Spelling suggestions: "subject:"grasslands.the africa"" "subject:"grasslands.the affrica""
1 |
The legal implications of grassland as a threatened treasurer : analysis of Haenertsburg Plains in South AfricaMoreroa, Masilo Peter January 2014 (has links)
Thesis (LLM. (Philosophy of Environmental Law and Management)) -- University of Limpopo, 2014 / Human well-being and progress toward sustainable development are vitally dependent upon improving the management of the Earth’s ecosystems to ensure their conservation and sustainable use. But while demands for ecosystem services such as food and clean water are growing, human actions are at the same time diminishing the capability of many ecosystems to meet these demands.
This study explores the legal framework for the protection of grassland in South Africa. In particular, the study looks at the legal protection introduced to protect grassland in Haenertsburg area in South Africa. This study argues that Grassland is vital to the ecosystem, and plays a pivotal role in maintaining and providing life for many plant and animal species. The grassland is also important in our daily lives and is one of the most threatened biomes in South Africa. The study concludes by arguing that more regulatory measures are needed in order to protect the grasslands as threaten species.
|
2 |
The coastal grasslands of the Eastern Cape west of the Kei RiverJudd, Rachel Anne January 1999 (has links)
The grasslands of South Africa are the foundation of commercial and subsistence agriculture yet they are being degraded at an alanning rate. The coastal grasslands of the Eastern Cape are no exception and they suffer added pressure of coastal resort development because of their proximity to an attractive coastline. In order to determine the degree of conservation necessary for any area it is essential to know what species occur there in order to determine if protection from habitat destruction is required. Four aims were defined for this studv. The initial aim was a phytogeographical classification of the grasslands in the coastal region west of the Kei River. This was done by vegetation sampling followed by computer based analysis with TWINSPAN. This analysis defined ten grassland associations. five being located in the area west of the Keiskamma River and five occurring east of it. The associations in the eastern half are termed mesic while those in the western balf are xeric. The second aim was to determine the presence of any underlying ecological gradients affecting the distribution of tbe associations. Indirect gradient analysis was carried out where samples are analysed irrespective of environmental factors. Direct gradient analysis was then carried out using scores per sample of various environmental factors. Environmental factors whicb migbt produce such gradients are both naturally-ocurring and man-induced. Natural factors which were recorded in the field include depth of soil at sample site, soil family, aspect and distance from the shore. An important factor is the land / sea interface. Natural factors analysed in the laboratory include soil pH. conductivity. percent organic matter, calcium, magnesium, phosphate and potassium. Man-induced factors are land use history e.g. Ploughing and grazing. Both direct and indirect gradient analysis were carried out with the computer based programme CANOCO. The third aim of the study was to determine the presence of any successional trends between the ten defined associations. This was done using several characteristics of the associations. Alpha and beta diversity were the first factors compared between associations. The percentage contribution of the Cyperaceae, Fabaceae, Asteraceae and Poaceae to each association was assessed and compared. The presence of various life forms of the species occurring in each association was determined together with the cover abundance of different classes of grass species. These results were then combined and analysed in the light of the results from CANOCO analvsis. They show that the mesic Themeda Iriandra - Anthospermum herhoceum, association which occurs closest to the shore and with the least disturbance is a depauperate form of the mesic climax Themeda triandra association. The mesic Hyparrhenia hirta - Dtheteropogon amplectens association may be a secondary grassland on account of phosphate and potassiun poor soils and land-use. The mesic Hyparrhenia hirta - Themedo triandra association is a slightly degraded form of the climax association due to grazing. The severely disturbed Stenotaphrum secundatum - C'entella coriacea association, which is located close to the shore, is a secondary grassland. Analysis of the xeric associations indicates a clearly defined ordination of associations on the basis of land-use. The Cynodon daclylon - Helictolrichon hirtulum and Sporobolis africanus - Setaria sphacelata associations which occur where ploughed lands have been left to