The socio-economic impact assessment of Lower Gweru Irrigation Scheme in Gweru Zimbabwe / The socio economic impact assessment of Lower Gweru Irrigation Scheme in Gweru Zimbabwe

Dube, Kaitano

11 1900

This study aimed at examining the social and economic impact of rural irrigation schemes with a particular focus on the Lower Gweru Irrigation scheme. The general objective of this study was to assess if rural irrigation schemes can act as livelihood security assets in transforming rural livelihoods, reduce poverty and attain food security in light of climate change. Results are based on findings from self-administered questionnaires directed at farmers and irrigation stakeholders, and face to face interviews involving farmers and stakeholders. Using Statistical Package for the Social Sciences, Microsoft excel and Health 24 web BMI calculator it was concluded that; Lower Gweru schemes, is a source of livelihood security securing food security, reduce poverty and creates rural employment. Regardless of various challenges faced by rural irrigation farmers, irrigations act as poverty and climate change buffers, providing an opportunity for communities to raise their Human Development Index and attain sustainable development. / Geography / M.Sc.(Geography)

Food security

Livelihood security

Irrigation farming

Sustainable development

Human Development Index

Agriculture

Climate change

Poverty reduction

Zimbabwe

Lower Gweru

631.587096891

The impact of small scale irrigation projects on food security : the case of Inkosikazi Irrigation Project, instituted by World Vision in Wards 4 and 5, in the Bubi District, Zimbabwe

Mtonga, Majority

10 June 2015

This study provides an overview of the impact of small scale irrigation on food security using the case study of Inkosikazi irrigation scheme in the Bubi District of Zimbabwe. The study discovers a set of political, economical, social, technological, legal, and environmental factors that are holding the district under food insecurity. The communities have been relying on food aid from international NGOs like World Vision, the Catholic Relief Services and Care International. This dependence has further crippled them into more vulnerability and poverty as their productive capabilities cannot be explored. The communities of Wards 4 and 5 established the Inkosikazi irrigation scheme with the assistance of World Vision with the sole objective of improving their nutritional status. Even though the project took six years to complete, it would also cater for improved income levels of the communities. This study assesses the impact of the Inkosikazi irrigation scheme using the activities of 240 irrigation farmers on landholding plots of 0.25ha each. No doubt the establishment of the irrigation scheme has contributed to new life improvement perspectives for a community that was once perceived as vulnerable, poor, fragile, exposed and incapacitated. The project stands out as one of the lasting initiatives to reduce the food trap in the district and indicates similar initiatives can be applied for other communities in Zimbabwe in general for the same reasons. / Development Studies / M.A. (Development Studies)

631.587096891

The impact of small scale irrigation projects on food security : the case of Inkosikazi Irrigation Project, instituted by World Vision in Wards 4 and 5, in the Bubi District, Zimbabwe

Mtonga, Majority

10 June 2015

This study provides an overview of the impact of small scale irrigation on food security using the case study of Inkosikazi irrigation scheme in the Bubi District of Zimbabwe. The study discovers a set of political, economical, social, technological, legal, and environmental factors that are holding the district under food insecurity. The communities have been relying on food aid from international NGOs like World Vision, the Catholic Relief Services and Care International. This dependence has further crippled them into more vulnerability and poverty as their productive capabilities cannot be explored. The communities of Wards 4 and 5 established the Inkosikazi irrigation scheme with the assistance of World Vision with the sole objective of improving their nutritional status. Even though the project took six years to complete, it would also cater for improved income levels of the communities. This study assesses the impact of the Inkosikazi irrigation scheme using the activities of 240 irrigation farmers on landholding plots of 0.25ha each. No doubt the establishment of the irrigation scheme has contributed to new life improvement perspectives for a community that was once perceived as vulnerable, poor, fragile, exposed and incapacitated. The project stands out as one of the lasting initiatives to reduce the food trap in the district and indicates similar initiatives can be applied for other communities in Zimbabwe in general for the same reasons. / Development Studies / M. A. (Development Studies)

631.587096891

The impact of smallholder irrigation and water security on household welfare : the case of Tugela Ferry irrigation scheme in KwaZulu-Natal, South Africa.

Sinyolo, Sikhulumile.

