Relevant bibliographies by topics / Kruger National Park

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Kruger National Park'

Author: Grafiati
Published: 4 June 2021
Last updated: 30 January 2023

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Journal articles on the topic "Kruger National Park"

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Carruthers, Jane. "Dissecting the myth: Paul Kruger and the Kruger National Park." Journal of Southern African Studies 20, no. 2 (June 1994): 263–83. http://dx.doi.org/10.1080/03057079408708399.

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Smith, K. L., V. DeVos, H. Bryden, L. B. Price, M. E. Hugh-Jones, and P. Keim. "Bacillus anthracis Diversity in Kruger National Park." Journal of Clinical Microbiology 38, no. 10 (2000): 3780–84. http://dx.doi.org/10.1128/jcm.38.10.3780-3784.2000.

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The Kruger National Park (KNP), South Africa, has a recorded history of periodic anthrax epidemics causing widespread disease among wild animals. Bacillus anthracis is the causative agent of anthrax, a disease primarily affecting ungulate herbivores. Worldwide there is little diversity among B. anthracis isolates, but examination of variable-number tandem repeat (VNTR) loci has identified six major clones, with the most dissimilar types split into the A and B branches. Both the A and B types are found in southern Africa, giving this region the greatest genetic diversity of B. anthracis worldwide. Consequently, southern Africa has been hypothesized to be the geographic origin of B. anthracis. In this study, we identify the genotypic types of 98 KNP B. anthracis isolates using multiple-locus VNTR analysis. Two major types are evident, the A branch and the B branch. The spatial and temporal distribution of the different genotypes indicates that anthrax epidemic foci are independent, though correlated through environmental cues. Kruger B isolates were found on significantly higher-calcium and higher-pH soils than were Kruger type A. This relationship between genotype and soil chemistry may be due to adaptive differences among divergent anthrax strains. While this association may be simply fortuitous, adaptation of A types to diverse environmental conditions is consistent with their greater geographic dispersal and genetic dissimilarity.
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Trollope, W. S. W., and A. L. F. Potgieter. "Fire behaviour in the Kruger National Park." Journal of the Grassland Society of Southern Africa 2, no. 2 (January 1985): 17–22. http://dx.doi.org/10.1080/02566702.1985.9648000.

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Whyte, Ian, Rudi Aarde, and Stuart L. Pimm. "Managing the elephants of Kruger National Park." Animal Conservation 1, no. 2 (May 1998): 77–83. http://dx.doi.org/10.1111/j.1469-1795.1998.tb00014.x.

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Meskell, Lynn. "Archaeological ethnography: Conversations around Kruger National Park." Archaeologies 1, no. 1 (August 2005): 81–100. http://dx.doi.org/10.1007/s11759-005-0010-x.

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Van Riet, W. F., and J. Cooks. "Ecological planning proposal for Kruger National Park." Environmental Management 14, no. 3 (May 1990): 349–58. http://dx.doi.org/10.1007/bf02394203.

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Botha, E., M. Saayman, and M. Kruger. "Clustering Kruger National Park visitors based on interpretation." South African Journal of Business Management 47, no. 2 (June 30, 2016): 75–88. http://dx.doi.org/10.4102/sajbm.v47i2.62.

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Interpretation is considered to be an important educational tool that not only addresses visitors’ expectations but also contributes to national parks’ conservation purposes. This study segmented the Kruger National Park’s visitors based on expected interpretation services and revealed four clusters that differed based on their expected and experienced interpretation services as well as their motivational aspects. This study’s distinct contribution is the alternative segmentation approach which revealed the viability of the expected interpretation variable to use for ecotourism segmentation purposes. This study not only assists the Kruger National Park to appropriately address interpretation services but also aids other ecotourism destinations.
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Glenn, Ian. "The Kruger Park and Jacob Dlamini’s Safari Nation: A Social History of the Kruger National Park." Critical Arts 35, no. 2 (March 4, 2021): 121–26. http://dx.doi.org/10.1080/02560046.2021.1944241.

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HOOGEWERF, ANTONIA. "SAFARI THROUGH SOUTH AFRICA - II KRUGER NATIONAL PARK." Science and Culture 86, no. 5-6 (June 7, 2020): 175. http://dx.doi.org/10.36094/sc.v86.2020.safari_south_africa.hoogewerf.175.