lie fallow are secondary in nature. The Themeda triandra - Ehrharta calycina association is thought to be the closest representati ve of a climax xeric association but the presence of E. calycina indicates that some disturbance has occurred. The vegetation is subject to moderate grazing. The Cynodon dactylon - Ehrharla calycina and Diheleropogon filifolius - Ehrharla calycina associations are subject to varying intensities of trampling and grazing and are degraded forms of the Themeda triandra - Ehrharla calycina association. Because of tbe overriding influence of the land-use gradient separation along gradients of the remaining eight factors was limited. The effect of fire and temporal change in the mesic Themeda triandra and Hyparrhenia hirta - Themeeia trianda associations was assessed via long-term studies at Potter's Pass outside East London. The results show a quick response to burning with a return to 100% cover within six months by both associations. During spring the two associations could not be separated by either TWINSPAN or DECORANA. indicating a temporal shift from the Hyparrhenia hirta - Themeda triandra association to the Themeda triandra association. The fourth and final aim was to identify plants requiring protection from habitat destruction and to make recommendations for further conservation areas and management of the coastal grasslands. Through the collection and identification of as many plants as possible a species checklist was prepared and the status of each was determined through reference to the Red Data Book of threatened and endangered species. Kniphofia rooperi is vulnerable in the Cape and Euphorbia hupleuroides is considered rare in kwazulu-Natal. Ten species are endemic to the Cape and / or South Africa. The richness of the vegetation lies in the presence of species representative of the four major floras which converge in the eastern Cape. i.e. The Cape, NamaKarroo, Tongoland-Pondolaod floras and the Kalahari Highveld Regional Transitional Zone. Suggestions are made for the conservation of the grassland associations at various sites within the study area based on the present area conserved. Less than 2% of the coastline in the study area is conserved and it is felt that the area under conservation should be increased. Management suggestions based on the available literature are given for both farmed and conserved areas. There is a great potential for further studies on grassland dmamics within the areas surveyed. In terms of management, the grasslands require careful examination to determine the most effective season in which to burn if at all. As with most agricultural systems in South Africa. grazing strategies will benefit from further research. Any additional research on the dynamics of these grasslands can only be of benefit to the sustained utilisation of this vital resource.
|
3 |
Classification of vegetation of the South African grassland biomeEllery, William Nolan January 1992 (has links)
A thesis submitted to the Faculty of Science,
University of the Witwatersrand, Johannesburg,
in fulfilment of the requirements for the degree
of Doctor of Philosophy.
Johannesburg 1992. / The aim of the study was to develop understanding of the relationships between
vegetation types of the grassland biome of South Africa and the environment, with
an emphasis on structural and functional characteristics.
The grassland biome in South Africa has traditionally been divided into 'pure'
grasslands, assumed to be climatically determined, and 'false' grasslands of recent
anthropogenic origin. A review of literature from several disciplines including
palaeobotany, archaeology, ecology and biogeography indicates that this is not a valid
distinction. It is clear that the distribution of the grassland biome as a whole is poorly
understood, but the general correlation between the distribution of biomes and climate
elsewhere in the world suggests that this warrants more detailed investigation.
A water balance approach was used to develop climatic incices that both predict the
distribution of grasslands, and are easy to interpret biologically. The indices are the
mean. number of days per annum when moisture is available for plant growth, tbe
mean temperature on days when moisture is available for plant growth (wet season
temperature),. and the mean temperature when moisture is not available for plant
growth (dry season temperature). Based on these three.indices the grassland biome
in South Africa call be distinguished from neighbouring biomes. The fynbos and
succulent karoo biomes have rainfall in winter. The grassland, nama-karoo and
savanna biomes have' rainfall in summer. The forest biome experiences rainfall
throughout the year. Of the summer rainfall biomes, the quantity of water available
in the grassland biome b greater than in the nama-woo, similar to savanna, but less
than forest. Grasslands experience cooler dry season temperatures than savannas.