January 2013

Smallholder irrigation has been promoted across the developing world as a means of poverty reduction and rural development. The potential of smallholder irrigated agriculture in alleviating rural poverty has led the South African government to prioritise and invest in irrigation establishment, rehabilitation and revitalisation. However, the extent to which smallholder irrigation has been able to reduce poverty in the rural areas of South Africa is not well understood. This study, therefore, aimed to contribute to smallholder irrigation literature in two ways. The first objective of this study was to conduct an in-depth impact evaluation of the Tugela Ferry smallholder irrigation scheme on household welfare using the treatment effect and propensity score matching (PSM) methods. Secondly, the study sought to investigate the determinants of household water security, and how the level of water security subsequently affects the farmers’ household welfare. A stratified random sampling technique was used to obtain a sample of 186 irrigators and 70 non-irrigators in the Tugela Ferry area. Descriptive analysis highlighted that although the demographic characteristics of the farmers were not significantly different, the irrigators were characterized by better welfare indicators compared to non-irrigators. The Foster Greer Thorbecke (FGT) poverty indices also indicated that poverty incidence was more pronounced among non-irrigators than among irrigators. The results from the econometric models indicated that irrigation access plays an important role in the welfare of rural households, with irrigators consuming about R2,000 per adult equivalent per year more than the non-irrigators. While irrigation access is important, this study concluded that the poverty reduction effectiveness of smallholder irrigation can further be enhanced by ensuring that the irrigators are water secure. Factors such as age, off-farm income, duration of scheme membership, occurrence of conflicts, method of pumping water, location in the scheme and access to agricultural training influenced household water security. The study recommends that investments in smallholder irrigation should continue for poverty reduction, and that priority should be in ensuring water security not just irrigation participation. The study also recommends the introduction of small motorised pumps among the gravity-reliant irrigators and farmer training on water conservation techniques to improve the farmers’ water security in the smallholder irrigation schemes. Although the study highlighted how perceptions of irrigators could be used to generate the water security index, the water security concept needs further investigation. / Thesis (M.Sc.Agric.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.

Irrigation--KwaZulu-Natal--Tugela Ferry.

Households--KwaZulu-Natal--Tugela Ferry.

Poverty--KwaZulu-Natal--Tugela Ferry.

Theses--Agricultural economics.

Eficiência agronômica de fosfatos de rocha, via adubação corretiva, em um cambissolo cultivado com milho no Estado de Sergipe / Agronomic effectiveness of rock phosphates for available soil P correction in an Inceptisol cultivated with corn

Souza, Richard Matos de

24 July 2013

In the last decade, the adoption of technologies in corn crop provided a significant productivity and yield increase in Sergipe State, Brazil. In this state, soils classified as Inceptisols are very adequate for corn cropping. The only limitation presented by those soils is the low levels of available P for plants. Fertilization to increase soil P level through rock phosphates should be considered in order to increase P response to annual P fertilization in the row, which is related to the crop requirement. On the other hand, direct application of rock phosphates in soils which have pH (H2O) above 5,5 and a high calcium content, like those above mentioned, has not been recommended because they could slow down the dissolution of rock phosphates. A strip split plot in a complete randomized blocks design with four replications experiment, was set up in order to study the agronomic effectiveness of Bayóvar and Itafós rock phosphates applied for soil P correction in an Inceptisol with pH 6,0 and high calcium content. Rock phosphates and triple superphosphate, used as a reference source, were broadcasted in the main plots and incorporated by disk plowing. A main plot without soil P correction also was included in the study. In the subplots annual P application at rates of 0, 60 e 120 kg.ha-1 as triple superphosphate were accomplished in the planting rows. Corn was grown in the raining seasons of 2011 and 2012. Yield and P leaf content indicated that less P from annual application was needed in treatments corrected by those sources with higher P solubility. Mehlich-1 and mixed resin method removed more soil P from rock phosphates plots than the reference TSP plot. The relative agronomic effectiveness (RAE) of Bayóvar and Itafós rock phosphates were 77,19% and 45,66%, respectively, calculated based on two years. / Na última década, a modernização da tecnologia de cultivo do milho no Estado de Sergipe proporcionou significativos aumentos de produção e produtividade. Neste sentido, as áreas de Cambissolos vêm se destacando por serem muito adequadas a esta cultura, apresentando limitações somente quanto aos níveis de P. Uma das formas para contornar a baixa disponibilidade deste nutriente no solo pode ser a realização de uma adubação corretiva através de fontes fosfatadas alternativas de baixo custo e/ou solubilidade. Esta prática visa elevar o teor de P disponível no solo com a finalidade de propiciar uma melhor resposta da cultura às doses de P aplicadas no sulco de plantio. Desta forma, foi conduzido um experimento de dois anos para avaliar a eficiência agronômica dos fosfatos de Bayovar e Itafós, como fontes corretivas de P, em um Cambissolo Háplico Ta Eutrófico vertissólico, de elevado teor de cálcio trocável e pH em torno de 6. O delineamento experimental utilizado foi em blocos ao acaso, com parcelas subdivididas em faixas, e quatro repetições. As parcelas consistiam das adubações corretivas realizadas no primeiro ano com as fontes Fosfato Natural Reativo de Bayóvar, Fosfato de Rocha Itafós e superfosfato triplo (fonte de referência), na dose de 200 kg ha-1 de P2O5, e um tratamento sem correção. As subparcelas foram compostas pelos três níveis de adubação de manutenção, no sulco de plantio, aplicados anualmente através de superfosfato triplo, nas doses de 0, 60 e 120 kg.ha-1 de P2O5. No período avaliado, a produtividade de grãos e o teor de P na folha do milho indicaram menores necessidades de reposição de P para as plantas, conforme maior era a solubilidade da fonte corretiva aplicada ao solo. Com relação à determinação de P disponível no solo, tanto Mehlich-1 quanto a Resina de Troca Iônica removeram mais P do solo dos tratamentos em que os fosfatos naturais foram aplicados. O índice de eficiência agronômica médio dos fosfatos para os dois anos foi de 77,19 % e 45,66 % para o Bayóvar e Itafós, respectivamente.