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Little, Rob M. "Guide to Birds of the Kruger National Park." Ostrich 88, no. 1 (December 17, 2016): 97. http://dx.doi.org/10.2989/00306525.2016.1272038.

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Dissertations / Theses on the topic "Kruger National Park"

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Hood, Joseph William. "Destination branding : a case study of the Kruger National Park / J.W. Hood." Thesis, North-West University, 2008. http://hdl.handle.net/10394/2296.

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Muller, W. J., and Martin Herrer Villet. "Similarities and differences between rivers of the Kruger National Park." Water Research Commission, 2004. http://hdl.handle.net/10962/d1009527.

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[From Introduction] Aquatic ecosystems play an important role in the maintenance of ecological diversity and ecosystem functioning at both local and regional scales (Roux et al, 1999). Effective management of riverine ecosystems requires an understanding of their ecosystem processes, hi order to understand ecosystem processes, and interactions between the landscape and riverine ecosystems, it is necessary to have both spatial and temporal data at both landscape and site-specific scales (Allan and Johnson, 1997). There are many tools available for the analysis of these data to provide insight and understanding of the data in order to understand influences on aquatic ecosystems. Increasingly complex computational tools allow analysis and modeling of data in order to explain river, and subsequent biological, processes from landscape (catchment) processes (Johnson and Gage, 1997), although the scale at which analysis and interpretation occurs is important. Science and management need to interact in order to truly succeed in effectively applying adaptive management and incorporate monitoring and assessment programmes in management processes (Rogers and Biggs, 1999). However, water resource management is often undertaken in the context of incomplete information and knowledge of functioning ecosystem processess and responses: this inevitably leads to uncertainty and unpredictability (Roux et al. 1999). One of the major challenges for managing rivers is to be able to monitor rivers effectively in order to detect changes as they occur, to identify the causes of the changes and to distinguish between natural and anthropogenic causes of change. Adaptive management is required to effectively manage rivers, but this does require that there is an understanding of, and information for, the rivers being managed. Rogers and Biggs (1999) highlighted the need to integrate monitoring programmes with indicators in order to undertake assessments of ecosystem health as part of the management plan of the rivers of the Kruger National Park in order to maintain, and restore, natural river ecosystem health and biodiversity (Rogers and Bestbier, 1997). One of the main aims of the Kruger National Park Rivers Research Programme (KNPRRP) was to contribute to the conservation of the natural environment by developing skills and methods to understand the ecological functioning of the natural environment and to predict responses of the river systems to natural and anthropogenic changes in order to effectively manage them (Breen, 1994, in van Rensburg and Dent, 1997). Classification systems are able to provide useful management information, but many have focussed on abiotic rather than biotic factors because resultant biotic patterns are likely to be correlated with abiotic components (Solomon et al., 1999). Much of the classification of the Kruger National Park has focussed on classification of land with little regard for rivers (these were incorporated into the two classification systems proposed by Venter and Gertenbach (in Solomon et al., 1999)). The objective of this project is to identify similarities and differences between the five major rivers of the Kruger National Park, towards the design and testing of a classification framework in order to aid management of the KNP rivers by contributing to effective monitoring. This will be achieved through the following: 1. collate available (current and historical) information concerning physical and biological variables for the Luvuvhu, Letaba, Olifants, Sabie and Crocodile Rivers, using a common dataset to establish the degree of similarities and differences between these five major rivers of the KNP; and 2. determine how different the rivers are, in order to optimize monitoring and management programmes for these differences. The aim of this project was not to classify the rivers of the KNP. The project rather aims to identify gaps in data availability which may result in inadequate and inappropriate management of the rivers. Results (in the form of a data matrix) emanating from this study could assist in establishing expected natural conditions and biota in the five major rivers of the KNP, and knowledge from data-rich rivers (e.g. Sabie River) could potentially be extrapolated to data-poor rivers, or sections of rivers. Invertebrates and fish are the main tools of aquatic species biodiversity monitoring, and require an understanding of the natural presence, absence and abundance patterns in aquatic ecosystems. This study contributes to this understanding by organising available information of biotic and abiotic information.
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Mbava, Willard. "Modelling dispersal processes in impala-cheetah-lion ecosystems with infection in the lions." Thesis, Nelson Mandela Metropolitan University, 2016. http://hdl.handle.net/10948/11782.

