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A preliminary understanding of deep groundwater flow in the Table Mountain group (TMG) aquifer systemNetili, Khangweleni Fortress January 2007 (has links)
Magister Scientiae - MSc / The Table Mountain Group (TMG) Aquifer is the second largest aquifer system in South Africa, after dolomites. This aquifer has the potential to be a signinficant source of water for the people of the Western Cape. The occurrence of hot water springs in the TMG in relation with the main geological fault systems in SOuth Africa shows that deep flow systmes do exist. Little is known about these deep aquifer systems in South Africa (i.e. flow mechanisms). To close the above-mentioned knowledge gap, this study was initiated. The current study gave a review of some of the aspects that needs to be considered when distinguishing deep groundwater from shallow groundwater. / South Africa
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An investigation of the groundwater seepage and irrigation return flow of the Middleton area of the Great Fish RiverReynders, Anthony Gerard 11 April 2013 (has links)
From introduction: This study is concerned with the factors responsible for mineralisation of water in the Great Fish River, in particular the irrigation return flow and groundwater seepage components. A small irrigated area in the lower Fish River Basin was chosen for a detailed study of irrigation water input, groundwater and seepage water fluctuati ons, and the affect of soils and rocks on river water mineralisation. / KMBT_363 / Adobe Acrobat 9.53 Paper Capture Plug-in
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A water balance approach to groundwater recharge estimation in Montagu area of the Western Klein Karoo.Sun, Xianfeng January 2005 (has links)
This aim of this study was to improve the understanding and functioning of the Table Mountain Group aquifer system and contribute to the sustainable development of this potential source for water supply in the Montagu area.
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A water balance approach to groundwater recharge estimation in Montagu area of the Western Klein Karoo.Sun, Xianfeng January 2005 (has links)
This aim of this study was to improve the understanding and functioning of the Table Mountain Group aquifer system and contribute to the sustainable development of this potential source for water supply in the Montagu area.
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Dangerous development on dolomite: considering physical vulnerability of low-income human settlements in the Gauteng city region in South AfricaStorie, Judith Maryna January 2016 (has links)
Thesis is submitted in fulfilment of the requirements for the degree of Doctor of Philosophy to the Faculty of Engineering and the Built Environment, University of the Witwatersrand, Johannesburg, 2016 / Keywords/key concepts: Dolomite, Dolomitic ground, Disaster Risk Management, Physical
Vulnerability, Low-income settlements, Housing Policy, Services delivery, Responsibility, Living with
risk, Human Behaviour, Basic Human Rights
Ground underlain by dolomite may be hazardous to development due to the potential occurrence of
subsidence and sinkholes. These potentially disastrous occurrences are in many instances caused by
human interaction with the soil through the ponding of water or leaking of wet infrastructure such
as water and sanitation services. Construction materials and techniques, as well as effective
maintenance of waterborne services have traditionally been acknowledged as having a significant
bearing on the level of risk that communities face when living on such potentially dangerous land.
The spatial distribution of settlements on dolomite in the Gauteng City Region (GCR) is already
widespread and expected to increase as urbanisation intensifies. Similarly, the challenge of
considering the physical vulnerability of low-income settlements is expected to intensify. Welldefined
procedures and guidelines govern the development of human settlements on dolomitic
ground. However, the classification and characterisation of low-income and informal settlements are
not as advanced as that of formal residential developments. In addition, the guidelines regarding
management of settlements on dolomite focus significantly on geotechnical interventions, leaving a
gap in the influence that human behaviour can play in possible disaster risk reduction on such
ground.
The thesis considers the significance of different low-income settlement types on dolomite, relative
to perceived human behaviour in association with principles of disaster risk reduction. It
hypothesizes that an understanding of settlement type in relation to human behaviour and a
stronger emphasis on monitoring via official channels could address some of the conflicts in the
development-on-dolomite debate and thereby reduces settlement vulnerability. The research
methods included quantitative and qualitative components, commencing with a literature review
that spanned multiple disciplines and sectors. Fieldwork included spatial investigation and
consideration of low-income settlement types with regard to, for example building material use,
dwelling size and dwelling layout, and wet services infrastructure provision and location.
The thesis subsequently identify and explore low-income settlement types in the study area. The
research explores a number of sample settlements to consider the physical vulnerability and
potential key areas of intervention and risk reduction, outside of the traditional geotechnical arena.
The evaluation then applies the Analytical Hierarchy Process (AHP), a form of Multi Criteria Analysis
(MCA), to identify important variables and indicators related to human behaviour and the physical
vulnerability of settlements on dolomite that can be harnessed to intervene in the debate, and
possible improve the safety of communities living with this risk.
Although not affecting the research outcome directly, a specific observation during the course of
engagement with specialists across disciplines was that experts in even closely related practice areas
view low-income settlement development and upgrading on dolomite differently. The differences in
viewpoints result in contradictions in approaches between housing officials, disaster managers,
socio-environmental practitioners, engineers and geologists. Even small differences in approach
have been shown to have significant effects on the practicalities surrounding decision making
related to low-income settlements and especially informal settlement relocation or upgrading.
The outcome is a set of prioritised indicators that could enable specialists, officials and the public to
consider different elements of low-income settlements based on its physical vulnerability. By
focussing on the indicators most likely to result in reduced vulnerability, actions that drive
settlement development, upgrade and resettlement could be prioritised. Interestingly, one of the
findings of the research is that it is not so much the settlement type based on informality that makes
a difference in the exposure to risk – physical vulnerability is deemed to be significantly affected by
official (municipal-sphere) actions, monitoring and awareness. Finally, the research enables the
integration of technical knowledge with behavioural considerations when living on dolomite, thus
highlighting opportunities to bring technical and non-technically skilled stakeholders in the debate
closer together. / MT2017
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A geographic information systems approach to the identification of Table Mountain group aquifer "type areas" of ecological importance.Fortuin, Mildred January 2004 (has links)
The Table Mountain group aquifer system has the potential to be an important supply of water. Although the aquifer system is used to some extent, a number of aspects relating to the aquifer system are poorly understood and unquantified. This study aimed to take into consideration the importance of differenct ecosytems, which is essential in predicting the effects of groundwater abstruction. However, the ecological requirements of systems that depend on groundwater are poorly understood. This project identified " / type areas" / for further detailed research into the impacts of large-scale groundwater abstraction from the Table Mountain group aquifer system based on the nature and functioning of ecosystems across groundwater dependent ecosystem boundaries of a regional scale.
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A geographic information systems approach to the identification of Table Mountain group aquifer "type areas" of ecological importance.Fortuin, Mildred January 2004 (has links)
The Table Mountain group aquifer system has the potential to be an important supply of water. Although the aquifer system is used to some extent, a number of aspects relating to the aquifer system are poorly understood and unquantified. This study aimed to take into consideration the importance of differenct ecosytems, which is essential in predicting the effects of groundwater abstruction. However, the ecological requirements of systems that depend on groundwater are poorly understood. This project identified " / type areas" / for further detailed research into the impacts of large-scale groundwater abstraction from the Table Mountain group aquifer system based on the nature and functioning of ecosystems across groundwater dependent ecosystem boundaries of a regional scale.
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Estimation of Groundwater Recharge Response from Rainfall Events in a Semi-Arid Fractured Aquifer: Case Study of Quaternary Catchment A91H, Limpopo Province, South AfricaNemaxwi, Phathutshedzo 05 1900 (has links)
MESHWR / See the attached abstract below
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