The localised distribution of woody plants within the. grassland biome suggests that
it is the effect of climate on the fire regime that may be of overriding importance h'l
determining the distribution of the biome as a whole. Woody elements are restricted
to sites that are either protected from fire, or experience fires of lower intensity than
sites that support- grassland, The unifying feature of the grassland biome is its
proneness to fire. The presence of a warm, moist season promotes plant production
and leads to a high standing crop close to the ground. The prolonged dry season
causes vegetation to dry out annually, rendering it flammable. More arid biomes
have plants more widely spaced, making it difficult for fire to spread. In more mesic
biomes where rainfall is less sea.sonal than in the grasslands or savannas, fuels do not
dry out sufficiently to ignite, A number of additional climatic features may promote
burning in the grassland biome, It has the highest lightning density of all South
Africa's biomes. 'tVarm, dry 'berg' winds desiccate fuels and 1 omote burning in the
more mesic grasslands, The 'curing' of the grass sward due to dry season frost and
temperature drop is important in establishing early dry season flammability. Savanna
trees are fire tolerant, but they appear sensitive to the cold temperatures prevaient in
the grassland biome in. the dry season,
The relationship between the distribution of functional characters of grassland plants
and environmental conditions was investigated. The distincrion between sweetveld,
mixed veld and sourveld was recognised as one of the most Important functional
features of South Africa's grasslands, The distribution of these vegetation types was
examined in detail. Sweetveld occurs In warm, dry areas; sourveld in cool, moist
areas. There Is overlap between these tyP.Js that Is dependant on soil nutrient status.
Sweetveld that occurs in climatic conditions that would be expected to support mixed
veld and sourveld, is on soils derived from basic parent material, including basalt,
dolerite, gabbro and norite. Similarly, sourveld that occurs in areas that climatically
would be expected to support sweetveld, is on soils derived from acid parent material
such as sandstone and quartzite ..
Soil nutrients that are most highly correlated to the occurrence of these three veld
types are phosphoms availability and an index of nitrogen mineralization potential.
'l'here is an increase in bot; available phosphorus and the index of readily
mineralizable nitrogen from sourveld to mixed veld to sweetveld. These features am
inc01).10111tedinto a conceptual model that relates the distribution of these grassland
types to carbon and nitrogen metabolism, with the role of phosphorus either similar
to nitrogen, or else it may act indirectly by affecting the. rate of nitrogen
mineralization, Nitrogen mineralization OCcursat lower water availability than carbon
assimilation, and its temperature optimum is higher than that of carbon assimilation.
Where nitrogen mineralization is favoured ielative to carbon assimilation, sweetveld
is likely to (}C(.1\Xr. Where carbon assimilation is. favoured relative to; nitrogen
mineralization, sourveld is likely to occur ....Soil texture affects the balance between
these two processes in the degree to wm.r;h it protects soil organic matter, and
thereforv the size of the nitrogen and ph_QSPllO_rOll.S pools.
Changes in the rlj,stribution of South Africa's b~\omesfor a scenario of climate change
are predicted using the biome model developed in this study. This illustrates the
value of developing predictive models. / MT2017
|
4 |
Modelling plant water use of the grassland and thicket biomes in the eastern cape, South Africa: towards an improved understanding of the impact of invasive alien plants on soil chemistry, biomass production and evapotranspirationGwate, Onalenna January 2018 (has links)
It is imperative to understand the strong coupling between the carbon capture process and water use to sustainably manage rangelands. Woody encroachment is undermining rangelands grass production. Evapotranspiration (ET) highlights the links between ecosystem carbon capture process and water use. It forms the biggest flux of the hydrological cycle after precipitation yet it is not well understood. The Grassland and the Albany Thicket (AT) biomes in the Eastern Cape, South Africa, provide an interesting space to study the dynamics in rangelands biomass production and the associated water use. Therefore, the main purpose of this study was to contribute towards management of rangelands by understanding the dynamics in rangeland grass production and water use. To achieve this aim, the impact of Acacia mearnsii, an invasive alien plant, on soil chemical properties and rangelands grass production was investigated. This was achieved by analysing the biophysical attributes of A. mearnsii as they related to grass production. Secondly, selected soil variables that could be used as a prognosis for landscape recovery or deterioration were evaluated. In addition, aboveground grass biomass was measured in areas cleared of A. mearnsii and regression equations were prepared to help model aboveground grass biomass in areas cleared of A. mearnsi. The thesis also explored dynamics in water vapour and energy fluxes in these two biomes using an eddy covariance system. Consequently, water