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The study involved the predator-prey interaction of three species namely the predator (Cheetah Acinonyx jubatus), the super-predator (Lion Panthera leo), and their common prey (Impala Aepyceros melampus). The study area is the Kruger National Park. The predator being an endangered species, faces a survival problem. It is frequently killed by the super-predator to reduce competition for prey. The super-predator also scares away the predator o_ its kills. The prey forms the main diet of the predator. The plight of the predator motivated the author to formulate disease and reaction-diffusion models for the species interactions. The purpose of the models were to predict and explain the effect of large competition from the super-predator on the predator population. Important parameters related to additional predator mortality due to presence of super-predator, the disease incidence rate and induced death rate formed the focal points of the analysis. The dynamics of a predator-prey model with disease in super-predator were investigated. The super-predator species is infected with bovine Tuberculosis. In the study, the disease is considered as biological control to allow the predator population to regain from low numbers. The results highlight that in the absence of additional mortality on the predator by the super-predator, the predator population survives extinction. Furthermore, at current levels of disease incidence, the super-predator population is wiped out by the disease. However, the super-predator population survives extinction if the disease incidence rate is low. Persistence of all populations is possible in the case of low disease incidence rate and no additional mortality imparted on the predator. Furthermore, a two-species subsystem, prey and predator, is considered as a special case to determine the effect of super-predator removal from the system, on the survival of the predator. This is treated as a contrasting case from the smaller parks. The results show that the predator population thrives well in the total absence of its main competitor, with its population rising to at least twice the initial value. A reaction-diffusion three-species predator-prey model was formulated and analysed. Stability of the temporal and the spatio-temporal systems, existence and non-existence of stationary steady state solutions were studied. Conditions for the emergence of stationary patterns were deduced. The results show that by choosing the diffusion coeffcient d2 > _D 2 suffciently large, a non-constant positive solution is generated, that is, stationary patterns emerge, depicting dispersal of species. Predators were observed to occupy habitats surrounding prey. However, super-predators were observed to alternate their habitats, from staying away from prey to invading prey habitat. In the investigation, strategies to determine ways in which the predator species could be saved from extinction and its population improved were devised, and these included isolation of the predator from the super-predator.
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Watermeyer, Jessica Patricia. "Anthropogenic threats to resident and dispersing African wild dogs west and south of the Kruger National Park, South Africa." Thesis, Rhodes University, 2012. http://hdl.handle.net/10962/d1005318.

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African wild dog Lycaon pictus populations are declining and the species is listed as Endangered by the IUCN. The Kruger National Park (KNP) is home to the only viable population of wild dogs in South Africa, but census results reveal consistently low numbers since the late 1990s. Wild dogs display wide-ranging behaviour and it is possible that the species might frequently use unprotected lands adjacent to the KNP. However, very little is known about wild dog movements beyond the boundaries of the KNP, and whether or not adjacent land owners are tolerant of the species. Significantly, threats along the boundaries may have negative consequences for the KNP population. This research investigated the dispersal habits of wild dogs beyond the western and southern boundaries of the KNP, and gathered information on human tolerance, and anthropogenic threats in an area of mixed land use. The land west of the KNP presented the best prospect for wild dog range expansion. The wild dog packs operating outside the KNP had smaller home ranges and less home range overlap than the packs operating within the KNP. In addition, my data suggested that the development of conservancies and the formation of ecotourism-based land use practices would be beneficial for wild dog conservation. Failed wild dog dispersals due to snaring and human persecution could threaten the genetic stability and persistence of the KNP population. Therefore, raising awareness and an understanding of the plight of wild dogs is important for improving land owner perception and tolerance outside of protected areas. The rapidly increasing human population continues to infringe on protected lands and fragment landscapes, thus cooperation from individual land owners is vital for the conservation of free-ranging large carnivores.
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Barends, Jody Michael. "Predicting reptile species distributions and biogeographic patterns within Kruger National Park." University of the Western Cape, 2018. http://hdl.handle.net/11394/6745.