Solos - Composição

Milho - Adubos e fertilizantes

Fertilidade do solo

Irrigação agrícola

Repelentes

Solo calcário

Adubação fosfatada

Zea mays L., Mehlich-1

Resina de troca iônica

Corn

Fertilizers

Irrigation farming

Manures

Repellants

Soil fertility

Soils

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

The analysis of the economic impact of climate change on maize production under different farming systems: the case of smallholder Farmers in Jozini Municipality, KwaZulu Natal Province, South Africa

Nxumalo, Bongiwe Goodness

January 2014

Maize is the most grown crop by the farmers in Jozini. Therefore, the main objective of the study was to assess the economic impact of climate change on maize production under different farming systems in Jozini Municipality in KwaZulu Natal (KZN). The study was looking at the smallholder farmers producing maize under dryland and irrigation system. A total of 100 farmers were selected for the study (40 from dry-land and 60 from irrigating farmers). Cluster and random sampling procedures were used to select the sample. Questionnaires were used for the collection of primary data, from the respondents (maize farmers). Data was analysed using descriptive statistics (frequency, percentages), gross margin, regression analysis and the Ricardian model. Data for computing gross margins and net revenue was taken from the on-farm trials. Gross margin was used on regression analysis and the net revenue was used on the Ricardian modelThe results of the regression analysis indicated that land size, farmer’s experience to farming, level of education, use of fertiliser, use of irrigation and the yield obtained were significant and have a positive relationship with farmers gross margin. The results of the Ricardian model indicated that climate change affects both farming systems, but farmers that are producing under dryland are the most affected farmers because they rely more on climate variables especially rainfall for their production. So a change in climate variables affects maize farmers’ productivity and thus affecting farmers’ gross margin and net revenue. The study recommends that the farmers must use irrigation in order to support maize production even in the absence of rainfall. Farmers must also adapt to the short growing season so that they will be able to produce even in the presence of climate change.

Corn -- South Africa -- KwaZulu-Natal

Adapting to climate change to achieve household food security: a case study of small-scale farmers at Dzindi smallholder irrigation scheme in the Limpopo Province of South Africa

Chigavazira, Blessing Munyaradzi

January 2012

This dissertation explored adaptation mechanisms and adaptation options employed by rural small-scale farmers at Dzindi Irrigation Scheme to achieve food security in the midst of climate change as well as reflecting on the role of the state in building capacity of rural small-scale farmers to adapt to climate change. The study employed qualitative research techniques and data was obtained through semi-structured interviews with 40 small-scale farmers at Dzindi smallholder irrigation scheme.Irrigation control, high yielding crop varieties (HYVs), drought resistant crop varieties, drip irrigation are among a host of adaptation strategies successfully employed by farmers at Dzindi. These strategies have been effective in giving the farmers a lifeline in terms of household food supply and income.However, lack of funding, modern infrastructure and equipment has hampered adaptation efforts at the scheme. This has been compounded by lack of support from the Government. Government seemingly has not done enough to capacitate and assist famers to adapt to climate change.

