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Dry woodland and savanna vegetation dynamics in the Eastern Okavango Delta, Botswana.Tedder, Michelle Jennifer. 15 November 2013 (has links)
The Okavango Delta is an extremely dynamic system with variable vegetation comprised of permanent
swamps, seasonal swamps, dry islands, floodplains and dry grassland, savanna and woodland. The system
is largely driven by the interaction between fire and the annual flood, which filters down from the
Okavango River catchments in Angola. While extensive research has been conducted on the flood-driven
vegetation little is known about the dry woodland and savanna regions bordering these flood-driven
habitats. A taxonomic classification of woody species composition resulted in eleven vegetation types.
These data were then reanalyzed in terms of woody species morphology allowing these eleven vegetation
types to be grouped into four functional response groups in order to provide a platform for improving the
understanding of how dry woodland and savannas interact with the environment. These four groups were
the savanna group mixed thornveld and the three woodland groups; mixed broadleaf woodland, shrub
mopane woodland and tall mopane woodland. Burning in mixed thornveld and mixed broadleaf woodland
was found to decrease woody species density and grass fuel loads and could be used for grazing
management to remove unpalatable growth and improve grass species composition, while burning in
shrub mopane woodland and mixed mopane woodland merely decreased the woody understory and is not
recommended. Utilization dominated by grazing livestock resulted in overutilization of the grass sward
leading to bush encroachment in both mixed thornveld and shrub mopane woodland, while utilization by
goats alone resulted in underutilization of the grass sward and a dominance of herbaceous annuals.
Livestock utilization had no effect on the occurrence of Pecheul-loeschea leubnitziae, a shrubby pioneer
previously thought to be an indicator of overgrazing, however extensive P. leubnitziae cover was
associated with a sward dominated by shade-tolerant grasses with low forage quality. Shrub mopane
woodland and tall mopane woodland appear to be more stable vegetation states than mixed broadleaf
woodland and mixed thornveld being less vulnerable to colonization by pioneer species and alteration as a
result of utilization or environmental factors. For this reason management and monitoring of mixed
thornveld and mixed broadleaf woodland is essential to prevent vegetation degradation and to ensure
optimal forage availability for both livestock and wildlife. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2012.
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The role of fire in bush encroachment in Ithala Game Reserve.Gordijn, Paul Jan. 27 May 2014 (has links)
The increase of woody vegetation (also known as bush or shrub encroachment) in savannas
has become of global concern to conservationists and rangeland managers alike. Bush
encroachment has been associated with a decrease in rageland palatability. In addition, the increase
in woody biomass has consequences for climate change, carbon sequestration, rangeland hydrology
and nutrient cycling. As a result of these large changes in ecosystem functioning with bush
encroachment, biodiversity may be threatened. Fire is considered to be one of the most important
management tools used to control woody biomass in savannas. However, despite the use of fire in
Ithala Game Reserve, areas have become encroached. This thesis assesses the role of fire in bush
encroachment in Ithala Game Reserve.
I start this thesis with a discussion of the bottom-up (water, nutrients, and light) and topdown
(fire and herbivory) ecosystem components in the literature review. This sets the foundation
for an understanding of the factors that affect savanna tree:grass ratios for the rest of this thesis. In
addition the review discusses the potential effects of climate change on savanna tree:grass ratios.
Recently, it has been proposed that increasing atmospheric carbon dioxide concentrations result in
an increased competitive ability for C3 woody plants against C4 grasses. Many models have been
produced to explain savanna dynamics. By assessing the role of fire in Ithala Game Reserve, its
functioning is assessed in light of the current issues of bush encroachment.
Textural analysis is a remote sensing technique that has been used to detect changes in
woody vegetation using aerial photographs. Textural analysis was used to assess changes in woody
vegetation cover and density from 1943 (earliest period for which aerial photographs were available
for the study area) to 1969, 1990 and 2007 in Ithala Game Reserve (IGR). Field surveys were
performed to assess the effects of the fire regime in IGR on woody vegetation structure and
composition. Transects were performed in areas with different fire frequencies. The effects of fire
frequency were compared between similar vegetation communities.