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Magister Scientiae (Biodiversity and Conservation Biology) - MSc (Biodiv and Cons Biol)
Knowledge of global reptile ecology is limited and there remains much to understand in terms of detailed reptile species information, including that of their distributions. In South Africa, despite being one of SANParks best-studied reserves, surprisingly little is known about the distributions and spatial ecology of reptiles within Kruger National Park (KNP). Management within KNP follows a strategic adaptive management strategy which monitors the statuses of animals using species or group specific indicators. Indicators are given predetermined upper and lower ranges of acceptable fluctuation before actions are taken. These ranges are referred to as thresholds of potential concern (TPCs), and for reptiles these are based on changes to their distributions across the landscape of KNP. An apparent lack of high-quality reptile distribution data inhibits the effective monitoring of the statuses of these animals within KNP, which in turn limits management and conservation options. In this study, I use several methods to quantify available reptile occurrence data which formed the foundations for predicting the distributions of these species across KNP by means of species distribution modelling, with a view to gaining novel insight into reptile assemblage structure across the landscape of KNP.
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Khosa, Tsakani Elizabeth. "Conflicts in sustainable utilisation and management of resources inside the Kruger National Park." Thesis, University of Limpopo, 2000. http://hdl.handle.net/10386/2626.

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Steenkamp, Pieter Johannes. "Ecological suitability modelling for anthrax in the Kruger National Park, South Africa." Diss., University of Pretoria, 2013. http://hdl.handle.net/2263/23358.

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Bacillus anthracis is the causal agent of anthrax which primarily affects ungulates, occasionally carnivores and less frequently humans. The endospores of this soil-borne bacterium are highly resistant to extreme conditions, and under ideal conditions, anthrax spores can survive for many years in the soil. The bacterium is generally found in soil at sites where infected animals have died. When these spores are exposed, they have the potential to be ingested by a mammalian species which could lead to an anthrax outbreak. Anthrax is almost never transmitted directly from host to host, but is rather ingested by herbivores while drinking, grazing or browsing in a contaminated environment, with the exception of scavengers and carnivores consuming infected prey. Anthrax is known to be endemic in the northern part of Kruger National Park (KNP) in South Africa (SA), with occasional epidemics spreading southward into the non-endemic areas. The aim of this study is to identify and map areas that are ecologically suitable for the harbouring of B. anthracis spores within the KNP. Anthrax surveillance data and selected environmental variables were used as inputs to the maximum entropy (Maxent) species distribution modelling method. Five-hundred and ninety-seven anthrax occurrence records, dating from the year 1988 to 2011, were extracted from the Skukuza State Veterinary Office’s database. A total of 40 environmental variables were used and their relative contribution to predicting suitability for anthrax occurrence was evaluated using Maxent software (version 3.3.3k). Variables showing the highest gain were then used for subsequent, refined model iterations until the final model parameters were established. The environmental variables that contributed the most to the occurrence of anthrax were soil type, normalized difference vegetation index (NDVI), land type and precipitation. A map was created using a geographic information system (GIS) that illustrates the sites where anthrax spores are most likely to occur throughout the Park. This included the known endemic Pafuri region as well as the low lying soils along the Shingwedzi-Phugwane-Bubube rivers and the Letaba-Olifants river drainage area. The outputs of this study could guide future targeted surveillance efforts to focus on areas predicted to be highly suitable for anthrax, especially since the KNP uses passive surveillance to detect anthrax outbreaks. Knowing where to look can improve sampling efficiency and lead to increased understanding of the ecology of anthrax within the KNP.
Dissertation (MMedVet)--University of Pretoria, 2013.
Production Animal Studies
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Engelbrecht, Willy Hannes. "Critical success factors for managing the visitor experience at the Kruger National Park / Willy Hannes Engelbrecht." North-West University, 2011. http://hdl.handle.net/10394/6928.