Food security -- South Africa -- Limpopo

Farms, Small -- South Africa -- Limpopo

A socio-economic impact assessment (SEIA) of the best management practices (BMP) project of the Zanyokwe irrigation scheme at farm level

Tshuma, Mengezi Chancellor

January 2009

The main aim of this study was to assess the impact of the Best Management Practices (BMP) project on social and economic wellbeing at Zanyokwe Irrigation Scheme (ZIS) in central Eastern Cape Province. The BMP project is a knowledge-based initiative aimed at introducing management practices (mainly soft skills) in order to improve production and livelihoods in the study area. The study employed a survey to collect socio-economic data amongst farming households. The 2005 situation analysis, which was conducted amongst the same respondents before the introduction of the new practices allowed for comparisons in order to track changes or impacts after the implementation of the project. Also, the social and economic impact assessment (SEIA) framework was used to assess the impacts. The results of the impact assessment showed the BMP project to have an impact on social and economic well being of households. The skills introduced were in the areas of water management, agronomic practices, marketing and institutional arrangements. More than 90% indicated that there was improvement in agronomic practices and water management and 68% in marketing. More than half of farmers worked in their farms on a daily basis, which is a big change as none of the farmers worked during weekends in 2005. The average time spent on the farms also increased from four (in 2005) to seven hours (this investigation) on average per day. The BMP project also had a positive impact on social relationships and networks between farmers and the BMP project team as well as well as farmers and non-farmers. Land use intensity improved due to increases in acreage of main crops as well as cultivating at both seasons. More than 40% of farmers cropped their land at both seasons (winter and summer). In 2005, most of the land was fallow in winter. While some of the new practices introduced had a negative impact on input expenditures, the returns were positive. These extra efforts and expenditures resulted in improvement in incomes. Agricultural contribution to household income increased from 71% in 2005 to 81% in 2007. The increase in household incomes had a positive effect on poverty and food security status of households. The proportion of households earning incomes that are below poverty line dropped from 61% in 2005 to 38% in 2007. Changes in the diet of the households were noticed. In addition to the consumption of staples such as samp, maize meal and rice, people added a variety of vegetables. Own production was the main source of these vegetables as was indicated by 66% of respondents compared to only 25% in 2005. Food remained the main expenditure category though, as was the case in 2005. Improvements in marketing such as performing extra marketing functions and adopting a marketing strategy (collective action) also led to improvements in economic wellbeing.

Gender dynamics in water use and management at Nyanyadzi Smallholder Irrigation Scheme in Zimbabwe