Textural analysis showed that woody vegetation cover (+32.5%) and density
(657.9 indiv. ha-1) increased from 1943 to 2007. Importantly, in some areas of IGR, the suppression
of fire led to the rapid invasion of woody plants from 1990 to 2007. Field studies demonstrated the
importance of fire in controlling woody vegetation in IGR. The densities of the encroachers,
Dichrostachys cinerea and Acacia karroo were resistant to annual burns. However, the height of
these deciduous microphyllous woody encroachers was reduced by more frequent fires. Following
the suppression of fire, these trees grew taller and their negative impact on the herbaceous layer
increased. Consequently, fuel loads (grassy biomass) declined and prevented the use of frequent
and intense fires by management. The reduction in fire frequency allowed the invasion of woody
evergreen macrophyllous species. Continued development of fire-resistant patches of evergreen
macrophyllous vegetation will further reduce the effectiveness of fire in controlling bush
encroachment.
To control bush encroachment in IGR and the consequential loss of biodiversity, an
intermediate fire frequency (one burn every 2 to 4 years) is required. Burns also need to be hot
enough to increase the current rate of topkill. Management should act to optimize the accumulation
of grassy biomass to fuel fires. / Thesis (M.Sc.)-Unversity of KwaZulu-Natal, Pietermaritzburg, 2010.
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Monitoring the re-growth rate of alien vegetation after fire on Agulhas Plain, South AfricaFatoki, Oluwakemi Busayo 03 1900 (has links)
Thesis (MSc (Geography and Environmental Studies))--University of Stellenbosch, 2007. / The Agulhas Plain, an area rich in fynbos, was monitored within six months after the February
2006 fire. The potential of using medium resolution imagery, specifically from the Moderate
Resolution Imaging Spectroradiometer (MODIS) in determining the re-growth rates of
indigenous and alien vegetation types after fire was explored. Pixels representing dense areas of
each vegetation type were selected. There was a significant difference in the pixels selected for
each vegetation type. A time series of Normalized Difference Vegetation Index (NDVI) data
was derived and fitted to functions, such as Double Logistics and Asymmetric Gaussian as
implemented in the TIMESAT software. The results show that alien vegetation grows faster
after a fire occurrence than in its absence. Within the specified months of monitoring, it was
observed that fynbos grew faster than the alien vegetation. Also, the re-growth rates of
vegetation on the coastal soils were higher than those of vegetation on the inland soils. The
determination of the re-growth rate was necessary to assist resource managers determine the
appropriate time for follow-up of clearing invaded sites after fire.
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The role of small antelope in ecosystem functioning in the Matobo Hills, ZimbabweLunt, Nicola January 2011 (has links)
The 28-month study assessed the impacts of five syntopic medium-sized mammalian browsers and one fire event in a woodland savanna in the Matobo Hills, Zimbabwe. Aspects of herbivory, mechanical pressures, seed dispersal and nutrient cycling were investigated for three species of small antelope (common duiker [Sylvicapra grimmia]1, klipspringer [Oreotragus oreotragus] and steenbok [Raphicerus campestris]) and two medium-sized species (bushbuck [Tragelaphus scriptus] and greater kudu [T. strepsiceros]). Focusing on Burkea africana2 woodland, in a system that does not include elephant (Loxodonta africana), effects of browsing antelope on woody and herbaceous vegetation development were investigated using exclusion plots. Browsers regulated woody plant cover (measured as basal stem area), with smaller antelope having a greater impact than larger species. This was linked to feeding height, feeding selectivity and mechanical pressures (e.g. twig breakage and trampling). Fire caused an initial reduction in above-ground standing biomass, but in the presence of fauna, pre-fire equilibria were attained within 15 months. In antelope exclosures, herbaceous biomass increased and woody biomass decreased following fire. Responses by woody vegetation to browsing varied among species, with highly palatable species typically exhibiting compensatory regrowth. Woody species richness and abundance (especially of palatable species) increased in the absence of browsers, but species richness of the herbaceous layer was promoted by moderate disturbance (trampling or fire). Faecal deposition behaviour, primarily the use of latrines by small antelope, resulted in localised soil enrichment within defended territories. Decomposition rates (and therefore return of nutrients to the soil) varied among species and seasons, due to defecation site selection, accessibility to decomposers and desiccation rates of faecal pellets. Controlled seed germination experiments indicated that ingestion by small antelope enhances germination rates of large, hard-seeded fruits such as Sclerocarya birrea. However, germination of savanna seeds may require multiple cues. This study demonstrated the critical roles of small antelope in ecosystem functioning, and highlights the importance of the less visible impacts of frequently overlooked smaller mammalian herbivores. Perturbations to the faunal community, especially small antelope, are predicted to have substantial impacts on woody plant cover.
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