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Nature–based tourism destinations have shown significant growth over the past decade and, with the ever increasing numbers of tourists travelling to national parks, the right management structures, goals and objectives need to be determined. South African National Parks (SANParks) manages all 22 national parks in South Africa with the Kruger National Park (KNP) being the biggest of them all and generating more than 80% of SANParks income. The KNP is one of the world’s largest parks conserving a staggering 1 962 362 ha of land which is bigger than countries such as Israel and Holland. When taking the KNP into perspective, park management must have the right management styles and factors in place to ensure that the park is managed in a sustainable manner and exceeds the expectations of the tourist to provide a memorable experience whilst visiting the KNP. The goal of this study was therefore to determine the critical management aspects or critical success factors (CSFs) needed to create a memorable visitor experience at the park. This goal was achieved by conducting a questionnaire survey at four rest camps within the KNP from 27 December 2010 to 4 January 2011. The rest camps used for the survey were: Skukuza (152 questionnaires), Berg and Dal (98 questionnaires), Lower Sabie (85 questionnaires) and Satara (101 questionnaires). During this time a total of 436 questionnaires were completed and included in further analysis. In Article 1, the key management aspects that visitors regard as important for a memorable visitor experience at the KNP were identified. These CSFs assist management in providing quality services and products for the tourist, leading to a memorable experience. A factor analysis was performed on the expectations of the tourists to national parks. There were nine CSFs identified that management can implement to ensure a memorable visitor experience. The three factors that have not yet been identified in previous research were wildlife experience, interpretation and luxuries. Other factors that have been identified were General management, Variety activities, Accommodation, Green management, Hospitality management, and Facilities. The results showed that park management needs to become aware of what the visitor sees as important factors for a memorable visitor experience and they can adapt certain aspects to improve the visitor’s experience. In Article 2, gaps within the park management were identified. These gaps were measured by taking the 62 variables and asking the tourist what their expectations were with regard to a memorable experience versus their actual/real experience at the park. A factor analysis on the expectations and the actual/real experiences was done and each of these factors was given a score. The scores of each factor were measured against one another indicating the differences and gaps in management. The twelve factors that were identified were General management, Education activities. Accommodation facilities, Green management, Information provided, Layout of the park, Wildlife, Facilities in the park, Food and Beverage management, Interpretive activities, Bookings and General services, and Outdoor activities. These twelve factors have also been grouped into three sub groups containing four factors each and either the expectations were exceeded, did not meet expectations or were neutral. The main gaps were Education, Accommodation facilities, Interpretations facilities and Wildlife. If management want to ensure a memorable visitor experience at the KNP they must not only focus on these gaps, but also strive to exceed visitors’ expectations on all levels. This research found that there are certain CSFs for managing a national park and gaps within park management that need to be addressed. These gaps or problem areas can be overcome by the implementation of a continuous evaluation process that will ensure effective and efficient management of the park. Park management can therefore improve their services and products as well as the quality thereof by knowing what the tourists see as important when visiting a national park to obtain a memorable experience that will lead to positive word of mouth, loyalty, increased revenue and sustainability of the KNP. Even though it is not a requirement of a masters’ dissertation to make a contribution, this research has made a significant contribution towards the methodology as the method applied determined the gaps in visitor experience and expectations and this has not been used before. Future research can make use of this type of method determining individuals’ expectations and experiences when visiting a national park or any other nature–based destination.
Thesis (M.Com. (Tourism))--North-West University, Potchefstroom Campus, 2012.
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Wolhuter, J., RG Bengis, BK Reilly, and PC Cross. "Clinical Demodicosis in African Buffalo (Syncerus caffer) in the Kruger National Park." Wildlife Disease Association, 2009. http://encore.tut.ac.za/iii/cpro/DigitalItemViewPage.external?sp=1001766.

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Abstract We investigated the relationship between prevalence and severity of clinical signs of Demodex cafferi infection in freeranging African buffalo (Syncerus caffer) and other factors such as age, sex, pregnancy status, and concomitant infections with bovine tuberculosis (BTB), Rift Valley fever (RVF), and brucellosis (BA). Approximately half of 203 buffalo examined in this study had clinical signs of demodicosis (cutaneous nodules); younger age classes had the highest prevalence and severity of lesions (x2521.4, df56, P50.0015). Nodules were generally limited to the head and neck region, but in severe cases were present over the entire animal. We found no significant association between clinical severity of the Demodex infection and gender, pregnancy status, or infection with BTB, RVF, or BA.
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Stanbridge, Deborah. "Genetic admixture of Kruger National Park black rhino (Diceros bicornis minor): conservation implications." Master's thesis, Faculty of Science, 2020. http://hdl.handle.net/11427/32994.