vapour and energy fluxes were evaluated in order to understand landscape water use and energy partitioning in the landscape. The study also tested the application of Penman-Monteith equation based algorithms for estimating ET with micrometeorological techniques used for validation. Pursuant to this, the Penman- Monteith-Leuning (PML) and Penman-Monteith-Palmer (PMP) equations were applied. In addition, some effort was devoted to improving the estimates of ET from the PMP by incorporating a direct soil evaporation component. Finally, the influence of local changes in catchment characteristics on ET was explored through the application of a variant of the Budyko framework and investigating dynamics in the evaporative index as well as applying tests for trends and shifts on ET and rainfall data to detect changes in mean quaternary catchment rainfall and ET. Results revealed that A. mearnsii affected soil chemical properties and impaired grass production in rangelands. Hence, thinning of canopies provided an optimal solution for enhanced landscape water use to sequestrate carbon, provide shade, grazing, and also wood fuel. It was also shown that across sites, ET was water limited since differences between reference ET and actual ET were large. ET was largely sensitive to vapour pressure deficit and surface conductance than to net radiation, indicating that the canopies were strongly coupled with the boundary layer. Rangeland ET was successfully simulated and evaporation from the soil was the dominant flux, hence there is scope for reducing the so-called ‘unproductive’ water use. Further, it was shown that the PML was better able to simulate ET compared to the PMP model as revealed by different model evaluation metrics such as the root mean square error, absolute mean square error and the root mean square observations standard deviation ratio. The incorporation of a soil evaporation component in the PMP model improved estimates of ET as revealed by the root mean square error. The results also indicated that both the catchment parameter (w) and the evaporative index were important in highlighting the impacts of land cover change on ET. It was also shown that, despite changes in the local environment such as catchment characteristics, global forces also affected ET at a local scale. Overall, the study demonstrated that combining remote sensing and ground based observations was important to better understand rangeland grass production and water use dynamics.
|
5 |
Bush encroachment effects on above-ground biomass, species, composition, plant diversity and selected soil properties in a semi-arid savanna grasslandMogashoa, Regina Etla January 2020 (has links)
Thesis (M.Sc. Agriculture (Pasture Science)) -- University of Limpopo, 2020 / Bush encroachment is a major problem in arid and semi-arid savannas characterized by a grass layer interspersed with a shrub stratum. Land cover change as a result of rapid proliferation of woody species in previously open rangelands alters herbaceous species and impacts soil properties. So far, little is known about the threshold at which woody plant density and cover affects herbaceous cover and the underlying mechanisms driving bush encroachment in arid and semi-arid rangelands are still debated. The objectives of this dissertation were to (1) to assess woody species composition and structure along an encroachment gradient and to explore the relationship between woody vegetation and herbaceous vegetation. (2) To determine the effect of increasing tree density and cover on grass species richness, diversity, evenness and selected soil nutrients in a bush encroached rangeland. In order to address these objectives, a semi-arid rangeland was demarcated into three encroachment gradients spanning from open to intermediate and intensive. Within each encroachment gradient six plots of 10 m x 10 m were randomly selected, whereby woody and herbaceous vegetation were assessed and soil properties determined. A discernible increase in woody species diversity and evenness was found along the transition from open to intensive bush encroached rangeland. Leguminous woody species Vachellia spp. and Dichrostachys cinerea were dominant along the bush encroachment gradient. Tree height was found to be positively correlated with long crown diameter (LCD) and short crown diameter (SCD). Furthermore, increasing tree density resulted in a 53% decline in grass species richness (GR). A decline in GR mirrored an increase in the composition of the decreaser species Panicum maximum (90%). Increasing woody plant density and cover also increased macro-nutrients; total carbon, nitrogen, phosphorus, exchangeable calcium and magnesium by 21%-159% in the shallow rangeland soils. Such quantitative information will assist rangeland managers to better understand the effects of varying bush encroachment intensities on herbaceous species composition, richness and soil properties in semi-arid savanna rangelands.
|
6 |
Themeda Triandra Renosterveld in the Heidelberg DistrictRaitt, Gwendolyn R. 12 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: This study investigated the composition of Themeda triandra Renosterveld in part of the
Grootvadersbosch Conservancy and the effects of selected environmental and management variables to
provide guidelines for promoting the presence of Themeda triandra in the veld.