Muchemwa-Munasirei, Priscillah

21 September 2018

PhDRDV / Institute for Rural Development / Throughout the world, irrigation is appreciated because of its immense contribution to agricultural production, food and nutrition security, combating poverty and enhancing development, especially in rural areas. The worsening effects of climate change on rainfall patterns as well as food and nutrition insecurity in sub-Saharan Africa are elevating the importance of irrigation schemes in smallholder farming. However, studies conducted in sub-Saharan Africa indicate that the performance of irrigation schemes remains suboptimal. In addition, the studies are highly skewed towards technical and physical dimensions of the schemes and ignore social aspects such as gender. Consideration of gender imperatives would help define and structure who uses water, when and how. This situation necessitated carrying out the PhD thesis research, aiming to explore and explain inherent gender dynamics in water use and management. The ultimate aim was to propose intervention strategies anchored on differential gender power dynamics embedded in irrigation water use in smallholder irrigation schemes. Specific objectives adopted for the study of the Nyanyadzi irrigation scheme in Manicaland Province of Zimbabwe were to: 1) assess the gendered nature of irrigation water use; 2) determine the gendered nature and extent of participation of male and female members of the irrigation scheme in water management; 3) identify the gendered challenges and constraints to irrigation water use; and 4) propose strategies for improved access and management of water. An exploratory sequentially integrated mixed method research design was used in the two phased PhD studies. Seventy three farmers (26 men and 47 women) were the respondents in the first phase in which qualitative data were collected. The gender analysis matrix and activity profile were used to gather and document the perceptions of men and women farmers relating to use of irrigation water. One hundred and nine conveniently sampled respondents (47 men and 62 women) were the source of data in the second phase of the study, which was quantitative and confirmatory in nature. A questionnaire, requiring responses on a Likert-type scale ranging from 1 (strongly disagree) to 5 (strongly agree) was used to collect data. Qualitative data collected during the exploratory phase were analysed using the Cresswell (2013) Thematic Content Analysis technique. Pair-wise ranking was conducted to determine the major constraints to access, use and management of irrigation water. The Predictive Analytics Software Statistics 18 for Windows (PASW Inc: Chicago, IL, USA) was used to analyse quantitative data. Gender, age, marital status, location of irrigation plot, plot ownership and level of education were the independent variables used. Dependent variables included nature of water use, participation in water management and constraints to water use. Cross-tabulation was carried out and the iii Pearson’s Chi-square test for association used to establish if relationships existed between variables. Statistical significance was considered at P < 0.05. The Cramer’s V post-hoc test was performed to measure the strength of association of the perceptions which the Chi-square test had determined to be significantly different. The uses of canal water were found to be varied and gendered. More women than men used canal water for reproductive purposes such as laundry and bathing. Highly significant positive associations (P < 0.01) were observed among gender, age, marital status, ownership of irrigation plot and level of education with use of irrigation water for laundry, bathing, livestock watering and other communal uses. However, location of plot was not associated with different types of water uses (P > 0.05). With respect to farmers’ participation in meetings, contributing in meetings, repair of canals, provision of labour in canal maintenance, hiring labour for canal maintenance and contributing cash for canal repairs and maintenance, highly significant positive associations (P < 0.01) were observed with gender, age, marital status, level of education, and ownership and location of irrigation plot. Level of education of the farmer was observed to be not associated with his/her attendance of meetings (P > 0.05). Plot location was negatively associated with participation, provision of labour for maintenance, contribution of cash and hiring labour for canal repairs (P > 0.05). Exorbitant payments for using water were regarded as the major constraint to performance of the smallholder irrigation scheme. Highly significant positive associations (P < 0.01) were observed between gender and plot location, and all the constraints to water use that the farmers identified. The constraints ranged from unequal water distribution between and within men and women, and upstream and downstream farmers; unfriendly water delivery times; conflicts and corrupt practices in water distribution; and discrimination with respect to schedules of delivering water. Overall, gender imbalance in the use and management of irrigation water existed. This was evident in the disparities in uses and users of canal water that followed gender and social lines. Men dominated decision making in water management, especially in meetings. In contrast, women dominated in implementation stages mainly in relation to provision of labour for cleaning and maintaining water canals. Considering all the results obtained in the current study, it can be concluded that a combination of socio-economic and socio-cultural factors caused the water problems that the Nyanyadzi irrigation scheme experienced. The need for introducing gender-sensitive interventions in use and management of irrigation water was evident. Thus, gender needs, roles and responsibilities should be reconceptualised so as to align them with the socio-cultural context of the Nyanyadzi community. In addition to this, the fact that both men and women iv are not homogeneous interest groups should be factored into irrigation water management. Lastly, it is crucial to incorporate various social hierarchies that interact with gender to influence irrigation water use and management. How this can be done deserves further scientific investigation. / NRF

Gender

Irrigation

Participation

Management

Smallholder

333.913096891

Women in development -- Zimbabwe

Water in agriculture -- Zimbabwe

Irrigation -- Management

Water -- Zimbabwe

Irrigation farming -- Zimbabwe

Water use -- Zimbabwe

Water-supply -- Zimbabwe

Water-supply, Rural -- Zimbabwe

Impact of irrigation with gypsiferous mine water on the water resources of parts of the upper Olifants basin.

Idowu, Olufemi Abiola.