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Black rhinoceroses (Diceros bicornis) have been extirpated from most of their historic range with the remaining individuals (ca. 5200) living in geographically isolated populations. Management priorities include creating new populations whilst maintaining genetic diversity and promoting gene flow between existing isolated populations. Such objectives are however currently hindered by a lack of comparative/reference data on levels of diversity, relatedness and inbreeding in a large, free-ranging black rhinoceros population. Here I attempt to address this gap in our knowledge by investigating the genetic diversity of the black rhinoceros Diceros bicornis minor within Kruger National Park (the largest free-ranging population of this subspecies) using nuclear and mitochondrial DNA. I compared the diversity of this founded population with the two source populations (KwaZulu-Natal, South Africa and Zimbabwe) using published studies, and evaluate the relative contribution of source lineages relative to the proportion of original founders. Analysis of the mtDNA control region revealed four haplotypes, with moderate haplotype and nucleotide diversity (h=0.48 (± 0.05 SD); π= 0.29%). Data from 13 microsatellite loci revealed moderate to high levels of genetic variation (number of alleles = 4.92 ± 0.90, effective number of alleles = 2.26 ± 0.25, observed heterozygosity = 0.50 ± 0.04, expected heterozygosity = 0.51 ± 0.04), low mean pairwise relatedness (r = -0.03), a low inbreeding coefficient (Fis = 0.04) and no evidence of genetic structuring. Diversity levels within the Kruger black rhinoceros population were high compared to levels reported in black rhinoceroses originating in KwaZulu-Natal and similar to those reported in individuals originating in Zimbabwe. Results show that 40-60% of the Zimbabwean lineages are represented in the Kruger population which is a noticeable increase in the relative contribution of the Zimbabwe founder population. The data provided by this study can be used to guide management and conservation decisions regarding maximising genetic variability across the subspecies. Furthermore, given the encouraging levels of genetic diversity observed, the Kruger black rhinoceros population would be an ideal source population for supplementation of genetically depauperate populations or creating new populations. Finally, these findings demonstrate a positive outcome in mixing the KwaZulu-Natal and Zimbabwe gene pools, with evidence that the founder Kruger black rhinoceros population has been genetically rescued from the low diversity seen in the KwaZulu-Natal black rhinoceroses in South Africa.
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Books on the topic "Kruger National Park"

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Rogers, David. Kruger National Park. Cape Town: Struik, 1994.

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Kruger National Park. 3rd ed. London: New Holland, 2003.

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Johannesburg & Kruger National Park. Bath, U.K: Footprint Handbooks, 2011.

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(Organization), Jacana, ed. Kruger National Park: Bushveld seasons. Johannesburg: Jacana Education, 1995.

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1931-, Nussey Wilf, ed. Kruger: Portrait of a national park. Braamfontein, Johannesburg: Macmillan South Africa, 1986.

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Joubert, Salomon. The Kruger National Park: A history. Johannesburg: High Branching, 2007.

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Kruger National Park of South Africa. Durban: Art Publishers, 2008.

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Fourie, P. F. Kruger National Park: Questions and answers. Cape Town: Struik, 1992.

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Braack, L. E. O., 1954-, ed. Kruger National Park: A visitor's guide. 3rd ed. Cape Town: Struik Publishers, 1992.

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Newman, Kenneth B. Birds of the Kruger National Park. Johannesburg: Southern Book Publishers, 1987.

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Book chapters on the topic "Kruger National Park"

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Mabunda, David M., and Deon Wilson. "7. Commercialization of National Parks: South Africa’s Kruger National Park as an Example." In Sustainable Tourism in Southern Africa, edited by Jarkko Saarinen, Fritz O. Becker, Haretsebe Manwa, and Deon Wilson, 116–33. Bristol, Blue Ridge Summit: Multilingual Matters, 2009. http://dx.doi.org/10.21832/9781845411107-014.

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Viljoen, Morris. "The Kruger National Park: Geology and Geomorphology of the Wilderness." In World Geomorphological Landscapes, 111–20. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-03560-4_13.

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Steffens, Francois E. "Geostatistical Estimation of Animal Abundance in the Kruger National Park, South Africa." In Quantitative Geology and Geostatistics, 887–97. Dordrecht: Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-1739-5_71.

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Ferguson, Ken, Laura Adam, and Ferran Jori. "An Adaptive Monitoring Programme for Studying Impacts Along the Western Boundary Fence of Kruger National Park, South Africa." In Fencing for Conservation, 105–23. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4614-0902-1_7.