The Zürich-Montpellier phytosociological method was used to determine the composition of the
Renosterveld communities. The point quadrat method was used to determine the cover of Themeda
triandra at three grass dominated sites and compare cover from one site with past cover measurements
at the specific site. Ordination was used to examine the effects of the environmental and management
variables on the plant communities.
Two community groups, five communities and five subcommunities were identified and described.
The Themeda triandra – Stoebe phyllostachys Grassland Community Group consists of two
communities of which one has two subcommunities. The Themeda triandra – Elytropappus
rhinocerotis Shrubland Community Group consists of three communities of which one has three
subcommunities.
The vegetation units described in this study have not been described previously in the literature. One
community belongs to Silcrete Fynbos while another subcommunity is transitional between
Renosterveld and thicket and gallery forest. The rest of the plant communities fit the definition for
Renosterveld (the local Renosterveld type is Eastern Rûens Shale Renosterveld).
Cover of Themeda triandra did not differ significantly either between sites or between years. The
comparison of Themeda triandra cover between years was done at a site that had been burnt between
the last two sampling times yet the cover was not significantly different. This indicates that fire and
other management practices did not have a negative impact on Themeda triandra at the site.
Unconstrained ordination of the dataset in which cover/abundance values were included, grouped the
relevés by moisture and disturbance but the presence/absence dataset indicates that the two community
groups have a slight transitional overlap. Constrained ordination of both datasets with a) soil variables
and b) management variables, both showed a tendency to separate the relevés into community groups,
that did not happen with topographic and vegetation variables. Ordination did not separate the
community groups into their subdivisions.
The soil variables (both nutrients and texture) influence the vegetation structure and the community
distribution.
Under the existing grazing management regime, fire at three to five year intervals promoted the
dominance of Themeda triandra by affecting the structure of the plant communities, the abundance of species other than Themeda triandra, and influencing which plant community is present. The use of
fire as a management tool was regulated by the importance of the natural veld pastures to the farmers.
The natural veld pastures are not suitable for dairy cattle in milk. Thus dairy farmers are less likely to
burn the natural veld (no planned burns only chance fires) than those who farm with mutton or beef
(planned burns on a three to five year interval). / AFRIKAANSE OPSOMMING: Die studie het die samestelling van Themeda triandra Renosterveld in ’n deel van die
Grootvadersbosch-Bewaria en die uitwerking van geselekteerde omgewings- en bestuursveranderlikes
ondersoek om riglyne vir die bevordering van Themeda triandra in die veld daar te stel.
Die Zürich-Montpellier fitososiologiese metode is gebruik om die samestelling van die
Renosterveldgemeenskappe te bepaal. Die puntkwadraat-metode is gebruik om ’n skatting van die
dekking van Themeda triandra by drie gras-gedomineerde persele te bepaal en om ’n vergelyking te
maak tussen die huidige en vorige dekking van ’n enkele perseel. Ordinasie is gebruik om die invloed
van omgewings- en bestuursveranderlikes op die plantgemeenskappe te bepaal.
Twee gemeenskapsgroepe, vyf gemeenskappe en vyf subgemeenskappe is geïdentifiseer en
gedefinieer. Die Themeda triandra – Stoebe phyllostachys Grasland-gemeenskapsgroep bestaan uit
twee gemeenskappe waarvan een in twee subgemeenskappe onderverdeel is. Die Themeda triandra –
Elytropappus rhinocerotis Struik-gemeenskapsgroep bestaan uit drie gemeenskappe waarvan een in
drie subgemeenskappe onderverdeel is.
