Refine
Document Type
- Doctoral thesis (1)
- Master thesis (1)
Has Fulltext
- yes (2)
Is part of the Bibliography
- no (2)
Language
- English (2)
Keywords
- Gefährdung (2) (remove)
Institute
- FG Denkmalpflege (1)
Cultural heritage faces many types of threats such as neglect, conflicts, disasters caused by natural and human induced hazards, unplanned infrastructure projects, climate change, etc. Over time, a number of institutions, organisations, programmes and initiatives to address the issues related to heritage at risk through varied modes of interventions such as advocacy work, conservation efforts, funding, awareness-raising regarding particular sites, etc. have emerged. Despite the stimulus and support of the various institutions, organisations and initiatives, diverse threats continue to impact cultural heritage in present times with some factors amplifying more than before, leading to the subsequent damages to or losses of heritage assets. Though reasons for these issues are varied and complex, one of the important factors to look into is the agency of the diverse ‘Heritage at Risk’ programmes or initiatives. ICOMOS being one of the pioneers in this global discourse of threatened heritage, its role is strategically vital. 20 years after ICOMOS’s first attempts to initiate one of the first ‘Heritage at Risk’ programmes, this research is an opportunity to re-examine and analyse the effectiveness of ICOMOS’ ‘Heritage at Risk’ programme within the current organisational/ institutional landscape of initiatives in the field of heritage at risk, that ICOMOS is embedded in. It is also an opportunity to situate the programme within the diverse views of the heritage at risk framework and the continuing shifts in the foundational paradigms of the international discourse on heritage conservation. The purpose of this analysis is to guide programme improvement for optimising efforts in favour of cultural heritage at risk within and/ or beyond ICOMOS and improve their ability to contribute towards - safeguarding heritage at risk, increasing the resilience of cultural heritage and sustainable development.
Groundwater is an important resource in Sub-Saharan Africa to supply water for domestic, industrial, mining and irrigation for agricultural purposes. In Ghana, groundwater supply program is mostly pragmatic to give people drinking water, however to ensure sustainability a long term groundwater management system is essential. One such approach is the use source protection (well protection) with the declaration and installation of protection zones. To achieve the goal of this research three hypothetical questions were asked which relates to the Availability and Vulnerability of groundwater, and the use of an analytical model to estimate source protection zones (SPZ). The regions of Adansi, Lawra, Sunyani and Sekyere West were chosen as study areas to test the hypothesis of this research with detailed investigation concentrating on Adansi area. The overall aim from the study areas was to estimate SPZ for Granite, Phyllite, Schist, Sandstone and weathered materials and give recommendations as to which activity should be permitted or otherwise within each of these zones. The available groundwater for a particular well or location was determined based on its hydraulic conductivity and specific capacity of a well. Regionalization of the available groundwater was achieved by comparing the results of the hydraulic conductivity and specific capacity with the regional structural map. To determine the vulnerability of the available groundwater, the radius of influence (ROI) for the different boreholes was determined using Sichard and Dupuits formula whilst for Source protection zones, Darcy and the volumetric equation was used. Results of hydraulic conductivity estimated from pumping test data for the five major rock types showed a trimodal distribution (E-5, E-6 and E-7 m/s). There was a general trend of decreasing hydraulic conductivity to decreasing transmissivity. Results of plots of specific capacity verses hydraulic conductivity shows that only rock types with hydraulic conductivity greater than E-5 m/s yields sustainable groundwater supply. Three aquifer types were encountered in the study areas which were pore aquifers in shallow or alluvial, regolith and fracture aquifers in bedrocks. High hydraulic conductivity from the different rock types corresponds to higher ROI. The results of hydraulic conductivity, specific capacity, ROI and SPZ are used as input parameters for the estimation of the suitability of a groundwater source. A ranking matrix was developed for easy interpretation of hydrogeological data by combining the results of the input parameters into a single score. Results from the ranking matrix were used to determine specific regulations for the various aquifers in the study areas. Within the fractured crystalline rocks with k ≥E-5m/s siting of wells should target fracture zones whilst pumping during abstraction phase can exceed 15m3/s/m. The intermediate source protection zone should be at least 150m. Conclusions from the study could be applied in other areas of Ghana and be implemented during the initial development, abstraction and groundwater policy phases of other groundwater projects.