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Spenceley, Anna, and Harold Goodwin. "7. Nature-Based Tourism and Poverty Alleviation: Impacts of Private Sector and Parastatal Enterprises In and Around Kruger National Park, South Africa." In Pro-poor Tourism: Who Benefits?, edited by C. Michael Hall, 145–67. Bristol, Blue Ridge Summit: Multilingual Matters, 2007. http://dx.doi.org/10.21832/9781845410766-007.

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Cilliers, Catharina J., D. Zeller, and G. Strydom. "Short- and long-term control of water lettuce (Pistia stratiotes) on seasonal water bodies and on a river system in the Kruger National Park, South Africa." In Management and Ecology of Freshwater Plants, 173–79. Dordrecht: Springer Netherlands, 1996. http://dx.doi.org/10.1007/978-94-011-5782-7_27.

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Middleton, Victor T. C., and Rebecca Hawkins. "Kruger National Park, South Africa." In Sustainable Tourism, 201–7. Elsevier, 1998. http://dx.doi.org/10.1016/b978-0-7506-2385-8.50022-3.

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"The region." In Birds of Kruger National Park, 6. Princeton University Press, 2016. http://dx.doi.org/10.1515/9781400880683-001.

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"About this book." In Birds of Kruger National Park, 7. Princeton University Press, 2016. http://dx.doi.org/10.1515/9781400880683-002.

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"The seasons and timing your visit." In Birds of Kruger National Park, 8. Princeton University Press, 2016. http://dx.doi.org/10.1515/9781400880683-003.

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Conference papers on the topic "Kruger National Park"

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Myburgh, H. C., J. C. Olivier, R. Mathieu, K. Wessels, B. Leblon, G. Asner, and J. Buckley. "SAR-to-LiDAR mapping for tree volume prediction in the Kruger National Park." In IGARSS 2011 - 2011 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2011. http://dx.doi.org/10.1109/igarss.2011.6049504.

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Bucini, Gabriela, Sassan Saatchi, Niall Hanan, Randall B. Boone, and Izak Smit. "Woody cover and heterogeneity in the Savannas of the Kruger National Park, South Africa." In 2009 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2009. http://dx.doi.org/10.1109/igarss.2009.5417381.

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Sappa, Giuseppe. "KRUGER NATIONAL PARK: GEOLOGICAL AND HYDROGEOLOGICAL ASSESSMENT TO SAVE THE INTEGRITY OF A PROTECTED AREA." In 18th International Multidisciplinary Scientific GeoConference SGEM2018. Stef92 Technology, 2018. http://dx.doi.org/10.5593/sgem2018/1.2/s02.053.

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Berger, C., H. Lux, M. Urban, C. Schmullius, J. Baade, C. Thiel, C. Wigley-Coetsee, and I. Smit. "Annual Grass Biomass Mapping with Landsat-8 and Sentinel-2 Data Over Kruger National Park, South Africa." In IGARSS 2020 - 2020 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2020. http://dx.doi.org/10.1109/igarss39084.2020.9324413.

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Kong, Martin, Brigitte Leblon, Renaud Mathieu, Claus-Peter Gross, Joseph Buckley, Laven Naidoo, and Laura Bourgeau-Chavez. "Use of Radarsat-2 polarimetric SAR images for fuel moisture mapping in the Kruger National Park, South Africa." In IGARSS 2014 - 2014 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2014. http://dx.doi.org/10.1109/igarss.2014.6947627.

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Munyati, Christopher, and Ndidzulafhi I. Sinthumule. "Assessing woody vegetation cover dynamics in the Kruger National Park, South Africa: Linking historical aerial photographs and spot imagery." In IGARSS 2015 - 2015 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2015. http://dx.doi.org/10.1109/igarss.2015.7326762.

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Janecke, Beanelri. "Variety of Mammals (Dietary Classes and Body Sizes) on a Catena in Savanna Biome, Kruger National Park, South Africa." In 1st International Electronic Conference on Biological Diversity, Ecology and Evolution. Basel, Switzerland: MDPI, 2021. http://dx.doi.org/10.3390/bdee2021-09494.

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Berger, Christian, Stefan Werner, Corli Wigley-Coetsee, Izak Smit, and Christiane Schmullius. "Multi-Temporal Sentinel-1 Data for Wall-To-Wall Herbaceous Biomass Mapping in Kruger National Park, South Africa — First Results." In IGARSS 2019 - 2019 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2019. http://dx.doi.org/10.1109/igarss.2019.8898045.

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