Your search found 5 records
1 Cullis, J.; O’Regan, D. 2004. Targetting the water-poor through water poverty mapping. Water Policy, 6(5):397-411.
(Location: IWMI-HQ Call no: PER Record No: H036440)
(Location: IWMI HQ Call no: IWMI 333.91 G178 CUL Record No: H040313)
(368KB)
The present study explores the application of the Gini Coefficient, which has hitherto only been used for income and land distribution, to quantify the distribution of water resources. The tool is tested in the water-stressed Olifants Water Management Area, in South Africa. Using readily available information on water use registrations, water use estimates, and census data, two versions of the Gini Coefficient are calculated. The first measures the distribution of the allocation of direct water use in rural areas and was estimated at 0.96 in the study area. In other words, 99.5 percent of the rural households are entitled to useonly 5 percent of the available water. The second version calculates the distribution of the indirect benefits of water use in the form of direct employment. This is shown to have a Gini Coefficient of 0.64. Using the Gini Coefficient an assessment was also made of the impacts of different policy scenarios. It was found that by more than doubling the amount of water used by rural households from the current 225 cubic meters per household per annum (m3/hh/annum) to 610 m3/hh/annum, which would enable each household to meet its basic human needs of 50 litres/person/day and irrigate 1,000 square meters (m2), would reduce the Gini Coefficient significantly. Yet, this would only require the large-scale registered users to reduce their current irrigation water use entitlement by 6 percent or the largest ten users to reduce their use by 20 percent each.
(Location: IWMI HQ Call no: e-copy only Record No: H041216)
4 van Koppen, Barbara; Schreiner, B.; Burchi, S.; Cullis, J.; Denison, J.; Cardoso, P.; Gabriel, M. J.; Garduno, H.; Karar, E.; Moseki, C.; Tapela, B.; Rumble, O.; Salomon, M.; Stein, R. 2012. Comment to the draft general authorisation for the taking and storage of water, General notice 288 of 2012, by the Department of Water Affairs, South Africa, 4 June 2012. Pretoria, South Africa: International Water Management Institute (IWMI). 8p.
(Location: IWMI HQ Call no: e-copy only Record No: H045709)
(0.42 MB)
5 O’Brien, G. C.; Mor, C.; Buhl-Nielsen, E.; Dickens, Christopher W. S.; Olivier, A.-L.; Cullis, J.; Shrestha, P.; Pitts, H.; Baleta, H.; Rea, D. 2021. The nature of our mistakes, from promise to practice: water stewardship for sustainable hydropower in Sub-Saharan Africa. River Research and Applications, 37(10):1538-1547. [doi: https://doi.org/10.1002/rra.3849]
(Location: IWMI HQ Call no: e-copy only Record No: H050665)
(1.23 MB)
The role of hydropower in the renewable energy mix for Africa's green development is widely recognised and underpinned by respective government and development partner funded initiatives. However, the growing demand for energy must be balanced with considerations for resource protection and benefit sharing of water resource developments with vulnerable human communities. An international conference on water stewardship for sustainable hydropower brought together key stakeholders in Nairobi, Kenya. This paper aims to synthesise the key messages of experts who attended the conference, presents the emerging body of good practice policies, plans and action in developing sustainable hydropower in Sub-Saharan Africa, and provides recommendations for the way forward. Outcomes of the conference include considerations, planning for sustainable resource development, resource protection considerations, sharing of resource development benefits, and putting the promise into practice. This discussion describes the nature of our planning and management mistakes in the past, presents good practice options and how to implement sustainable hydropower in the future.
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