Die plantegroei-eenhede wat in die studie beskryf is, is nie voorheen in die literatuur beskryf nie. Een
gemeenskap behoort aan Silkreet-fynbos en ’n ander subgemeenskap is ’n oorgangsfase tussen
Renosterveld en struikbosveld of woud, terwyl die res van die plantgemeenskappe binne die definisie
van Renosterveld val (die plaaslike Renosterveld tipe staan bekend as Oostelike Rûens Skalierenosterveld).
Die bedekking van Themeda triandra het nie betekenisvol gevarieer tussen óf die verskillende
lokaliteite óf die verskillende jare nie. Die vergelyking van Themeda triandra-bedekking oor tyd is
onderneem in ’n gebied wat tussen opnames gebrand is. Die bedekking het nie betekenisvol verskil
nie. Dit dui aan dat vuur en ander bestuurspraktyke nie ’n negatiewe invloed op Themeda triandra in
hierdie gebied het nie.
Onbeperkte ordinasie van die datastel met die vergelyking van bedekking/volopheidwaardes, groepeer
die relevés volgens vogtigheid en versteuring, terwyl die datastel ten opsigte van teenwoordigheid/
afwesigheid aandui dat die twee gemeenskapsgroepe ’n effense oorgangs-oorvleueling het. Beperkte
ordinasie van beide datastelle met a) grondveranderlikes en b) bestuursveranderlikes, toon albei ’n
neiging om die gemeenskapsgroepe te skei, wat nie gebeur het met die topografiese- en
plantegroeiveranderlikes nie. Ordinasie het nie die gemeenskapsgroepe onderverdeel in gemeenskappe
of subgemeenskappe nie.
Die grondveranderlikes (beide voedingstowwe en tekstuur) beïnvloed die struktuur en die verspreiding
van die plantegroei. Met die bestaande weidingsbestuur bevorder brande met ’n interval van tussen drie tot vyf jaar die
oorheersing van Themeda triandra deur die struktuur van die teenwoordige plantgemeenskap te
beïnvloed, deur die getal van die verskillende plantsoorte te beïnvloed en selfs deur die
plantgemeenskap se voorkoms te beïnvloed. Die waarde wat die boer aan die natuurlike veld as
weiveld heg bepaal die mate waartoe hulle veldbrand gebruik as ’n deel van bestuur. Die natuurlike
veld is nie geskik vir melkkoeie wat in die melkproduksiestadium is nie. Die melkboere is dus minder
geneig om die natuurlike veld te brand (geen beplande brande nie net kans brande) as die boere wat met
vleisbeeste of skape boer (beplande brande elke drie tot vyf jaar).
|
7 |
Development of a grassland monitoring system for the management of the wolkberg wilderness area.Coombes, Peter, John. January 1991 (has links)
A thesis submitted to the Faculty of Science,
University of the Wiwatersrand, Johannesburg,
for the degree of Master of Science. / This study aimed to investigate, within the contemporary philosophy
of science, key aspects of the paradigm formulated by the national
Vegetation Monitoring Work team (VMW), and thereby develop a grassland
monitoring system to place. the management of the Wolkberg Wilderness
Area (WWA) on a testable basis. ( Abbreviation abstract ) / AC2017
|
8 |
Response of ground dwelling spider assemblages (Arachnida, araneae) to Montane grassland management practices.Makaka, Lukhanyo January 2012 (has links)
M. Tech. Environmental Management. / Aims to investigate the impacts of Montane grassland management practices, particularly through grazing intensity and burning frequency, on ground living spider assemblage structure.More specific aims include:to note any relationship between particular spider species to specific forms of habitat management ; to note the loss of particular species at detected thresholds in management practices ; and to model spider assemblage structure based on grassland management.
|
9 |
A vegetation survey and mapping of the woodbush granite grassland in the Limpopo Province, South AfricaMatjie, Mapula Rose January 2019 (has links)
Thesis (M. Sc. (Botany)) -- University of Limpopo, 2019 / The Woodbush Granite Grassland (WGG) is the most threatened vegetation type in Limpopo Province of South Africa. However, it has a high conservation value, because few examples of this vegetation type remain in southern Africa. Unfortunately, a large part of it is not formally conserved, making this the vegetation type most urgently in need of conservation.
