly, the post-lion/hyaena common warthog population in the AENP Main Camp would differ from both the AENP Main Camp pre-lion/hyaena and GFRNR common warthog populations due to the presence of large predators in the AENP Main Camp. For population age structure it was hypothesized that the two populations, AENP Main Camp and GFRNR would differ because of predators increasing mortality. The diet of common warthogs was dominated by grass (87.4 percent), with Cynodon dactylon being the dominant grass species. Common warthogs in the AENP Main Camp should be properly managed because they have potential impact on grasses. The population growth of common warthogs in the AENP Main Camp showed no effect of predation, with population growth not differing from that of GFRNR. Predation had an effect on common warthog population age structure with AENP Main Camp and GFRNR populations differing, particularly in terms of adult structure. Thus, population growth of common warthogs in the AENP Main Camp is not determined by the presence of predators. These findings highlight the status of common warthog as an invasive species in the AENP Main Camp and potentially impacting on grass species and show little effects of top-down population regulation. These results show a need of monitoring common warthog population as well as their potential impacts in the area.
- Full Text:
- Date Issued: 2010
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