January 2007

The generation of large quantities of mine wastewater in South African coal mines and the needs for a cost effective, as well as an environmentally sustainable manner of mine water disposal, have fostered interests in the possibility of utilizing mine water for irrigation. Such a possibility will not only provide a cost-effective method of minimizing excess mine drainage, as treatment using physical, chemical and biological methods can be prohibitively expensive, but will also stabilize the dry-land crop production by enhancing dry season farming. Considering the arid to semi-arid climate of South Africa, the utilization of mine water for irrigation will also boost the beneficial exploitation of the available water resources and relieve the increasing pressure on, and the competition for, dwindling amounts of good quality water by the various sectors of the economy. The disposal of excess gypsiferous mine water through irrigation has been researched in a few collieries in the Witbank area. In this study, the assessment of the impacts of using gypsiferous mine water for irrigation were carried out in parts of the Upper Olifants basin upstream of Witbank Dam, using the ACRU2000 model and its salinity module known as ACRUSalinity. The study area was chosen on the bases of locations of previous field trials and the availability of mine water for large-scale irrigation. The primary objectives of the study were the development of relevant modules in ACRU2000 and ACRUSalinity to enable appropriate modelling and assessment of the impact of large-scale irrigation with mine water and the application of the modified models to the chosen study area. The methodology of the study included the modifications of ACRU2000 and ACRUSalinity and their application at three scales of study, viz. centre pivot, catchment and mine scales. The soils, hydrologic and salt distribution response units obtained from the centre pivot scale study were employed as inputs into the catchment scale study. The soils, hydrologic and salt distribution response units obtained from the catchment assessment were in turn applied in similar land segments identified in the mine used for the mine scale study. The modifications carried out included the incorporation of underground reservoirs as representations of underground mine-out areas, multiple water and associated salt load transfers into and out of a surface reservoir, seepages from groundwater into opencast pits, precipitation of salts in irrigated and non-irrigated areas and the incorporation of a soil surface layer into ACRUSalinity to account for the dissolution of salts during rainfall events. Two sites were chosen for the centre pivot scale study. The two sites (Syferfontein pivot of 21 ha, located in Syferfontein Colliery on virgin soils; Tweefontein pivot of 20 ha, located in Kleinkopje Colliery on rehabilitated soils) were equipped with centre pivots (which irrigated agricultural crops with mine water), as well as with rainfall, irrigation water and soil water monitoring equipment. The pivots were contoured and waterways constructed so that the runoff could leave the pivots over a weir (at Tweefontein pivot) or flume (at Syferfontein pivot) where the automatic monitoring of the quantity and quality of runoff were carried out. The runoff quantities and qualities from the pivots were used for verification of the modified ACRU2000 and ACRUSalinity. The catchment scale study was on the Tweefontein Pan catchment, which was a virgin area mainly within the Kleinkopje Colliery, draining into the Tweefontein Pan. The data on the water storage and qualities in Tweefontein Pan, as well as the soil water salinities in the irrigated area located within the catchment were used for verification of results. In the catchment scale study, different scenarios, including widespread irrigation on virgin and rehabilitated soils, were simulated and evaluated. For the mine scale study, the Kleinkopje Colliery was used. The colliery was delineated into 29 land segment areas and categorized into seven land use types, on the basis of the vegetation and land uses identified in different parts of colliery. The centre pivot and catchment scale studies indicated that the impacts of irrigation with low quality mine water on the water resources are dependent on the soil types, climate, the characteristics and the amount of the irrigation mine water applied, whether irrigation was on virgin on rehabilitated soils and the status of the mine in terms of whether a regional water table has been re-established in an opencast mining system or not. The studies further indicated that the irrigation of agricultural crops with low quality mine water may lead to increases in soil water salinity and drainage to groundwater, but that the mine water use for irrigation iii purposes can be successfully carried out as most of the water input onto the irrigated area will be lost through total evaporation and a significant proportion of the salt input, both from rainfall and irrigation water, will either be precipitated in the soil horizons or dissolved in the soil water of the soil horizons. By irrigating with a saline mine water therefore, the salts associated with the low quality mine water can be removed from the water system, thereby reducing the possibility of off-site salt export and environmental pollution. On-site salt precipitation, however, may lead to accumulation of salts in the soil horizons and consequent restriction of crop yields. Therefore, efficient cropping practices, such as leaching and selection of tolerant crops to the expected soil salinity, may be required in order to avoid the impact of long-term salinity build up and loss of crop yields. The simulated mean annual runoff and salt load contribution to Witbank Dam from the Kleinkopje Colliery were 2.0 x 103 MI and 392 tons respectively. The mean annual runoff and salt load represented 2.7% and 1.4% of the average water and salt load storage in Witbank Dam respectively. About 45% of the total water inflow and 65% of the total salt load contribution from the study area into Witbank Dam resulted from groundwater storage. From the scenario simulations, the least salt export would occur when widespread irrigation is carried out in rehabilitated areas prior to the re-establishment of the water table due to a lower runoff and runoff salt load. It may therefore be a better water management strategy in active collieries if irrigation with mine water is carried out on rehabilitated soils. In conclusion, this research work has shown that successful irrigation of some (salt tolerance) crops with low quality mine water can be done, although increases in the soil water salinity of the irrigated area, runoff from the irrigated area and drainage to the groundwater store can occur. Through the modifications carried out in the ACRU2000 model and the ACRUSalinity module in this research work, a tool has been developed, not only for application in the integrated assessment of impact of irrigation with mine water on water resources, but also for the integrated assessment and management of water resources in coal-mining environments in South Africa. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2007.

Water reuse.

Crops and water.

Soil-water relationships.

Water salination.