The study aimed at mapping transformation of the WGG, identifying species of conservation importance, and providing a management plan required for maintenance of the WGG. The objectives of the study included compiling a transformation map for the WGG, which also involved describing the remaining patches of the WGG that are in a natural or near-natural state. It also provides information on species of conservation importance, medicinal plants and threats to the WGG.
On the four main study sites (Iron Crown Grassland, Haenertsburg Grassland, Ebenezer Dam Nature Reserve Grassland, and Ebenezer Dam Perimeter Grassland), quadratic plots were randomly set with a size of 25 x 25 m, and subplots of 1 x 1 m. Vegetation mapping was done during summer and winter. At each plot data was collected on all plant species occurring within the quadrat. A cover score was assigned to each plant species. A modified Braun-Blanquet data collection sheet was employed to obtain baseline data. For transformation mapping GeoTerra Image (GTI), land cover data were extracted for the WGG, using the modelled boundary as a mask, with 5 categories of transformation defined.
Of the surveyed sites, the Ebenezer Dam Nature Reserve Grassland has the highest number of species, while the Haenertsburg Grassland contained the most endemic species of conservation importance. Rare species such as the Aloe zebrina, which does not occur in any formally protected area, and medicinal plants such as Athrixia phylicoides, occur on the WGG. All sites have importance with regard to WGG conservation. Identified threats include the spread of alien invasive plants, uncontrolled collection of medicinal plants, urban development, and poorly timed anthropogenic fire.
vi
The WGG underwent transformation to other land classes. Grassland clearing for plantations and cultivation were the main causal factors behind the observed WGG losses, with a total of 55.25% transformed. Transformation by afforestation is considered irreversible.
It is concluded that the WGG is of conservation importance, and that some of it has been transformed to exotic timber plantations. The grassland is under various threats; therefore it is recommended that: (1) The proposed management plan provided in this study be adopted, (2) further research on the WGG be done on medicinal plants, (3) phytosociological and floristic studies be conducted and, (4) the effects of fire and alien invasive plant species on the grassland be investigated.
|
10 |
The grassland dynamics of Mkambati game reserve.Shackleton, Charles Michael January 1989 (has links)
A thesis submitted to the Faculty of Science, University of the
Witwatersrand, Johannesburg, in fulfillment of the requirements for
the degree of Master of Science. / This work describes the coastal grasslands of Mkambati Game Reserve
and their suitability for the present large herbivore complement.
The initial description makes use of both field survey and
quantitative sampling and multivariate analysis which facilitated
the production of soil and vegetation maps at tre scale of 1:
10 000. Suitability of these grasslands for herbivores is assessed
in terms of both quantity and quality of food available and the
present herbivore impact.
Local variation in soil type was considerable. Eight standard soil
forms were distinguished as well as severaI others previously
undescribed. Most of the soils were dystrophic although nutrient
'hot-spots' were common. This determined floristic composition of
the various communities to some extent.
Three grassland communities and four subcommunities were recognized
which contributed 81, 5% to the total area of the reserve. The
remaining area comprised forest. wetlands. exposed rock and
accommodation camps. Each grassland community was associated with
particular ranges of the measured environmental variables.
The standing crop of the three communities was high relative to
other areas of Southern Africa. Absolute amounts varied seasonally
being highest in summer and lowest in winter Partitioning between
the phytomass, necromass and litter components also varied
seasonally. Total standing crop increased with increasing interval
since the last fire. Litter breakdown rates differed between
communities and species.
Forage quality was poor being lowest in autumn and winter and
declining with age. This was probably a result of the dystrophic
soils. Crude protein and phosphorus were limiting for several
months of the year. Total forage quantity was in excess of the
present herbivore needs although availability declined with age and
during the non-growing season. However, the poor quality reduced
the amount available such that present herbivore impact was low, at
all times being less than 9%.. Removal by herbivores was highest
several months after a fire when absolute amounts of various
nutrients were at a maxinum per unit area. Thereafter it declined
to less than 1% with aging of the sward.
The implications of the results for management are discussed and
future research needs identified. / AC 2018
|
Page generated in 0.047 seconds